Family: COPROFACIES Nova

Coprogenus: Alococopros HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: Greek, alocos, 'furrowed', and Greek, korpos, 'dung'.

Species: triassicus HUNT, LUCAS, SPIELMANN & LERNER 2007
Etymology: Named for the Triassic period, which yields all known specimens of this species.

Holotype: UMMP 7253 (partim).

Locality: Crosby County, Texas.

Horizon: Tecovas Formation, Chinle Group (Dockum Group).

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material: Coprolite.

Referred material:

UMMP 8253 (partim): Coprolite.

 

CANTRELL, SUAZO, SPIELMANN & LUCAS, 2012

Locality: NMMNH locality 4668 (Gallina Well Locality, CM loclaity 1057), Joyita Hills, Socorro County, New Mexico.

Horizon: Scholle Member, Abo Formation.

Biotratigraphy:

Age: Coyotean, Middle Wolfcampian Stage, Upper Rotliegendes Epoch, Early Permian.

Material:

NMMNH P-64627, P-64628, P-62986, P-64630: Coprolites.

 

HUNT & LUCAS, 2016

Locality: Wyoming.

Horizon: Cloverly Formation.

Biostratigraphy:

Age: Aptian-Albian Stage, Gallic Subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material:

UCM 44283: Coprolite.

 

HUNT, LUCAS & SPIELMANN, 2013

Locality: NMMNH locality, 1327, Australia.

Horizon: Arcadia Formation.

Biostratigraphy:

Age: Early Triassic.

Material:

NMMNH P-63705,P-63708, P-63709: Coprolites.

Locality: NMMNH L-1430, Crosby County, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Otischalkian, Late Triassic.

Material:

NMMNH P-63699: Coprolite.

Locality: NMMNH Locality 1864, Ciniza Pond locality, New MExico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-25706. Coprolite.

Locality: NMMNH Locality 477, New Mexico.

Horizon: Blue Canyon Formation.

Biostratigraphy:

Age: Revueltian, Late Traissic.

Material:

NMMNH P-16284: Coprolite.

 

Locality: Gregory Quarry (NMMNH Locality 485), Apache Canyon, New Mexico.

Horizon: Redonda Formation.

Biostratigraphy:

Age: Late Traissic.

Material:

NMMNH P-66802: Coprolite.

 

Locality: Rotten Hill, north of Amalillo, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Adamanian Stage, Late Triassic.

Material:

Panhandle-Plains Historical Museum, Canyon, Texas: Uncatalouged: 2 connected specimens.

 

Locality: NMMNH locality 1, Revuelto Creek, New Mexico.

Horizon: Bull Canyon Formation.

Biostartigraphy:

Age: Reuveltian, Late Triassic.

Material:

NMMNH P-28185: Coprolite.

 

LUCAS, RINEHART, HECKERT, HUNT & SPIELMANN, 2016

Locality: Rotten Hill Bonebed (PPHM WT), Herring Ranch Locality, Rotten Hill, Potter County, Texas.

Horizon: Lower part of the Tecovas Formation, Chinle Group (or Tecovas Member, Dockum Formation).

Biostratigraphy:

Age: Adamanian age, Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

PPHM 1999.35.327, 1999.35.337, 2000.10.82: Coprolites.

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Coprogenus: indicus HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: Named for the country of India from which the type specimens originate.

Holotype: BMNH unnumbered Matley Collection.

Locality: Nagpur, India.

Horizon: Lameta Formation.

Age: Maastrichtian Stage, Uppermost Senonian Subepoch, Uppermost Gulf Epoch, Late Cretaceous.

Material: 2 sections of the same coprolite.

Referred mtaerial:

Locality: North of Kadubana, Nagpur, India.

Horizon: Lameta Formation.

Age: Maastrichtian Stage, Uppermost Senonian Subepoch, Uppermost Gulf Epoch, Late Cretaceous.

Material:

Unnumbered, Matley Colletion: Coprolites.

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Sp

= cf. Alococpros HUNT, LUCAS & SPIELMANN, 2013

Locality: NMMNH locality 1312, Crosby County, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Otischalkian, Late Triassic.

Material:

NMMNH P-63710: Fragmentary coporlite.

 

Locality: NMMNH locality 5165, Wyoming.

Horizon: Popo Agie Formation.

Biostratigraphy:

Age: Otischalkian, Late Triassic.

Material:

NMNH P-37425: Coprolite.

 

HUNT, LUCAS & SPIELMANN, 2013

Locality: Rotten Hill, north of Amalillo, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Adamanian Stage, Late Triassic.

Material:

Panhandle-Plains Historical Museum, Canyon, Texas: Uncatalouged: Coprolite.

 

Locality: NMMNH locality 485, Apache Canyon, New Mexico.

Horizon: Redonda Formation.

Biostratigraphy:

Age: Apachean, Late Triassic.

Material:

NMMNH P-17034

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Coprogenus: Bactryllium HEERE, 1853
Etymology:

Coprospecies: canaliculatum HEERE, 1853
Etymology:

Holotype:

Locality:

Horizon:

Biostratigraphy:

Age:

Material:

_____________________________________________________________________________________


Coprospecies: plicatum ALLASINAZ, 1968
Etymology:

Holotype:

Locality:

Horizon:

Biostratigraphy:

Age:

Material: Coprolites.

_____________________________________________________________________________________


Sp

SALVINI-BONNARD & ZANINETTI, 1989

Locality: La Cerchiara, Auct., Lagonegro Basin, Southern Apennines, Italy.

Horizon:

Biostratigraphy:

Age: Upper Ladinian Stage, Late Mid Triassic Epoch or Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

Numbers: Not given: Coprolites.

 

 

Locality: Pietra Maura, Auct., Lagonegro Basin, Southern Apennines, Italy.

Horizon:

Biostratigraphy:

Age: Mid Triassic Epoch, Middle Triassic.

Material:

Numbers: Not given: Coprolites.

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Coprogenus: Beechybromus HUNT & LUCAS, 2018
Etymology: Beechy in reference to the stratigraphic unit that yields the specimen, and Greek, bromos, "food."

Coprospecies: wellschi HUNT & LUCAS, 2018
Etymology: In reference to the Wellsch Valley, which yielded the holotype.

Holotype: NMC 40750

Locality: NMC locality 4078, Wellsch Valley, Saskatchewan Province, Canada.

Horizon: Beechy Member, Bearpaw Formation.

Biostratigraphy:

Age: Upper Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material: Coprolite.

Referred material:

NMC 40751, 40752, 40753, 27079: Coprolites.

_____________________________________________________________________________________

Coprogenus: Bibliocoprus HUNT, LUCAS, SPIELMANN, CANTRELL & SUAZO, 2012
Etymology: Greek, biblios, "scroll," and Greek, kopros, 'dung'.

Coprospecies: beemanensis HUNT, LUCAS, SPIELMANN, SUAZO & CANTRELL, 2012
Etymology: In reference to the Beeman Formation, which yielded the holotype.

Holotype: NMMNH P-63503

Locality: NMMNH Locality 3276, raod cut on the north side of NM Highway 82, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

Referred material:

NMMNH P-63515, P-63526, P-63531: Coprolites.

HARRIS, LUCAS & LUETH, 2017

Locality: NMMNH locality 10331, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

NMMNH P-79069: Coprolite.

 

Locality: NMMNH locality 10458, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

NMMNH P-79558, P-78848: Coprolites.

NMMNH P-19071: Scroll coporlite.

 

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-72508, P-79462, P-79464: Coprolites.

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Coprogenus: Conchobromus HUNT, LUCAS, SPIELMANN, SUAZO & CANTRELL, 2012
Etymology: Greek, Konche, "shell," in allusion to the characterstic valves of conchostracans, and Greek, broma, "food."

Coprospecies: kinneyensis HUNT, LUCAS, SPIELMANN, SUAZO & CANTRELL, 2012
Etymology: In reference to the Kinney Brick Quarry, wih yielded the holotype.

Holotype: NMMNH P-19157

Locality: Locality NMMNH L-345/Kinney Brick Quarry, Bernalillo County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

Note: Either from an acanthodian or possibly a platysomid.

referred material:

NMMNH P-12994, P-19156, P-19166: Coproites.

HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012

Locality: Locality NMMNH L-4667/Tinajas Locality, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-37667, P-37668, P-37673, P-37675: Coprolites.

_____________________________________________________________________________________

Coprogenus: Costacoprus HUNT, LUCAS & SPIELMANN, 2012c
Etymology: Latin, costa, "rib," and Greek, kopros, "dung."

Coprospecies: chinae HUNT, LUCAS & SPIELMANN, 2012c
Etymology: In honor of Karen Chin, to honor her many contriutions to the study of coprolites.

Holotype: NHMUK R 4914

Locality: Cambridge, England, Southern United Kingdom.

Horizon: Cambridge Greensand.

Biostratigraphy:

Age: Albian Stage, Middle Gallic Subepoch, Late Early Cretaceous Epoch, Early Cretaceous.

Material: Coprolite.

Referred material:

NHMUK R 4914: Partial coprolite.

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Coprogenus: Crassocoprus HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: Latin, crassus, "thick," and Greek, kopros, "dung."

Coprospecies: mcallisteri HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: In honor of James McAlliser for his divrse contrubitions to the study of Paleozoic coprolites.

Holotype: NMMNH P-63717

Locality: Tinajas Locality, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

Referred material:

HARRIS, LUCAS & LUETH, 2017

Locality: NMMNH locality 10331, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

NMMNH P-79057, 79058, P-79061: Coprolites.

 

Locality: NMMNH locality 10456, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

NMMNH P-79474: Coprolite.

 

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-72300, P-79469, P-72492, P-72494, P-72497, P-72499, P-72498, P-72500, P-72501, P-72502, P-79468, P-79469: Heteropolar macrosprial coprolites.

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Coprogenus: Crustacoprus HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: Latin, crusta, "shell," and Greek, kopros, "dung."

Coprospecies: tinajaensis HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: In reference to the type locality Tinajas, which yielded the holotype.

Holotype: NMMNH P-63816

Locality: Tinajas Locality, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

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Coprogenus: Dakyronocopros HUNT & LUCAS, 2005a
Etymology: Greek, dakyron, " tear drop," in allusion to the teardrop shape of the corpolites, and Greek, kopros, "dung."

Corpospecies: arroyoensis HUNT & LUCAS, 2005a
Etymology: From the Arroyo Formation, which yielded the specimens.

Holotype: TMM 40339-8

Locality: West Table Mountian, Taylor County, Texas.

Horizon: Arroyo Formation, Lower Clear Fork Group.

Biostratigraphy: Land-vertebrate faunachron lower D.

Age: Middle Leonardian stage, upper Rotliegendes, Early Permian.

Material: Coprolite.

Referred material:

Locality: Coffee Creek, Baylor County, Texas.

Horizon: Arroyo Formation, Lower Clear Fork Group.

Biostratigraphy: Land-vertebrate faunachron lower D.

Age: Middle Leonardian stage, upper Rotliegendes, Early Permian.

Material:

TMM 40338-11: Coprlite:

 

Locality: Swinks Ranch Locality, Texas.

Horizon: Archer City Formation, upper Bowie Group.

Biostratigraphy: Land-vertebrate faunachron upper A.

Age: Late Wolfcampanian stage, Lower Rotliegendes Epoch, Early Permian.

Material:

TMM 45572-2, 3: Coprolites.

 

Locality: Rattlesnake Canyon, southeast of Black Flat, northwestern Archer County, Texas.

Horizon: Nocona Formation (formerly lower to lower upper Admiral Formation, middle Wichita Group), Lower Wichita Group.

Biostratigraphy: Land-vertebrate faunachron lower B.

Age: Upper Wolfcampanian stage, Upper Rotliegendes Epoch, Early Permian.

Material:

TMM 40333-233: Coprolite.

 

CANTRELL, SUAZO, SPIELMANN & LUCAS, 2012

Locality: NMMNH locality 4668 (Gallina Well Locality, CM loclaity 1057), Joyita Hills, Socorro County, New Mexico.

Horizon: Scholle Member, Abo Formation.

Biotratigraphy:

Age: Coyotean, Middle Wolfcampian Stage, Upper Rotliegendes Epoch, Early Permian.

Material:

NMMNH P-64621: Coprolite.

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Coprogenus: Dicynodontocopros HUNT, LUCAS & LOCKLEY, 1998
Etymology: In reference to the putative source animal, Dicynodonts, and Kopros, ”dung”: Dicynodon dung.

Coprospecies: maximus HUNT, LUCAS & LOCKLE”Y, 1998
Etymology: In reference to its large size relative to other coprolites from nonmarine Triassic strata.

Holotype: UCMP 7253

Locality: Crosby County, Texas.

Horizon: Tecovas Member, Dockum Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material: Coprolite.

Referred material:

MNA 2720, 2721-2723: Coprolites.

 

HUNT, LUCAS & SPIELMANN, 2013

Locality: NMMNH locality 860, Trilophosaurus Quarry 1, Howard County, Texas.

Horizon: Colorado City Formation, Chinle Group.

Biostratigraphy:

Age: Otischalkian, Late Triassic.

Material:

NMMNH P-25772: Two specmens.

 

Locality: NMMNH locality 3100, Trilophosaurus Quarry 3, Howard County, Texas.

Horizon: Colorado City Formation, Chinle Group.

Biostratigraphy:

Age: Otischalkian, Late Triassic.

Material:

NMMNH P-63701: Coprolite.

 

Locality: NMMNH Locality 859, Ciniza Pond locality, New MExico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-1864: Coprolite.

NMMNH P-18493: 2 coprolites.

 

Locality: NMMNH Locality 1804, New Mexico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-25702: Coprolite.

 

Locality: NMMNH Locality 1864, Ciniza Pond locality, New MExico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-45573: Coprolite.

Locality: Blue Hills, Arizona.

Horizon: Blue Mesa Member, Petrified ForestFormation.

Biostratigraphy:

Age: Late Traissic.

Material:

NMMNH P-43954: Coprolite.

_____________________________________________________________________________________

Sp

= cf. Dicynodontocropros insp LUCAS, RINEHART, HECKERT, HUNT & SPIELMANN, 2016

Locality: Rotten Hill Bonebed (PPHM WT), Herring Ranch Locality, Rotten Hill, Potter County, Texas.

Horizon: Lower part of the Tecovas Formation, Chinle Group (or Tecovas Member, Dockum Formation).

Biostratigraphy:

Age: Adamanian age, Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

PPHM 1999.35.327, 1999.35.337, 2000.10.82: Coprolites.

_____________________________________________________________________________________

Coprogenus: Doratocoprus HUNT & LUCAS, 2017
Etymology: Greek, doratos, "spear," and Greek, kopros, "dung."

Coprospecies: ericksoni HUNT & LUCAS, 2017
Etymology: In recognition of Alan Erickson, who discovered the type locality.

Holotype: NMMNH P-79463

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

_____________________________________________________________________________________

Coprogenus: Dakyronocopros HUNT & LUCAS, 2005a

Coprogenus: Elacacoprus HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: Greek, elakate, "spindlel," and Greek, kopros, "dung."

Coprospecies: williamsi HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: In honor of the late Michael Williams, to honor his work on spiral coprolites.

Holotype: NMMNH P-63814

Locality: Tinajas Locality, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

Referred material:

NMMNH P-63814: Coprolite.

_____________________________________________________________________________________

Coprogenus: Elongatocoprus HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: Latin, elongatus, "long," and Greek, kopros, "dung."

Coprospecies: amadoensis HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: In reference to Cerros de Amado which yielded the holotype.

Holotype: NMMNH P-40209

Locality: Tinajas Locality, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

_____________________________________________________________________________________

Coprogenus: Eucorpus HUNT & LUCAS, 2012
Etymology: Greek, eu, "perfect," and Greek, kopros, "dung."

Corpospecies: cylindratus HUNT & LUCAS, 2012
Etymology: Latin, cylindratus, (in the form of a cylinder), alluding to its shape.

Holotype: TNMMNH P-66582

Locality: Gregory Quarry (NMMNH locality L-485), Quay County, New Mexico.

Horizon: Redonda Formation.

Biostratigraphy:

Age: Apachean, Late Norian Stage, Late Triassic Epoch, Late Triassic.

Material: Coprolite.

Referred material:

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-79496: Coprolite.

 

HUNT, LUCAS & SPIELMANN, 2013

NMMNH P-17034: Coprolite.

 

Locality: Rotten Hill, north of Amalillo, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Adamanian Stage, Late Triassic.

Material:

Panhandle-Plains Historical Museum, Canyon, Texas: Uncatalouged: 3 coprolites.

 

Locality: NMMNH locality 1, Revuelto Creek, New Mexico.

Horizon: Bull Canyon Formation.

Biostartigraphy:

Age: Reuveltian, Late Triassic.

Material:

NMMNH P-28185: Coprolite.

 

LUCAS, RINEHART, HECKERT, HUNT & SPIELMANN, 2016

Locality: Rotten Hill Bonebed (PPHM WT), Herring Ranch Locality, Rotten Hill, Potter County, Texas.

Horizon: Lower part of the Tecovas Formation, Chinle Group (or Tecovas Member, Dockum Formation).

Biostratigraphy:

Age: Adamanian age, Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

PPHM 1999.35.327, 1999.35.337, 2000.10.82: Coprolites.

 

_____________________________________________________________________________________

Sp

HUNT, LUCAS & SPIELMANN, 2013

Locality: NMMNH locality, 1327, Australia.

Horizon: Arcadia Formation.

Biostratigraphy:

Age: Early Triassic.

Material:

NMMNH P-63707: Coprolite.

Locality: Gregory Quarry (NMMNH Locality 485), Apache Canyon, New Mexico.

Horizon: Redonda Formation.

Biostratigraphy:

Age: Late Traissic.

Material:

NMMNH P-66800: Coprolite.

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Coprogenus: Falcatocopros HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: Latin, falcatus, 'crescent'; referring to the thin, curved shape of this coprolite and Greek, kapros, 'dung'.

Coprospecies: oxfordensis HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: Named for the Oxford Clay, which yieled the holotype.

Holotype: NHMUK R 2094

Locality: Near Peterborough, England.

Horizon: Oxford Clay.

Biostratigraphy:

Age: Late Jurassic.

Material: Coprolite.

Referred material:

Locality: Lyme Regis, England, Southern United Kingdom.

Horizon:

Biostatigraphy:

Age: Early Jurassic.

Material:

NHMUK (old BMNH) R 2110: Coprolite.

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Sp

SCHWEIGERT & DIETL, 2012

Localty: Nusplingen Quarry, Western part of Swabian Alb, Southwestern Germany.

Horizon: Nusplingen Lithographic Limestone.

Biostratigraphy:

Age: Late Jurassic.

Material:

SMNS no. 67874 (bed C): Coprlite.

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Coprogenus: Hirabromus HUNT, LUCAS & SPIELMANN, 2012a
Etymology: Greek, hira, "gut or intestine," and Greek, kopros, "dung."

Coprospecies: seilacheri HUNT, LUCAS & SPIELMANN, 2012a
Etymology: In honor of Adolph Seilacher for his important study of the origin of this ichnotaxon.

Holotype: USNM 313350.

Locality: 8 miles south of Rhame, North Dakota.

Horizon: Fort Union Formation.

Biostratigraphy:

Age: Paleocene.

Referred matrial:

SEIlCEHR, ET AL., 2001

Locality: China.

Horizon:

Biostratigraphy:

Age: Late Permian.

Material:

Number: Not given: Coprolite.

_____________________________________________________________________________________

Coprogenus: Heteropolacopros HUNT, LUCAS & LOCKLE”Y, 1998
Etymology: From the heteropolar form (sensu Neumayer, 1904) and the Greek for Dung, (Copros).

Coprospecies: texaniensis HUNT, LUCAS & LOCKLEY, 1998
Etymology: For the state of Texas which has produced the majority of specimens of this species.

Holotype: UMP 7253 (partim)

Locality: Crosby County, Texas.

Horizon: Tecovas Member, Dockum Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material: Coprolite.

Note: From a xenacanth shark or possibly a lungfish?

Referred material:

UMMP 7253 (partim): Coprolite.

Note: These coprolite are known from the Otischalikian to Adamanian Carnian, Late Triassic.

 

CANTRELL, SUAZO, SPIELMANN & LUCAS, 2012

Locality: NMMNH locality 4668 (Gallina Well Locality, CM loclaity 1057), Joyita Hills, Socorro County, New Mexico.

Horizon: Scholle Member, Abo Formation.

Biotratigraphy:

Age: Coyotean, Middle Wolfcampian Stage, Upper Rotliegendes Epoch, Early Permian.

Material:

NMMNH P-64622, P-64623, P-64624, P-64786: Coprolites.

 

HARRIS, LUCAS & LUETH, 2017

Locality: NMMNH locality 10331, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

NMMNH P-79035, 79036, 79078, 79079, 79080, 79473: Coprolites.

 

HUNT & LUCAS, 2005c

Locality: Sid McAdams Locality, Taylor County, Texas.

Horizon: Vale Formation, Middle Clear Fork Group.

Biostratigraphy: Land-vertebrate faunachron lower to middle D.

Age: Upper Leonardian Stage,Upper Rotliegendes Epoch, Early Permian.

Material:

TMM 30966-278, 30966-518: Coprolites.

 

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-73503, P-72504, P-79465, P-79467, P-72504, P-72487: Coprolites.

HUNT, LUCAS & SPIELMANN, 2005

Locality: NMMNH locality 4700, VanderHoof Quarry, Rio Arriba County, New Mexico.

Horizon: Upper El Cobre Canyon Formation.

Biostratigraphy:

Age: Early Wolfcampanian, Coyotean, Ealry Permian.

Material:

NMMNH P-46513, 46509, 46517, 46497, 46498, 46514, 46518, 46515, 46518, 46516: Coprolites.

 

HUNT, LUCAS & SPIELMANN, 2013

Locality: NMMNH locality 4217, eastern New Mexico.

Horizon: Anton Chico Member, Moenkopi Formation.

Biostratigraphy:

Age: Middle Triassic.

Material:

NMMNH P-63695, P-63697: Coprolites.

 

Locality: Localtiy 8655, Morocco.

Horizon: Argana Group.

Biostratigraphy:

Age: Middle Triassic.

Material:

NMMNH P-4834: Coprolite.

 

Locality: Locality 860, Crosby County, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Otischalkian, Late Triassic.

Material:

NMMNH P-63700: Coprolite.

 

Locality: Locality 1430, Crosby County, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Middle Triassic.

Material:\NMMNH P-63698: Coprolite.

 

Locality: NMMNH locality 860, Trilophosaurus Quarry 1, Howard County, Texas.

Horizon: Colorado City Formation, Chinle Group.

Biostratigraphy:

Age: Middle Triassic.

Material:

NMMNH P-63703, 63704: Coprolites.

 

Locality: NMMNH locality 3100, Trilophosaurus Quarry 3, Howard County, Texas.

Horizon: Colorado City Formation, Chinle Group.

Biostratigraphy:

Age: Otischalkian, Late Triassic.

Material:

NMMNH P-63702: Coprolite.

 

Locality: NMMNH Locality 1864, Ciniza Pond locality, New MExico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-1864: Large coprolite.

NMMNH P-25706: Partial coprolite.

NMMNH P-25709: Segment of a coprolite.

 

Locality: NMMNH Locality 1864, Ciniza Pond locality, New MExico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-66803: Coprolite.

 

HUNT, LUCAS, SPIELMANN, CANTRELL & SUAZO, 2012

Locality: NMMNH Locality 3276, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-63504, P-63506, P-63508, P-63510, P-63511, P-63514, P-63524: Coprolites.

 

HUNT, SPIELMANN, LUCAS & DURNEY, 2013

Locality: NMMNH Locality 8588, North-Central Texas.

Horizon: Finis Shale, Graham Formation, Cisco Group.

Biostratigraphy:

Age: Virgilian Stage, Late Kasimovian-Gzelian Epoch, Late Pennsylvian Subperiod, Late Carbonifeorus Period.

Material:

NMMNH P-66994: Coprolite.

 

LUCAS, RINEHART, HECKERT, HUNT & SPIELMANN, 2016

Locality: Rotten Hill Bonebed (PPHM WT), Herring Ranch Locality, Rotten Hill, Potter County, Texas.

Horizon: Lower part of the Tecovas Formation, Chinle Group (or Tecovas Member, Dockum Formation).

Biostratigraphy:

Age: Adamanian age, Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

PPHM 1999.35.327, 1999.35.337, 2000.10.82: Coprolites.

_____________________________________________________________________________________

Sp

HUNT, LUCAS, SPIELMANN, CANTRELL & SUAZO, 2012

Locality: NMMNH Locality 3276, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-63517, P-63522: Coprolites.

HUNT, LUCAS & SPIELMANN, 2013

Locality: Rotten Hill, north of Amalillo, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Adamanian Stage, Late Triassic.

Material:

Panhandle-Plains Historical Museum, Canyon, Texas: Uncatalouged: 5 specimens.

 

Locality: NMMNH locality 1, Revuelto Creek, New Mexico.

Horizon: Bull Canyon Formation.

Biostartigraphy:

Age: Reuveltian, Late Triassic.

Material:

NMMNH P-28185: Coprolite.

 

McMENAMIN, HUSSEY, & ORR, 2016

Locality: Near Ichthyosaur State Park exhibition quarry, Nye County, Nevada.

Horizon: Luning Formation.

Biostratigraphy: Upper part of the Klamathites macrolobatus zone.

Age: Upper Carnian Stage, Middle Late Triassic Epoch, Late Triassic.

Material:

Number: Not given: Shonisaurus coprolite (Heteropolacopros ichnosp), with remains of a nautiloid ?(cf. Cenoceras).

_____________________________________________________________________________________

Coprogenus: Hyronocopros HUNT, LUCAS & SPIELMANN, 2005
Etymology: Greek, hyronos , "bee hive," and Greek, kopros, "dung."

Coprospecies: amphipola HUNT, LUCAS & SPIELMANN, 2005
Etymology: From amphipolar, which is a descriptive morpohlogy defined by Neumayer (1904) to refere to a coprolite where cois are evenly spaces along its length.

Holotype: NMMNH P-46507

Locality: NMMNH locality 4700 (Vanderhoof Quary), Rio Arriba County, New Mexico.

Horizon: Upper El Cobre Canyon Formation.

Biostratigraphy:

Age: Early Wolfcampanian, Coyotean, Early Permian.

Material: Coprolite.

Refered material:

NMMNH P-46506, P-46499, P-46505: Coprolites.

 

Locality: NMMNH Locality 4825 (Welles Quarry), Rio Arriba County, New Mexico.

Horizon: Upper El Cobre Canyon Formation.

Biostratigraphy:

Age: Early Wolfcampanian, Coyotean, Early Permian.

Material:

NMMNH P-46502, P-46503, P-46504, P-46499: Coprlites.

 

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-72485, P-72486, P-72506, P-72507: Amphipolar coprolites.

____________________________________________________________________________________

Sp

HUNT, LUCAS, SPIELMANN, CANTRELL & SUAZO, 2012

Locality: NMMNH Locality 3276, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-63521: Coprolite.

____________________________________________________________________________________

Coprogenus: Ichthyosaurolites HUNT, LUCAS & SPIELMANN, 2012b
Etymology: From ichthyosaur, from the contentes of the ichnofossil and Greek, lithos, "rock."

Coprospecies: duffini HUNT, LUCAS & SPIELMANN, 2012b
Etymology: In honor of Christopher Duffin, to honor his contributions to the study of coprolites and the life adn work of William Buckland.

Holotype: OUM J23905

Locality: Lyme Regis, England, Southern United Kingdom.

Horizon: Lower Liassic.

Biostratigraphy:

Age: Hettangian-Lower Pliensbachian Stage, Lower Lias Epoch, Earliest Early Jurassic.

Material: Coprolite with bone fragments.

Referred material:

OUM J 23922, 23911, 23888a-b, 23771: Coprolites with bone fragments.

_____________________________________________________________________________________

Coprogenus: Iuloeidocoprus HUNT, LUCAS & SPIELMANN, 2012a
Etymology: From William Bucklan'ds term Iulo-eido-coprolites and Greek, kopros, 'dung'.

Coprospecies: mantelli HUNT, LUCAS & SPIELMANN, 2012a
Etymology: In honor of Gideon Mantell, who first described this form of coprolites (as plant specimens) form the Upper Cretaceous Chalk of southwestern Engalnd (Mantell, 1822, pl. 94-11).

Holotype: USNM unnumbered.

Locality: Roadcut in Alabama State Highway 26, 3.4 miles east of huntsboro, Russell County, Alabama.

Horizon: Selma Group.

Biostratigraphy:

Age: Santoniain-Maastrichtian Stage, Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Material: Coprolite.

_____________________________________________________________________________________

Coprogenus: Kalocoprus HUNT, LUCAS, SPIELMANN, CANTRELL & SUAZO, 2012
Etymology: Greek, kalos, "rope," and Greek, kopros, 'dung'.

Coprospecies: oteroensis HUNT, LUCAS, SPIELMANN, SUAZO & CANTRELL, 2012
Etymology: In reference to Otero County, New Mexico, which yelded the holotype.

Holotype: NMMNH P-63513

Locality: NMMNH Locality 3276, raod cut on the north side of NM Highway 82, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

Referred material:

NMMNH P-63511, P-65312, P-63516, P-635213, P-63525, P-63527, P-65329, P-63530: Coprolites.

 

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-72490, P-79460: Coprolites.

____________________________________________________________________________________

Coprogenus: Liassocopros HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: In reference to the Liassic of England, which yielded the first and most numerous specimens of this ichnogenus, and Greek, kopros, 'dung'.

Coprospecies: hawkinsi HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: In honor of Thomas Hawkins, who described specimens attributed here to this ichnogenus in 1834.

Holotype: NHMUK R (old BMNH) 2107

Locality: Lyme Regis, England.

Horizon: Lower Lias.

Biostratigraphy:

Age: Early Jurassic.

Material: Coprolite.

Referred material:

Coprolites from the Lower Lias of Lyme Regis.

 

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-72503: Coprolite.

HUNT, LUCAS, SPIELMANN, CANTRELL & SUAZO, 2012

Locality: NMMNH Locality 3276, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-42547: Heteropolar macrospirl coproltie.

 

LAOJUMPTON, MATKHAMMEE, WATHANAPITAKSAKUL, SUTEETHORN, SUTEETHRON, LAUPRESERT, SRISUK & LE LOEUFF, 2012

Locality: Huai Nam Aun, Thailand.

Horizon: Huai Hin Lat Formation.

Biostratigraphy:

Age: Carnian-Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

Ichnotaxon Group 6

PRC-CY-HN 43-44, PRC-CY-HN 171-202: 34 complete specimens.

_____________________________________________________________________________________

Sp

HUNT, LUCAS & SPIELMANN, 2012

Locality: Near Gaildorf, Germany.

Horizon: Galidorfer Keuper (Alaunschiefer).

Biostratigraphy:

Age: Ladinian Stage, Late Mid Triassic Epoch, Middle Triassic.

Material:

GZ 105: Coprolite.

 

HUNT, LUCAS, SPIELMANN, CANTRELL & SUAZO, 2012

Locality: NMMNH Locality 3276, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-63501 (Tip), NMMNH P-63502 (Tip): Coprotlie.

_____________________________________________________________________________________

Coprogenus: Malericopros HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: From the Maleri Formation, which yielded the holotype of this genus, and Greek, kopros, 'dung'.

Coprospecies: matleyi HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: Named after C. A. Matley, who first described Indian Triassic and Cretaceous coprolites in detail.

Holotype: GSI K.42/419

Locality: Near Maleri, India.

Horizon: ?Lower Maleri Formation.

Biostratigraphy:

Age: Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material; Coprolite.

Referred material:

ISI. P.71: Coprolite.

_____________________________________________________________________________________

Coprogenus: "Medusites capillaris GERMAR

Referred material:

SCHWEIGERT & DIETL, 2012

Localty: Nusplingen Quarry, Western part of Swabian Alb, Southwestern Germany.

Horizon: Nusplingen Lithographic Limestone.

Biostratigraphy:

Age: Late Jurassic.

Material:

SMNS no. 67872 (bed L): Coprlite.

_____________________________________________________________________________________

Coprogenus: Megaheteropolacopros HUNT, LUCAS & SPIELMANN, 2005
Etymology: Greek, megas, "large," and heteropolacopros from the inchogeneric name for a smaller morphotype (Hunt, Lucas & Lockley, 1998)

Coprospecies: sidmcadamsi HUNT, LUCAS & SPIELMANN, 2005
Etymology: In reference for the Sid McAdams locality in the Vale Formation, which yielded the holotype.

Holotype: TMM 30966-278

Locality: Sid McAdams locality. Taylor County, Texas.

Horizon: Vale Formation.

Biostratigraphy:

Age: Leonardian, Upper Rotliegendes Epoch, Early Permian.

Material: Coprolite.

Referred material:

TMM 30966-518: Coprolite.

 

HUNT, LUCAS & SPIELMANN, 2013

Locality: NMMNH locality 4700, VanderHoof Quarry, Rio Arriba County, New Mexico.

Horizon: Upper El Cobre Canyon Formation.

Biostratigraphy:

Age: Early Wolfcampanian, Coyotean, Ealry Permian.

Material:

NMMNH P034779: Coprolite.

_____________________________________________________________________________________

Coprogenus: Ostracobromus HUNT, LUCAS, SPIELMANN & LOCKLEY, 2012
Etymology: Greek, ostrako, "shell," for the presence of ostracode valves, and Greek, bromos, "food."

Coprospecies: snowyensis HUNT, LUCAS, SPIELMANN & LOCKLEY, 2012
Etymology: In reference to the type area of the Big Snowy Mountains.

Holotype: NMMNH P-54134

Locality: Big Snowy Mountains, Montana.

Horizon: Bear Gulch Limestone Member, Tyler Formation.

Biostratigraphy:

Age: Chesterian Stage, Late Visean-Serpukhovian Epoch, Late Mississippian Subperiod, Early Carboniferous Period..

Material: Coprolite.

_____________________________________________________________________________________

Coprogenus: Plektecoprus HUNT, LUCAS & SPIELMANN, 2012b
Etymology: Greek, plekte, "rope," in allusion to the similiarity in shape, and Greek, kopros, "feces."

Coprospecies: whitbyensis HUNT, LUCAS & SPIELMANN, 2012b
Etymology: In reference to the town of Whitby, the type locality.

Holotype: OUM J29985

Locality: Lyme Regis, England, Southern United Kingdom.

Horizon: Lower Liassic.

Biostratigraphy:

Age: Hettangian-Lower Pliensbachian Stage, Lower Lias Epoch, Earliest Early Jurassic.

Material: Coprolite.

_____________________________________________________________________________________

Coprogenus: Rhynchocopros HUNT, LUCAS & SPIELMANN, 2013
Etymology: Greek, rhunkhos, "beak," and Greek, kopros, "dung."

Coprospecies: soutoi HUNT, LUCAS & SPIELMANN, 2013
Etymology: In honor of Paulo Roberto de Figueiredo Souto, who first described this morphology, for his contributions to the study of South American coprolites.

Holotype: PUCRS 891

Locality: Gal. Camara, Villa Melo, Brazil.

Horizon: Santa Maria Formation.

Biostratigraphy:

Age: Landinian Stage, Late Mid Triassic Epoch, Middle Triassic.

Material: Coprolite.

Referred material:

PUCRS 100, 101, 105, 112, 1222, 3029g: Coprolites.

_____________________________________________________________________________________

Coprogenus: Santamariacopros HUNT, LUCAS & SPIELMANN, 2013
Etymology: In reference to teh Santa Maria Formation from which the holtype derives, and Greek, kopros, "dung."

Coprospecies: elongatus HUNT, LUCAS & SPIELMANN, 2013
Etymology Latin, elongatus, "protracted," in alustion to the morpohlogy of the coprolite.

Holotype: PUCRS 821

Locality: Gal. Camara, Villa Melo, Brazil.

Horizon: Santa Maria Formation.

Biostratigraphy:

Age: Landinian Stage, Late Mid Triassic Epoch, Middle Triassic.

Material: Coprolite.

Referred material:

PUCRS 686: Coprolites.

_____________________________________________________________________________________

Coprogenus: Saurocopros HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: Greek, sauros, 'lizard', and Greek, kopros, 'dung'; to honor Buckland's (1829, p. 227, caption fo rplate 28) use of the term 'sauro-coprolies' for specimens of this ichnotaxa.

Coprospecies: bucklandi HUNT, LUCAS, SPIELMANN & LERNER, 2007
Etymology: In honor of Rev. William Buckland, who first described specimens of this ichnogenus.

Holotype: NHMUK (old BMNH) R. 2102

Locality: Charmouth, Lyme Regis, England.

Horizon: Lower "Lias".

Biostratigraphy:

Age: Hettangian-Lower Pliesnsbachian Stage, Lias Epoch, Early Jurassic.

Material: Coprolite.

Referred material:

NHMUK (old BMNH R) 41284, R. 1402: Coprolites.

Numbers: Not given: Several coprolites.

HUNT, LUCAS & SPIELMANN, 2012b

J23883: Coprolite.

 

HUNT, LUCAS & SPIELMANN, 2012c

Locality: Charmouth, Dorset County, England, Southern United Kingdom.

Horizon: Lower Lias.

Biostratigraphy:

Age: Lower Lias Epoch, Early Jurassic.

Material: NHMUK R 41285: Coprolite.

 

LAOJUMPTON, MATKHAMMEE, WATHANAPITAKSAKUL, SUTEETHORN, SUTEETHRON, LAUPRESERT, SRISUK & LE LOEUFF, 2012

Locality: Huai Nam Aun, Thailand.

Horizon: Huai Hin Lat Formation.

Biostratigraphy:

Age: Carnian-Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

Ichnotaxon Group 5

PRC-CY-HN 43-44, PRC-CY-HN 153-170: 20 completes specimens.

 

_____________________________________________________________________________________

Sp

HUNT, LUCAS & SPIELMANN, 2012c

Locality: Near Seymour, Baylor County, Texas.

Horizon:

Biostratigraphy:

Age: Early Permian.

Material:

NHMUK R 3464: Coprolite.

Note: Same number used under coprolite indet.

_____________________________________________________________________________________

Coprogenus: Speiracoprus HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: Greek,speira, "spiral," and Greek, kopros, "dung."

Coprospecies: socorroensis HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012
Etymology: In reference to the county of Sorocco that yielded the holotype.

Holotype: NMMNH P-37674

Locality: Tinajas Locality, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material: Coprolite.

_____________________________________________________________________________________

Coprogenus: Strabelocoprus HUNT, LUCAS & SPIELMANN, 2012b
Etymology: Greek, strabelos, "snail," in allusion to the similiarity in shape to a gastropod, and Greek, kopros, "feces."

Coprospecies: pollardi HUNT, LUCAS & SPIELMANN, 2012b
Etymology: In honor of John Pollard, to honor his contribution to ichnology, including coprolite studies, in the UK.

Holotype: OUM J23743

Locality: Watchet, Somerset County, England, Southern United Kingdom.

Horizon: Rhaetian Penarth Group.

Biostratigraphy:

Age: Late Triassic.

Material: Coprolite.

Referred material:

Locality: Lyme Regis, England, Southern United Kingdom.

Horizon: Lower Liassic.

Biostratigraphy:

Age: Hettangian-Lower Pliensbachian Stage, Lower Lias Epoch, Earliest Early Jurassic.

Material:

OUM J23741: Coprolite.

_____________________________________________________________________________________

Coprogenus: Strophocopros HUNT & LUCAS, 2005c
Etymology: Greek, strophos, 'twisted cord or rope'; in allusion to the ropy surface textrue of the coprolites, and Greek, kopros, 'feces'.

Coprospecies: valensis HUNT & LUCAS, 2005c
Etymology: In reference to the Vale Formation, which yielded the specimens.

Holotype: TMM 30966

Locality: Sid McAdams Locality, Taylor County, Texas.

Horizon: Vale Formation, Middle Clear Fork Group.

Biostratigraphy: Land-vertebrate faunachron lower to middle D.

Age: Upper Leonardian Stage,Upper Rotliegendes Epoch, Early Permian.

Material: Coprolite.

Referred material:

TMM 30966

_____________________________________________________________________________________

Coprolites attributed to specific taxa/families

Labrynithodontia

Gen. sp indet.

ANGUSTA, 1936

Locality: Kote 383 NW of Boskovice, Mahren, Germany.

Horizon:

Biostratigraphy:

Age: Early Permian.

Material:

Number: Not given: Coprolite.
Note: Stegocephalian?

_____________________________________________________________________________________

GAUDRY, 1888

Locality: Dracy-Saint-Loup, Autun, France.

Horizon:

Biostratigraphy:

Age:

Material:

Number: Not given: Coprolite with scales of Palaeoniscus.
Note: Referred to Actinodon frossardi.

_____________________________________________________________________________________

Turtles

ANONYMOUS, 1997

Locality: Near Faith, Hill City, South Dakota.

Horizon: Hell Creek Formation.

Biostratigraphy:

Age: Lancian age, upper Maastrichtian Stage, uppermost Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

FMNH: Turtle coprolite?

Note: Found with “Sue”.

_____________________________________________________________________________________

cf. Notochelone sp KEAR, 2006b

Locality: Queensland State, Australia.

Horizon: Toolebuc Formation.

Biostratigraphy:

Age: Albain Stage, Middle Gallic Subepoch, Uppermost Early Cretaceous Epoch, Middle Cretaceous.

Material:

AM F87832, QM F49190, SAM P41007: Fragmentary skeletons.

Note: With gut contents and coprolites; Stacked inocermaid shell fragments.

_____________________________________________________________________________________

Lizards

Genus: Mosasaurus

Species: occidentalis MORTON 1844 (nomen nudum)
Etymology:

Holotype:

Locality: Ferruginous sand near Mount Holly, New Jersey.

Horizon:

Biostratigraphy:

Age: Late Cretaceous.

Material: 38 nearly perfect vertebrae, a perfect tooth and several fragments of bone. Also a perfect coprolite.
_____________________________________________________________________________________

Archosauromorpha

Genus: Smok NIEDZWIEDZKI, SULEJ & DZIK, 2012
Etymology: Polish, smok, 'dragon'.

Species: wawelski NIEDZWIEDZKI, SULEJ & DZIK, 2012
Etymology: In reference to Wawel Hill in Krakow. Smok wawelski was a legeneary draong living in a cave at the Wawel Hill in Krakow in the region of southern Poland near the excavation site.

Holotype: ZPAL V.33/15

Locality: Lipie Slaskie clay-pit, Lisowice, about 2 km west of Lubliniec, Silesia Province, Poland.

Horizon:

Biostratigraphy:

Age: Late Norian-Early Rhaetian Stage, Lower Late Triassic Epoch, Late Triassic.

Material:

Referred material:

QVARNSTROM, AHLBERG, & NIEDZWIEDZKI, 2018

ZPAL V. 33/341, /342, /343, /344, /345, /346, /604: Large to medium-sized, elongated, bone-baring and phosphate-rich coprolites.

Note: ZPAL v.33/342, /344 and /345 have broken teeth and elements from beetles.

 

_____________________________________________________________________________________

Choristodera

BAKHURINA & UNWIN, 1995

Locality: Dry river bed north of lake Hara-Us-Nur in the Tatal region, which lies in part of the Sangin-Dalay-Nur Depression, Mongolia.

Horizon: Tsagan-tasb Formation.

Biostratigraphy:

Age: Berriasian/Valanginian Stage, Lower Neocamian Subepoch, Lower Early Cretaceous Epoch, Early Cretaceous.

Material:

Number: Not given: Coprolite.
Note: From a champsosaur?

_____________________________________________________________________________________

Ichthyosauria

Ichthyosauria incertae sedis

HUNT, LUCAS & SPIELMANN, 2012

Locality: Lyme Regis, England, Southern United Kingdom.

Horizon: Lower Lias.

Biostratigraphy:

Age: Hettangian-Lower Pliensbachian Stage, Lias Epoch, Early Jurassic.

Material:

OUM J12125, OUM J12146, OUM J10320: Skeletons of Ichthyosaurs with coprolites.

_____________________________________________________________________________________

Crocodilia

Genus: Stenosaurus bollensis

WALKDEN, FRASIER & MUIR, 1987

Locality: Port Mulgrave, Yorkshire Coast, England, Southern United Kingdom.

Horizon: Lower part of the Jet Rock Member.

Biostratigraphy:

Age: Early Jurassic.

Material:

Number: Not given: Fragmentary skull, tooth, cervical and dorsal vertebrae, scutes, ?radius, gastrolith, coprolite, cervical rib, ?scapula and indeterminate bones.

Genus: Metriorhynchus MEYER, 1830

Species: superciliosum (De BLAINVILLE, 1853) DESLONGCHAMPS, 1869

Referred specimen:

YOUNG, BRUSATTE, RUTA & DE ANDRADE, 2010

Locality: England, Southern United Kingdom.

Horizon: Oxford Clay.

Biostratigraphy:

Age: Callovian Stage, Upper Dogger Epoch, Late Jurassic.

Material:

GLAHM V1015: Incomplete skull, disarticulated mandible, atlas axis, right atlas rib, both coracoids, right ischium, femora, right tibia and fibula and two coprolites.

Baurusuchus salgadoensis de SOUZA CARVALHO, de CELSO ARRUDA CAMPOS & NOBRE, 2005
Etymology: In reference to the county of General Salgado, Sao Paulo State, Brazil, where the specimen was found.

Holotype: MPMA 62-0001-02

Locality: Fazenda Buriti, 20°33.57', 23", 50°28.03', 97"W, Prudencio e Morais District, General Salgado County, Sao Paulo State, Brazil.

Horizon: Adamantina Formation, Bauru Group.

Biostratigraphy:

Age: Turonian Stage, Uppermost Gallic Subepoch-Santonian Stage, Lower Senonian Subepoch, Lower Gulf Epoch, Late Cretaceous.

Material: Skull and mandible.

Note: SOUTO, 2010

Several coprolites were found in the same quarry;

MCT 888/2-4: Concve end due to muscular compression.

 UFRJ-DG 98-IcV: Longitudinal axis.

 UFRJ-DG 129-IcV: Coil of middle portion.

 UFRJ-DG 252-IcV: Surface marks on specmen.

 

Deinosuchus rugosus HARRELL, & SCHWIMMER, 2010

Locality: Hannahatcheeee Creek, 3 km west of the town of Union, Chattahooche River Valley, Stewart County, Western Georgia.

Horizon: Blufftown Formation.

Biostratigraphy:

Age: Middle Campanian Stage, Senonian subepoch, Upper Gulf epoch, Late Cretaceous.

Material:

CSUK-09-04-1, -2, -3: Coprolites.

CSUK-09-04-4: Coprolite with Squalicorax yangaensis tooth.

Gen. sp indet.

HARRELL, & SCHWIMMER, 2010

Locality: Hannahatcheeee Creek, 3 km west of the town of Union, Chattahooche River Valley, Stewart County, Western Georgia.

Horizon: Blufftown Formation.

Biostratigraphy:

Age: Middle Campanian Stage, Senonian subepoch, Upper Gulf epoch, Late Cretaceous.

Material:

CSUK-09-02-12, -13, -14: Small coprolites.

CSUK-09-04-8, -9, -10: J-shaped coprolites.

 

MIKULAS, & DVORAK, 2010

Locality: Ahnikov site, North Bohemian Lignite Basin, Most Basin, Czech Republic.

Horizon:

Biostratigraphy:

Age: Miocene Epoch, Lower Neogene Period, Upper Tertiary Subera, Middle Cenozoic.

Material:

Number: Not given: Tooth and 2 osteoderms.

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Phytosaur

MILAN, MATEUS, MAU, RUDRA, SANEI & CLEMMENSEN, 2021

Locality: 71 °N, Jameson Land and Scoresby Land, Central East Greenland.

Horizon: Malmros Klint Formation, Fleming Fjord Grop.

Biostratigraphy:

Age: Late Triassic.

Material:

NHMD 875622: Coprolite.

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Pterosauria

Pterosaur coprolite?

DAVILA-ALCOER, VEGA & LEHMAN, 1999

Locality: Parras Basin, Coahuila State, Mexico.

Horizon: Cerro del Pueblo Formation.

Biostratigraphy:

Age: Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material: Relatively large coprolite with a partially digested carapace of a potamobiid crayfish.

Number: Not given: Coprolites.

 

Genus: Rhamphorhynchus MEYER, 1846
R. muensteri (GOLDFUSS, 1831) MEYER, 1836 emened LYDEKKER, 1888

HONE, HENDERSON, THERRIEN, & HABIB, 2015

 Locality: Schernfeld, Bayern (Bavaria) State, Germany.

Horizon: Solnhofen.

Biostratigraphy:

Age: Tithonian Stage, Upper Malm Epoch, Late Jurassic.

Material:

RTMP 2008.41.001: Skull and skeleton. Note: Impressions of both brachiopatagia and a tail vane, and some traces of the uropatagium. Also, the abdomen preservs gut contents of an indeterminate vertebrate and there is also a pair of masses of material posterior to the pelvis interpreted as a coprolite.

 

_____________________________________________________________________________________

Theropoda

Coelophysis bauri

RINEHART, HUNT, LUCAS & HECKERT, 2005, RINEHART, LUCAS, HECKERT, SPIELMANN & CELESKEY, 2009

Locality: Ghost Ranch Quarry or the Whitaker Quarry, SE 1/4, SE. 1/4, SW 1/4, Section 1, Township 24 North, Range 4 East, Rio Arriba County, New Mexico.

Horizon: Rock Point Formation, Chinle Group.

Biostratigraphy:

Age: Apachean, Late Norian Stage, Upper Late Triassic Epoch, Late Late Triassic.

Material:

NMMNH P-44801: Fragmentary skeleton with small amounts of coprolite material and sparse bone fragments.

NMMNH P-42352: Fragmentary skeleton with cololite and/or coprolite material with small bone fragments.

NMMNH P-44552: Nearly complete postcranial skeleton.
Note: Probable regurgitalite fills part of the oral cavity as well as covering the posterior part of the skull which consists of many bone fragments, including an incomplete premaxilla with one tooth, and a maxilla or a jaw fragment with two teeth, of a small Coelophysis (i.e. cannibalism).
Note: Has a coprolite (hand and wrists bones and bone fragments of a juvenile Coelophysis).

_____________________________________________________________________________________

Tyrannosaurus rex

ANONYMOUS, 1995, CHIN, TOKARYK, ERICKSON, & CALK, 1998, TOKARYK & BYRANT, 2004

Locality: SMNH Locality 72F07-0022, in the Frenchman River valley, 215 miles southwest of Regina, near the North Dakota Border, Saskatchewan Province, Canada.

Horizon: Frenchman Formation.

Biostratigraphy:

Age: Lancian age, upper Maastrichtian Stage, uppermost Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.
Note: 28.3 m below the K-T boundary.

Material:

Eastend Fossil Research Station, SMNH P2609: The largest coprolite found with pulverized ornithopod bones.

Note: Found next to the Tyrannosaurus rex nick named “Scotty.”

Note: A large coprolite was found near this specimen.

SMNH P2523.130, P2523.231: Coprolites.

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CHIN, EBERTH & SLOBODA, 1999, CHIN, EBERTH, SCHWEITZER, RANDO, SLOBODA & HORNER, 2003

Locality: Near Onefour, Dinosaur Provincial Park, Alberta Province, Canada.

Horizon: Dinosaur Park Formation, upper Judith River Group.

Biostratigraphy: Lethbridge coal zone.

Age: Judithian age, Middle Campanian Stage, middle Senonian subepoch, upper Gulf Epoch, Late Cretaceous.

Material:

RTMP 98.102.7: Coprolite with muscle scars from prey.
Note: Tyrannosaurid.

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Sauropoda

Titanosauria?

GHOSH, BHATTACHARYA, SAHNI,KAR, MOHABEY & AMBWANI, 2003, KAR, SHARMA & KAR, 2004, PRASAD, STROMBERG, ALIMOHAMMADIAN & SAHNI, 2005, DUTTA & AMBWANI, 2007

Locality: Pisdura-Dongargaon area, Jubbulpore, Madhya Pradesh State, India.

Horizon: Lameta Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Uppermost Senonian Subepoch, Uppermost Gulf Epoch, Late Cretaceous.

Material:

4 different classes of coprolites, type A-D.

Note: Type A possibly from titanosaurids.

Note: KAR, SHARMA & KAR, 2004, SHARMA, KAR, AGARWAI, & KAR, 2005: have found fungi in some coprolites. (Isisaurus colberti)

Note: Grass phytoliths have been found in coprolites possible from titanosaurids, PRASAD, STROMBERG, ALIMOHAMMADIAN & SAHNI, 2005.

_____________________________________________________________________________________

MOHABEY, UDHOJI & VERMA, 1993

Locality: Dhamni-Pavna Section, roadside section just southwest of Dhamni Village, Maharashtra State, India.

Horizon: Lameta Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Upper Senonian Subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given: Coprolites of a sauropod? Found associated with Titanosaurus sp and Antarctosaurus sp.

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Ornithischia

CHIN & KIRKLAND, 1998

Locality: Mygatt-Moore (M&M) Quarry, Mesa County, Western Colorado.

Horizon: Middle Brushy Basin Member, Morrison Formation.

Biostratigraphy: Zone 3.

Age: Comobluffian age, Kimmeridgian Stage, uppermost Malm Epoch, Late Jurassic.

Material:

MWC 2696-2701: Herbiverous coprolites.

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Hadrosauria

CHIN, 1990

Locality: Montana.

Horizon: Two Medicine Formation.

Biostratigraphy:

Age: Judithian age, Campanian Stage, Senonian subepoch, Upper Gulf epoch, Late Cretaceous.

Material:

Number: Not given: Hadrosaurian coprolites?

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HOLLOCHER, CHIN, HOLLOCHER & KRUGE, 2001, CHIN, HARTMAN & ROTH, 2009

Locality: Willow Creek anticline, near the town of Choteau, Montana.

Horizon: Two Medicine Formation.

Biostratigraphy:

Age: Judithian age, Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

MOR: Calcareous coprolites.
Note: Probably from a hadrosaur.

Note: With associated snails on coprolites.

_____________________________________________________________________________________

Aves

SANZ, CHIAPPE, FERNANDEZ-JALVO, ORTEGA, SANCHEZ-CHILLON, POYATO-ARIZA & PEREZ-MORENO, 2001

Locality: Las Hoyas fossil site, La Cierva Township, , 20 km east of Cuenca, in the Castellan Branch of the Iberian Range, Cuenca Province, Spain.

Horizon: Calizas de La Huerguina Formation.

Biostratigraphy:

Age: Upper Hauterivian Stage, Late Neocomian subepoch-Lower Barremian Stage, Early Gallic subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material:

Number: Not given: A pellet with 3 different genera of birds.
Note: Possibly from a theropod.

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Cynodontia

Locality: Sitio Cortado site, Rio Grande do Sul State, Brazil.

Horizon:

Biostratigraphy:

Age: Late Triassic.

Material:

Number: Not given: Coprolite from a Cynodont, with a new species of pinworm.

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Coprolites incertae sedis


ANTUNES & de BROIN, 1988

Locality: Aveiro, Portugal.

Horizon:

Biostratigraphy:

Age: Upper Campanian-Maastrichtian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

Number: Not given:

 

 

Locality: Taveiro, Portugal.

Horizon:

Biostratigraphy:

Age: Upper Campanian-Maastrichtian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

Number: Not given:

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ANTCZAK, RUCINSKI, STACHACZ, MATYSIK & KROL, 2020

Locality: KLablubiec, Southern Poland.

Horizon: Muschelkalk, Gogolin bed.

Biostratigraphy:

Age: Anisian Stage, Early Mid Triassic Epoch, Middle Triassic.

Material:

Numbers: Not given: Coprolites.

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BAGHAI-RIDING & DiBENEDETTO, 2001

Locality: Southeast side of Rattlesnake Mountain,Big Bend National Park, Brewster County, Texas.

Horizon: Aguja Formation.

Biostratigraphy:

Age: Campanian Stage, Senonian subepoch, Upper Gulf epoch, Late Cretaceous.

Material:

TMM 43638-1: Large coprolite.

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BARRIOS-DE PEDRO, OSUNA & BUSCALIONI, 2020

Locality: Las Hoyas fossil site, La Cierva Township, 20 km east of Cuenca, in the Castellan Branch of the Iberian Range, Cuenca Province, Spain.

Horizon: Calizas de La Huerguina Formation.

Biostratigraphy:

Age: Upper Hauterivian Stage, Late Neocomian subepoch-Lower Barremian Stage, Early Gallic subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material: Note: all from a crocodylomorph?

MUPA-LH-SnGii-Tr: Platyhelminth egg-like in a coprolite.

MUPA-LH-SnGII-As: Nematode egg-like in a coprolite.

MUPA-LH28719a'As: Nematode eggl-like (probably an anisakid).

MUPA-LH-SnGII: Bumpheaded lace coprolite in a coprolite.

MPA-LH28719a: Clynder coprolite in a coprolite.

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BONDE & VARRICCHIO, 2005

Locality: Southern Nevada.

Horizon: Willow Tank Formation.

Biostratigraphy:

Age: Albian Stage, middle Gallic subepoch, lower Cretaceous Epoch, Early Cretaceous.

Material:

Number: Not given: Several coprolites, some with fish scales.

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BROUGHTON, 2016

Locality: Near Readlyn, Saskatchewan Province, Canada.

Horizon: Whitemud Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Upper Senonian Subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given: Numerous coprolites.

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BUCKLAND, 1835

Locality: Osmington Mill on the coast of Dorset, about 4 miles east of Weymouth, Dorset County, England, Southern United Kingdom.

Horizon: Oxford Clay.

Biostratigraphy:

Age: Callovian Stage, Upper Dogger Epoch, Late Middle Jurassic.

Material:

Number: Not given: Small, the size of fiberlets.


Locality: Tilgate Forest, Sussex, Brook, Isle of Wight County, England, Southern United Kingdom.

Horizon: Wealden Formation.

Biostratigraphy:

Age: Early Cretaceous.

Material:

Number: Not given:

 

 


Locality: Wiltshire, England, Southern United Kingdom.

Horizon: Greensand.

Biostratigraphy:

Age: Early Cretaceous.

Material:

Number: Not given: Size of a filbert.

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BURMEISTER, FLYNN, PARRISH & WYSS, 2006

Locality: Locality M-21, Poamay, Central Morondava Basin, Madagascar.

Horizon: Isalo II, Isalo Group.

Biostratigraphy:

Age: Late Carnian Stage, Late Triassic Epoch, Late Triassic?

Material:

8139774-1: Bage of 13 coprolites.

8139777-4: Crushed coprolite.

8139780-8, 8139782-44: Coprolite fragment.

813977A-1: Bag of 58 coprolites.

Locality: Locality M-24, Poamay, Central Morondava Basin, Madagascar.

Horizon: Isalo II, Isalo Group.

Biostratigraphy:

Age: Late Carnian Stage, Late Triassic Epoch, Late Triassic?

Material:

8129779-8: Small fragment.

8169789-1: Coprolite fragments.

 

Locality: Locality M-25, Poamay, Central Morondava Basin, Madagascar.

Horizon: Isalo II, Isalo Group.

Biostratigraphy:

Age: Late Carnian Stage, Late Triassic Epoch, Late Triassic?

Material:

8159785-4: Coprolite fragment.

 

Locality: Locality M-26, Poamay, Central Morondava Basin, Madagascar.

Horizon: Isalo II, Isalo Group.

Biostratigraphy:

Age: Late Carnian Stage, Late Triassic Epoch, Late Triassic?

Material:

8159787-1: 6 pieces of a coprolite.

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CANTRELL, SUAZO, SPIELMANN & LUCAS, 2012

Locality: NMMNH locality 4668 (Gallina Well Locality, CM loclaity 1057), Joyita Hills, Socorro County, New Mexico.

Horizon: Scholle Member, Abo Formation.

Biotratigraphy:

Age: Coyotean, Middle Wolfcampian Stage, Upper Rotliegendes Epoch, Early Permian.

Material:

NMMNH P-64632, P-64633, P-64634, P-64635: Amorpohous coprolites.

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CHIN & BISHOP, 2007

Locality: San Rafael Swell, Emery County, Utah.

Horizon: Brushy Basin Member, Morrison Formation.

Biostratigraphy: Zone?

Age: Age?, Stage? uppermost Malm Epoch, Late Jurassic.

Material:

UCM 98012: Fragmentary theropod coprolite with bone fragments.

Note: With dermistid beetle borrings.

Number: Not given: 74 fragmentary coprolites, some with beetle borrings.

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CHIN FELDMANN & TASHMAN, 2017

Locality Grand Staircase-Escalante National Mounument, Southenr utah.

Horizon: Kaiparowits Formation.

Biostratigraphy:

Age: Late Cretaceous.

Material:

DMNH EPV.98868, EPV.62494: Coprolites from a hadrosaur with plant and crab claw fragments.

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da ROSA, SCHWANKE, CISNEROS, NETO, AURELIO & POITEVIN, 2004

Locality: Sitio Cortado, Novo Cabrais, S29°44'55", W53°00'06, Rio Grande do Sul State, Brazil.

Horizon: Alemoa Member, Santa Maria Formation.

Biostratigraphy: Dinodontosaurus Cenozone.

Age: Late Ladinian Substage Late Landian Stage, Uppermost Mid Triassic Epoch, Middle Triassic.

Material:

UFSM 11193, 11184, 11096: Coprolites.

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DUFFIN, 1980

Locality: Chilcolmpton, Somerset County, England, Southern United Kingdom.

Horizon:

Biostratigraphy:

Age: Rhaetian Stage, Uppermost Late Triassic Epoch, Late Triassic.

Material:

Number: Not given: Coprolites.

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DUFFIN, COUPATEZ, LEPAGE & WOUTERS, 1983

Locality: Motorway excavations close to Habay-la-Vieille, Belg. Geol. Survey sheet 218, Tintigny-Etalle, Belgium.

Horizon: HLV 5 (Habay-la-Vieille).

Biostratigraphy:

Age: Rhaetian Stage, Uppermost Late Triassic Epoch, Late Triassic.

Material:

Number: Not given:

Locality: Motorway excavations close to Habay-la-Vieille, Belg. Geol. Survey sheet 218, Tintigny-Etalle, Belgium.

Horizon: S1 (Sagnette, Hachey), Rhaetian.

Biostratigraphy:

Age: Rhaetian Stage, Uppermost Late Triassic Epoch, Late Triassic.

Material:

Number: Not given:

 


Locality: Motorway excavations close to Habay-la-Vieille, Belg. Geol. Survey sheet 218, Tintigny-Etalle, Belgium.

Horizon: S3 (Sagnette, Hachey).

Biostratigraphy:

Age: Rhaetian Stage, Uppermost Late Triassic Epoch, Late Triassic.

Material:

Number: Not given:

 


Locality: Motorway excavations close to Habay-la-Vieille, Belg. Geol. Survey sheet 218, Tintigny-Etalle, Belgium.

Horizon: UDK (Unter der Kirche, Hachy), Sagnette, Hachey.

Biostratigraphy:

Age: Rhaetian Stage, Uppermost Late Triassic Epoch, Late Triassic.

Material: 4

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ENSOM, 2002

Locality: Durlston Bay, Dorset County, England, Southern United Kingdom.

Horizon: Intermarine Member, DB 118.

Biostratigraphy:

Age: Berriasian Stage, Lowermost Neocomian Substage, Lowermost Early Cretaceous Epoch, Early Cretaceous.

Material:

DORCM GS 1202: Coprolite.

Unnumbered: Coprolite.


Locality: Sunnydown Farm near Langton Matravers, Dorset County, England, Southern United Kingdom.

Horizon: Cherty Freshwater Member, Upper Lulworth Formation, Purbeck Beds.

Biostratigraphy:

Age: Berriasian Stage, Lowermost Neocomian Substage, Lowermost Early Cretaceous Epoch, Early Cretaceous.

Material:

DORCM GS 1203: Mosaic coprolites.

DORCM GS 1181: Straight form.

DORCM GS 1180: ‘Sprial’ form.

DORCM GS 1175, Cylindrical coprolite.

DORCM GS 1177: Cylindrical coprolite with sphincter constructions and pinched ends.

DORCM GS 1179: Lizard jaw fragment with teeth in a coprolite.

DORCM GS 1182: Coprolite with sphincterppinch.

DORCM GS 1158: Coprolite.

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FIORELLI, EZCURRA, HECHENLEITNER, ARGANARAZ, TABORODA, TROTTEYN, BACZKO, & DESOJO, 2013

Locality: El Torcido Locality, southwestern La Rioja Province, Argentina.

Horizon: Chanares Formation.

Biostratigraphy:

Age: Late Ladinian Stage, upper Mid Triassic Epoch, Upper Middle Triassic-Carnian Stage, Lower Late Triassic Epoch, Late Triassic.

Material: Hundreds of coprolites.

_____________________________________________________________________________________

FRIEDMAN, 2012

Locality: NMMNH loclaty 5218, Dallas Area, North-Centraly Texas.

Horizon: Turner Park Member, Britton Formation, Lower Eagle Ford Group.

Biostratigraphy:

Age: Cenomanian Stage, Gallic Subepoch, Lower Gulf Epoch, Middle Cretaceous.

Mateiral:

NMMNH 37764-37766, 37387-37843: Discoidal coprolites.

NMMNH 37767-37769, 37844-37847: Ovoid coprolites.

NMMNH 37770-37772, 37848-37851Oblong coprolites.

NMMNH 37773-37775, 37855-37858: Elongate coprolites.

NMMNH 37776-37778, 37852-37854: Spherical coprolites.

NMMNH 37779-37781, 37859-37862: Folded coprolites.

NMMNH 37782-37784, 37863-37865: Amorphous coprolites.

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GHEVARIYA, 1988

Locality: Bed Number 3, from a locality about 3.5 km south of Anjar town, near eastern margin of 0.90 in toposheet 41 I/4, Kachchh District, Gujarat State, India.

Horizon: Intertrappean.

Biostratigraphy:

Age: Maastrichtian Stage, Upper Senonian Subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

GC/S/2333: Coprolite.

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HARRIS, LUCAS & LUETH, 2017

Locality: NMMNH locality 10331, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

Taphotype 1

NMMNH P-79023: Coprolite.

Taphotype 2

NMMNH P-79008, P-79009, P-79010, P-79664 to P79667: Coprolites.

Taphotype 3

NMMNH P-79057 to P-79060, P-7961, P-769062 to P-79073, P-79075 to P-79082, P-79083, P-79084: Coprolites.

Spiral Amphipolar

NMMNH P-79081:

 

Locality: NMMNH locality 10458, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

Taphotype 1

NMMNH P-79001, P-79002, P-79003, P-79004, P=79005, P-79006, P-79007, P-79011, P-79021, P-79651 to P-79661: Coprolites.

 

Locality: NMMNH locality 10456, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

Taphotype 3

NMMNH P-79471 to P-79473, P-79474, P-79475 to P-79477: Coprolites.

Spiral coprolite.

NMMNH P-79471: Coprolite possible from Megalichthyes or Orthacanthus.

NMMNH P-79472:

Non-sprial coprolites

NMMNH P-79475, P-79476, P-79477: Coprolites.

Ovoid to polygonal, blocky coprolite pellets.

NMMNH P-79074: 2 coprolites.

 

Locality: NMMNH locality 10458, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

Taphotype 3

NMMNH P-78848, P-79024 to P-79038, P-79039, P-79041 to P-79045: Coprolites.

Spiral coprolite.

NNMH P-79025, P-79026 to P-79030, P-79038:

 

Locality: NMMNH locality 10468, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

Taphotype 1

NMMNH P-79015, P-79016, P-79575: Coprolites.

Taphotype 3

NMMNH P-79521: Corpolite.

Amphipolar

NMMHH P-79521:

 

Locality: NMMNH locality 10469, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Early Late Pennsylvanian Sub-period, Late Carboniferous Period.

Material:

Taphotype 1

NMMH P-79030, P-79021: Coprolites.

Taphotype 3

NMMNH P-79543: Coprolite.

Spiral coprolite

NMMNH P-79453:

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HECKERT, 1997

Locality: NMMNH L-1503, Zuni Mountains, West Central New Mexico.

Horizon: Bluewater Creek Formation, Lower Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-22474: 2 coprolites.

Locality: NMMNH L-3251, Zuni Mountains, West Central New Mexico.

Horizon: Bluewater Creek Formation, Lower Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-18454: 5 coprolites.

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HECKERT, 1999

Locality: NMMNH L-248, Lucero uplift, Cibola County, Central New Mexico.

Horizon: Bluewater Creek Formation, Lower Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-18461: 8 vertebrate coprolites.

NMMNH P-3660 : Vertebrate coprolite.

NMMNH P-17758 : Coprolite.

 

 

Locality: NMMNH L-3380, Lucero uplift, Cibola County, Central New Mexico.

Horizon: Bluewater Creek Formation, Lower Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-18385: Vertebrate coprolite.

 

 

Locality: NMMNH L-3381, Lucero uplift, Cibola County, Central New Mexico.

Horizon: Bluewater Creek Formation, Lower Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-18395: 14 vertebrate coprolites.

_____________________________________________________________________________________

HECKERT, 2001

Locality: NMMNH Locality 1312, Crosby County, Texas.

Horizon: Colorado City Member, Dockum Formation, Chinle Group (Lower Kalgary).

Biostratigraphy:

Age: Upper Otischalkian, Late Carnian Stage, Lower Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-30789: 2 coprolites.

NMMNH P-34181: Several coprolites.


Locality: NMMNH Locality 1430, Crosby County, Texas.

Horizon: Colorado City Member, Dockum Formation, Chinle Group (Upper Kalgary).

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-25751: Numerous (approximately 85) coprolites.

NMMNH P-26447: Numerous coprolites.

 

 

Locality: NMMNH Locality 860 (Trilophosaurus quarries), Howard County, Texas

Horizon: Colorado City Member, Dockum Formation, Chinle Group.

Biostratigraphy:

Age: Upper Otischalkian, Late Carnian Stage, Lower Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-29399: Many macrovertebrate coprolites.

NMMNH P-34055: Microvertebrate coprolite.

 

 

Locality: NMMNH Locality 2739, Sixmile Springs, New Mexico.

Horizon: Bluewater Creek Formation, Lower Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-34462: Very small (mm-scale) coprolites.

 

 

Locality: NMMNH Locality 354, New Mexico.

Horizon: Bluewater Creek Formation, Lower Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH P-31617: 20+ burrows or coprolites.

 

 


Locality: Dying Grounds, PEFO 122, Apache County, Arizona.

Horizon: Upper Blue Mesa Member, Petrified Forest Formation, Chinle Group.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

PEFO 20374: Coprolite with partial archosauriform tooth imbedded in it.

PEFO 20392: Many small coprolites.

PEFO 30393096: Many large coprolites.

_____________________________________________________________________________________

HECKERT, LUCAS & ESTEP, 2002

Locality: MNA 213, northwest of Cameron, Coconino County, Arizona.

Horizon: Probably Shinarump Formation, Lower Chinle Group.

Biostratigraphy:

Age: Otischalkian, Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

MNA pl. 615-617: Coprolites from a tetrapod.

_____________________________________________________________________________________

HECKERT, LUCAS & KRZYZANOWSKI, 2003

Locality: NMMNH locality 4479, Adobe Canyon, Santa Rita Mountains, Santa Cruz County, Arizona.

Horizon: Fort Crittenden Formation.

Biostratigraphy:

Age: Judithian age, Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

NMMNH P-34912: Coprolite.

_____________________________________________________________________________________

HECKERT, LUCAS, ZEIGLER & KAHLE, 2001

Locality: NMMNH Locality 3775, Borden County, Texas.

Horizon: Uppermost Tocovas Formation.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

Number: Not given: Coprolites.

_____________________________________________________________________________________

HERNANDEZ, AQUILLON, DELGADO & GOMEZ, 1995

Locality: Southeastern part of Coahuila State, Mexico.

Horizon: Cerro Del Pubelo Formation.

Biostratigraphy:

Age: Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

Number: Not given:

_____________________________________________________________________________________

HILTON, 2003

Locality: Baja California State, Mexico.

Horizon: "El Gallo Formation".

Biostratigraphy:

Age: Maastrichtian Stage, Uppermost Senonian Subepoch, Uppermost Gulf Epoch, Late Cretaceous.

Material:

LACM 101178: Coprolite.

_____________________________________________________________________________________

HODNETT & LUCAS, 2018

Locality: NMMNH Locality 10797, approximatley 3 km from Kinney Brick Quarry, Manzanita Mountins, Bernalillo County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Missourian Stage, Kasimovian Epoch, Late Pennsylvanian Subperoid, Late Carboniferous Epoch.

Material:

NMMNH P-78646: Coprolite.

Note: Inside are Orthacanthus cf. O. donneljohnsi, Schizolepis sp, Palaeonisciformes, fish indet, and an Eogyrinid.

_____________________________________________________________________________________

HOGANSON & MURPHY, 2002

Locality: Stumpf Composite, ND99-15, SE ¼, SW ¼, sec. 34, T13N, R79W, Morton County, North Dakota.

Horizon: Breien Member, Hell Creek Formation.

Biostratigraphy:

Age: Lancian age, upper Maastrichtian Stage, uppermost Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given:

Note: Marine deposit.

Locality: Hazelton Road cut, ND99-22, NW ¼, NE ¼, NE ¼, sec. 9, T135N, R77W, Emmons County, North Dakota.

Horizon: Breien Member, Hell Creek Formation.

Biostratigraphy:

Age: Lancian age, upper Maastrichtian Stage, uppermost Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given:
Note: Marine deposit.

____________________________________________________________________________________

HOLLOCHER, ALCOBER, COLOMBI & HOLLOCHER, 2005

Locality: Walle Pintado, Ischigualasto Basin, San Juan Province, Argentina.

Horizon: Lower third of the Ischigualasto Formation.

Biostratigraphy:

Age: Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

Numbers: Not given: Several carnivore coprolites.

____________________________________________________________________________________

HOLLOCHER, HOLLOCHER & RIGBY, 2010

Locality: Triceratops site, between Jordan, 47°32'6.4", 107°2'54.3W, Garfield County, Montana.

Horizon: Hell Creek Formation.

Biostratigraphy:

Age: Lancian age, upper Maastrichtian Stage, uppermost Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

FPP TRU03-1-1: Coprolite with small quanities of minute bone or tooth fragments, kerogenized plant residues (pollen, spores, sporangia, cuticle, etc.), hyphae of probable fungal origin, and small detrial mineral grains in a fine-grained, hignly porous matrix.

____________________________________________________________________________________

HUNT & LUCAS, 1995

Locality: NMMNH locality 149, NW 1/4, SW 1/4, SE 1/4, sec. 2, T14N, R10E, Santa Fe County, New Mexico.

Horizon: Los Esteros Member, Santa Rosa Formation.

Biostratigraphy:

Age: Adamanian, Latest Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

Number: Not given:

_____________________________________________________________________________________

HUNT & LUCAS, 2007

Locality: New Mexico.

Horizon: Anton Chico Member, Moenkopi Formation.

Biostratigraphy:

Age: Anisian Stage, Mid Triassic Epoch, Middle Triassic.

Material:

NMMNH 17735: 6 coprolites.

NMMNH 20293: 2 coprolites.

NMMNH 20303: 24 coprolites.

NMMNH 29701: 9 coprolites.

NMMNH 29711: 10 coprolites.

NMMNH 38613: 20 coprolites.

NMMNH 28614: 24 coprolites.

NMMNH 38735: 8 coprolites.

NMMNH 38737: (-31) coprolites & coprolite fragments.

NMMNH 28754: 10 coprolites.

 

 

Locality: New Mexico.

Horizon: Los Estros Member, Santa Rosa Formation.

Biosratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 3024: 3 coprolites.

NMMNH 4406, 4414: Coprolites.

NMMNH 4534: 2 coprolites.

 

Locality: New Mexico.

Horizon: Lower Member, Bluewater Creek Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 17848, 18423, 18478, 18462, 23582, 25683, 15684, 26585-25693, 25710-25725, 45570-45572: Coprolite.

NMMNH 18282: 2 coprolites.

NMMNH 18301: 2 coprolites.

NMMNH 18319: 7 coprolites.

NMMNH 18495: 12 coprolites.

NMMNH 22474: 2 coprolites.

NMMNH 25694-25699: Flattened coprolites.

NMMNH 25700, 25707, : Coprolite wrinkled.

NMMNH 25701-25703, 25706, 25708-25709, 25706, : Spirally grooved cropolites.

NMMNH 25704: Longitudinally grooved coprolite.

NMMNH 25705: Transversely grooved coprolite.

NMMNH 34462: 6 small coprolites.

NMMNH 34525: 5 coprolites.

NMMNH 45573: 1 large coprolite in 2 pieces.

 

Locality: New Mexico.

Horizon: Bluewater Creek, Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 3660: 9 coprolites.

NMMNH 41777: 3 coprolites.

 

Locality: New Mexico.

Horizon: Upper Member, Bluewater Creek, Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

 

Localitiy: New Mexico.

Horizon: Garita Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 3682-3684, 3686, 17514, 17555, 17565, 17575-17578, 17585, 17609, 17613, 17861, 18180, : Coprolites.

NMMNH 3685: 24 coprolites.

NMMNH 3687: 5 coprolites.

NMMNH 4962: 4 coprolites.

NMMNH 17541: 54 coprolites.

NMMNH 17544: 19 coprolites.

NMMNH 17557: 6 coprolites.

NMMNH 17560: 3 coprolites.

NMMNH 17561: 6 coprolites.

NMMNH 17580: 2 coprolites.

NMMNH 17606: 7 coprolites.

NMMNH 17618: 91 coprolites.

NMMNH 17885: 11 coprolites.

 

Locality: New Mexico.

Horizon: Colorado City Member, Dockum Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 34003, 34005, 44752: Coprolites.

NMMNH 17636: 53 coprolites.

NMMNH 29399: 49 coprolites.

NMMNH 29404: 4 coprolites.

NMMNH 40142: 10 coprolites.

NMMNH 42280: 27 coprolites and coprolite fragments.

NMMNH 44751: 1 coprolite (?)

NMMNH 44753: 8+ coprolits in vial.

 

Locality: New Mexico.

Horizon: Tecovas Member, Dockum Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 36238: 24 coprolites.

 

 

Locality: New Mexico.

Horizon: Upper Tecovas Member, Dockum Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 29338: 2 coprolits.

 

Locality: New Mexico.

Horizon: Trujillo Member, Dockum Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 29952: 2 coprolites.

 

Locality: New Mexico.

Horizon: Ojo Huelos Member, San Pedro Arroyo Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 31617: Miscellaneous burrows or coprolites.

 

Locality: New Mexico.

Horizon: Upper San Pedro Arroyo Formation.

Biostratigraphy:

Age: Norian Stage?, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 26217: Coprolite.

 

Locality: New Mexico.

Horizon: Tecovas Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 30828, 42282: Coprolites.

NMMNH 20789: 2 coprolites.

NMMNH 34080: 6 coprolites.

NMMNH 24181: 7 coprolites.

NMMNH 34243: 2 coprolites.

 

Locality: New Mexico.

Horizon: Sonsela Member, Petrified Forest Formation.

Biostratigraphy:

Age: Late Triassic.

Material:

NMMNH 41769: 3 coprolites.

 

 

Locality: New Mexico.

Horizon: Petrified Forest Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 4740, 17759: Coprolite.

NMMNH 11031: 9 coprolites.

NMMNH 11034: 3 coprolites.

NMMNH 11046: 2 coprolites.

NMMNH 22365: 14 coprolites.

 

 

Locality: New Mexico.

Horizon: Painted Desert/Correo Member, Petrified Forest Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 17644: 74 coprolites.

NMMNH 17645: 15 coprolites.

NMMNH 17650: 12 coprolites.

NMMNH 17657: 3 coprolites.

NMMNH 17667: 9 coprolites.

NMMNH 17670: 101 coprolites.

 

 

Locality: New Mexico.

Horizon: Blue Mesa Member, Petrified Forest Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 7135, 43866, 43870, 43871, 43934: Coprolite.

NMMNH 18486: Numerous coprolites.

NMMNH 18487: 16 striated coprolites.

NMMNH 18499: 2 small striated coprolites.

NMMNH 29185: Numerous coprolites.

NMMNH 43865: 2 coprolites.

NMMNH 43867: 1 striated coprolite.

NMMNH 43868: 1 short coprolite.

NMMNH 43869: 2 coprolites.

NMMNH 43872: 2 coprolites.

NMMNH 34873: Numerous small coprolites.

NMMNH 43874: Numerous moderately small coprolites.

NMMNH 43953: 2 coprolite pieces.

NMMNH 43954: 1 large coprolite.

NMMNH 43965: 1 large coprolite in 3 cross-sectional pieces.

NMMNH 43968: 4 coprolites.

NMMNH 46111: 2 tiny coprolites.

NMMNH 46112: 2 bags small coprolites.

NMMNH 51868: 12 coprolites.

 

Locality: New Mexico.

Horizon: Mesa Montosa Member, Petrified Forest Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 11041: 2 coprolites.

NMMNH 44568: 3 coprolite fragments.

NMMNH 44664: 3 coprolites.

NMMNH 44678: 2 coprolites.

NMMNH 44695: 2 coprolites.

NMMNH 44815: 10 coprolites.

Locality: New Mexico.

Horizon: Poleo Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 11035: 10 coprolites.

 

Locality: New Mexico.

Horizon: Popo Agie Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 17789: 91 coprolites.

 

 

Locality: New Mexico.

Horizon: Lyons Valley Member, Popo Agie Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 37401: 5 coprolites.

NMMNH 37409, 37425, 37445: Coprolites.

 

Locality: New Mexico.

Horizon: Salitral Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 11043: Coprolite.

 

Locality: New Mexico.

Horizon: Youngsville Member, Salitral Formation.

Biostratigraphy:

Age: Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 28309: 2 coprolites.

NMMNH 32916: 1 coprolite fragment.

NMMNH 39222: 1 coprolite in 4 fragments.

NMMNH 39226: Coprolite.

NMMNH 39241: 2 coprolites.

 

Locality: New Mexico.

Horizon: Los Esteros Member, Santa Rosa Formation.

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 17908, 18127, 22406, : Coprolite.

NMMNH 17889: 3 coprolites.

NMMNH 17915: 2 coprolites.

NMMNH 17942: 17 coprolites.

NMMNH 17950: 4 coprolites.

NMMNH 17963: 2 coprolites.

NMMNH 18071: 9 coprolites.

NMMNH 18097: 2 coprolites.

NMMNH 18104: 7 coprolites.

NMMNH 18115: 8 coprolites.

NMMNH 18164: 3 coprolites.

 

Locality: New Mexico.

Horizon: Meas Montosa Member, Petrified Forest Formation.

Biostratigraphy:

Age: Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 11050, 39645: Coprolite.

NMMNH 39638: 2 coprolites.

NMMNH 39650: 2 coprolites.

 

Locality: New Mexico.

Horizon: Painted Desert Member, Petrified Forest Formation.

Biostartigraphy:

Age: Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 14389, 43194: Coprolite.

NMMNH 16721: 2 coprolites.

NMMNH 35964: 1 tiny coprolite?

NMMNH 36201: 12 coprolites and coprolite fragments.

NMMNH 36202: 1 long bone and associated coprolite.

NMMNH 41840: 3 coprolites?

NMMNH 41841: 1 coprolite fragment.

NMMNH 44559: 1 tiny coprolite.

NMMNH 44560: 1 tooth in (?) coprolite.

 

 

Locality: New Mexico.

Horizon: Petrified Forest Formation.

Biostratigraphy:

Age: Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 14397: 5 coprolites.

 

Locality: New Mexico.

Horizon: McGaffey Member?, Blue Canyon Formation.

Biostratigraphy:

Age: Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 18294: 59 coprolites.

NMMNH 18341: 95 coprolites.

NMMNH 18454: 5 coprolites.

 

Locality: New Mexico.

Horizon: Lower Blue Canyon Formation.

Biostratigraphy:

Age: Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 35822: 6 coprolites.

 

Locality: New Mexico.

Horizon: Bull Canyon Formation.

Biostratigraphy:

Age: Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 4101, 4165, 4181, 4199, 4263, 4265, 4270, 4294, 4302, 4359, 4370, 4379, 4384-4386, 4393, 4417, 4435-4438, 4489, 4512, 4520, 4522, 4542, 4583, 4597, 4614, 4273, 4727, 4750, 4803, 4867, 4918, 4933, 16539, 16824, 16842, 16883, 17122, 17201, 17276, 17293, 17389, 17449, 17495, 18184, 18385: Coprolites.

NMMNH 4111: 42 coprolites.

NMMNH 4122: 2 coprolites.

NMMNH 4147: 2 coprolites.

NMMNH 4190: 58 coprolites.

NMMNH 4197: 83 coprolites.

NMMNH 4202: 3 coprolites.

NMMNH 4209: 14 coprolites.

NMMNH 4223: 15 coprolites.

NMMNH 4227: 105 coprolites.

NMMNH 4234: 125 coprolites.

NMMNH 4240: 3 coprolites.

NMMNH 4245: 2 coprolites.

NMMNH 4249: 31 coprolites.

NMMNH 4252: 57 coprolites.

NMMNH 4272: 2 coprolites.

NMMNH 4292: 104 coprolites.

NMMNH 4328: 9 coprolites.

NMMNH 4332: 4 coprolites.

NMMNH 4364: 17 coprolites.

NMMNH 4366: 5 coprolites.

NMMNH 4381: 2 coprolites.

NMMNH 4405: 23 coprolites.

NMMNH 4412: 197 coprolites.

NMMNH 4425: 6 coprolites.

NMMNH 4444: 5 coprolites.

NMMNH 4449: 2 coprolites.

NMMNH 4460: 2 coprolites.

NMMNH 4481: 5 coprolites.

NMMNH 4490: 9 coprolites.

NMMNH 4496: 2 coprolites.

NMMNH 4536: 7 coprolites.

NMMNH 4552: 14 coprolites.

NMMNH 4557: 10 coprolites.

NMMNH 4560: 31 coprolites.

NMMNH 4568: 8 coprolites.

NMMNH 4591: 21 coprolites.

NMMNH 4592: 100+ coprolites.

NMMNH 4599: 5 coprolites.

NMMNH 4925: 3 coprolites.

NMMNH 4936: 9 coprolites.

NMMNH 4939: 7 coprolites.

NMMNH 4947: 17 coprolites.

NMMNH 16540: 13 coprolites.

NMMNH 16540: 25 coprolites.

NMMNH 16542: 8 coprolites.

NMMNH 16544: 1000+ coprolites.

NMMNH 16554: 4 coprolites in concreations.

NMMNH 16615: 2 coprolites.

NMMNH 16616: 3 coprolites.

NMMNH 16617: 9 coprolites.

NMMNH 16631: 6 coprolites.

NMMNH 16633: 5 coprolites.

NMMNH 16814: 75 coprolites.

NMMNH 16855: 1 coprolites.

NMMNH 16883: Coprolite.

NMMNH 17119: 4 coprolites.

NMMNH 17144: 25 coprolites.

NMMNH 17146: 4 coprolites.

NMMNH 17159: 3 coprolites.

NMMNH 18169: 3 coprolites.

NMMNH 17189: 4 coprolites.

NMMNH 17200: 2 coprolites.

NMMNH 17202: 5 coprolite fragments.

NMMNH 17205: 13 coprolites.

NMMNH 17240: 2 coprolites.

NMMNH 17246: 2 coprolites.

NMMNH 17304: 17 coprolites.

NMMNH 17336: 107 coprolites.

NMMNH 17347: 13 coprolites.

NMMNH 17364: 22 coprolites.

NMMNH 17442: 192 coprolites.

NMMNH 17446: 9 coprolites.

NMMNH 17465: 2 coprolites.

NMMNH 17478: 12 coprolites.

NMMNH 17741: 2 coprolites.

NMMNH 18395: 13 coprolites.

NMMNH 18461: 8 coprolites.

NMMNH 18493: 12 coprolties.

NMMNH 28183: 3 boxes of numerous coprolites.

NMMNH 28184: 2 of 3 boxes of numerous coprolites.

NMMNH 41331: 4 coprolites.

NMMNH 42705: Coprolite with fish scales.

NMMNH 4406: Numerous coprolites.

NMMNH 44096: Numerous coprolites.

NMMNH 44103: 1 large coprolite.

NMMNH 44104: 3 small coprolites.

NMMNH 44114: 2 coprolites.

NMMNH 45557: 1 twinned coprolite.

NMMNH 45564: Numerous coprolites.

 

Locality: New Mexico.

Horizon: Upper Member, Blue Canyon Formation.

Biostratigraphy:

Age: Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 17758: Coprolite.

 

Locality: New Mexico.

Horizon: Redonda Formation.

Biostratigraphy:

Age: Rhaetian Stage, Upper Late Trassic Epoch, Late Triassic.

Material:

NMMNH 35432, 37448: Corpolite.

NMMNH 4737: 3 coprolites.

NMMNH 7116: 26 coprolites.

NMMNH 16994: 6 coprolites.

NMMNH 17003: 198 coprolites.

NMMNH 17041: 2 coprolites.

NMMNH 17049: 10 coprolites.

NMMNH 17016: 6 coprolites.

NMMNH 22092: 7 coprolites.

NMMNH 25681: 61 coprolites.

NMMNH 39293: 9 coprolites.

NMMNH 29296: 3 coprolites.

NMMNH 40502: 2 coprolites.

NMMNH 40658: Numerous coprolites.

NMMNH 43317: Several coprolites.

NMMNH 44063: Numerous coprolites.

NMMNH 45964, 45965: 2 coprolite with fish scales.

NMMNH 45966: 1 coprolite with abundant fish scales.

NMMNH 45967: Several coprolites.

 

 

Locality: New Mexico.

Horizon: Rock Point Formation, Chinle Group.

Biostratigraphy:

Age: Apachean, Late Norian Stage, Upper Late Triassic Epoch, Late Late Triassic.

Material:

NMMNH 41308: Coprolite.

NMMNH 44801: 1 partial proximal caudal series with coprolites.

 

Locality: New Mexico.

Horizon: Sloan Canyon Formation.

Biostratigraphy:

Age: Rhaetian Stage, Upper Late Trassic Epoch, Late Triassic.

Material:

NMMNH 17700: 2 coprolites in matrix.

 

Locality: New Mexico.

Horizon: Trujillo Formation.

Biosatratigraphy:

Age: Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

NMMNH 17406, 17600, : Coprolites.

NMMNH 25639: 14 coprolites.

____________________________________________________________________________________

HUNT & LUCAS, 2016

Locality: Colorado.

Horizon: Laramie Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

UCM 42339: Coprolite.

Locality: Wyoming.

Horizon: Pierre Shale.

Biostratigraphy:

Age: Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

UCM 96572: Coprolite.

Locality: Kansas.

Horizon: Fairport Member, Carliel Shale.

Biostratigraphy:

Age: Turonian Stage, Lower Senonian Subepoch, Lower Gulf Epoch, Late Cretaceous.

Material:

UCM 36306: Coprolites.

 

Locality: Kansas.

Horizon: Smoky Hill Member, Niobrara Formation.

Biostratigraphy:

Age: Coniacian-Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

UCM 63148: Coporlite.

 

Locality: Tunisia.

Horizon: Merbah el Asfer Group.

Biostratigraphy:

Age: Aptian Stage, Gallic Subepoch, Middle Gallic Epoch, Early Cretaceous.

Material:

UCM 96554: Coporlite.

 

Locality: Mongolia.

Horizon:

Biostratigraphy:

Age: Early Cretaceous.

Material:

PIN unnumbered: Spirl, heteropolar and amphipolar cropolites

 

Locality: Saskatchewan.

Horizon: Bearpaw Formation.

Biostratigraphy:

Age: Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

CMNVF 40759: Coporlite.

 

Locality: Montana.

Horizon: Hell Creek Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

UCM 42768: Spiral coprolite.

 

Locality: Wyoming.

Horizon: Lance Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

UCM 42355: Coprolite.

 

_____________________________________________________________________________________

HUNT & LUCAS, 2017

Locality: NMMNH locality 9097, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

NMMNH P-79466: Flattened ovoid morphotype.

HUNT, LUCAS & SPIELMANN, 2005

Locality: NMMNH locality 4700, VanderHoof Quarry, Rio Arriba County, New Mexico.

Horizon: Upper El Cobre Canyon Formation.

Biostratigraphy:

Age: Early Wolfcampanian, Coyotean, Ealry Permian.

Material:

NMMNH P-46500, 46501, 46510, 46508, 46511, 46512: Coprolites.

Locality: NMMNH locality 4835, Welles Quarry, Rio Arriba County, New Mexico.

Horizon: Upper El Cobre Canyon Formation.

Biostratigraphy:

Age: Early Wolfcampanian, Coyotean, Ealry Permian.

Material:

NMMNH P 46520, 46521: Coprolites from a tetrapod.

_____________________________________________________________________________________

HUNT, LUCAS & SPIELMANN, 2012b

Locality: Luneville, France.

Horizon: Muschalk.

Biostratigaphy:

Age: Anisian-Ladinian Stage, Mid Traissic Epoch, Middle Triassic.

Material:

GZ 103: Coprolite.

Locality: Wiltshire, England, Southern United Kingdom.

Horizon: Lower-Upper Cambridge Greensand.

Biostratigraphy:

Age: Aptian-Albian Stage, Middle Gallic Subepoch, Late Early Cretaceous Epoch, Early Cretaceous.

Material:

K 1272: Coprolite.

 

Locality: Aust Cliff, England, Southern United Kingdom.

Horizon: Rhaetic bonebed.

Biostratigraphy:

Age: Rhaeitan Stage, Latest Triassic Epoch, Late Triassic.

Material:

H 36: Coprolite.

 

Locality: Solnhofen, Bayern State, Germany.

Horizon: Solnhofen Plattenhalk.

Biostratigraphy:

Age: Tithonian Stage, Malm Epoch, Late Juriassic.

Material:

JZ 1701: Coprolite.

 

Locality: Near Gaildorf, Germany.

Horizon: Galidorfer Keuper (Alaunschiefer).

Biostratigraphy:

Age: Ladinian Stage, Late Mid Triassic Epoch, Middle Triassic.

Material:

GZ 104: Coprolite.

Locality: Lyme Regis, England, Southern United Kingdom.

Horizon:

Biostratigraphy:

Age: Hettangian-Lower Pliensbachian Stage, Lias Epoch, Early Jurassic.

Material:

GZ

_____________________________________________________________________________________

HUNT, LUCAS & SPIELMANN, 2012

Locality: Saarbrucken, Germany.

Horizon:

Biostratigraphy:

Age: Carbonfierous.

Material:

NHMUK 28490: Coprolite.

Locality: Grantham near Edinburgh, Scotland.

Horizon:

Biostratigraphy:

Age: Carbonfierous.

Material:

NHMUK R 15332: Coprolite.

 

Locality: Woodside Quarry, Glasgow, Scotland.

Horizon:

Biostratigraphy:

Age: Carbonfierous.

Material:

NHMUK R 14054: Coprolite.

 

Locality: Near Seymour, Baylor County, Texas.

Horizon:

Biostratigraphy:

Age: Early Permian.

Material:

NHMUK R 3464: Coprolite.

 

Locality: Lyme Regis, Dorset Coast, England, Southern United Kingdom.

Horizon:

Biostratigraphy:

Age: Lias, Early Jurassic.

Material:

NHMUK R 2066: Coprolite.

NHMUK R 20564, 41285: Polished section.

 

Locality: Aust Cliff, England, Southern United Kingdom.

Horizon: Rhaetic.

Biostratigraphy:

Age: Rhatian Stage, Late Triassic Epoch, Latest Triassic.

Material:

NHMUK R3117: Coprolite.

 

Locality: Durdestone Bay, Dorset, England, Southern United Kingdom.

Horizon: Middle Purbeck.

Biostratigraphy:

Age: Late Jurassic.

Material:

NHMUK 48259: 35 coprolites in matrix.

 

Locality: Pijdura, Chandra District, India.

Horizon: Lameta Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Late Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Mateial: NHMUK R 12278: Partial coprolite.

NHUMK unnumbered: coprolite.

 

Locality: Peterborough, England, Southern United Kingdom.

Horizon: Oxford Clay.

Biostratigraphy:

Age: Late Jurassic.

Material:

NHMUK R 2094: Multiple coprolites.

 

Locality: Cambridge, England, Southern United Kingdom.

Horizon: Cambridge Greensand.

Biostratigraphy:

Age: Early Cretaceous.

Material:

NHMUK43302: Coprolite.

 

Locality: Germany.

Horizon: Solnhofen.

Biostratigraphy:

Age: Late Jurassic.

Material:

NHMUK R 47543: Coprolite in matrix.

_____________________________________________________________________________________

HUNT, LUCAS & SPIELMANN, 2013

Locality: NMMNH locality, 1327, Australia.

Horizon: Arcadia Formation.

Biostratigraphy:

Age: Early Triassic.

Material:

NMMNH P-63706: Coprolite.

Locality: NMMNH Locality 1864, Ciniza Pond locality, New MExico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-25721: Spiral(?) coprolite.

NMMNH P-25722: Elongate broken coprolites.

NMMNH P-25717: 2 cojoined coprolites.

NMMNH P-25692: Hetterospiral coprolite.

NMMNH P-25686: Heterosprial coprolite.

NMMNH P-25707: Large ovoid coprolite.

 

Locality: NMMNH Locality 859, Ciniza Pond locality, New MExico.

Horizon: Bluewater Creek Formation.

Biostratigraphy:

Age: Adamanian, Late Traissic.

Material:

NMMNH P-25735: Amorphous coprolite.

 

Locality: NMMNH locality 5233, New Mexico.

Horizon:

Biostratigraphy:

Age:

Material:

NMMNH P-41759: Heteropolar coprolite.

 

Locality: NMMNH locality 485, Apache Canyon, New Mexico.

Horizon: Redonda Formation.

Biostratigraphy:

Age: Apachean, Late Triassic.

Material:

NMMNH P-66801: Heterosprial coprolite.

NMMNH P-17034: Heteropolar coprolites.

 

Locality: Rotten Hill, north of Amalillo, Texas.

Horizon: Tecovas Formation, Chinle Group.

Biostratigraphy:

Age: Adamanian Stage, Late Triassic.

Material:

Panhandle-Plains Historical Museum, Canyon, Texas: Uncatalouged: 3 coprolites.

 

Locality: NMMNH locality 1, Revuelto Creek, New Mexico.

Horizon: Bull Canyon Formation.

Biostartigraphy:

Age: Reuveltian, Late Triassic.

Material:

NMMNH P-28185: Coprolite, coilied coprolites and comma-shaped coprolites.

 

Locality: Aust Cliff, England.

Horizon:

Biostratigraphy:

Age: Rhaetian Stage, Late Triassic Epoch, Latest Triassic.

Material:

OUM H37: Fragment of coprolite-rich bed.

OUM H36, NHMUK R31117: Coprolites.

 

Locality: Rhaetic bone bedf, England.

Horizon:

Biostratigraphy:

Age: Rhaetian Stage, Late Triassic Epoch, Latest Triassic.

Material:

USNM 16388: Coprolite.

 

Locality: Sodbury, England.

Horizon:

Biostratigraphy:

Age: Rhaetian Stage, Late Triassic Epoch, Latest Triassic.

Material:

OUM HJ29984: Fragment of coprolite-rich bed.

 

Locality: England.

Horizon:

Biostratigraphy:

Age: Rhaetian Stage, Late Triassic Epoch, Latest Triassic.

Material:

OUM H4- H46: Coprolites.

 

_____________________________________________________________________________________

HUNT, LUCAS, SPIELMANN, SUAZO & CANTRELL, 2012

Locality: NMMNH Locality 3276, raod cut on the north side of NM Highway 82, Sacramento Mountains, New Mexico.

Horizon: Beeman Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

Unassigned morphotype

NMNH P-63507, P-63509, P-63528, P-63532, P-63533, P-63434: Coprolites.

_____________________________________________________________________________________

HUNT, LUCAS, SPIELMANN, CANTRELL, SUAZO & LERNER, 2012

Locality: Tinajas Locality, Cerros de Amado, Socorro County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

Morphotype A Amphipolar

NMMNH P-63817: Coprolite.

Morphotype B Round cylinders

NMMNH P-37670-P-37672, P-51226, P-63780, P-63781, P-63784, P-63787, P-63788, P-63790, P-63793, P-63795, P-63796, P-63797, P-63802, P-63803, P-63805, P-63810, P-63811, P-63818, P-63819: Coprolites.

Morphotype C Longitudinally strated ovoid.

NMMNH P-63801: Coprolite.

Morphotype D Small flattened ovid.

NMMNH P-37666, P-37669, P-37671, P-40185, P-42201, P-63779, P-63794, P-63798, P-63804, P-63809: Coprolites.

Morphotype E Spindle-shaped

NMMNH P-40184, P-51223: Coprolites.

Morphotype F Ovoid wiht nodular texture

NMMNH P-51227, P-63706, P-63779, P-63786, P-63792, P-63808, P-63817: Coprolites.

Morphotype G Lattened ovoid with acanthodian scales

NMMNH P-37676: Coprolite.

Unassigned morphotype

NMMNH P-40202, P-63782: Coprolites.

_____________________________________________________________________________________

HUNT, LUCAS, SPIELMANN & LOCKLEY, 2012

Locality: Big Snowy Mountains, Montana.

Horizon: Bear Gulch Limestone Member, Tyler Formation.

Biostratigraphy:

Age: Chesterian Stage, Late Visean-Serpukhovian Epoch, Late Mississippian Subperiod, Early Carboniferous Period..

Material:

Morphotype A large ovoid coprolites.

NMMNH P-541881, P-54191, P-54189, P-63718: Coprolites.

Morphotype B triangular coprolite.

NMMNH P-54135: Coprolite.

Morphotype C elongate narrow coprolites.

NMMNH P-54133, P-54137: Coporlite.

Morphotype D small ovoid coprolites.

NMMNH P-54192, P-54136, P-54138: Coprolites.

_____________________________________________________________________________________

HUNT, LUCAS, SPIELMANN, SUAZO & CANTRELL, 2012

Locality: Locality NMMNH L-345/Kinney Brick Quarry, Bernalillo County, New Mexico.

Horizon: Tinajas Member, Atrasado Formation.

Biostratigraphy:

Age: Late Missourian Kasimovian Epoch, Late Pennsylvian Subepoch, Late Carboniferous Epoch.

Material:

Bromalites

Morphotype A Large, flat and ovoid wiht little groundmass and abundant fish debris (Possibly form a chondrichthyan ZIDEK, 1992)..

NMMNH P-19165, P-32926, P-32991, P-36034 (counterpart of NMMNH P-32911), P-36035: Coprolites.

Morphotype B No goundmass, scatterd fish debris (A regurgitalie of a large fish, possibly from a chondrichthyan).

NMMPH P-19171: Coprolite with palaenosiciform diebris.

Morphotype C Medium-sized ovoid with compact bone and some groundmass (Either a large paleonisciforms (Bardack, 1992) or a sacropterygian (Schultze, 1992).

NMMNH P018177, P-19178, P-19179, P-19183, P-19184, P-19164, P-33055, P-33056, P-33065, P-33068, P-33066, P-33072, P-42649, P-42668, P-42674, P-42673, P-42676, P-42677: Coprolites.

Morphotype D Elongate thick (possibly from Symmorium Zidek, 1992).

NMMNH P-19163 Coporlite.

Morphotype E Small ovoid with macerted fish cebris and groundmas (From a small fish, acanthodians or palaeonisciforms).

NMNH P-19166, P-19158, P-19166, P-29376, P-321900, P-32925, P-33057, P-33071: Coprolites.

Morphotype F Small and linear (Possilby fomr a haplolepid such as Pyritocephalus (Huber, 1992), a small palaeonisciform (Bardack, 1992) or an acanthodian (Zidek, 1992).

NMMNH P-10161, P-19162, P-30879, P-30883, P-33070: Coprolites.

Morphotype G Ovoid and within digestive track (Cobelodus aculeatus)

NMMNH P-19182: From the skeleton of the symmoriid chondrichtyan Cobelodus aculeatus with an intestine in the posterior digestive track.

Unassigned morphotype

NMMNH P-19153, P-19154, P-23976, P-32943, P-33071, P-33082, P-33083, P-31091, P-42675, P-33077, P-33081, P-33082, P-42672: Coprolites.

_____________________________________________________________________________________

HUNT, SPIELMANN, LUCAS & DURNEY, 2013

Locality: NMMNH Loclaity 8588, North-Central Texas.

Horizon: Finis Shale, Graham Formation, Cisco Group.

Biostratigraphy:

Age: Virgilian Stage, Late Kasimovian-Gzelian Epoch, Late Pennsylvian Subperiod, Late Carbonifeorus Period.

Material:

Morphotype A Elongate ovoid.

NMMNH P-66982, P-66983, P-66984, P-66990: Coprolites.

Morphotype B Flattened cylinder

NMMNH P-66985, P-66986, P-66987: Coprolites.

Morphotype C Spindal shaped.

NMMNH P-66996: Coprolite.

Morphotype D Tapering cylinder

NMMNH P-66989: Coprolite.

Morphotype E Weakly heteroplar

NMMNH P-66991: Coprolite.

Morphotype F Coiled

NMMNH P-66993: Coprolite.

_____________________________________________________________________________________

JAIN, 1989

Locality: South of Nagpur, near Pisdura, Maharashtra State, India.

Horizon: Lameta Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Upper Senonian Subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given: 600 coprolites.

Group G and BA:

Group C: 130 coprolites.

_____________________________________________________________________________________

JANSEN, SHIMADA, & KIRKLAND, 2012

Locality: Along the east side of State Highway 15, approximately 1.6 km north of the Kansas-Nebraska Boarder, Nebraska.

Horizon: Granerous Shale, Middle Cenomanian, Middle Cretaceous.

Material:

UNSM 127944: 121 coprolites..

_____________________________________________________________________________________

JASINSKI, SULLIVAN & LUCAS, 2011

Locality: San Juan Basin, New Mexico.

Horizon: Naashoibito Member, Ojo Alamo Formation.

Biostratigraphy: Alamo Wash Local Fauna.

Age: Late-early or earliest Late Maastrichtian Stage, Uppermost Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

SMP VP-2700: Coprolite.

SMP VP-2502: 2 coprolites.

_____________________________________________________________________________________

KIRKLAND, HERNANDEZ RIVERA, MARTINEX, JESUS, NUNEZ & VALLEJO, 2000

Locality: Rincon Colorado, Coahuila State, Mexico.

Horizon: Cerro del Pueblo Formation.

Biostratigraphy:

Age: Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

Number: Not given: Coprolites of theropod and hadrosaurs.

_____________________________________________________________________________________

LAOJUMPTON, MATKHAMMEE, WATHANAPITAKSAKUL, SUTEETHORN, SUTEETHRON, LAUPRESERT, SRISUK & LE LOEUFF, 2012

Locality: Huai Nam Aun, Thailand.

Horizon: Huai Hin Lat Formation.

Biostratigraphy:

Age: Carnian-Norian Stage, Late Triassic Epoch, Late Triassic.

Material:

Ichnotaxon Group 1

PRC-CY-HN 21-26, PRC-CY-HN 48-90: 45 mainly complete coprolites.

Inchnotaxon Group 2

PRC-CY-HN28, PRC-CY-HN 91094: 5 incomplete specimens.

Ichnotaxon Group 3

PR-CY-HN 40, PRC-CY-HN 95-102: 9 incomplete specimens.

Ichnotaxon Group 4

PRC-CY-HN41-42, PRC-CY-HN 103-152: 52 complete specimens.

Ichnotaxon Group 7

PRC-CY-HN 47, PRC-CY-HN 203-205: 4 incomplete specimens.

_____________________________________________________________________________________

LOCKLEY, GIERLINSKI, DUBICKA, BREITHAUPT & MATTHEWS, 2014, LOCKLEY, GIERLINSKI, HOUCK, LIM, KIM, KIM, KIM, KANG, HUNT FOSTER, LI, CHESSER, GAY, DUBICKA, CART & WRIGHT, 2014

Locality: Mill Canyon Dinosaur Tracksite (MCDT) (CU locality L-00675), Grand County, Eastern Utah.

Horizon: Ruby Ranch Member, Cedar Mountain Formation.

Biostratigraphy:

Age: Aptian Stage, Middle Gallic Supepoch, Late Early Cretaceous Epoch, Late Early Cretaceous.

Material:

Number: Not given: Large herbivor coprolite.

_____________________________________________________________________________________

LOCKLEY, NADON & CURRIE, 2003

Locality: The Zerbst Ranch, Niobrara County, Wyoming.

Horizon: Lance Formation.

Biostratigraphy:

Age: Lancian Age, Maastrichtian Stage, Upper Senonian Subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

In situ: 1 coprolite.

_____________________________________________________________________________________

LOHMANN & SACHS, 2001

Locality: Southwest Germany.

Horizon: Lowermost Jeckenbach-Oderheim Formation.

Biostratigraphy:

Age: Autunian, Lower Rotliegendes Epoch, Early Permian.

Material:

PMNB, GMS, GPIM, SKO: About 800 coprolites.
Note: From the Labyrinthodontid Sclerocephalus haeuseri?

_____________________________________________________________________________________

LUCAS, & HUNT, 1993

Petrified forest formation: NMMNH P-1104, (NMMNH locality 911); NMMNH P-11035 (NMMNH locality 920); NMMNH P-11045 (NMMNH locality 909)’ NMMNH P-11046 (NMMNH locality 912); NMMNH P-11503 (NMMNH locality 919)’ USNM 2586, NMMNH P-18198, NMMNH P-18198 (NMMNH locality 918): Coprolites.

Salitral Formation: NMMNH P-11001, P-11005 (NMMNH locality 913): Coprolites.

_____________________________________________________________________________________

LUCAS, RINEHART, HECKERT, HUNT & SPIELMANN, 2016

Locality: Rotten Hill Bonebed (PPHM WT), Herring Ranch Locality, Rotten Hill, Potter County, Texas.

Horizon: Lower part of the Tecovas Formation, Chinle Group (or Tecovas Member, Dockum Formation).

Biostratigraphy:

Age: Adamanian age, Late Carnian Stage, Late Triassic Epoch, Late Triassic.

Material:

PPHM 1999.35.327, 1999.35.337, 2000.10.82: Coprolites.

_____________________________________________________________________________________

NESOV, 1995

Locality: Kakanaut, left bank of the Koryak River, a tributary of the Kakanaut River near Lake Pekulneyskoje, 62?58’N, 176?E, Chukot Autonomous Area, Russia.

Horizon: Kakanaut Formation.

Biostratigraphy:

Age: Middle Maastrichtian Stage, Upper Senonian Subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given: A part of split bones (lambeosaurian) may come from pellet of large theropods.

 

Locality: Blagoveshchensk, southern part of the city, Amur Region, Asian Russia.

Horizon: Lower or Middle? part of the Tsagayan Formation.

Biostratigraphy:

Age: Middle Maastrichtian Stage, Upper Senonian Subepoch, Upper Gulf Epoch, Latest Cretaceous.

Material:

Number: Not given: Fragment of bones are supposedly from pellets of large theropods.

 

Locality: Balabansai IV, 4-5 km north-west of the city of Tashkumyr, Northern Fergana, Kirghizia.

Horizon: Lower part of the Nichkesai Formation.

Biostratigraphy:

Age: Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

Number: Not given: Possible pellets of consumers of eggs and clutches from theropods and ankylosaurids?

_____________________________________________________________________________________

 

MANSKY, LUCAS, SPIELMANN & HUNT, 2012

Locality: Blue Beach, nova Scotia, Canada.

Horizon: Horton Bluff Formation.

Biostratigraphy:

Age: Tournisian Epoch, Mississippian Subperiod, Earliest Carboniferous Period.

Material:

CM 12316-12328: Coprolites.

NSM 07.GF.045.12268.2, CM 12304, 12334, 12251: Coprolites.

CM 12228, 12305, 12307, 12310, 12340: Coprolites.

_____________________________________________________________________________________

MARTIN, SCHUMACHER PARRIS & GRANDSTAFF, 1998

Locality: SDSM V8718, Missouri River, South Dakota.

Horizon: Niobrara Formation.

Biostratigraphy:

Age: Late Cretaceous.

Material:

Number: Not given:


Locality: SDSM V8719, Missouri River, South Dakota.

Horizon: Upper Smoky Hill Member, Niobrara Formation.

Biostratigraphy:

Age: Santonian or Campanian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

SDSM 22362: Coprolite.
Note: Has a skull of a Pachyrhizodus canius.

 

 

Locality: SDSM V8918, South Dakota.

Horizon:

Biostratigraphy:

Age:.5 meter below the Niobrara/Pierre contact, Late Cretaceous.

Material:

SDSM 22349: 4 coprolites.
Note: The largest of the 4 has fish remains.

SDSM 22350: Coprolite.
Note: Has fish remains.

 

 

Locality: SDSM V8919, South Dakota.

Horizon: Middle Niobrara Formation.

Biostratigraphy:

Age: Late Cretaceous.

Material:

SDSM 17627: Coprolite.

_____________________________________________________________________________________

MEDEIROS, FREIRE & PEREIRA, 2007

Locality: "Laje do Coringa", Cajual Island, Sao Marcos Bay, Sao Luis Basin, Maranhao State, Northeastern Brazil.

Horizon: Alcantara Formation, Itapecuru Group.

Biostratigraphy:

Age: Cenomanian Stage, Uppermiddle Gallic Subepoch, Lowermost Gulf Epoch, Early Cretaceous.

Material:

Number: Not given: Coprolites.

_____________________________________________________________________________________

MEZZALIAR, 1989

Locality: Pedreira a east of Santo Anastacio, Municipal of Santo Anstacio, Sao Paulo State, Brazil.

Horizon: Bauru Formation, Bauru Group.

Biostratigraphy:

Age: Upper Campanian Stage- Lower Maastrichtian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given:

 

 

Locality: Corte 128 da EFA (hoje Fepasa) a 6 km east of Votuporanga, Municipal of Votuporanga, Sao Paulo State, Brazil.

Horizon: Bauru Formation, Bauru Group.

Biostratigraphy:

Age: Upper Campanian Stage- Lower Maastrichtian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given:

_____________________________________________________________________________________

MARTILL & NAISH, 2001

Locality: Redcliff landslip, Yaverland, Isle of Wight County, England, Southern United Kingdom.

Horizon: Shepard’s Chine Member, Vectis Formation.

Biostratigraphy:

Age: Barremian Stage, Lower Gallic Subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material:

IWCMS 1995.227: Coprolite attributed to Hybodus sp.

IWCMS 1995.845: Coprolite with fish-bone inclusions, possibly produced by a marine reptile or fish.

Locality: Yaverland, Isle of Wight County, England, Southern United Kingdom.

Horizon: Wessex Formation, Wealden Group.

Biostratigraphy:

Age: Valanginian-Hauterivian Stage, Neocomian Subepoch- Barremian Stage, Lower Gallic Subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material:

MIWG 7274: Elongate coprolite.

 

 


Locality: Sudmoor Point, Isle of Wight County, England, Southern United Kingdom.

Horizon: Wessex Formation, Wealden Group.

Biostratigraphy:

Age: Valanginian-Hauterivian Stage, Neocomian Subepoch- Barremian Stage, Lower Gallic Subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material:

MIWG 1344: Large coprolitic mass possibly attributable to a dinosaur or crocodilian.

_____________________________________________________________________________________

MANCUSO, MARISCANO & PALMA, 2004

Locality: Quebrada de los Leones, El Chalo Locality, Cuyan Basin, Mendoza Province, Argentina.

Horizon: Potrerillos Fromation.

Biostratigraphy:

Age: Triassic.

Material:

MCNAM 1820, 1833, 1936, 1860, 1863, 1865, 1866, 1880, 1888, 1906, 1926, 1931, 1941, 1942-1962, 2223, one S/N unnumbered: Coprolites.

 

Locality: Cerro Bayo area, Las Heras, Mendoza Province, Argentina.

Horizon: Cachueta Formation.

Biostratigraphy:

Age: Trassic.

Material:

MCNAM 2665, 2672, 2685, 2686, 2692, 2696: Coprolites.

 

Locality: Potrerillos, Cerro Cacheuta and Divisadero Largo (Mina Atala) localities, Mendoza Provnice, Argentina.

Horizon: Cacheuta Formation.

Biostratigraphy:

Age: Triassic.

Material:

MCNAM 3472-3513: Coprolites.

 

Locality: Potrerillos, Divisadero Largo (Mina Atala) and Cerro Bayo (Las Heras) localities, Mendoza Province, Argentina.

Horizon: Rio Blanco Formation.

Biostratigraphy:

Age: Triassic.

Material:

MCNAM 3514-3573: Coprolites.

_____________________________________________________________________________________

MILAN, CLEMMENSEN, ADOLFSSEN, ESTRUP, FROBOSE, KLEIN, MATEUS & WINGS, 2012

Locality: Westside of Carlsberg Fjord, Jameson Land, East Greenalnd.

Hyoriozn: Kap Stewart Formation.

Biostratigraphy:

Age: Rhaetian Stage, Late Traissic Epoch, Latest Triassic.

Material:

MGUH 30357-MGUH 30360: Cylindricla coprolites wiht constant diameter.

MGUH 30361-MGUH 20264: Cylindrical coprolites with constriction marks in the surface and sharp, tapering ends that appear to have been pinched off.

MGUH 30365-MCH 30367: Tightly colied coprolites.

_____________________________________________________________________________________

MILAN, RASMUSSEN & BONED, 2012

Locality: Robbedale, Bornholm, Denmark.

Horizon: Jydegaard Formation.

Biostratigraphy:

Age: Late Berriasian Stage, Lower Neocamian Subepoch, Early Early Cretaceous Epoch, Earliest Creaceous.

Material:

Specimen 1: Partial coporlite.

Unnumbered: With fish scales.

Specimen 2: Coprolite

MGUH 29809: Lepidotes scale.

_____________________________________________________________________________________

NESOV, 1995

Locality: Changet II, left edge of the valley, Fergana depression, Kirghizia.

Horizon: Upper part of the Khodzhiabad Formation.

Biostratigraphy:

Age: Upper Barremian Stage, Lower Gallic Subepoch, Early Cretaceous Epoch, Early Cretaceous-Aptian Stage, middle Gallic subepoch, lower Cretaceous Epoch, Early Cretaceous.

Material:

Number: Not given: A presumed pellet of a small theropod, including particular ossified ligaments of a young ornithopod, fragment of a dinosaur rib, and bones of the foot of a turtle.

Locality: Krasnyi Yar, ravine and locality on the right bank of the Khilok River, 1-2 km lower than the place of inflow of a number of channels of the Shibertui River, Buryatia, Asian Russia.

Horizon: Murtoi Formation.

Age: Late Barremian Stage, Lower Gallic Subepoch, Early Cretaceous Epoch-Middle Aptian Stage, Middle Gallic Subepoch, Upper Early Cretaceous Epoch, Early Cretaceous.

Material:

Number: Not given: 10 fragments of bones.

Note: Has teeh marks and possible from a pellet (NESOV & STARIKOV, 1992).

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NIEDZWIEDZKI, BAJDEK, QVARNSTRÖM, SULEJ, SENNIKOV, & GOLUBEV, 2016

Locality: Vyazniki, near VyaznikiVladimir region, central part of European Russia.

Horizon:

Biostratigraphy: Vyazniki Biotic Assemblage, Zone IV, P2.

Age: Late  Changhsingian, Upper Tatarinian Stage (Dzhulfian), Lopingian Subepoch, Upper Zechstein Epoch, Late Permian, and lowermost Triassic.

Material:

Morphotype A: Narrow, elongated straight coprolites.

Morphotype B: Wide, straight coprolites.

Morphotype C: Narrow, amphipolar and heteroplar spiral bromalites (coproliters or coloites).

Morphotype D: Amphipolar spiral bromalites.

Morphotype E: Bean-shaped small coprolites.

Morphotype: F: Elongate, short adn thick morphotypes.

Morphotype G: Elongate, smlim morphotype showing oth extremities slightly tapere.

Morphotype H: Elongate, short, thick cylindrical morphotype with non-tapered extremities.

Morphotype I: Large, blocky flattened and folded coprolites.  

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NORTHWOOD, 2005

Locality: The Crater, Rewan property, about 72 Km southwest of Rolleston, (Field locality L78 in QM records), SE Queensland State, Australia.

Horizon: Lower beds of the upper part of the Rewan Formation, Mimosa Group.

Biostratigraphy:

Age: Early Triassic.
Note: According to LEES, 1986 ‘Arcadia Formation, Rewan Group, Greisbachian-Dienerian, Induan stage,-Olenekian stage, upper Scythian Epoch, Early Triassic.

Material:

Coprolites have plants, lycopsid rootlets, invertebrates, conchostracan valves, actinopterygian scales, dipnoan remains, dipnoan toothplates, temnospondyl and unidentifed bone material.

QMF3907-45: Indeterminate ?coprolite, incomplete, possibly the only herbivore coprolte from the Arcadia Formation.

Longitudinally striated coprolites; pellet shaped. (total of 10 specimens)

Longitudinally striated coprolites; often with convex ends, and with striae tha are 1-2mm apart (10 specimens)

QMF39701-63: Elongated, longitudinally striated coprolite.

Longitudinally striated coprolites; chunky and block-like, generally with cleavage scars on both ends and with striae tha are 1-1.5mm apart (15 specimens)

QMF39701-95: Indeterminate coprolite with a network of desiccation cracks.

2703 coprolites.

Locality: Queensland Museum locality L215, Headwaters of Duckworth Creek, south west of Bluff, south central Queensland State, Australia.

Horizon: Arcadia Formation, Rewan Group.

Biostratigraphy:

Age: Greisbachian-Dienerian, Induan stage,-Olenekian stage, upper Scythian Epoch, Early Triassic.

Material:

Coprolites have plants, lycopsid rootlets, invertebrates, conchostracan valves, actinopterygian scales, dipnoan remains, dipnoan toothplates, temnospondyl and unidentifed bone material.

QMF39702-10: Indeterminate coprolite with a clevage scar on one end and the other end pointed.

Longitudinally striated coprolites; pellet shaped. (9 specimens)

QMF39702-1: Pellet-shaped, longitudinally stratied coprolte with one end and gas bubbles.

Longitudinally striated coprolites; often with convex ends, and with striae tha are 1-2mm apart (7 specimens)

Longitudinally striated coprolites; chunky and block-like, generally with cleavage scars on both ends and with striae tha are 1-1.5mm apart (1 specimens)

QMF39702-15: Amphipolar spiral coprolite.

QMF39702-26: Indeterminate coprolite with impressions of plants.

QMF39702-65: Indeterminate coprolite wiht cleavage scars on both ends.

Longitudinally striated coprolites.(total of 9 specimens)

QMF39702-7: Longitudinally striated coprolite with striate that finishes prior to each end.

QMF39702-13: Longitudinally striated coprolite with cleavage scar and well-incised striae.

1566 coprolites.

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OCHEV, 1974

Locality: Mollo-Khara-Bala-Kantemir Site, northeastern shore of Lake Inder in Gury’yev oblast, European Russia.

Horizon:

Biostratigraphy:

Age: Late Triassic.

Material:

Number: Not given: 4 different types of coprolites.

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OWOCKI, NIEDZWIEDZKI, SENNIKOV, GOLUBEV, JAINSZEWSKA, & SULEJI, 2012

Locality: From the town of Vyazniki, Bykovka, sokovka, metallist, Zhukov Ravine, near the Vyazniki and Gorokhovets localities, European Russia.

Horizon:

Biostratigraphy:

Age: Vyatkian Regional Stage, Late Permian.

Material:

70 coprolites (32 complete specimens.)

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PAVANATTO, DA-ROSA, TEMP-MULLER, ROBERTO-DA-SILVA, RIBEIRO, MARTINELLI & DIAS-DA-SILVA, 2020

Locality: Bortolin site (Antonini Bortolin site), 100 m from the highway RS 149, 29°37'24.04"S, 53°22'33.0W, about 1.5 km westward of the crossroad to the municipality of Dona Francisa, Parana Basin, Rio Grande do Sul State, Southern Brazil.

Horizon: Pinheiros-Chiniqua Sequence, Santa Maria Supersequence.

Biostratigraphy:

Age: Landian Stage, Late Mid Triassic Epoch, Middle Triassic-Carnian Stage, Early Late Triassic Epoch, Early Late Triassic.

Material:

UFSM 11484: An ovoid coprolite.

UFSM 11485: A cylindrical coprolite.

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PEDRO, POYATO-ARIZA, MORATALLA & BUSCALIONI, 2018

Locality: Las Hoyas fossil site, La Cierva Township, 20 km east of Cuenca, in the Castellan Branch of the Iberian Range, Cuenca Province, Spain.

Horizon: Calizas de La Huerguina Formation.

Biostratigraphy:

Age: Upper Hauterivian Stage, Late Neocomian subepoch-Lower Barremian Stage, Early Gallic subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material: Carnivorous producers with ichthyophagous diets, crocodiles, urodelans and different kinds of fish.

MCCM-LH21067a, b, MCCH-LH-GQ150996b, MCCM-LH-LI15-001a, MCM-LH2304, MCCM-LH16609b, MCCM-LH21382b, MCCM-LH2819a, MCCM-LH34393: Cropolites.

Category 1 (Elongated).

MCM-LH21056, MCCM-LH16516a1.

Category 1 to 2 (Circular)

MCCM-LI15-012, MCCM-LH2145a

(Spiral)

MCCM-LH22349, MCCM-LH0LI150-032:

Category 1 to 3 (Irregular)

MCCM-LH8192, MCCM-LH-LI15-006.

Category 1 to 4 (Rectangular)

Category 1 to 3 (Rosary-like)

MCCM-LH15505a.

Category 1 to 4Elliposidal)

MCCM-LH21160a, MCCM-LH-872 (11), MCCM-LH-GQ15-002.

Category 1 to 3 (Cylinder)

MCCM-LH21147, MCCM-Li5-019

Category 2 to 4 (Bump-headed lace)

MCCM-LH21202, MCCM-LH8036a.

Category 1 to 4 (Fir-tree-like)

MCCM-LH21358a

Category 1 to 3 (Cone)

MCCM-LH21192a, MCCM0/LH16602a

Category 2 to 4 (Straight lace)

MCCM-LH-/LI15-015, MCCM-LH-LI15-005

Category 2 to 4 (Thin Lace)

MCCM-LH-LI15-016, MCCM-LH21382a

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POINAR & BOUCOT, 2006

Locality: A deep underground mine called the Sainte-Barbe pit, near Bernissart, Belgium.

Horizon: Bernissartian.

Biostratigraphy:

Age: Hauterivian Stage, Upper Neocomian Subepoch-Lower Aptian Stage, Middle Gallic Subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material:

Coprolite from Iguanodon bernissartensis with PHylum Protoza, Family Entamoebidae (Chatton), Genus: Entamoebites POINAR & BOUCOT, 2006

Species: antiquus POINAR & BOUCOT, 2006

Etymology: Latin, antiquus, 'old'.

Holotype: Department of Zoology, Oregon State University, Corvallis, OR: Slide # Y2 852 (2): Parasite

Trematode egg

Phylum Platyhelminthes, Class Trematoda

Genus: Digenites POINAR & BOUCOT, 2006

Species: proterus POINAR & BOUCOT, 2006

Etymology: Greek, proteros, 'early'.

Holotype: Department of Zoology, Oregon State University, Corvallis, OR: Slide # Y2 852 (2): Parasite

Nematode egg

Phylum Nematoda, Order Ascarididea (Yamaguti), Family: Ascarididae (Blanchard)

Genus: Ascarites POINAR & BOUCOT, 2006

Species: piscus POINAR & BOUCOT, 2006

Holotype: Department of Zoology, Oregon State University, Corvallis, OR: Slide # Y2 852 (2): Parasite

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QVARNSTRÖM, ELGH, OWOCKI, AHLBERG & NIEDZWIEDZKI, 2019

Locality: Wierzbica quarry, northern slope of the Holy Cross Mountains, 20 km south of the town of Radom, Poland.

Horizon:

Biostratigraphy:

Age: Early Kimmeridgian Stage, Middle Malm Epoch, Middle Late Jurassic.

Material:

MUZ PGI 1663.II.15A, 15B, 15C: 3 COPROLITES.

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QVARNSTRÖM, NIEDZWIEDZKI, TAFFOREAU, ZIGAITE & AHLBERG, 2017, QVARNSTRÖM, FIKACEK, WERNSTRÖM, HULD, BEUTEL, ARRIAGA-VARELA, AHLBERG & NIEDZWIEDZKI, 2021

Locality: Cement plant claypit at Krasiejow near Opole, Silesia Province, Southern Poland.

Horizon: Drawno Beds.

Biostratigraphy:

Age: Middle to late Carnian Stage, Lower Late Triassic Epoch, Late Triassic.

Material:

ZPAL AbIII/3402: Coprolite (elongate and non-spiral).

Note: With 2 small and near-complte beetle elytra in the matrix, insect tibia, and other insect remains.

ZPAL AbIII/3520: Coprolite with the remains of a beetle (Triamyxa coprolithica).

Note: Possibly from the dinosauriform Silesaruus opolensis.

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RYAN, 2003

Locality: Milk River Ridge Reservoir BB1998, near Warner, Alberta Provine, Canada.

Horizon: Lowermost Oldman Formation, middle Judith River Group.

Biostratigraphy:

Age: Judithian age, Middle Campanian Stage, Senonian subepoch, Upper Gulf epoch, Late Cretaceous.

Material:

RTMP 150: Coprolite.

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RUIZ-OMENACA, CANUDO & CUENCA-BESCOS, 1997

Locality: La Cantalera, Cubeta de Oliete, north Teruel Province, Spain.

Horizon: Blesa Formation.

Biostratigraphy:

Age: Barremian Stage, Lower Gallic Subepoch, Middle Early Cretaceous Epoch, Upper Early Cretaceous.

Material:

Number: Not given:

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SAWYER, 1981

Locality: Wannagan Creek Quarry, NW ¼, Sec. 18, T141N, R102W, Billings County, Western North Dakota.

Horizon: Bullion Creek Formation.

Biostratigraphy:

Age: Paleocene Epoch, Lower Paleogene Period, Lower Tertiary Subera, Cenozoic Era.

Material:

SMM P79.6.53, P79.6.50, P79.6.35: Large ovoid coprolites.

SMP P79.6.19: A dome-shaped coprolite.

SMM P79.6.9: A teardrop-shaped coprolite with “anal sphincter marks”.

SMM P79.6.195, P79.6.133, P79.6.98: Small ovoid (Type 1) coprolites.

SMM P79.6.111, P79.6.113: Coprolite fragments with surface impressions.

SMM P79.6.105: Coprolite enveloped in leaves.
Note: Crocodilian.

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SCHMITZ, & BINDA, 1991

Locality: Southern Saskatchewan Province, Canada.

Horizon: Whitmud Formation.

Biostartigraphy:

Age: Maastrichtian Stage, Uppermost Senonian Subepoch, Uppermost Gulf Epoch, Late Cretaceous.

Material:

9 different coprolite shapes:

Group 1: Large tapering coprolite.

Group 2: Coiled, cylindrical coprolite.

Group 3: Fusiform coprolites with longitudinal grooves and fine striations

Group 4: Fusiform coprolites wiht transverse grooves.

Group 5: Coiled and compressed forms with fine striations.

Group 6: Ovoidal coprolite

Group 7: Cylindrical, slightly sigmodial coiled coprolites

Group 8: Sigmodial coild coporlite.

Group 9: Heap-like coprolite.

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SCHWEIGERT & DIETL, 2012

Localty: Nusplingen Quarry, Western part of Swabian Alb, Southwestern Germany.

Horizon: Nusplingen Lithographic Limestone.

Biostratigraphy:

Age: Late Jurassic.

Material:

GPIT/IC-145: Large phosphatic coprolite.

SMNS No. 64512 (bed G): Phosphatic coprolite wiht a liquid consistency and crustacean remains as inclusions.

Morphotype 1 egg-shaped

SMNS no. 63221 (bed G), SMNS no. 67749 (bed C): Coprolites.

SNMS no. 67868 (bed C): Partily disaggregated specimen with fish bone inclusions.

Morphotype 2 spiral or helical phosphatic coprolite

SMNS no. 64687 (bed L): Coprolite.

Morpotype 3 Densely packed phosphatic coprolite.

SMNS no. 67877 (bed C): Coprolite.

Morpotype 4 longnarrow phosphatic

SMNH no. 67873 (bed C), 67875 (bed C): 2 coprolites.

Morphotype 5 helical phosphatic coprolite.

SMNS 67878 (bed C): A partialy disaggregated specimen with fish bones and alarge belemnite hook (Onychites)

SMNS No. 67871 (bed C): Coprolite.

Morphotype 6

SMNS no. 63989 (bed G), SMNS no. 64634 (bed L), SMNS No. 64553/1 (bed L), SMNS no 64638: Coprolites.

Morphotype 7 String of small phosphatic coprolites.

SMNS n. 63999 (bed G): Coprolite.

Morphotype 8 Elongate phosphatic coprolite

SMNS 63705 (Egesheim Quarry, bed PK3): coprolite.

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SCHWIMMER, SANDERS, ERICKSON, & WEEMS, 2015

Locality: Site 1, Stokes Quarry, south side of County Road 407, ca. 0.25 mile (0.40 km) west of County Road 49, 2.85 miles (4.58 km) east of S.C. Route 320, USGS Florence West 7.5' quadrangle, 34°14'21.8"N, 79°30.0"W 50', Darlington County, South Carolina.

Horizon: Coachman Formation.

Biostratigraphy:

Age: Middle Campanian Stage, Senoniain Subepoch, Gulf Epoch, Late Cretaceous.

Material:

ChM PV8697, PV8698, PV8999, PV9127: Corcodilian coprolies without bone inclusions.

ChM PV9000, PV9154: Selachina coprolites with small boen, tooth, and/or scale inclusions.

ChM PV8998: Selachian coprolite with well-preserved vertebrae inslusions.

 

Locality: Site 7, Diamonhead Loop Road, pond on south side of Diamondhead Loop Road, ca. 1.3 miles (2.1 km) south of Claussen via South Carolina Route 327, thence 1.4 miles (2.3 km) left (south) of Diamondhead Loop Road, thence 0.2 miels (0.32 km) right (south) on dirt road, USGS Pamplico North 7.5' quadrangle, 34°05'52'N, 79°37'16"W, Florence County, South Carolina.

Horizon: Peedee Formation.

Biostratigraphy:

Age: Early Maastrichtian Stage, Senonian Subepoch, Gulf Epoch, Late Cretaceous.

Material:

ChM PV8997: Crocodilian coprolite.

 

Locality: Site 11, Kingstree, along Clapp Creek, east side of the town of Kingstree, USGS KIngstree 7.5' quadrangle, Williamsburg County, South Carolina.

Horizon: Dono Creek Formation.

Biostratigraphy:

Age: Middle Campanian Stage, Senoniain Subepoch, Gulf Epoch, Late Cretaceous.

Material:

ChM PV7562: Crocodilian coprolite without bone inclusions.

 

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SENNIKOV & GOLUBEV, 2012

Locality: Zhukov Ovrag-1-A locality, Gorokhovetskii District, Valdimir Region, European Russia.

Horizon:

Biostratigraphy:

Age: Upper Vyatkian substage, Vyatkian Stage, Upper Lopingian Subepoch, Upper Zechstien Epoch, Late Permian.

Material:

PIN nos. 5350/47,48, 49, 50: Coprolites.

 

Locality: Zhukov Ovrag-1-B locality, Gorokhovetskii District, Valdimir Region, European Russia.

Horizon:

Biostratigraphy:

Age: Upper Vyatkian substage, Vyatkian Stage, Upper Lopingian Subepoch, Upper Zechstien Epoch, Late Permian.

Material:

PIN no. 5390/4: Coprolite.

 

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= Mesosaur gastrice contents and coprolites SILVA, FERIGOLO, BAJDEK & PINEIRO, 2017

Locality: Uruguay.

Horizon: Mangrullo Formation.

Biostratigraphy:

Age: Early Permian.

Material:

FC-DPV 2616, FC-DPV 2608: Articualted individuals.

FC-DPV 2636, FC-DPV 2651: Fragmentary remains.

Note: With coprolites.

FC-DPV 2156: Mesosaur gastric contents and coprolites.

FC-DPV 2619: Ellipitical coprolite without bone inclusions.

FC-DPV 2647: Elliptical coprolite with bone inclusions.

FC-DPV 2210: Ellipsoid amorphous coprolites withou bone inclusions.

DF-DPV 2807: Irregularly shaped coprolites bearing bone inclusions and teeth.

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SMITH, 1996, 1998

Locality: South Africa.

Horizon:

Biostratigraphy:

Age: Late Permian.

Material:

Number: Not given: Numerous coprolites with therapsid bone fragments, some have isolated whole bones and a few contain articulated limbs. Probably from Gorgonapsians and pristerognathids.

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SMITH, 1998

Locality: Karoo Basin, South Africa.

Horizon:

Biostratigraphy:

Age: Late Permian.

Material:

Number: Not given: Possibly regurgitated flattened disc shaped coprolites.
Note: Rhinesuchid?

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SMITH & BOTHA-BRINK, 2011

Locality: Rosary Farm, Karoo Basin, Beaufort West, South Africa.

Horizon: Hoedemaker member, Middle Teekloof Formation.

Biostratigraphy: Tropidostoma zone.

Age: Tatarian Stage, Lopingian Subepoch, Zechstein Epoch, Late Permian.

Material:

Morphotype M2 (Small therocephalians or juvenile gorgonpsians)

SAM-PT-K10656, K10657: Coprolites.

Morphotype M4 (Small and medium-sized therocephalians and gorgonopsians)

SAM-PT-K10658, K10659: Coprolites.

 

Locality: Amandelboom Farm, Karoo Basin, Beaufort West, South Africa.

Horizon: Hoedemaker member, Middle Teekloof Formation.

Biostratigraphy: Tropidostoma zone.

Age: Tatarian Stage, Lopingian Subepoch, Zechstein Epoch, Late Permian.

Material:

Morphtype M2 (Small therocephalians or juvenile gorgonpsians)

SMA-PT-K10667: Coprolites.

 

Locality: Gannakraal Farm, Karoo Basin, Beaufort West, South Africa.

Horizon: Hoedemaker member, Middle Teekloof Formation.

Biostratigraphy: Tropidostoma zone.

Age: Tatarian Stage, Lopingian Subepoch, Zechstein Epoch, Late Permian.

Material:

Morphotype M3 (Medium-sized gorgonopsians Cyonosaurus and Lycaenops or possibly juveniles of larger gorgonopsians)

SAM-PT-K10669: Coprolites.

 

Locality: Dunedin Farm, Karoo Basin, Beafort West, South Africa.

Horizon: Hoedemaker member, Middle Teekloof Formation.

Biostratigraphy: Tropidostoma zone.

Age: Tatarian Stage, Lopingian Subepoch, Zechstein Epoch, Late Permian.

Material:

Morphotype M3 (Medium-sized gorgonopsians Cyonosaurus and Lycaenops or possibly juveniles of larger gorgonopsians)

SAM-PT-K10670: Coprolites.

 

Locality: Leeuwkloof Farm, Karoo Basin, Fraserburg, South Africa.

Horizon: Hoedemaker member, Middle Teekloof Formation.

Biostratigraphy: Tropidostoma zone.

Age: Tatarian Stage, Lopingian Subepoch, Zechstein Epoch, Late Permian.

Material:

Morphotype 1 (Large gorgonopsians Aelurognathus and Gorgonops tarvus)

SAM-PT-K10660, K10662: Coprolites.

Morphotype 2 (Small therocephalians or juvenile gorgonpsians)

SAM-PT-K10665: Coprolites.

Morphotype 4

SAM-PT-10661, K10663, K10664, K10666: Coprolites.

Locality: Beato Farm, Fraserburg, Karoo Basin, South Africa.

Horizon: Hoedemaker member, Middle Teekloof Formation.

Biostratigraphy: Tropidostoma zone.

Age: Tatarian Stage, Lopingian Subepoch, Zechstein Epoch, Late Permian.

Material:

Morphotype 5 (Linked to the temnospondyl, Rhinesuchus africanus)

SAM-PT-K10677: Coprolites.

 

Locality: Wilgerbosch Farm, Fraserburg, Karoo Basin, South Africa.

Horizon: Hoedemaker member, Middle Teekloof Formation.

Biostratigraphy: Tropidostoma zone.

Age: Tatarian Stage, Lopingian Subepoch, Zechstein Epoch, Late Permian.

Material:

Morphotype 3 (Medium-sized gorgonopsians Cyonosaurus and Lycaenops or possibly juveniles of larger gorgonopsians)

SAM-PT-K10668: Coprolites.


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SMITH, LAVILLE, FARA, ESCARGUEL, OLIVIER, VENNIN, GOUDEMAND, BYLUND, JENKS, STPEPHEN, HAUTMANN, CARBONNIER, KRUMENACKER & BRAYARD, 2021

Locality: ~ 30 km north of Paris Canyon, southeastern Idaho.

Horizon:

Biostratigraphy:

Age: Early Triassic.

Material:

UBGD33007, UBGD3306: Coprolites.

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SOUTO, 1999, 2001

Locality: Pinheiros, Candelaria municipal, Rio Grande do Sul State, Brazil.

Horizon: Santa Maria Formation (Caturrita Formation?).

Biostratigraphy:

Age: Late Ladinian Substage Late Landian Stage, Uppermost Mid Triassic Epoch, Middle Triassic, or ?Julian Substage, ?Early Carnian Stage, Lower Late Triassic Epoch, Late Triassic.

Material:

MCT 1530-R, 1513-R, 1516-R, 1532-R, 1515-R, 1511-R, 1524-R, 1531-R, 1512-R, 1514-R, 1526-R, 1527-R, 1529-R : 13 coprolites.

MCT: 9 more coprolites.

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SOUTO & NAVA, 2007

Locality: 22°07'04"S, 51°26'33"W, Presidente Prudente County, Sao Paulo State, Brazil.

Horizon: Adamantina Formation.

Biostratigraphy:

Age: Turonian Stage, Uppermost Gallic Subepoch-Santonian Stage, Lower Senonian Subepoch, Lower Gulf Epoch, Late Cretaceous.

Material:

MPM 138, 139, 140: Coprolites.
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SOUTO & MEDEIROS, 2012

Localty: Laje Do Coringa locality, Cajual Island, Maranhao State, northeastern Brazil.

Horizon: Alcantara Formation.

Biostratigraphy:

Age: Cenomanian Stage, Upper Gallic subepoch, Lowest Gulf Epoch, Late Early to Early Middle Cretaceous.

Material:

Numbers not given: Coprolites.

UFRJ-DG 154 IcV, UFRJ-DG241 IcV, UFRJ-DG 142 IcV, UFRJ-DG-263 IcV, UFRJ-DG 265 IcV, UFRJ-DG 262 IcV: Coprolites.

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STINNESBECK, FREY, RIVAS, PEREZ, CARTES, SOTO, & LOBOS, 2014

Locality: Tyndall locality, Tyndall Glacier, Torres del Paine National Park, Southern Chile.

Horizon:

Biostratigraphy:

Age: Valanginian-Hauterivian Stage, Neocomian Subepoch- Barremian Stage, Lower Gallic Subepoch, Early Cretaceous Epoch, Early Cretaceous.

Material:

TY09: 37 presacrals with neural archs and spines partially embedded and articulated in thie respective, 19 partially embedded left thoracic ribs and right ones 10 from, 4 articulated but partially embedded right gastralia.
Note: Intestinal content: 2 coprolites.

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SUAZO, CANTRELL, LUCAS, SPIELMANN & HUNT, 2012

Locality: New Mexico.

Horizon: Fruitland Formation.

Biostratigraphy:

Age: Campanian Stage, Late Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Material:

NMMNH P-32805: Coprolite fragments.

NMMNH P-41721: Largest coprolite from the Fruitland Formation.

 

Locality: New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Campanian Stage, Late Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Material:

NMMNH P-27431, P-30200, P-64424: Coprolites.

 

Locality: New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Campanian Stage, Late Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Material:

NMMNH P-22632, P-27400, P-28861, P-28914-P-28950, P-32602, P-64473: Coprolite fragments and segments.

 

Locality: New Mexico.

Horizon: Naashoibito Member, Ojo Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Late Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Material:

NMMNH P-32799, P-32977: Coprolite and coprolite fragmetns.

NMMNH P-27336: Alococopros triassicus.

 

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SULLIVAN, 2006

Locality: Turtle Terrace, SMP locality 400, Ah-Shi-Sle-Pah Wilderness Study Area, San Juan Basin, San Juan County, New Mexico.

Horizon: Fossil Forest Member, Fruitland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

SMP VP-1615, 1616: 2 large coprolites.

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SULLIVAN & JASINSKI, 2012

Locality: SMP locality 228, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphotype A

SMP VP 1329, 1926, 2138, 2754: Coprolite.

Morphotype C

SMP VP2446: Coprolite.

 

Locality: SMP locality 419, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP VP-2020: Coprolite.

 

Locality: SMP locality 421, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP VP-2040: Coprolite.

 

Locality: SMP locality 382, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP PV 1928: Coprolite.

 

Locality: SMP locality 319a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP PV 2178: Coprolite.

 

Locality: SMP locality 350, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP PV 2417: Coprolite.

 

Locality: SMP locality 370b, San Juan Basin, New Mexico.

Horizon: Naashoibito Member, Ojo AlamoFormation.

Biostratigraphy:

Age: Maastrichtian Stage, Late Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Material:

Morphotype A

SMP PV 1928: Coprolite.

Morphotype G

SMP VP 2502: Coprolite.

 

Locality: SMP locality 319a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype B

SMP PV 2473: Coprolite.

 

Locality: SMP locality 452, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype B?

SMP PV 2524: Coprolite.

 

Locality: SMP locality 351, San Juan Basin, New Mexico.

Horizon: Nacimiento Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype B?

SMP PV 739: Coprolite.

 

Locality: SMP locality 313a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP PV 2621: Coprolite.

 

Locality: SMP locality 363a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP PV 1739: Coprolite.

 

Locality: SMP locality 283, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 1811: Coprolite.

 

Locality: SMP locality 365, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 1792: Coprolite.

 

Locality: SMP locality 397, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 1659: Coprolite.

 

Locality: SMP locality 400, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 1615, 1616: Coprolites.

 

Locality: SMP locality 419, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 1974: Coprolite.

 

Locality: SMP locality 421, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 2063: Coprolite.

 

Locality: SMP locality 410b, San Juan Basin, New Mexico.

Horizon: Naashoibito Member, Ojo Alamo Formation.

Biostratigraphy:

Age: Maastrichtian Stage, Late Senonian Subepoch, Late Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 1659: Coprolite.

 

Locality: SMP locality 372, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype E

SMP VP 1134: Coprolite.

 

Locality: SMP locality 350, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype D

SMP PV 2008: Coprolite.

 

Locality: SMP locality 358, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype E

SMP PV 1341: Coprolite.

 

Locality: SMP locality 376a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP PV 1461: Coprolite.

 

Locality: SMP locality 361, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype E

SMP PV 2117: Coprolite.

 

Locality: SMP locality 319a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype E

SMP PV 2615: Coprolite.

Morphotype G

SMP VP 2200: Coprolite.

 

Locality: SMP locality 399, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype F

SMP VP 1673: Coprolite.

 

Locality: SMP locality 281, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype G

SMP VP 2149: Coprolite.

 

Locality: SMP locality 319a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype E

SMP PV 2615: Coprolite.

 

Locality: SMP locality 309a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphotype?

SMP PV 2081, 3329: Coprolites.

 

Locality: SMP locality 398, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype?

SMP VP 1597: Coprolite.

 

Locality: SMP locality 363a, San Juan Basin, New Mexico.

Horizon: De-Na-Zin Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype A

SMP PV 1739: Coprolite.

 

Locality: SMP locality 283, San Juan Basin, New Mexico.

Horizon: Hunter Wash Member, Kirtland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphtype C

SMP VP 1811: Coprolite.

 

Locality: SMP locality 463, San Juan Basin, New Mexico.

Horizon: Fossil Forest Member, Fruitland Formation.

Biostratigraphy:

Age: Kirtlandian Age, Late Campanian Stage, Senonian subepoch, Upper Gulf Epoch, Late Cretaceous.

Material:

Morphotype?

SMP VP 3276: Coprolite.

_____________________________________________________________________________________

TAQUET, 1976

Locality: Gadoufauna, Niger.

Horizon:

Biostratigraphy:

Age: Aptian Stage, Middle Gallic Subepoch, Upper Early Cretaceous Epoch, Early Cretaceous.

Material:

Number: Not given:

_____________________________________________________________________________________

WALDMAN, 1970

Locality: Eastern Boundary of the Dinosaur Provincial Park, TP.21, R.10, Sec. 7, of Geological Survey of Canada Map 969A (Steveville) W of 4th Merid., Alberta Province, Canada.

Horizon: Upper part of the Oldman Formation, middle Judith River Group.

Biostratigraphy:

Age: Judithian age, Middle Campanian Stage, Senonian subepoch, Upper Gulf epoch, Late Cretaceous.

Material:

NMC 13565: Coprolite with Lepisosteus scales.

_____________________________________________________________________________________

WALDMAN & HOPKINS, 1970

Locality: Dinosaur Provincial Park, Below Berry Creek, Red Deer River, Alberta Province, Canada.

Horizon: Dinosaur Park Formation, upper Judith River Group.

Biostratigraphy:

Age: Judithian age, Middle Campanian Stage, middle Senonian subepoch, upper Gulf Epoch, Late Cretaceous.

Material:

Number: Not given: 7 coprolites.

_____________________________________________________________________________________

WERNER, 1993/1994

Locality: Wadi Abu Hashim, Sudan.

Horizon: Wadi Abu Hashim Member, Wadi Milk Formation.

Biostratigraphy:

Age: Cenomanian Stage, Upper Gallic subepoch, Lowest Gulf Epoch, Late Early to Early Middle Cretaceous.

Material:

Vb-722: Tooth.

Vb-723: Dorsal centra.

_____________________________________________________________________________________

WEILER, 1940

Locality: San Cristobal, SW Venezula.

Horizon:

Biostratigraphy:

Age: Late Cretaceous.

Material:

Number: Not given: Fish coprolite.

_____________________________________________________________________________________

WICHMANN, 1916

Locality: Rio Negro Province, Argentina.

Horizon:

Biostratigraphy:

Age: Late Cretaceous.

Material:

Number: Not given: Coprolites.

_____________________________________________________________________________________

YANG, 1995

Locality: Gyeongsang Basin, Korea.

Horizon: Gyeongsang Group,.

Biostratigraphy:

Age: Cretaceous.

Material:

Number: Not given: Coprolite.

_____________________________________________________________________________________

VAUGHN, 1963

Locality: Welles quarry near Arroyo de Agua, Rio Arriba County, Northeastern New Mexico.

Horizon: Upper Cutler Formation.

Biostratigraphy:

Age: Wolfcampian, Lower Rotliegendes Epoch, Early Permian.

Material:

UCLA VP 1648: Coprolite with a haemal arch of a urodele-like animal.

_____________________________________________________________________________________

Bibliography

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

A

Achenbach, J., 2003, Dinosaurs come alive: National Geographic, v. 203, n. 3, p. 2-33.

Andrews, P., and Fernandez-Jalvo, Y., 1998, Palaebiology: 101 uses for fossilized faeces: Nature, v. 393, p. 629.

Angusta, J., 1936, Ein stegocephalen-koprolith aus dem mährischen Perm: Zentralblatt für Mineralogy, Geologie und Paläontologie, abteilung B, n. 10, p. 334-337.

Anonymous, 1995, Tyrannosaurus droppings: Earth Magazine, v. 4, n. 6, p. 12.

Anonymous, 1996, What the dinosaurs left behind: Science News, v. 150, p. 186.

Anonymous, 1997, Tyrannosaurus rex; A Highly Important and Virtually Complete Fossil Skeleton: Sotheby’s, 56pp.

Anonymous, 1998, Ordure of Magnitude: Discover, v. 19, n. 10, p. 32.

Anonymous, 2001, Fossils thrown up: Geology Today, v. 17, n. 3, p. 82.

Anonymous, 2021, New beetle species found pristinely preserved in fossilized dropping of dinosaur ancestor: Phys Org, published online, 3pp.

Antunes, M. T., and Brion, F. de, 1988, Le Cretace terminal de Beira Litoral, Portugal: remarques stratigraphicques et ecologiques, etude complementaire de Rosasia soutoi (Chelonii, Bothremydidate): Ciencias de Terra, n. 9, p. 153-200.

B

Bakhurina, N., N., and Unwin, D. M., 1995, A survey of pterosaurs from the Jurassic and Cretaceous of the former Soviet Union and Mongolia: Historical Biology, v. 10, p. 197-245.

Barrios-de Pedro, S., and Buscalioni, A. D., 2018, Scrutinizing Barremian coprolite inclusions to record digestive strategies: Annales Societatis Geologorum Poloniae, v. 88, p. 203-221.

Barrios-de Pedro, S., Chink K,. and Buscalioni, A. D., 2019, A Late Barremian ecosystem sustained by fishes and shrimps: evidence obtained from the study of the Las Hoyas coprolites: In: European Association of Vertebrate Palaeontologists, XVII Annual Meeting, Program and Abstract Book, p. 11.

Barrios-de Pedro, S., Osuna, A., and Buscalioni, A. D., 2020, Helminth eggs from early cretaceous faeces Scientific Reports, published online, 8pp.

Barrios-de Pedro, S., Poyata-Ariza, F. J., and Buscalioni, A. D., 2018, Vertebrate remains in the coprolite association from Las Hoyas fossil site: In: European Association of Vertebrate Palaeontologists, XVI Annual Meeting, Abstract Book, p. 19.

Benham, P., 2003, Coprolites and gastroliths: clues to the inner workings of Mesozoic vertebrates: In: Alberta Palaeontological Society, Seventh Annual Symposium, “Fossils in Motion” Abstracts, p. 5-8.

Boles, Z., Chin, K., and Lacovara, K., 2014, Coprolites from the main fossiliferous layer of the Cretaceous-Paleogene (K-Bg) Hornerstown Formation, New Jersey: In: Meeting Program and Abstracts, 74th Meeting Berling, Society of Vertebrate Paleontology, p. 94.

Broughton, P. L., 2016, Enigmatic origin of massive Late Cretaceous-to-Neogene coprolite-like deposits in North America: a novel palaeobiological alternative to inorganic morphogensis: Lethia, v. 50, p. 194-216.

Buckland, W., 1835, On the discovery of Coprolites, or Fossil Faeces, in the Lias at Lyme Regis, and in other Formations: Transactions of the Geological Society of London, 2nd series, v. 3, p. 223-238.

Burmeister, K., Flynn, J. F., Parrish, M. J., and Wyss, A. R., 1999, New Fossil Vertebrates from the Northern Morondava Basin, Madagascar, and the recovery of Microvertebrates from Coprolites: In: 1999 California Paleontology Conference Abstracts, PaleoBios, v. 19, supplement to n. 1, p. 3.

Burmeister, K. C., Flynn, J. J. Parrish, J. M., and Wyss, A. R., 2006, Paleogeographic and biostratigraphic implications of new early Mesozoic vertebrates from Poamay, central Morondava Basin, Madagascar: In: The Triassic-Jurassic Terrestrial Transtion, edited by Harris, H. D., Lucas, S. G., Spielmann, J. A., Lockley, M. G., Milner, A. R. C., and Kirkland, J. I., New Mexico Museum of Natural History & Science, Bulletin, 37, p. 457-475.

C

Cando, J. I., Ruiz-Omenaca, J. I., Barco, J. L., and Royo Torres, R., 2002, ?Sauropodos asiaticos en el Barremiense inferior (Cretacico Inferior) de Espana? Ameghiniana, v. 39, n. 4, p. 443-452.

Carroll, N., Wilson, G. P., Demar, D. G., Chiappe, L. M., 2019, A coprolite-preserved feather assemblage from the Upper Cretaceous Hell Creek Formation: In: 79th SVP Annual meeting, Brisbane, Queensland Australia, Society of Vertebrate Paleontology, p. 75.

Chin, K. 1990, Possible herbivorous Dinosaur Coprolites from the Two Medicine Formation (Late Cretaceous) of Montana: Journal of Vertebrate Paleontology, v. 10, supplement to n. 3, Abstracts of papers, Fiftieth Annual Meeting, Society of Vertebrate Paleontology, Museum of Natural History, University of Kansas, Lawrence, Kansas, p. 17A-18A.

Chin, K., 1991, Biogeochemical and petrograhic analysis of a presumed dinosaurian coprolite from the Upper Cretaceous Two Medicine Formation, Montana: Journal of Vertebrate Paleontology, v. 11, supplement to n. 3, Abstracts of Papers, Fifty-First Annual Meeting, Society of Vertebrate Paleontology, San Diego State University and San Diego Natural History Museum, San Diego, California, October 24-26, p. 22A.

Chin, K., 1994, On the Elusive Trail of Fossil Dung: In: Dino Fest, edited by Rosenberg, G. D. and Wolberg, D. L., The Paleontological Society Special Publication n. 7, 1994, series editor Spencer, R. S., p. 285-294.

Chin, K., 1995, Lessons from Leavings: Natural History, v. 104, n. 6, p. 67.

Chin, K., 1995. The paleobiological implications of Herbivorous dinosaur coprolite fabrics from the Two Medicine Formation, Montana: Journal of Vertebrate Paleontology, v. 15, supplement to n. 3, Abstracts of Papers, Fifty-Fifth Annual Meeting Society of Vertebrate Paleontology, Carnegie Museum of Natural History, Pittsburgh, Pennsylvania, November 1-4, p. 23a.

Chin, K., 1996, A coprolitic view of dinosaurian herbivory: In: Dinofest International Symposium, programs and abstracts, edited by Wolberg, D. L., and Stump, E., Arizona State University, p. 39.

Chin, K., 1997, An overview of the taphonomy of lithified coprolites: Journal of Vertebrate Paleontology, v. 17, supplement to n. 3, Abstracts of Papers, Fifty-seventh Annual Meeting Society of Vertebrate Paleontology, Field Museum, Chicago, Illinois, October 8-11, p. 37a.

Chin, K., 1997, Coprolites: In: Encyclopedia of Dinosaurs, edited by Currie, P. J., and Padian, K., Academic Press, p. 147-150.

Chin, K., 1997, What Did Dinosaurs eat? Coprolites and Other Direct Evidence of Dinosaur Diets: Part Four, Chapter 26: In: The Complete Dinosaur, edited by Farlow, J. O., and Brett-Surman, M. K., Indiana University Press, p. 371-382.

Chin, K., 1998, Where have all the feces gone?: In: The Dinofest Symposium, presented by The Academy of Natural Sciences Philadelphia, Pennsylvania, April 17-19, 1998, edited by Wolberg, D. L., Gittis, K., Miller, S., Carey, L., and Raynor, A., p. 6-7.

Chin, K., 2002, Analyses of coprolites produced by carnivorous vertebrates: Palaeontological Society Papers, v. 8, p. 43-50.

Chin, K., 2005, The paleobiological implications of herbivorous dinosaur coprolites from the Upper Cretaceous Two Medicine Formation of Montana: In: Dinosaur Park Symposium, short papers, abstracts and program, special publication of the Royal Tyrrell Museum, edited by Braman, D. R., Therrien, F., Koppelhus, E. B., and Taylor, W., p. 14.

Chin, K., 2007, The paleobiological implications of herbivorous dinosaur coprolites from the Upper Cretaceous Two Medicine Formation of Montana: why eat wood? Palaios, v. 22, p. 554-566.

Chin, K., 2019, The complex taphonomic history of organic tssues within lithified coprolites: In: 79th SVP Annual meeting, Brisbane, Queensland Australia, Society of Vertebrate Paleontology, p. 78-79.

Chin, K., and Bishop, J. R., 2007, Exploited twice: bored bone in a theropod coprolite from the Jurassic Morrison Formation of Utah, U.S.A.: Society for Sedimentary Geology, special publication, n. 88, p. 379-387.

Chin, K., Eberth, D. A., Schweitzer, M. H., Rando, T. A., Sloboda, W. J., and Horner, J. R., 2003, Remarkable preservation of undigested muscle tissue within a Late Cretaceous tyrannosaurid coprolite from Alberta, Canada: Palaios, v. 18, p. 286-294.

Chin, K., Eberth, D. A., and Sloboda, W. J., 1999, Exceptional soft-tissue preservation in a theropod coprolite from the Upper Cretaceous Dinosaur Park Formation of Alberta: Journal of Vertebrate Paleontology, v. 19, supplement to n. 3, Abstracts of Papers, Fifty-ninth annual meeting, Society of Vertebrate Palaeontology, Adams Mark Hotel, Denver, Colorado, October 20-23, p. 37A-38A.

Chin, K., Feldmann, R. M., and Tashman, J. N., 2017, Consumption of crustaceans by megaherbivorous dinosaurs: dietary flexibility and dinosaur life history strategies: Scientific Reports, published online, 11pp.

Chin, K., and Gill, B. D., 1993, Evidence for Dinosaur/Insect interactions in the Cretaceous (Campanian) Two Medicine Formation of Montana: Journal of Vertebrate Paleontology, v. 13, supplement to n. 3, Abstracts of Papers, Fifty-Third Annual Meeting, Society of Vertebrate Paleontology, New Mexico Museum of Natural History and Science, Albuquerque, New Mexico, October 13-16, p. 29A.

Chin, K., and Gill, B. D., 1996, Dinosaurs, Dung Beetles, and Conifers: Participants in a Cretaceous Food Web: Palaios, v. 11, p. 280-285.

Chin, K., Hartman, J. H., and Roth, B., 2009, Opportunistic exploitation of dinosaur dung: fossil snails in coprolites from the Upper Cretaceous Two Medicine Formation of Montana: Lethaia, v. 42, p. 185-198.

Chin, K., and Kirkland, J. I., 1998, Probable herbivore coprolites from the Upper Jurassic Mygatt-Moore Quarry, Western Colorado: In: The Upper Jurassic Morrison Formation: An Interdisciplinary Study, Denver Museum of Natural History, Denver USA, May 26-28, 1994, edited by Carpenter, K., Chure, D. J., and Kirkland, J. I., Modern Geology, v. 23, part 2, p. 249-275.

Chin, K., Tokyark, T. T., and Erickson, G. M., 1996, Probable Tyrannosaurus rex coprolite from the Maastrichtian Frenchman Formation of Saskatchewan: Journal of Vertebrate Paleontology, v. 16, supplement to n. 3, Abstracts of Papers, Fifty-sixth Annual Meeting, Society of Vertebrate Paleontology, American Museum of Natural History, New York, New York, October 16-19, p. 27A.

Chin, K., Tokyark, T. T., Erickson, G. M., and Calk, L. C., 1998, A king-sized theropod coprolite: Nature, v. 393, n. 6686, p. 680-682.

Chure, D. J., and McIntosh, J. S., 1989, A Bibliography of the Dinosauria (Exclusive of the Aves), 1677-1986: Museum of the Western Colorado Paleontological Series #1, 226pp.

Cooley, B., 1998, Reconstructing “The visible Dinosaur”: it takes a lot of guts: In: The Dinofest Symposium, presented by The Academy of Natural Sciences Philadelphia, Pennsylvania, April 17-19, 1998, edited by Wolberg, D. L., Gittis, K., Miller, S., Carey, L., and Raynor, A., p. 9.

Coy, C. E., 1995, The first record of spiral coprolites from the Dinosaur Park Formation (Judith River Group, Upper Cretaceous) Southern Alberta, Canada: Journal of Paleontology, v. 69, n. 6, p. 1191-1194.

Crewe, J., 1998, Entertainment or education: the evolution of a dinosaur exhibit: In: The Dinofest Symposium, presented by The Academy of Natural Sciences Philadelphia, Pennsylvania, April 17-19, 1998, edited by Wolberg, D. L., Gittis, K., Miller, S., Carey, L., and Raynor, A., p. 9.

Cutlip, P. G., and Anne, R., 1999, Palynomorph-filled coprolites from a Late Carboniferous mire: implications for arthropod paleoecology: Geological Society of America, Annual Meeting, Denver, Colorado, p. A-469.

D

Dalla Vecchia, F. M., Venturini, S., and Tentor, M., 2002, The Cenomanian (Late Cretaceous) Konservat-Lagrstatte of en Nammoura (Kesrouane Province), northern Lebanon: Bollettino della Societa Paleontologica Italiana, v. 41n, n. 1, p. 51-68.

da Rosa, A. A., Schwanke, C., Disneros, J. C., Neto, L. W., Aurelio, P. L. P., and Poitevin, M., 2004, Sitio Cortado - um nova assembleia fossilifera do Triassico medio do sul do Brasil: Revista Brasileira de Paleontologia, v. 7, n. 2, p. 289-300.

Davila-Alcocer, V. M., Vega, J., and Lehman, T., 1999, Crayfish remains included in a coprolite from the Late Cretaceous Difunta Group, Northeastern Mexico; Paleoecologic implications: The Geological Society of America, 33rd Annual Meeting, South-Central Section, v. 31, n. 1, p. A-6.

Duffin, C. J., 1979, Coprolites: a brief review with reference to specimens from the Rhaetic Bone-Beds fo England and South Wales : Mercian Geologist, v. 7, n. 3, p. 191-204.

Duffin, C. J., 1980, The Upper Triassic Section at Chilcompton, Somerset, with notes on the Rhaetic of the Mendips in General: Merican Geologist, v. 7, n. 4, p. 251-268.

Duffin, C. J., 2012, The earliest published records of coprolites: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 25-28. 

Duffin, C. J., 2012, Coprolites and characters in victorian Britain: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 45-59. 

Duffin, C. J., Coupatez, P., Lepage, J. C., and Wouters, G., 1983, Rhaetian (Upper Triassic) marine faunas form <<Le Golfe Du Luxembourg>> in Belgium (Preliminary note): Bulletin de la Societe belge de Geologie, t. 92, fasc. 4, p. 311-315.

E

Edgar, B., 1998, The Scoop on Old Poop: California Wild, v. 51, n.. 4, p. 4-5, 47.

Ensom, P. C., 2002, Vertebrate trace fossils in the Purbeck Limestone Group of southern England: Special Papers in Palaeontology, v. 68, p. 203-220.

F

Fiorelli, L. E., Ezcurra, M. D., Hechenleitner, E. M. Arganaraz, E., Taborda, J. R. A., Trotteyn, M. J., van Baczko, M. B., and Desojo, J. B., 2013, The oldest kown communal latrines provide evidence of gregarism in Triassic megaherbivores: Scientific Reports, published online, 7 pp. Link to pdf

Ford, T. D., and O’Connor, B., 2002, Coprolite mining in England: Geology Today, v. 18, n. 5, p. 178-181.

Friedman, V., 2001, A new Upper Cretaceous (Cenomanian) fossilferous locality in north central Texas: 53rd annual meeting of the GSA, Rocky Mountain Section, 35th annual meeting South-Central Section, v. 33, n. 5, p. A-54.

Friedman, V., 2012, Vertebrate coprolites from the Lower Eagle Ford Group of North Central Texas and thier paleoecological significance: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 221-228. 

G

Gallagher, W. B., Camburn,, J, Camburn, S., Albright, S. S., and Hanczaryk, P. A., 2000, Taphonomy of a Maastrichtian fossil assemblage in the Mount Laurel Formation of New Jersey: GSA abstracts, Northeastern Section Meeting, p. A-19.

Garcia, W. J., 2001, A Late Mississippian fish and tetrapod fauna form Hancock County, Kentucky: Journal of Vertebrate Paleontology, v. 21, supplement to n. 3, abstracts of papers, sixty-first annual meeting, Society of Vertebrate Paleontology, Museum of the Rockies, Montana State University, Bozeman, Montana, October 3-6, p. 52a.

Gaudry, A., 1888, Les Vertebres Fossiles, des environs d’Autun: Societe d’Histoire Naturelle d’Autun, p. 1-90.

Ghevariya, Z. G., 1988, Intertrappean Dinosaurian Fossils from the Anjar area, Kachchh District, Gujarat: Current Science, v. 57, n. 5, p. 248.

Ghosh, P., Bhattacharya, S. K., Sahni, A,. Kar, R. K, Mohabey, D. M., and Ambwani, K., 2003, Dinosaur coprolites from the Late Cretaceous (Maastrichtian) Lameta Formation of India: isotopic and other markers suggesting a C3 plant diet: Cretaceous Research, v. 24, p. 743-750.

Godfrey, S. J., Alford, A. Collareta, A., and Weems, R. E., 2020, A Paleocene vertebrate-bitten crocodilian coprolite form Liverpool Point, Maryland, U.S.A.: Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, v. 296, n. 3, p. 237-244.

Gody, P. L., Montefeltro, F., and Langer, M., 2013, First record of abdominal contents in fossil crocodyliformes: In: Program and Abstracts, 73rd Meeting Los Angeles, CA., Society of Vertebrate Paleontology, Supplement to online Journal of Vertebrate Paleontology, p. 135.

Gordon, C. M., Roach, B. T., Parker, W. G., and Briggs, D. E., 2019, Distinguishing regurgitalites and coprolites: a case study using a Triassic bromalite contaiing soft tissue from Revueltosaurus: In: 79th SVP Annual meeting, Brisbane, Queensland Australia, Society of Vertebrate Paleontology, p. 108.

Gordon, C. B., Roach, B. T., Parker, W. G., and Briggs, D. E. G., 2020, Distinguishing regurgitalites and coprolites: a case study using a Triassic bromalite with soft tissue of the Pseudosuchian Archosaur Revueltosaurus: Palaios, v. 35, n p. 111-121.

H

Habgood, K., 1997, Coprolites as evidence of neutrien cycling in early terrestrial environements: Palaeontological Association Annual Meeting Abstracts, 41st Annual Meeding, Cardiff, p. 6.

Hantzschel, W., El-Baz, F., and Amstutz, G. C., 1968, Coprolites, an Annotated Bibliography: The Geological Society of America, Memoir, 108, p. 1-129.

Harrell, S., and Schwimmer, D. R., 2010, Coprolites of Deinosuchus and other crocodylians from the Upper Cretaceous of Western Georgia, USA: In: Crocodyle tracks and traces, edited by Milan, J., Lucas, S. G., Lockley, M. G., and Spielmann, J. A., New Mexico Museum of Natural History and Science, Bulletin, 51, 209-213.

Harris, S. K., Lucas, S. G., and Lueth, V. W., 2017, Lacustrine coprofauna from the Upper Pennsylvanian (Missourian) Tinajas Member of the Atrasado Formation, Socorro County, New Mexico: In: Carboniferous-Permian transition in Socorro County, New Mexico, New Mexico Museum of Natural History & Science, Bulletin 77, p. 113-132.

Harrison, A,. Heckert, A., and Krzyzanowski, S., 2013, A microvertebrate assemblage from the Upper Triassic Blue Mesa Member, Petrified Forest Formation (Adamanian) of teh Blue Hills in east-central Arizona: In: Program and Abstracts, 73rd Meeting Los Angeles, CA., Society of Vertebrate Paleontology, Supplement to online Journal of Vertebrate Paleontology, p. 139.

Heckert, A. B., 1997, The Tetrapod Fauna of the Upper Triassic Lower Chinle Group (Adamanian: Latest Carnian) of the Zuni Mountains, West-Central New Mexico: In: New Mexico’s Fossil Record 1, edited by Lucas, S. G., Estep, J. W., Williamson, T. E., and Morgan, G. S., New Mexico Museum of Natural History and Science, Bulletin 11, p. 29-39.

Heckert, A. B., 1999, Upper Triassic Tetrapods from the Lucero Uplift, Central New Mexico: New Mexico Geological Society Guidebook, 50th Field Conference, Albuquerque Geology, 1999, p. 311-315.

Heckert, A. B., 2001, The microvertebrate record of the Upper Triassic Lower Chinle Group (Carnian), southwestern U.S.A. and the early evolution of dinosaurs: Dissertation, submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy, Earth and Plantary Sciences, The University of New Mexico, Albuquerque, New Mexico, 465pp.

Heckert, A. B., and Lucas, S. G., 2002, Stratigraphy, Biostratigraphy and biochronology of Lower Chinle Group (Adamanian: Latest Carnian) vertebrate fossil assemblages in the Vicinity of St. Johns, Arizona: In: Wesetrn Association of Vertebrate Paleontologists with Mesa Southwest Museum and Southwest Paleontological Society of Mesa, Arizona, First Meeting of the New Millenium, Mesa Southwest Museum Bulletin n. 8, p. 9-15.

Heckert, A. B., and Lucas, S. G., 2002, Lower Chinle Group (Upper Triassic: Carnian) stratigraphy in the Zuni Mountains, west-central New Mexico: In: Upper Triassic Stratigraphy and Paleontology, edited by Heckert, A. B., and Lucas, S. G., New Mexico Museum of Natural History & Science, bulletin 21, p. 51-72.

Heckert, A. B., Lucas, S. G., and Estep, J. W., 2002, Lower Chinle Group (Upper Triassic: Upper Carnian) tetrapods from the vicinity of Cameron, Arizona: In: Upper Triassic Stratigraphy and Paleontology, edited by Heckert, A. B., and Lucas, S. G., New Mexico Museum of Natural History & Science, bulletin 21, p. 73-76.

Heckert, A. B., Lucs, S. G., and Hunt, A. P., 2005, Triassic vertebrate fossils in Arizona: In: Vertebrate Paleontology in Arizona, edited by Heckert, A. B., and Lucas, S. G., New Mexico Museum of Natural History & Sciene, Bulletin 29, p. 16-44.

Heckert, A. B., Lucas, S. G., and Krzyzanowski, S. E., 2003, Vertebrate fauna of the late Campanian (Judithian) Fort Crittenden Formation, and the age of Cretaceous vertebrate faunas of southeastern Arizona (U.S.A.): Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, n. 227, n. 3, p. 343-364.

Heckert, A. B., Lucas, S. G., Zeigler, K. E., and Kahle, R., 2001, New occurrence of Trilophosaurus (Archosauromorpha) from the Upper Triassic of west Texas and its biochronological significance: New Mexico Geology, n. 23, n. 2, p. 65.

Hernandez, R., Aguillon, M. C., Delgado, C. R., and Gomez, N. R., 1995, The Mexican Dinosaur National Monument: Journal of Vertebrate Paleontology, v. 15, supplement to n. 3, Abstracts of Papers, Fifty-Fifth Annual Meeting Society of Vertebrate Paleontology, Carnegie Museum of Natural History, Pittsburgh, Pennsylvania, November 1-4, p. 34a.

Herenandez-Rivera, R., 1997, Mexican Dinosaurs: In: Encyclopedia of Dinosaurs, edited by Currie P. J., and Padian K., Academic Press, p. 433-437.

Hitchcock, E., 1844, Report on Ichnolithology, or fossil footmarks, with a description of several new species, and the coprolites of birds form the Valley of the Connecticut River, and a supposed footmark for the Valley of the Hudson River: American Journal of Science, 2nd series, v. 47, p. 292-322.

Hilton, R. P., 2003, Dinosaurs and other Mesozoic reptiles of California: University of California Press, 318pp.

Hodnett, J.-P. M., and Lucas, S. G., 2018, A nonmarine Late Pennsylvanian vertebrate assemblage in a marine bromalite from the Manzanita Mountains, Bernalillo County, New Mexico: In: Fossil Record 6, Volume 1, edited by Lucas, S. G., and Sullivan, R. M., New Mexico Museum of Natural History and Science Bulletin, n. 79, p. 251-260.

Hoganson, J. W., and Murphy, E. C., 2002, Marine Breine Member (Maastrichtian) of the Hell Creek Formation in North Dakota: stratigraphy, vertebrate fossil record, and age: In: The Hell Creek Formation and the Cretaceous-Tertiary Boundary in the Northern Great Plains: An integrated Continental Record of the end of the Cretaceous, edited by Hartman, J. H., Johnson, K. R., and Nichols, D. J., Geological Society of America, Special Paper 361, p. 247-269.

Holden, C., 2002, Fossil vomit: Science, v. 295, p. 1459.

Hollocher, K. T., Alcober, O. A., Colombi, C. E., and Hollocher, T. C., 2005, Carnivore coprolites from the Upper Triassic Ischigualasto Formation, Argentina: chemistry, mineralogy, and evidence for rapid initial mineralization: Palaios, v. 20, p. 51-63.

Hollocher, T. C., Chin, K., Hollocher, K. T., and Kruge, M. A., 2001, Bacterial residues in coprolite of herbivorous dinosaurs: role of bacteria in mineralization of feces: Palaios, v. 16, p. 547-565.

Hollocher, K. T., Hollocher, T. C., and Rigby jr, J. K., 2010, A phosphatic coprolite lacking diagenetic permineralization from the Upper Cretaceous Hell Creek Formation, northeastern Montana: importance of dietary calcium phosphate in preservation: Palaios, v. 25, p. 132-140.

Hone, D. W. E., Henderson, D., Habib, M., and Therrien, F., 2013, Cephalopods in the diet of pterosaurs: evidence from a Rhamphorhynchus coprolite: In: 61st Symposium on Vertebrate Palaeontology and Comparative anatomy, 22nd Symposium on Palaeontological Preparations and Conservation, Geological Curators’ Group, Programme and Abstracts, edited by Walsh, S., Fraser, N., Brusatte, S., Liston, J,. and Carrio, V., Edinburgh, 2013, p. 27-28.

Hone, D., Henderson, D. M., Therrien, F., and Habib, M. B., 2015, A specimen of Rhamphorhynchus with soft tissue preservation, stomach contents and a putative coprolite: PeerJ 3:e1191; DOI I0.7717/peerj.1191, 19pp.

Hone, D. W. E., and Rauhut, O. W. M., 2010, Feeding behaviour and bone utilization by theropod dinosaurs: Lethaia, v. 43, p. 232-244.

Hugot, J.-P., Gardner, S. L., Borba, V., Araujo, P., Leles, D., Da-Rosa, A. A. S., Dutra, J,. Ferreira, L. F., and Araujo, A., 2014, Discovery of a 240 million year old nematode parasite egg in a cynodont coprolite sheds light on the early origin of pinworms in vertebrates: Parasites & Vectors, v. 7, 8pp.

Hunt, A. P., Chin, K., and Lockley, M. G., 1994, The Palaeobiology of Vertebrate Coprolites: In: The Palaeobiolgy of Trace Fossils, edited by Donovan S. K., John Hopkins University Press, Chapter 10, p. 221-240.

Hunt, A. P., and Lucas, S. G., 1995, Two Late Triassic vertebrate faunas at Petrified Forest National Park: In: National Park Service Paleontological Research, edited by Santucci, V. L., and McClelland, L., Technical Report NPS/NRPO/NRTR-95/16, p. 89-93.

Hunt, A. P., and Lucas, S. G., 1995, Vertebrate paleontology and biochronology of the Lower Chinle Group (Late Triassic), Santa Fe County, North-Central New Mexico: New Mexico Geological Society Guidebook, 46th Field Conference, Geology of the Santa Fe Region, p. 241-246.

Hunt, A. P., and Lucas, S. G., 2005a, A new coprolite ichnotaxon from the Early Permian of Texas: In: The Nonmarine Permian; edited by Lucas, S. G., and Zeigler, K. E., New Mexico Museum of Natural History & Science, Bulletin 30, p. 121-122.

Hunt, A. P., and Lucas, S. G., 2005b, A nonmarine vertebrate coprolite acme zone in the Perm-Triassic: In: The Nonmarine Permian; edited by Lucas, S. G., and Zeigler, K. E., New Mexico Museum of Natural History & Science, Bulletin 30, p. 123-124.

Hunt, A. P., and Lucas, S. G., 2005c, The origin of large vertebrate coprolites from the Early Permian of Texas: In: The Nonmarine Permian; edited by Lucas, S. G., and Zeigler, K. E., New Mexico Museum of Natural History & Science, Bulletin 30, p. 125-126.

Hunt, A. P., and Lucas, S. G., 2010, Crocodylian coprolites and the identification of the producers of coprolites: In: Crocodyle tracks and traces, edited by Milan, J., Lucas, S. G., Lockley, M. G., and Spielmann, J. A., New Mexico Museum of Natural History and Science, Bulletin, 51, 219-226.

Hunt, A. P., and Lucas, S. G., 2012, Classification of vertebrate coprolites and related trace fossils: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 137-146.

Hunt, A. P., and Lucas, S. G., 2012, Descriptive terminology of coprolites and recent feces:  In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 153-160.

Hunt, A. P., and Lucas, S. G., 2013, The fossil record of Carboniferous and Permian vertebrate coprolites: In: The Carboniferous-Permian Transition, Edited by Lucas, S. G., DiMichele, W. A., Barrick, J. E., Schneider, J. W. and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 60, p. 121-127.

Hunt, A. P., and Lucas, S. G., 2013, The significance of vertebrate coprolites in Late Paleozoic (and younger) lagerstätten: In: The Carboniferous-Permian Transition, Edited by Lucas, S. G., DiMichele, W. A., Barrick, J. E., Schneider, J. W. and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 60, p. 128.

Hunt, A. P., and Lucas, S. G., 2017, A new vertebrate coprolite locality from the Late Pennsylvanian of central New Mexico, USA, and thE environmental context of Carboniferous bromalites: In: Carboniferous-Permian transition in Socorro County, New Mexico, New Mexico Museum of Natural History & Science, Bulletin 77, p. 139-150.

Hunt, A. P., and Lucas, S. G., 2018, Mosasaur coprolites from the Bearpaw Formation (Upper Cretaceous) of Saskatchewan, Canada: Fossil Record 6, edited by Lucas, S. G., and Sullivan, R. M., New Mexico Museum of Natural History and Science Bulletin, n. 79, p. 271-275.

Hunt, A. P., Lucas, S. G., Milan, J., Lichtig, A. J., and Jagt, J. W. M., 2015, Vertebrate coprolites from Cretaceous Chalk in Europe and North America and the shark surplus paradox:  In: Fossil Record 4, edited by Sullivan R. M., and Lucas, S. G., New Mexico Museum of Natural History & Science, Bulletin 67, p. 63-68.

Hunt, A. P., Lucas, S. G., and Santucci, V. L., 1995, A simplified key to identifying isolated fossil teeth from Late Triassic rocks in Petrified Forest National Park: In: National Park Service Paleontological Research, Edited by Santucci, V. L., and McClelland, L., Technical Report NPS/NRPO/NRTR-95/16, p. 94-96.

Hunt, A. P., Lockley, M. G., Conrad, K. L., Paquette, M., and Chure, D. J., 1993, Late Triassic Vertebrates from the Dinosaur National Monument Area, (Utah, USA) with an example of the Utility of Coprolites for Correlation: In: The Nonmarine Triassic. New Mexico Museum of Natural History and Science Bulletin n. 3, p. 197-198.

Hunt, A. P., and Lucas, S. G., 2016, The record of vertebrate coprolites across the Cretaceous/Paleogene boundary: In: Fossil Record 5, edited by Sullivan, R. M., and Lucas, S. G., New Mexico Museum of Natural History & Science, Bulletin, 74, p. 79-94.

Hunt, A. P., Lucas, S. G., and Klein, H., 2017, Chapter 12, Late Triassic nonmarine vertebrate and invertebrtae trace fossils and the pattern of the Phanerozoic record of vertebrate trace fossils: In: The Late Triassic World, earth in a time of transition, editor Tanner, L. H., Topics in Geobiology, v. 46,  Springer, p. 447-544.

Hunt, A. P., Lucas, S. G., and Lockley, M. G., 1998, Taxonomy and Stratigraphic and Facies Significance of Vertebrate Coprolites of the Upper Triassic Chinle Group, Western United States: Ichnos, v. 5, p. 225-234.

Hunt, A. P., Lucas, S. G., Milan, J., and Spielmann, J. A., 2012, Vertebrate coprolite studies; status and prospectus: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 5-24. 

Hunt, A. P., Lucas, S. G., and Spielmann, J. A., 2005, Early Permian vertebrate coprolites from north-central New Mexico with description of a new ichnogenus: In: The Permian of Central New Mexico, edited by Lucas, S. G., Zeigler, K. E., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 31, p. 39-42.

Hunt, A. P., Lucas, S. G., and Spielmann, J. A., 2005, Biochronology of Early Permian vertebrate coprolites of the American southwest: In: The Permian of Central New Mexico, edited by Lucas, S. G., Zeigler, K. E., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 31, p. 43-45.

Hunt, A. P., Lucas, S. G., and Spielmann, J. A., 2012a, The bromalite collection at the National Museum of Natural History (Smithsonian Institution), with description of new ichnotaxa notes on other significant coprolite collections: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 105-114.

Hunt, A. P., Lucas, S. G., and Spielmann, J. A., 2012b, New coprolite ichnotaxa from the Buckland Collection at the Oxford University Museum of Natural History: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 115-124.

Hunt, A. P., Lucas, S. G., and Spielmann, J. A., 2012c, The vertebrate coprolite collection at the Natural History Museum (London): In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 125-129.

Hunt, A. P., Lucas, S. G., and Spielmann, J. A., 2013a, A large heteropolar coprolite from the Early Permian of New Mexico:  In: The Carboniferous-Permian transition in Central New Mexico, edited by Lucas, S. G., Nelson, W. J., DiMichele, W. A., Spielmann, J. A., Krainer, K., Barrick, J. E., Elrick, S. and Voigt, S., New Mexico Museum of Natural History & Science, Bulletin 59, p. 327-329.

Hunt, A. P., Lucas, S. G., and Spielmann, J. A., 2013b, Triassic vertebrate coprolite ichnofaunas: In: The Triassic System: New developments in stratigraphy and Paleontology, edited by Tanner, L. H., Spielmann, J. A. and Lucas, S. G., New Mexico Museum of Natural History & Science, Bulletin, 61, p. 237-258.

Hunt, A. P., Lucas, S. G., Spielmann, J. A., Cantrell, A. K., and Suazo, T. L., 2012, A new marine coprofauna from the Beeman Formation (Late Pennsylvanian: Late Missourian), Sacramento Mountains New Mexico, USA: IIn: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 193-196.

Hunt, A. P., Lucas, S. G., Spielmann, J. A., Cantrell, A., Suazo, T., and Lerner, A. J., 2012, Bromalites from the Tinajas Lagerstätte (Late Pennsylvanian: Late Missourian), central New Mexico, USA: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 175-183.

Hunt, A. P., Lucas, S. G., Spielmann, J. A., and Lerner, A. J., 2007, A review of vertebrate coprolites of the Triassic wih descriptions of new mesozoic ichnotaxa:In: The Global Triassic, Edited by Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 41, p. 88-107.

Hunt, A. P., Spielmann, J. A., Lucas, S. G., and Durney, K., 2013, Late Pennsylvanian coprofauna from the Finis Shale of North-Central Texas:  In: The Carboniferous-Permian Transition, Edited by Lucas, S. G., DiMichele, W. A., Barrick, J. E., Schneider, J. W. and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 60, p. 129-131.

Hunter, J. P., 1995, Coprolites Provide Evidence of Different Dinosaur Meal Plans: The Dinosaur Report, Fall 1995, p. 11.

J

Jacobs, L. L., Polcyn, M. J., Winkler, D. A., Myers, T. S., Kennedy, J. G., and Wagner, J. B., 2013, Late Cretaceous strata and vertebrate fossils of North Texas: Geological Society of America, Field Guide 30, p. 1-13.

Jain, S. L., 1983, Spirally coiled ‘coprolites’ from the Upper Triassic Maleri Formation, India: Paleontology, v. 26, part 4, p. 813-829.

Jain, S. L., 1989, Recent Dinosaur Discoveries in India, Including Eggshells, Nests and Coprolites: In: Dinosaur Tracks and Traces, edited by Gillette, D., and Lockley, M. G., Cambridge University Press, p. 99-108.

Jasinski, S. E., Sullivan, R. M., and Lucas, S. G., 2011, Taxonomic composition of the Alamo Wash local fauna from the Upper Cretaceous Ojo Alamo Formation (Naashoibito Member), San Juan Basin, New Mexico: In: Fossil Record 3, edited by Sullivan, R. M., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 53, p. 216-271.

Johnson, G. D., 2012, Possible origin of the xenacanth sharks Ornthacanthus texensis and Orthacanthus platypternus in the Lower Permian of Texas, USA: Historical Biology, v. 24, n. 4, p. 369-379.

Jouy-Avanti, F., 2008, A standardized method for the description and the study of coprolites: Journal of Archaeological Science, v. 30, p. 367-372.

K

Kear, B. P., 2006, First gut contents in a Cretaceous sea turtle: Biology Letters, v. 2, p. 113-115.

Kirkland, J. I., 2006, Fruita paleontological area (Upper Jurassic, Morrison Formation), Western Colorado: an example of terrestrial taphofacies analysis: In: Paleontology and Geology of the Upper Jurassic Morrison Formation, Edited by Foster, J. R., and Lucas, S. G., New Mexico Museum of Natural Hisotry & Science, Bulletin 36, p. 67-95.

Kirkland, J. I., Hernandez Rivera, R, Martinex, M. C. A., Jesus, C. R. D. de, Nunez, R. G., and Vallejo, I., 2000, The Late Cretaceous Difunta Group of the Parras Basin, Coahuila, Mexico and its vertebrate fauna: In: Guide Book of the Field Trips, Avances en Investigacion, special publication, p. 133-172.

Kues, B. S., 1993, Bibliographic catalogue of New Mexico Vertebrate Fossils: In: Aspects of Mesozoic Geology and Paleontology of the Colorado Plateau. Museum of Northern Arizona Bulletin 59, p. 199-338.

L

Laojumpton, C., Matkhammee, T., Wathanapitaksakul, A., Stueethorn, V., Suteethorn, S., Kauprsert, K., Srisuk, P., and Le Loeuff, 2012, Preliminary report on coprolites from the Late Triassic of Thailand: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 207-213.

Le Loeuff, J., 2012, Ferdinand Panescorse and his classification of coprolite: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 147-151.

Lepore, T., Chink K,. Robinson, P., Culver, T. and Frazier, F., 2018, Soft-tissue impressions and organic inclusions in a large theropod coprolite deposit form the Laramie Formation of Colorado: In: 78th Annual Meeting, Meeting Program and Abstracts, Society of Vertebrate Paleontology, p. 166-167.

Lockley, M., 2012, Dirty feet leave dirty trails: notes on relationships between coprolites and tracks: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 61-64. 

Lockley, M. G., Gierlinski, G. D., Houck, K., Lim, J.-D., Lim, K. S., Kim, D.-Y., Kim, T. H., Kang, S.-H., Hunt Foter, R., LI, R., Chesser, C., Gay, R., Dubicka, Z., Cart, K., and Wright, C., 2014, New excavations at the Mill Canyon Dinosaur Track Site (Cedar Mountain Formation, Lower Cretaceous) of Eastern Utah: In: Fossil Footrpints of Western North America, edited by Lockley, M. G., and Lucas, S. G., New Mexico Museum of Natural History & Science, Bulletin 62, p. 287-300.

Loyal, R. S., Khosla, A., and Sahni, A., 1996, Gondwana Dinosaurs of India: Affinities and Palaeobiography: Proceedings of the Gondwana Dinosaur Symposium, Memoirs of the Queensland Museum, v. 39, part 3, p. 627-638.

Lucas, S. G., and Hunt, A. P., 1993, Triassic stratigraphy and paleontology, Chima Basin and Adjacent areas, North-Central New Mexico: New Mexico Geological Society Guidebook, 43rd Field Conference, San Juan Basin, v. 4, p. 151-172.

Lukender, A., Surmik, D., Gorzelak, P., Niedzwiedzki, R., Brachaniec, T., and Salamon, M. A., 2020, Bromalites from the Upper Triassic Polzberg section (Austria); insights into trophic interactions and food chains of the Polzberg palaeobiota: Scientific Reports, published online, 11pp.

M

Main, D. J., and Noto, C. R., 2012, Paleoecology and Paleonenvironments of the Woodbine Formaton of North Texas: the Arlington Archosaur Site. Earthwatch Field Trip Guid, Summer, 2012: Earthwatch Institute, 33pp.

Milan, J., Rasmussen, B. W., and Bonde, N., 2012, Coprolites wiht prey remains and traces from coprophagous organisms from the Lower Cretaceous (Late Berriasian) Jydegaard Formation of Bornholm, Denmark: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 235-240.

Manabe, M., 2005, The Dinosaur expo 2005, 151pp.

Mancuso, A. C., Mariscano, C., and Palma, R. M., 2001, Coprolitos de vertebrados en el Triasico de la cuenca cuyana (Formaciones Cacheuta y Rio Blanco), provincia de Mendoza: Ameghiniana, v. 38, n . 4, supplement, 12R.

Mancuso, A. C., Marsicano, C,. and Palma, R., 2004, Vertebrate coprolites from the Triassic of Argentina (Cuyan Basin): Ameghiniana, v. 41, n. 3, p. 347-354.

Mansky, C. F., and Lucas, S. G., 2013, Romer' Gap revisited: continental assemblages and ichno-assemblages from the basal Carboniferous of Blue Beach, Nova Scotia, Canada:  In: The Carboniferous-Permian Transition, Edited by Lucas, S. G., DiMichele, W. A., Barrick, J. E., Schneider, J. W. and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin 60, p. 244-273.

Mansky, C. F., Lucas, S. G., Spielmann, J. A., and Hunt, A. P., 2012, Mississippian bromalites from Blue Beach, Nova Scotia, Canada: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 161-170. 

Martill, D. M., and Naish, D. M., 2001, Dinosaur trace fossils: footprints, coprolites and gastroliths: In: Dinosaurs of the Isle of Wight, edited by Martill, D. M., and Naish, D., The Palaeontological Association, Field Guides to Fossils, n. 10, p. 310-323.

Martin, J. E., Schumacher, B. A., Parris, D. C., and Grandstaff, B. S., 1998, Fossil Vertebrates of the Niobrara Formation in South Dakota: Dakoterria, v. 5, p. 39-54.

McAllister, J. A., 1985, Reevaluation of the formation of spiral coprolites: The Univeristy of Kansas Paleontological Institute, paper 114, p. 1-12.

McMenamin, M. A. S., Hussey, M. C., and Orr, L., 2016, Ichthyosaur coprolite with nautiloid: new data on the diet of Shonisaurus: GSA Annual meeting in Denver, Colorado, USA, 2016, Geologicla Society of America Abstracts with Programs, v. 48, n. 7. p.

Medeiros, M. A., Freire, P. C., Pereira, A. A., Santos, R. A. B., Lindoso, R. M., Coelho, A. F. do A., Passos, E. B., and Junior, E. S., 2007, Another African Dinosaur record in the Eocenomanian of Brazil and a revision of the paleofauna of the Laje do Coringa Site: In: Paleontologia: Cenarios de Vida, v. 1, edited by Carvalho, I. de S., Cassab, R. de C. T., Schwanke, C., Carvalho, M. de A., Fernandes, A. C. S., Rodrigues, M. A. da C., Carvalho, M. S. S. de, Arai, M., and Oliveria, M. E. Q., p. 405-415.

Mezzalira, S., 1989, Cretaceo Superior Grupo Bauru: Os Fosseis do Estado de Sao Paulo, Serie Pesquisa, p. 78-89.

Maxwell, W. D., Hallas, B. H., and Horner, J. R., 1997, Further neonate dinosaurian remains and dinosaurian eggshell from the Cloverly Formation of Montana: Journal of Vertebrate Paleontology, v. 17, supplement to n. 3, Abstracts of Papers, Fifty-seventh Annual Meeting Society of Vertebrate Paleontology, Field Museum, Chicago, Illinois, October 8-11, p. 63a.

Milan, J., Clemmensen, L. B., Adolfssen, J. S,. Estrup, E., Frobose, N., Klein, Mateus, O., and Wings, O., 2012, A preliminary report on coprolites from the late Traissic part of the Kapstewart Formation, Jameson Land, East Greenland: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 203-205.

Milan, J., Mateus, O., Mau, M., Rudra, A., Sanei, J., and Clemmensen, L B., 2021, A possible phytosaurian (Archosauria, Pseudosuchia) coprolite from the Late Triassic Fleming Fjord Group on Jameson Land, central East Greenland: Bulletin of the Geological Society of Denmark, v. 69, p. 71-80.

Mohabey, D. M., Udhoji, S. G., and Verma, K. K., 1993, Palaeontological and sedimentological observations on non-marine Lameta Formation (Upper Cretaceous) of Maharashtra, India: their palaeoecological and palaeoenvironmental significance: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 105, p. 83-94.

Monastersky, R., 1998, Getting the scoop from the poop of T. rex: Science News, v. 153, p. 391.

Morton, S. G,. 1844, Fossil bones of Mosasaurus: Proceedings of the Academy of Natural Sciences, Philadelphia, v. 2, p. 132-133.

Mikulas, R., and Dvorak, Z., 2010, Possible crocodylian bite traces, Miocene of the most basin (Czech Republic): In: Crocodyle tracks and traces, edited by Milan, J., Lucas, S. G., Lockley, M. G., and Spielmann, J. A., New Mexico Museum of Natural History and Science, Bulletin, 51, 191-193.

N

Nakajima, Y., and Izumi, K,. 2014, A new coprolite assemblage from the Upper Osawa Formation (Spathian), northeastern Japan: Marine fanal diveristy after teh end-Permian mass extinction: In: Meeting Program and Abstracts, 74th Meeting Berling, Society of Vertebrate Paleontology, p. 194.

Nesov, L. A., 1995, Dinozavri severnoi Yevrasii: Novye dannye o sostave kompleksov, ekologii i paleobiogeografii [Dinosaurs of Northern Eurasia: new data about assemblages, ecology and paleobiogeography]: Scientific Research Institued of the Earth’s Crust, St. Petersburg State University, St. Petersburg, Russia, 156 pp. + 14 plates.

Niedzwiedzki, G., Bajdek, P., Qvarnström, M., Sulej, T., Sennikov, A. G., and Golubev, V. K., 2016, Reduction of vertebrate coprolite diversity associated with the end-Permian extinction event in Vyazniki region, European Russia: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 450, p. 77-90.

Nona, E., Macinnes, S., Gasaway, S., Jamison, M,. Mauterer, J., and Sankey, J,. 2005, Ankylosaurs and more: recent dinosaur discoveries in Big Bend National Park, Texas: Journal of Vertebrate Paleontology, v. 25, supplement to n. 3, abstracts of papers, sixty-fifth annual meeting, Society of Vertebrate Paleontology, Mesa Southwest Museum and Phoenix Marriott Mesa, Mesa, Arizona, October 19-22, 2005, p. 96a.

Nonsrirach, T., Suteethron, S., Tumpeesuwan, S., Lauprasert, K, and Suteethorn, V., 2016, New vertebrate coprolites from the Late Triassic Huai Hin Lat Formation of Thailand:  In: The Palaeontological Association, 60th annual meeting, 14th-17th December, Universite Claude Bernadrd Lyon 1, Lyon, France, Programme, Abstracts, and AGM papers, p. 96.

Northwood, C., 1997, Coprolites form the Early Triassic Arcadia Formation, Queensland, Australia: Journal of Vertebrate Paleontology, v. 17, supplement to n. 3, Abstracts of Papers, Fifty-seventh Annual Meeting Society of Vertebrate Paleontology, Field Museum, Chicago, Illinois, October 8-11, p. 67a.

Northwood, C., 2005, Early Triassic coprolites from Australia and thier palaeobiological significance: Palaeontology, v. 48, part 1, p. 49-68

Northwood, C., Woods, B., and Evans, S., 2000, Continents, carcasses, conifers and coprolites: documenting the Early Triassic: 48th Symposium of Vertebrate Paleontology and Comparative Anatomy, 9th Symposium of Palaeontological Preparators and Conservators, unnumbered.

O

Ochev, V. G., 1974, Some remarks on coprolites of Triassic Vertebrates: Paleontology Journal, v. 8, n. 2, p. 253-255.

Owocki, K., Niedzwiedzki, G., Sennikov, A. G., Golubev, V. K., Janiszewska, K., and Suleji, T., 2012, Upper Permian vertebrate coprolites from Vyazniki and Gorokhovets, Vyatkian regional stage, Russian platform: Palaios, v. 27, p. 867-877.

P

Padian, K., 1997, Trace Fossils: In: Encyclopedia of Dinosaurs, edited by Currie, P. J., and Padian, K., Academic Press, p. 745-747.

Pavanatto, A. E. B., Da-Rosa, A. A. S., Temp-Muller, R., Roberto-Da-Silva, L., Ribeiro, A M., Martinelli, A. G., and Dias-da-Silva, S., 2020, Bortolin site, a new fossiliferous locality in the Triassic (Ladinian/Carnian) of southern Brazil: Revista Brasileira de Paleontolgia, v. 23, n. 2, p. 123-137.

Barrios-de Pedro, S., and Buscalioni, A. D., 2018, Scrutinizing Barremian coprolite inclusions to record digestive strategies: Annales Societatis Geologorum Poloniae, v. 88, p. 203-221.

Pemberton, S. G., 2012, William Buckland (1784-1856) and Henry de la Beche (1796-1855): the earliy history of coprolites: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 29-43. 

Pereda-Suberbiola, X., Bardet, N., Jouve, S., Iarochene, S. H., and the collaboration of the OCP (Office of Cherifen des Phosphates, Centere Minier de Khouribga, Direction du Developpmenent, Khouriba, Morocco), 2001, The first pterosaur remains from the Latest Cretaceous Phosphates of Morocco: In: Two hundred years of pterosaurs, a symposium on the anatomy, evolution, palaeobiology and environments of Mesozoic Flying Reptiles, Strata, Serie 1, volume 11, p. 78-79.

Perkins, S., 2001, Jumbled bones show birds on the menus: Science News, v. 159, p. 159.

Perkins, S., 2005, Ancient grazers, finds adds grass to dinosaur menu: Science News, v. 168, p. 323.

Petit, C. W., 1998, The hot poop on T. rex. Fossilized feces reveal fearsome appetite: U. S. News and World Report, June, 29, 1998, v. 124, n. 25, p. 64.

Pires-Domingues, R. A, Carvalho, A. B. de, Zaher, H., and Riccomini, C., 2005, Eventos recorrentes de inudacoes e o registro fossilifero Neocretaceo da regiao de general salgado, Sp (Formacao Adamantina, Bacia Bauru): In: II Congresso Latino-Americano de Paleontologia de Vertebrados, Rio De Janeiro Museu Nacional, edited by Kellner, A. W. A., Henriques, D. D. R., and Rodrigues, T., Boletim de Resumos, p. 204.

Pollard, J. E., 1992, 4. Palaeoecology. 4.12 Evidenc for Diet: In: Palaeobiology, a synthesis, edited by Briggs, D. E. C., and Crowther, P. R., Blackweil Scientific Publications, p. 363-367

Poplin, C., 1986, Taphocoenoses et restes alimentaires de vertebras carnivores: Bulletin du Muséum National d’Histoire Naturelle, Sciences de la Terre, 4th series, v. 8, section C, n, 2, p. 257-267.

Prasad, G. V. R., and Singh, K., 2006, A preliminary report on the continental Triassic microvertebrate fauna of India: In: 9th International Symposium, Mesozoic Terrestrial Ecosystems and Biota, Manchester 2006, Abstracts and Proceedings volume, p. 174.

Proust, W., 1835, Letter from Dr. Prout to Dr. Buckland respecting the Analysis of the Fossil Faeces of Ichthyosaurus and other Animals. Buckland, W., 1835. On the discovery of Coprolites, or Fossil Faeces, in the Lias at Lyme Regis, and in other Formations: Transactions of the Geological Society of London, 2nd series, v. 3, p. 227-238.

Q

Qvarnström, M,. 2018, Novel data on trophic food webs in ancient ecological communities revealed from coprolites (fossil feces): In: 78th Annual Meeting, Meeting Program and Abstracts, Society of Vertebrate Paleontology, p. 200.

Qvarnström, M., 2021, Food web analysis of early Mesozoic ecosystems shed new light on early dinosaur evolution: In: The Society of Vertebrate Paleontology 80th Annual Meeting, Virtual 2020, October, 12-16, 2020, Meeting Program and Abstracts, p. 277-278.

Qvarnsrom, M,. Elgh, E,. Owocki, K., Ahlberg, P. E., and Niedzwiedzki, G., 2019, Filter feeding in Late Jurasic Pterosaurs supported by corporlite contents: In: 79th SVP Annual meeting, Brisbane, Queensland Australia, Society of Vertebrate Paleontology, p. 175.

Qvarnstrom, M., Elgh, E., Owocki, K., Ahlberg, P. E., and Niedzwiedzki, G., 2019, Filter feeding in Late Jurassic pterosaurs supported by coprolite contents. PeerJ 7:e7375 http://doi.org/10.7717/peerj.7375, 12pp.

Qvarnstrom, M., Fikacek, M., Vernstrom, J. V., Huld, S., Geutel, R. G., Arriaga-Varela, E., Ahlberg, P. E., and Niedzwiedzki, G., 2021, Exceptionally preserved beetles in a Triassic coprolite of putative dinosauriform origin: Current Biology, v. 31, 8p.

Qvarnstrom, M., Wernstrom, J. V., Piechowski, R., Talanda, M., Ahlberg, P. E., and Niedzwiedzki, G., 2019, Beetle-bearing coprolites possibly reveal the diet of a Late Triassic dinosauriform: Royal Society Open Science, 6: 181042, 11pp.

R

Rinehart, L. F., Lucas, S. G., Heckert, A. B., And Smith, J., 2005, New evidence of cannibalism in the Late Triassic (Apachean) dinosaur, Coelophysis bauri (Theropoda: Ceratosauria): Journal of Vertebrate Paleontology, v. 25, supplement to n. 3, abstracts of papers, sixty-fifth annual meeting, Society of Vertebrate Paleontology, Mesa Southwest Museum and Phoenix Marriott Mesa, Mesa, Arizona, October 19-22, 2005, p. 105a.

Rinehart, L. F., Lucas, S. G., Heckert, A. B., Spielmann, J. A., and Celesky, M. D., 2009, The paleobiology of Coelophysis bauri (Cope) from the Upper Triassic (Apachean) Whitaker quarry, New Mexico, with detailed analysis of a single quarry block: New Mexico Museum of Natural History & Science, a division of the Department of Cultural Affaris, Bulletin, 45, 260pp.

Ratkevich, R. P., 1994, Paleontology of the Late Cretaceous Fort Crittenden and Salero Formations of Southern Arizona: Proceedings of Southwest Paleontological Society and Mesa Southwest Museum, Mesa, Arizona, v. 2, p. 77-80.

van Regenmorter, J. M., Videtich, P. E., and Neal, W. J., 2004, Coprolites and enterospirae from the Mississippian Michigan Formation, Western Michigan: In: The Geological Society of America, Geoscience in a changing world, annual meeting & exposition, abstracts with programs, v. 36, n. 3, p. 61.

Ridgwell, N., Chin, K., upchurch, G., and Sertich, J., 2015, Rare direct evidence of angiosperm consumption by dinosaurs based on coporlites from the Kaiparowits Formation of Utah: In: Meeting Program and Abstracts, SVP 75th Annual Meeting, Society of Vertebrate Paleontology, p. 203.

Ritter, M., 1998, Dinosaur dung tells new tale on T. rex: The San Diego Union-Tribune, thrusday, June 18, 1998, p. A-12.

Rinehart, L. F., and Lucas, S. G., 2016, Eocyclotosaurus appetolatus, a Middle Triassic amphibian: osteology, life history, and paleobiology: New Mexico Museum of Natural History & Science, Bulletin 70, 120pp.

Rozada, L., Allain, R., Vullo, R., Goedert, J., Augier, D., Jean, A.-D., Marchal, J., de Fabrtegues, C. P., Qvarnstrom, M., and Royo-Torres, R., 2021, A lower Cretaceous Lagerstatte from France: a taphonomic overview of the Angeac-Charente vertebrate assemblage: Lethaia, published online, 25pp.

Ruiz-Omenaca, J. I., Canudo, J. I., and Cuenca-Bescos, G., 1997, Primera evidencia de un area de alimentacion de dinosaurios herbivoros en el Cretacico Inferior de Espana (Teruel): Monografias de la Academia de Ciencias exactas fisicas Quimicas y Naturales de Zaragoza, n. 10, p. 1-48.

S

Sales Viania, M. S., and Richter, M., 1999, Coprolites of the Santana Formation (lower Cretaceous, NE-Brazil): who produced them?: Ameghiniana, v. 36, n. 1, p. 107-108.

Salvini-Bonnard, G., and Zaninetti, L., 1989, Le coprolite Bactryllium Heer dans la “Formation du monte facito: auct. (Trias), Apennin Meridional, Italie: Reviue de Paleobiologie, v. 8, n. 2, p. 345-355.

Sanz, J. L., Chiappe, L. M., Fernandez-Jalvo, Y., Ortega, F., Sanchez-Chillon, Poyato-Ariza, F. J., and Perez-Moreno, B. P., 2001, An Early Cretaceous pellet: Nature, v. 409, p. 998-1000.

Sawyer, G. T., 1981, A study of Crocodilian coprolites from Wannagan Creek Quarry (Paleocene-North Dakota) Ichnofossils II: Scientific publications of the Science Museum of Minnesota, New Series, v. 5, n. 2, p. 1-29.

Schindler, T., and Haupe, O., 1996, Eine erste fischfauna (Chondrichthyes, Acanthodii, Ostichthyes) aus dem Permokarbon Niederosterrichs (Zobing, NE Krems) mit palaookologischen und biostratigraphischen Anmerkungen : Beitr. Palaont, v. 21, p. 93-103.

Schmitz, M., and Binda, P. L., 1991, Coprolites from the Maastrichtian Whitemud Formation of southern Saskatchewan: morphological classification and interpretation on diagensis: Palaeontologische Zeitschrift, v. 65, n. ¾, p. 199-211.

Schweigert, G., and Dietl, G., 2012, Vertebrate coprolites from the Nusplingen Lithograhic limestone (Upper Jurassic, SW Germany): In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 215-220. 

Schwimmer, D. R., 2002, King of the Crocodylians: Indiana University Press, 220pp.

Schwimmer, D. R., Sanders, A. E., Erickson, B. R., and Weems, R. E., 2015, A Late Cretaceous dinosaur and reptile assemblage from South Carolina, USA: Americna Philosophical Society Press, v. 105, part 2, 157pp.

Sharma, N., Kar, R. K., Agarwai, A., and Kar, R,. 2005, Fungi in dinosaurian (Isisaurus) coprolites from the Lameta Formation (Maastrichtian) and its reflection on food habit and environment: Micropaleontology, v. 51, n. 1, p. 73-82.

Sharpe, T., 2004, ‘coprolites’: Geology Today, v. 20, n. 4, p. 129-130.

Shears-Ozeki, C., 2017, Bored bones from the terrestrial Middle Cretaceous Kem-Kem beds of southeast Morocco: In: SVPCA, the 65th Symposium on Vertebrate Palaeontology and Comparative Anatomy, and The 26th Symposium on Palaeontological Preparation and Conservation, Abstract volume, p. 74-75.

Silva, R. R., Ferigolo, J., Bajdek, P., and Pineiro, G., 2017, The feeding habits of Mesosauridae: Frontiers in Earth Science, Original Research, v. 5, article 23, 18pp.

Smith, C. P. A., Laville, T., Fara, E., Escarguel, G., Olivier, N., Vennin, E., Goudemand, N., Bylund, K. G., Jenks, J. F., Stephen, D. A., Hautmann, M., Charbonnier, S., Krumenacker, L. J., and Brayard, A., 2021, Exceptional fossil assemblages confirm the existence of complex Early Triassic ecosystems during the early Spathian: Scientific Reports, published online, 12pp

Smith, R. M. H., 1998, Bone bearing coprolites from the Upper Permian Beaufort Group, Karoo Basin, South Africa: In: Journal of African Earth Sciences, v. 27, n. 1A July 1998: Special Abstracts Issue, Gondwana 10: Event Stratigraphy of Gondwana, p. 183-184.

Smith, R. M. H., and Botha-Brink, J., 2011, Morphology and composition of bone-bearing coprolites from the Late Permian Beaufort Group, Karoo Basin, South Africa: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 312, p. 40-53.

Sonobe, H., Kobayashi, Y., Lü, J., Barsbold, R., and Bhiba, K., 2013, Vertebrate coprolites from the Gurvan Ereen Formation (Lower Cretaceous) in Tatal, western Mongolia: In: Program and Abstracts, 73rd Meeting Los Angeles, CA., Society of Vertebrate Paleontology, Supplement to online Journal of Vertebrate Paleontology, p. 216.

Souto, P. R. de F., 1999, Inferencias paleoecologicas associadas aos coprolitos da formacao Santa Maria, Rio Grande do Sul: 1st Simp. Brasil. Pal. Vert, Paleontologia em Destaque, Ano 14, n. 26, p. 52.

Souto, P. R. de F., 2001, Tetrapod coprolites from the Middle Triassic of Southern Brazil: Gaia, n. 16, p. 51-57.

Souto, P. F., 2001, New occurrences of coprolites from the Ariripe basin (Upper Jurassic and Lower Cretaceous, Brazil): NAPC Abstracts, unnumbered.

Souto, P. F., 2001, New occurrences of coprolites from the Ariripe basin (Upper Jurassic and Lower Cretaceous, Brazil): In: North American Paleontological Convention (NAPC) 2001, Program and Abstracts, PaleoBios, v. 21, supplement to n. 2, p. 119.

Souto, P. R. de F., 2002, Coprolites from Bauru Basin in Brazil: Journal of Vertebrate Paleontology, v. 22, supplement to n. 3, Abstracts of Papers, Sixty-second annual Meeting of the Society of Vertebrate Paleontology, Sam Noble Oklahoma Museum of Natural History, University of Oklahoma, Norman Oklahoma, October 9-12, p. 110a.

Souto, P. R. de F., 2010, Crocodylomorph coprolites from the Bauru Basin, Upper Cretaceous, Brazil:  In: Crocodyle tracks and traces, edited by Milan, J., Lucas, S. G., Lockley, M. G., and Spielmann, J. A., New Mexico Museum of Natural History and Science, Bulletin, 51, 201-208.

Souta, P. R. de F., Arruda, J. T., and Carvalho, I. de S., 2005, Ocorrencia de coprolitos de crocodylifomre no Municipio de general Salgado, Sao Paulo (Formacao Adamantina, Bacia Bauru): In: II Congresso Latino-Americano de Paleontologia de Vertebrados, Rio De Janeiro Museu Nacional, edited by Kellner, A. W. A., Henriques, D. D. R., and Rodrigues, T., Boletim de Resumos, p. 253-254.

Schwanke, C., Souto, P. R. de F., 2007, Coprolitos espiralados da Formacao pedra do fogo, Bacia do Parnaiba: In: Paleontologia: Cenarios de Vida, v. 1, edited by Carvalho, I. de S., Cassab, R. de C. T., Schwanke, C., Carvalho, M. de A., Fernandes, A. C. S., Rodrigues, M. A. da C., Carvalho, M. S. S. de, Arai, M., and Oliveria, M. E. Q., p. 111-120.

Shelton, C. D., 2013, A new method to determine volume of bromalites; morphometrics of Lower Permian (Archer City Formation) heteroplar bromalites: Swiss Journal of Palaeontology, v. 132, np. 221-238.

Souto, P. R. de F., and Medeiros, M. A., 2012, Tetrapod coprolites from the Cenomanian bone-bed northeastern, Brazil: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 229-234.

Stinnesbeck, W., Frey, E., Rivas, L., Perez, J. P. Cartes, M. L., Soto, C. S., and Lobos, P. Z., 2014, A lower Cretaceous ichthyosaur graveyard in deep marine slope channel deposits at Torres de Paine National Park, southern Chile: Geological Society of America Bulletin, published online, 23 pp.

Stocker, M. R., Nesbitt, S. J., Angielczyk, K D., Sidor, C A., Fortner, J., Olroyd, S. L., Lungmus, J. K., and Smith, R. M., 2019, An exceptionally preserved small arboral reptile from the Upper Perimian Usili Formation of Tanzania: In: 79th SVP Annual meeting, Brisbane, Queensland Australia, Society of Vertebrate Paleontology, p. 199.

Suazo, T. L., Cantrell, A. K., Lucas, S. G., Spielmann, J. A., and Hunt, A. P., 2012, Coprolites across the Cretaceous/Tertiary boundary, San Juan Basin, New Mexico: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 263-274.

Sullivan, R. M., 2006, An-Shi-Sle-Pah Wilderness study area (San Juan Basin, New Mexico: a paleontological (And historical) treasure and resource: In: America's Antiquities: 100 years of managing fossils on Federal Lands, edited by Lucas, S. G., Spielmann, J. A., Hester, P. M., Kenworthy, J. P., and Santucci, V. L., New Mexico Museum of Natural History & Sciences, Bulletin 34, p. 169-174.

Sullivan, R. M., and Jasinski, S. E., 2012, Coprolites from the Upper Cretaceous Fruitland, Kirtland and Ojo Alamo Formatoin, San Juan Basin, New Mexico: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 255-262.

Swisher C. C., III, Wang, Y.-Q., Wang, X.-L., Xu, X., and Wang, Y., 1999, Cretaceous age for the feathered dinosaurs of Liaoning, China: Nature, v. 400, p. 56-61.

T

Tanke, D. H., and Rothschold, B. M., 2002, Dinosaures: An annotated bibliography of dinosaur paleopathology and related topics –1838-2001: New Mexico Museum of Natural History and Sciences, bulletin 20, 96pp.

Tapanila, L., Roberts, E. M., and O’Leary, M. A., 2003, Phosphate-mediated taphonomy: a concentrated bone and bioeroded coprolite bed from the Maastrichtian of Mali: Journal of Vertebrate Paleontology, v. 23, supplement to n. 3, abstracts of papers, sixty-third annual meeting, Society of Vertebrate Paleontology, Science museum of Minnesota, St. Paul, Minnesota, October 15-18, p. 103a.

Taquet, P., 1976, Geologie et Paleontologie du gisement de Gadoufaoua (Aptian du Niger): Cahires Paleont, 191pp.

Tokaryk, T. T., 1997, First evidence of juvenile ceratopsian (Reptilia: Ornithischia) from the Frenchman Formation (late Maastrichtian) of Saskatchewan: Canadian Journal of Earth Science, v. 34, p. 1401-1404.

Tokaryk, T. T., 1998, A faecal moment recorded: Geology Today, July-August, 1998, p. 133-134.

Tokaryk, T. T., 1999, The Status of Vertebrate Paleontology in Saskatchewan Revisited – The Cretaceous: Candian Palaeobiology, v. 2, p. 2-11.

Tokaryk, T. T., 2004, Advances in ‘coprology’: Geology Today, v. 20, n. 4, p. 129.

Tokaryk, T. T., and Byrant, H. N., 2004, The fauna from the Tyrannosaurus rex excavation, Frenchman Formation (Late Maastrichtian), Saskatchewan: In: Summary of Investigations 2004, v. 1, Saskatchewan Geological Survey, Sask. Industry Resources, Misc. Rep. 2004-4.1, CD-ROM, Paper A-18, 12pp.

Trewin, N. H., and Davidson, R. G., 1996, An Early Devonian lake and its associated bita in the Midland Valley of Scotland: Transcations of the Royal Society of Edinburgh: Earth Sciences, v. 86, p. 233-246.

Trinajstic, K, 2000, Dinosaur diets. Who ate whom in the dinosaur world: Dinonews, v. 14, p. 3-6.

V

Vallon, L. H., 2012, Digestichnia (Vialov, 1972)-an almost forgotten ethological class for trace fossils: In: Vertebrate Coprolites, edited by Hunt, A. P., Milan, J., Lucas, S. G., and Spielmann, J. A., New Mexico Museum of Natural History & Science, Bulletin, 57, p. 131-135.

Vasconcellos, F. M. de., and Carvalho, I. de S., 2010, Paleoichnological assemblage associated with Baurusuchus salgadoensis remains, a barausuchidae Mesoeurocrodylia from the Bauru Basin, Brazil (Late Cretaceous): In: Crocodyle tracks and traces, edited by Milan, J., Lucas, S. G., Lockley, M. G., and Spielmann, J. A., New Mexico Museum of Natural History and Science, Bulletin, 51, 227-237.

Vaughn, P. P., 1963, New information on the structure of Permian Lepospondylous vertebrae-from an unusual source: Bulletin Southern Californian Academy of Sciences, v. 62, part 3, p. 150-158.

Vjalov, O. S., and L. I., 1993, Coprolies from the Jurassic deposites of Northern Fergana.

W

W. D., 1998, A king’s supper: Geotimes, September 1998, p. 11-12.

Wahl, A. M., and Martin, A. J., 1998, Coprolites happen: Post-defecation history of Vertebrate coprolites as a study in ichnology and taphonomy: 1998, Abstracts with Programs. The Geological Society of American 47th Annual Meeting, Southeastern Section, p. 64.

Wahl, A. M., Martin, A. J., and Hasiotis, S. T., 1997, Vertebrate coprolites and coprophagy traces, Chinle Formation (Late Triassic), Petrified Forest National Park, Arizona: The Geological Society of America 31st Annual South-Central 50th Annual Rocky Mountain, v. 29, n. 2, p. 50.

Wahl, A. M., Martin, A. J., and Hasiotis, S. T., 1998, Vertebrate coprolites and coprophagy traces, Chinle Formation (Late Triassic), Petrified Forest National Park, Arizona: In: National Park Service Paleontological Research, edited by Santucci V. L., and McClelland L., p. 144-148.

Waldman, M., 1970, Comments on a Cretaceous coprolite from Alberta, Canada: Canadian Journal of Earth Science, v. 7, p. 1008-1012.

Waldman, M., and Hopkins, W. S. jr., 1970, Coprolites from the Upper Cretaceous of Alberta, Canada, with a description of their microflora: Canadian Journal of Earth Science, v. 7, p. 1295-1303.

Weiler, W., 1940, Fischreste aus der umgebung von San Cristobal, SW, Venezuela: Zentralblatt für Mineralogie, Geologie und Paläontologie, abt B., n. 8, p. 240-255.

Weems, R. E., 2018, A synopsis of the vertebrate fauna from the Culpeper basin (Upper Triassic-Lower Jurassic, Maryland and Virgina): In: Fossil Record 6, Volume 2, edited by Lucas, S. G., and Sullivan, R. M., New Mexico Museum of Natural History and Science Bulletin, n. 79, pp. 749-768.

Weems, R. E., 2018, Crocodilians of the Clavert Cliffs: In: The Geology and vertebrate paleontology of Calvert Cliffs, Maryland, USA, edited by Godfrey, S. J.: Smithsonian Contributions to Paleobiology, n. 100, p. 213-240.

Werner, C., 1993, Late Cretaceous continental vertebrate fauns of Niger and Northern Sudan: In: Geosicentific Research in Northeast Africa. Edited by Thorweihe, U., and Schandelmier, S., Proceedings of the international Conference on Geoscientific Research in Northeast Africa/Berlin/Germany/17-19 June 1993, p. 401-405.

Werner, C., 1994, Die kontinentale Wirbeltierfauna aus der unteren Oberkreide des Sudan (Wadi Milk Formation): Berliner geowiss. Abh. E, v. 13, p. 221-249.

Whittle, C. H., and Everhart, M. J., 2000, Apparent and implied evolutionary trends in lithophagic vertebrates from New Mexico and Elsewhere: In: Dinosaurs of New Mexico, edited by Lucas, S. G., and Heckert, A. B., New Mexico Museum of Natural History and Sciences, Bulletin 17, p. 75-82.

Wichmann, R., 1916, Las capas con dinosaurios en la costa sur del Rio Negro, frente a General Roca: Physis, v. 11, p. 258-262.

Williams, M. E., 1972, The Origin of “sprial coprolites”: The University of Kansas Paleontological Contributions, Paper 59, 19pp.

Wright, K., 1996, What the Dinosaurs Left Us: Discover, v. 17, n. 6, p. 58-61, 64-65.

Wright, K., 1996, Analyzing ancient leavings: The San Diego Union-Tribune, Wednesday, August 7, 1996, p. E-3.

Y

Yang, S.-Y., 1995, Cretaceous Dinosaur fossil from Gyeongsang Group, Korea: In: Sixth Symposium on Mesozoic Terrestrial Ecosystems and Biota, short papers, edited by Sun, A., and Wang, Y., Published by China Ocean Press, Beijing, p. 137.

Young, M. T., Brusatte, S. L., Ruta, M., and de Andrade, M. B., 2010, The evolution of Metriorhynchoidea (mesoeucrocodylia, thalattosuchia): an integrated approach using geometric morphometrices, analysis of disparity, and biomechanics: Zoological Journal of the Linnean Society, v. 158, p. 810-859.

Z

Ziegler, K. E., Heckert, A. B., and Lucas, S. G., 2001, A taphonomic comparison of Two Late Triassic (Chinle Group) fossil localities from New Mexico: New Mexico Geology, v. 23, n. 2, p. 56.