Paleobiota of the Hell Creek Formation explained

This is an overview of the fossil flora and fauna of the Maastrichtian-Danian Hell Creek Formation.

Invertebrates

Insects

Insects from the groups Diptera, Zygoptera, and possibly Hemiphlebiidae have been unearthed in Hell Creek in amber.[1] [2] Fossils found in the Hell Creek Formation and the Fort Union Formation of these insects went extinct during the K-T Event.[3] [4] [5]

GenusSpeciesLocation Stratigraphic position MaterialNotesImages
CephaloleichnitesCephaloleichnites strongiPossible hispine beetle herbivory on Zingiberopsis attenuta
?HemiphlebiidaeIndeterminatePossible Hemiphlebiid damselflies
BrachyceraIndeterminateUndescribed brachyceran flies
NematoceraIndeterminateUndescribed nematoceran flies
Aeschnidiidae[6] IndeterminateIndeterminate aeschnidiid dragonflies

Molluscs

GenusSpeciesLocation Stratigraphic position MaterialNotesImages
PlesielliptioP. postbiplicatusFreshwater Unionid river mussels
P. gibbosoidesFreshwater Unionid river mussels
P. whitfieldiFreshwater Unionid river mussels
RhabdotophorusR. aldrichiFreshwater mussel of family Unionidae.[7]
PleurobemaP. cryptorhynchusFreshwater mussel of family Unionidae.
PlethobasusP. aesopiformisFreshwater mussel of family Unionidae.
P. biesopoides
QuadrulaQ. cylindricoidesFreshwater mussel of family Unionidae.
ProparreysiaP. verrucosiformisFreshwater mussel of family Unionidae.
P. holmesiana
P. barnumi
P. percorrugata
P. pyramidatoides
P. letsoni
P. retusoides
P. corbiculoides
P. paucinodosa
?Obovaria?O. pyramidella
CorbiculaC. cf. subelliptica
C. spSouth DakotaFrom a marine facies ("tongue"). Modern members of the genus live in fresh water
SphaeriumS. beckmani"Pill clam". "Nut clam". "Fingernail clam". "Pea clam". Family Sphaeriidae.
PleiodonIndeterminate
CampelomaC. spFreshwater snail
AnomiaA. gryphorhynchaBivalve. Family Anomiidae. From a marine facies ("tongue") in South Dakota.
CrassostreaC. subtrigonalisOyster. Family Ostreidae. Collected from a marine facies ("tongue") in South Dakota.
GranocardiumG. spBivalve. Family Cardiidae (cockle). Collected from a marine facies ("tongue") in South Dakota.
?Hiatella?H. spBivalve. Present members of this genus are rock borers. Collected from a marine facies ("tongue") in South Dakota.
LeptosolenindeterminateBivalve. Family Cultellidae. Collected from a marine facies ("tongue") in South Dakota.
SphenodiscusS. lenticularisAmmonite. From a marine facies ("tongue") in South Dakota.
DiscoscaphitesD. rossiMicroconch of an ammonite. From a marine facies ("tongue") in South Dakota.
ScaphitidaeindeterminateAmmonite. From a marine facies ("tongue") in South Dakota. Other attributes: specimen has hooks on its shell.

Amphibians

GenusSpeciesLocation Stratigraphic position MaterialNotesImages
Anura (frog)[8] indeterminate
  • North Dakota[9]
  • South Dakota
Middle to upper Hell Creek Formation[10] 3 unassigned specimens[11] Anura indet. consists of material not currently assigned to any genus of frog.
Barbourula[12] Indeterminate[13]
Caudata (salamander)indeterminate
  • North Dakota
  • South Dakota
Lower to uppermost Hell Creek Formation149 unassigned specimensMaterial of Caudata indet. is not currently assigned to any genus.
Eopelobates[15] Indeterminate
  • Montana
HabrosaurusH. dilatus
  • Montana
  • North Dakota
  • South Dakota
Middle to upper Hell Creek Formation6 specimensHabrosaurus is a sirenid amphibian.
LisserpetonL. bairdi
  • Montana
OpisthotritonO. kayi
  • Montana
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation22 specimensOpisthotriton is classified as a Batrachosauroididae.
Paranecturus[16] P. garbanii
  • Montana
A member of Proteidae.
ProamphiumaP. cretacica
  • Montana
ProdesmodonP. copei
  • Montana
ScapherpetonS. tectum
  • Montana
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation144 specimensScapherpeton is a scapherpetonid that is very common in the Hell Creek Formation.
ScotiophryneS. pustulosa
  • Montana
A small frog

Fish

Bony fish

Bony fishes
Genus Species Location Stratigraphic position Material Notes Images
Acipenser[17] [18] A. amnisinferos A sturgeon
A. eruciferus
A. praeparatorum
  • North Dakota (Tanis)
A. cf. A. amnisinferos
  • North Dakota (Tanis)
cf. A. sp.
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation18 specimens are tentatively assigned to Acipenser sp.Acipenser sp. is tentatively referred to the genus.
Anchiacipencer[20] A. acanthaspis
  • Montana
A sturgeon, originally considered as indeterminate material
BelonostomusB. longirostris
  • Montana
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation28 specimensA long-snouted slender fish classified as an aspidorhynchid.
Coriops[21] C. amnicolus
  • Montana
CyclurusC. fragosus
  • Montana
  • North Dakota
  • South Dakota
A small amiid fish (ubiquitous). Previously known as Amia fragosa or Kindleia fragosa.[22] 2610 specimens have been assigned to Kindleia, making it an extremely common genus.
"Lepisosteus""L. occidentalis"
  • Montana
  • North Dakota
  • South Dakota
Lower to uppermost Hell Creek Formation938 specimens are assigned to LepidosteusA lepidosteid that is very common in the Hell Creek Formation. Nomen dubium.[23]
MelviusM. thomasi
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation6 specimens are assigned to MelviusA large amiid fish.
PhyllodusP. paulkatoiFish with columnar teeth
PalaeolabrusP. montanensis
  • Montana
PaleopsephurusP. wilsoni
  • Montana
A paddlefish
Paralbula[24] P. casei
Parapsephurus[26] P. willybemisi
  • North Dakota (Tanis)
A paddlefish
PlatacodonP. nanus
  • Montana
Small teleost fish
ProtamiaIndeterminate
  • Montana
PachyrhizodontoideiIndeterminateFish
Polyodontidae[27] Indeterminate
  • Montana
Paddlefish
ProtoscaphirhynchusP. squamosus
  • Montana
A sturgeon
PugiopsephurusP. inundatus
  • North Dakota (Tanis)
A paddlefish

Cartilaginous fish

Chondrichthyes reported from the Hell Creek Formation
GenusSpeciesLocationStratigraphic positionMaterialNotesImages
ChiloscylliumC. sp.
  • Montana
A member of Hemiscylliidae.
Galagadon[28] G. nordquistae
  • South Dakota
Isolated teethA carpet shark
Lonchidion[29] L. selachos
  • Montana[30]
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation40 specimensA genus of prehistoric sharks in the family Hybodontidae. It makes up 0.4% of the remains of the vertebrates of the Hell Creek Formation.
MyledaphusM. pustulosus[31]
  • Montana
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation.1677 specimens previously assigned to M. bipartitus.Is an anacoracid batoid rajiform related to guitarfishes. Described on the basis of teeth formerly assigned to the species M. bipartitus. The material assigned to Myledaphus bipartitus and makes up 16.5% of the vertebrate remains.
ProtoginglymostomaP. estesi
  • Montana
A member of Ginglymostomatidae. Formerly assigned to the genus Brachaelurus.
RestesiaR. americana
  • Montana
  • North Dakota
  • South Dakota
Middle Hell Creek Formation5 specimens previously assigned to SquatirhinaA wobbegong-like shark. Formerly assigned to Squatirhina. The remains consist of 0.05% of the vertebrates. Also known from the Lance Formation.
Carcharhinidae indet.Indeterminate
  • South Dakota
An isolated tooth.

Dinosaurs

A paleo-population study is one of the most difficult of analyses to conduct in field paleontology. Here is the most recent estimate of the proportions of the eight most common dinosaurian families in the Hell Creek Formation, based on detailed field studies by White, Fastovsky and Sheehan.[32]

Outcrops sampled by the Hell Creek Project were divided into three sections: lower, middle and upper slices. The top and bottom sections were the focus of the PLoS One report, and within each portion many remains of Triceratops, Edmontosaurus, and Tyrannosaurus were found. Triceratops was the most common in each section, but, surprisingly, Tyrannosaurus was just as common, if not slightly more common, than the hadrosaur Edmontosaurus. In the upper Hell Creek section, for example, the census included twenty two Triceratops, five Tyrannosaurus, and five Edmontosaurus.

The dinosaurs Thescelosaurus, Ornithomimus, Pachycephalosaurus and Ankylosaurus were also included in the breakdown, but were relatively rare. Other dinosaurs, such as Sphaerotholus, Denversaurus, Torosaurus, Struthiomimus, Acheroraptor, Dakotaraptor, Pectinodon, Richardoestesia, Paronychodon, Anzu, Leptorhynchos and Troodon (more likely Pectinodon), were reported as being rare and are not included in the breakdown.

The dinosaur collections made over the past decade during the Hell Creek Project yielded new information from an improved genus-level collecting schema and robust data set that revealed relative dinosaur abundances that were unexpected, and ontogenetic age classes previously considered rare. We recognize a much higher percentage of Tyrannosaurus than previous surveys. Tyrannosaurus equals Edmontosaurus in U3 and in L3 comprises a greater percentage of the large dinosaur fauna as the second-most abundant taxon after Triceratops, followed by Edmontosaurus. This is surprisingly consistent in (1) the two major lag deposits (MOR loc. HC-530 and HC-312) in the Apex sandstone and Jen-rex sand where individual bones were counted and (2) in two thirds of the formation reflected in L3 and U3 records of dinosaur skeletons only.

Triceratops is by far the most common dinosaur at 40% (n = 72), Tyrannosaurus is second at 24% (n = 44), Edmontosaurus is third at 20% (n = 36), followed by Thescelosaurus at 8% (n = 15), Ornithomimus at 5% (n = 9), and Pachycephalosaurus and Ankylosaurus both at 1% (n = 2) are relatively rare.

Fossil footprints of dinosaurs from the Hell Creek Formation are very rare. As of 2017, there is only one find of a possible Tyrannosaurus rex footprint, dating from 2007 and described a year later.[33] A trackway made by mid-sized theropod, possibly a small tyrannosaurid individual, was discovered in South Dakota in 1997, and in 2014 these footprints were named Wakinyantanka styxi.[34]

Ornithischians

Ankylosaurs

Indeterminate nodosaur remains have been unearthed in the Hell Creek Formation and other nearby areas.[35] [36]

Ankylosauria reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
AnkylosaurusA. magniventris
  • Montana
UpperA partial skull, teeth, cervical vertebrae, dorsal vertebrae, caudal vertebrae, right scapulocoracoid, otic capsule, maxilla fragment, right jugal, left jugal and quadratojugal, sacral centra, additional fragments of the cervical half rings and a partial tail club handle.An ankylosaur. Also found in the Lance, Frenchman, Ferris and Scollard Formations.
DenversaurusD. schlessmani
  • Montana
  • South Dakota
Skull roof, pelvis and osteoderms.A nodosaurid ankylosaur whose remains have been found in the Lance and Laramie Formation.

Pachycephalosaurs

An undescribed and unnamed pachycephalosaur is present in North Dakota. Pachycephalosaur remains have been unearthed in Montana as in the case of Platytholus and the now invalid genus Stenotholus kohleri, which is now a junior synonym of Pachycephalosaurus.[37]

Pachycephalosaurs reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
Dracorex[38] D. hogwartsia
  • South Dakota
  • Middle
A pachycephalosaur, possibly synonymous with Pachycephalosaurus.
PachycephalosaurusP. wyomingensis
  • Montana
  • South Dakota
A pachycephalosaur. Also found in the Lance Formation.
Platytholus[39] P. clemensi
  • Montana
  • Lower
A partial skullA medium-sized pachycephalosaurine closely related to Acrotholus and Prenocephale
SphaerotholusS. buchholtzae
  • Montana
"Skull material."[41] A pachycephalosaur whose remains have also been found in the Frenchman Formation. Genus also known from the Kirtland Formation, Dinosaur Park Formation and the Horseshoe Canyon Formation.
S. triregnum[42]
  • Montana
  • Middle
A left squamosal.A pachycephalosaur distinguished from S. buchholtzae by its more ornamented squamosal.
StygimolochS. spinifer
  • Montana
  • South Dakota
  • North Dakota
A pachycephalosaur, possibly synonymous with Pachycephalosaurus. Also found in the Ferris Formation and the Lance Formation.

Ceratopsians

Indeterminate ceratopsid teeth and some identifiable bones from Triceratops can be extremely common.[43] [44] [45] [46] [47] 8.31% of all vertebrate remains from the Hell Creek Formation are unassigned ceratopsids.[11] In 2012, a new unidentified species of chasmosaur ceratopsian with noticeable differences from Triceratops was unearthed in South Dakota by a fossil hunter named John Carter.[48] [49] [50]

Ceratopsians reported from the Hell Creek Formation
GenusSpeciesSynonymsStateStratigraphic positionMaterialNotesImages
LeptoceratopsL. gracilis
  • Montana
A small primitive-looking ceratopsian. Fossils have also been found in the Lance Formation in Wyoming.[51]
Tatankaceratops[52] T. sacrisonorum[53] A controversial ceratopsian possibly synonymous with Triceratops[55]
TorosaurusT. latus
  • Montana
  • North Dakota
  • South Dakota
Upper Hell Creek FormationA ceratopsian that was once proposed to be synonymous with Triceratops,[56] but is now regarded as a valid and distinct ceratopsian.[57] A rare ceratopsid. Fossils have been in the Lance Formation, Javelina Formation, North Horn Formation, Laramie Formation, El Picacho Formation, Frenchman Formation and Scollard Formation.
TriceratopsT. horridus
  • T. serratus
  • Ugrosaurus olsoni[58]
  • Montana
  • North Dakota
  • Wyoming
  • South Dakota
Lowermost to the middle Hell Creek Formation[59] Four specimens are assigned to Triceratops horridus from the Hell Creek Formation. Isolated, shed ceratopsid teeth are incredibly common in the Hell Creek and Lance Formations, being by most collectors, with some being nothing more than worn down fragments up to superb teeth containing complete, preserved roots. Because the teeth of different ceratopsians are so similar to one another, its hard to differentiate between genera/species, but based on the abundance of identifiable bones belonging to Triceratops in Lancian-aged North American formations, especially the Hell Creek, isolated ceratopsid teeth from the lower and middle Hell Creek Formation have a high likelihood of originating from T. horridus. A ceratopsian. Also found in the Evanston, Frenchman, Lance, Laramie, and Scollard Formations.
T. prorsus
  • Montana
  • South Dakota
Upper 1/3 of the Hell Creek FormationVery common. Because the teeth of different ceratopsians are so similar to one another, its hard to differentiate between genera/species, but based on the abundance of identifiable bones belonging to Triceratops in Lancian-aged North American formations, especially the Hell Creek, isolated ceratopsid teeth from the upper 1/3 of the Hell Creek Formation have a high likelihood of originating from T. prorsus. Also found in the Frenchman and Lance Formations.

Ornithopods and relatives

Indeterminate hadrosaurid remains are very common in the Hell Creek Formation.[8]

Ornithopods and Thescelosaurs reported from the Hell Creek Formation
GenusSpeciesSynonymsStateStratigraphic positionMaterialNotesImages
EdmontosaurusE. annectens
  • Anatosaurus annectens[60]
  • Anatotitan copei
  • Montana
  • South Dakota
  • North Dakota(Mummy Fossil)[61] [62]
Very common.A hadrosaur. Also found in the Denver, Frenchman, Lance, Laramie, and Scollard Formations.[63] [64] Hatchlings have also been unearthed.
ThescelosaurusT. garbanii[65]
  • Bugenasaura garbanii
T. neglectus
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation50 specimensA small thescelosaurine. Also found in the Frenchman, Lance, Laramie, and Scollard Formations.[68] Two species are known from Hell Creek; T. neglectus and T. garbanii.[69]

Theropods

Theropod tracks have been found in South Dakota. A trackway from South Dakota, named Wakinyantanka, was made by a mid-sized theropod with three slender toes, possibly a small tyrannosaurid.[34] A second footprint that may have been made by a specimen of Tyrannosaurus was first reported in 2007 by British paleontologist Phil Manning, from the Hell Creek Formation of Montana.[70] This second track measures 72cm (28inches) long, shorter than the track described by Lockley and Hunt. Whether or not the track was made by Tyrannosaurus is unclear, though Tyrannosaurus is the only large theropod known to have existed in the Hell Creek Formation, though in past albertosaurine remains have described here but its most likely that they are the remains of Tyrannosaurus rex.[71] [72] Theropod remains are very common in Hell Creek, some of which belong to indeterminate species on maniraptorans.[73]

Alvarezsaurs

Alvarezsaurs reported from the Hell Creek Formation
GenusSpeciesSynonymsStateStratigraphic positionMaterialNotesImages
"Ornithomimus""O." minutus
Trierarchuncus[74] T. prairiensis upper Hell Creek Formation.An alvarezsaur known from a partial post-cranial skeleton.[76]

Tyrannosaurids

Tyrannosaurids reported from the Hell Creek Formation
GenusSpeciesSynonymsStateStratigraphic positionMaterialNotesImages
TyrannosaurusT. rex
  • Albertosaurus megagracilis
  • Aublysodon molnari
  • Dinotyrannus megagracilis
  • Nanotyrannus lancensis?
Lower to upper Hell Creek Formation.A tyrannosaur, known from several specimens including a juvenile nicknamed "Jane".[80] Also found in the Denver, Frenchman, Hill Creek South, Javelina, Lance, Ferris, Livingston, McRae, North Horn, Scollard, Willow Creek Formation, and also found in Lomas Coloradas Formations. Isolated teeth in the Hell Creek are common enough to be dug commercially by collectors, but rare enough that they are often sold for very high prices with fragmentary teeth usually beginning at least in the hundreds of USD, and complete teeth in the thousands of USD. Perhaps the best known iconic dinosaur.
Nanotyrannus?N.lancensis
  • Stygivenator?
  • Deinodon lancensis
  • Albertosaurus lancensis
  • Tyrannosaurus lancensis?
  • Montana
  • Wyoming
Lower to upper Hell Creek Formation.A few specimens are knownInvalid genus, now recognised as juvenile T. rex.

Ornithomimosaurs

Ornithomimid remains are not uncommon in the Hell Creek Formation.[8] Fifteen specimens from the Hell Creek Formation are undetermined ornithomimids[11]

Ornithomimids reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
"Orcomimus"unnamed One partial skeleton.An ornithomimid. Numem nudum
StruthiomimusS. sedens
  • Montana
  • AMNH 975, a foot claw
  • UCMP 154569, a partial skeleton
A large ornithomimid similar to Gallimimus in size. Also found in the Lance Formation.[82]
OrnithomimusO. velox
  • Montana
  • South Dakota
  • North Dakota
Fragmentary specimensAn ornithomimid which was also found in the Denver Formation.

Oviraptorosaurs

Oviraptorosaur fossils have been found at the Hell Creek Formation for many years, most notably from isolated elements until the discovery of Anzu. In the past, oviraptorosaur fossils found were thought to have belonged to Caenagnathus, Chirostenotes, and Elmisaurus.[83] [84] [85] [86] In 2016, an undescribed large-bodied caenagnathid was unearthed in Montana.[87]

Oviraptorosaurs reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
Anzu[88] A. wyliei
  • North Dakota
  • South Dakota
Lower to upper Hell Creek Formation12 well-preserved specimensOne of the largest known oviraptorosaurs, and the largest known from North America. Material previously assigned to Caenagnathidae indet. is now placed in the genus Anzu.
CaenagnathidaeIndeterminate
  • Montana
Similar to Citipes and Elmisaurus.
EoneophronE. infernalis A partial right hindlimbClosely related to Citipes and Elmisaurus.

Eumaniraptorans

Historically, numerous teeth have been attributed to various dromaeosaurid and troodontid taxa with known body fossils from only older formations, including Saurornithoides, Zapsalis, Dromaeosaurus, Saurornitholestes, and Troodon. However, in a 2013 study, Evans et al. concluded that there is little evidence for more than a single dromaeosaurid taxon, Acheroraptor, in the Hell Creek-Lance assemblages, which would render these taxa invalid for this formation. This was disproved in a 2015 study, DePalma et al., when they described the new genus Dakotaraptor, a large species of dromaeosaur. Fossilized teeth of various troodontids and coelurosaurs are common throughout the Hell Creek Formation; the best known examples include Paronychodon, Pectinodon and Richardoestesia, respectively. Teeth belonging to possible intermediate species of Dromaeosaurus[90] and Saurornitholestes[91] have been unearthed at the Hell Creek Formation and the nearby Lance Formation.

Eumaniraptorans reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
Acheroraptor[92] A. temertyorum
  • Montana
  • North Dakota?
  • South Dakota?
Lower? to upper Hell Creek Formation
  • ROM 63777, a maxilla and tooth
  • ROM 63778, a partial dentary
  • isolated teeth
A velociraptorine dromaeosaurid. Teeth previously referred to various Campanian dromaeosaurids Saurornitholestes and Dromaeosaurus, frequently found throughout the formation, probably belong to this one species. Evans et al. conclude that there is little evidence for the former two taxa being present in the Hell Creek-Lance assemblages.
AvisaurusA. archibaldi
  • Montana
Middle Hell Creek Formation
  • UCMP 117600, holotype, a tarsometatarsus
  • PU 17324, a tarsometatarsus
An avisaurid.
cf. A. archibaldi
  • Montana
Uppermost Hell Creek Formation
  • YPM 57235, a coracoid
An avisaurid tentatively referred to A. archibaldi based on its size.
A. sp.[93]
  • Montana
  • distal tarsals, metatarsus (juvenile)
Brodavis[94] B. baileyi
  • South Dakota
  • UNSM 50665, a left tarsometatarsus missing proximal end, trochleae II and III.
A primitive hesperornithiform.
Dakotaraptor[95] D. steini
  • South Dakota
Upper Hell Creek Formation
  • PBMNH.P.10.113.T, a partial skeleton.
  • PBMNH.P.10.115.T, a tibia.
  • PBMNH.P.10.118.T, an astragalocalcaneum.
  • isolated teeth.
A dromaeosaurid. Second-largest dromaeosaurid known.
Paronychodon[96] P. caperatus
  • North Dakota, South Dakota, and Montana.
  • YPM 10624, a fossilized tooth. Teeth of this genus have been found too.
A troodontid theropod who is known from fossil teeth. Fossils have also been found in the Lance Formation in Wyoming.
Pectinodon[97] P. bakkeri[98]
  • Montana
  • UCM 38445, a fossilized tooth. Teeth of this genus have been found too.
  • A troodontid theropod who is known from fossil teeth. Fossils have also been found in the Lance Formation in Wyoming.
PotamornisP. skutchi [99]
  • Montana
  • UCMP 117605, a tarsometatarsus
A hesperornithiform also found in the Lance Formation.
Richardoestesia[100] [101] R. sp.
  • Montana.
  • Teeth.
A coelurosaur that is known from teeth and from two species Richardoestesia gilmorei and Richardestesia isosceles, which have also been unearthed in the Lance Formation in Wyoming.
"Styginetta"[102] "S. lofgreni."
  • Montana.
A Presbyornithid, it is notable for being one of the few birds known to have survived the Cretaceous–Paleogene extinction event.
"Unnamed enantiornithine B"Unnamed
  • Montana
  • YPM 57823, a partial coracoid
An unnamed enantiornithean.
"Unnamed hesperornithiform A"Unnamed
  • Montana
  • UCMP 13355, a tarsometatarsus
A primitive hesperornithiform. The Hell Creek specimen was referred to the same unnamed taxon as RSM P 2315.1 from the Canadian Frenchman Formation. RSM P 2315.1 was later made the holotype of Brodavis americanus. May be a synonym of Potamornis.
"Unnamed ornithurine B"[103] Unnamed
  • UCMP 129143, a partial coracoid
An ornithurine possibly similar to Cimolopteryx[105]
"Unnamed ornithurine C"Unnamed
  • Montana
  • South Dakota
  • SDSM 64281A, a partial coracoid
  • SDSM 64281B, a partial coracoid
  • UCMP 175251, a partial coracoid
  • MOR 2918, a partial coracoid
An ornithurine, also present in the Lance Formation and Fort Union Formation, one of the few individual bird species known to have survived the Cretaceous–Paleogene extinction
"Unnamed ornithurine D"Unnamed
  • Montana
  • UCMP 187207, a partial coracoid
An ichthyornithean also present in the Frenchman Formation

Pterosaurs

Undescribed pterosaur remains were reported from North Dakota. A specimen of an azhdarchid pterosaur from Montana likely belongs to Quetzalcoatlus, though it is not diagnostic to the species level.[106]

Crocodylomorphs

Crocodylomorphs reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
Borealosuchus[107]
  • B. sternbergii
  • Montana
  • North Dakota
  • South Dakota
Extinct genus of crocodylians that lived from the Late Cretaceous to the Eocene in North America.
Brachychampsa
  • B. montana
  • Montana
  • South Dakota
  • North Dakota
Extinct genus of alligatoroid.
Thoracosaurus
  • T. neocesariensis
  • Montana
Extinct genus of gavialoid crocodilian which existed during the Late Cretaceous and early Paleocene.

Turtles

Turtles reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
Adocus[108] Indeterminate Extinct genus of aquatic turtles belonging to the family Adocidae.
Axestemys[110] A. infernalis
  • Montana
  • North Dakota
  • South Dakota
  • Wyoming
A turtle belonging to the family Trionychidae. Its fossils from the Hell Creek Formation were formerly assigned to the late Campanian species Axestemys splendidus.[111]
CompsemysC. victa
  • Montana
A relative of Dermatemydidae.
PeckemysP. brinkman
  • Montana
  • North Dakota
A relative of Baenidae.
EmarginachelysE. cretacea
  • Montana
A relative of chelydrids.
EubaenaE. cephalica
  • Montana
Baenid turtle
GamerabaenaG. sonsalla
  • North Dakota
Extinct genus of baenid turtle.
PalatobaenaP. cohen
  • North Dakota
A relative of extinct family of cryptodiran turtles.
CedrobaenaC. putorius
  • South Dakota
  • North Dakota
A relative of Baenidae.
GilmoremysG. lancensis
  • Montana
  • North Dakota
Trionychidae related to the softshell turtle.
Hoplochelys[112] H. clark
  • North Dakota
A kinosternoid related to the Central American river turtle.
Hutchemys[113] H. walkerorum
  • North Dakota
A shellA Plastomeninae related to the softshell turtle.
PlastomenusP. spTrionychidae turtle.
BasilemysB. sinuosaLargest dermatemydid land tortoise.
TrionyxIndeterminate
  • Montana
A genus of softshell turtles belonging to the family Trionychidae.
AspideretoidesA. foveatusTrionychidae turtle.
HelopanopliaH. distinctaTrionychidae turtle.
JudithemysJ. backmaniThin-shelled macrobaenid turtle.
PlesiobaenaP. antiquaBaenid turtle.
StygiochelysS. estesiBaenid turtle.
NeurankylusN. eximiusLargest baenid turtle in Hell Creek Formation.
Saxochelys[114] S. gilberti
  • North Dakota
  • A population of over 30 individual skeletons
A member of the family Baenidae.
ThescelusT. insiliensBaenid turtle.
ChelydridaeIndeterminateChelydrids-like turtle.

Squamata

Indeterminate mosasaur remains have been unearthed in North Dakota; they may belong to a mosasaur measuring in length.[115] [116]

Squamates reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
Cemeterius[117] [118] C. monstrosus
  • Montana
A platynotan lizard of uncertain phylogenetic placement, also known from the Lance Formation.
CerberophisC. robustus
  • Montana
An alethinophidian snake of uncertain phylogenetic placement.
ObamadonO. gracilis
  • Montana
A polyglyphanodontian lizard of uncertain phylogenetic placement. Also known from the Lance Formation.
PeneteiusP. aquilonius
  • Montana
A chamopsiid polyglyphanodontian lizard.
HaptosphenusH. placodonTeiidae lizard.
LeptochamopsL. denticulatusSmall Teiidae lizard.
ChamopsC. segnisLargest Teiidae lizard in Hell Creek Formation
ContogenysC. sloaniScincidae? lizard.
ExostinusE. lancensisxenosaurid lizard.
ProxestopsP. jepseniAnguidae lizard.
ParasaniwaP. wyomingensisNecrosaurid lizard.
ParadermaP. bogertiHelodermatidae? lizard.
PalaeosaniwaP. canadensisA large Monstersauria lizard, closely related to today's varanid lizards. It was the largest lizard in the Hell Creek formation.
BoidaeIndeterminateSnake. Earliest-known boid.

Mammals

Multituberculates

Multituberculates reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
Cimexomys[119] C. minor
  • Montana
A multituberculate of uncertain phylogenetic placement.
CimolodonC. nitidus
  • Montana
  • North Dakota
A cimolodontid multituberculate.
C. cf. nitidus
  • South Dakota
A cimolodontid multituberculate.
C. sp.
  • North Dakota
A cimolodontid multituberculate.
CimolomysC. gracilis
  • Montana
A cimolomyid multituberculate.
  • C. cf. gracilis
  • South Dakota
A cimolomyid multituberculate.
EssonodonE. browni
  • Montana
A cimolomyid multituberculate.
MeniscoessusM. conquistus
  • South Dakota
A cimolomyid multituberculate.
M. robustus
  • Montana
  • North Dakota
  • South Dakota
A cimolomyid multituberculate.
M. cf. robustus
  • South Dakota
A cimolomyid multituberculate.
M. sp.
  • North Dakota
A cimolomyid multituberculate.
?M. sp.
  • North Dakota
A cimolomyid multituberculate.
MesodmaM. formosa
  • Montana
  • South Dakota
A neoplagiaulacid multituberculate.
M. cf. formosa
  • Montana
A neoplagiaulacid multituberculate.
M. hensleighi
  • Montana
  • South Dakota
A neoplagiaulacid multituberculate.
M. cf. hensleighi
  • South Dakota
A neoplagiaulacid multituberculate.
M. thompsoni
  • Montana
  • North Dakota
  • South Dakota
A neoplagiaulacid multituberculate.
M. cf. thompsoni
  • Montana
A neoplagiaulacid multituberculate.
M sp.
  • Montana
A neoplagiaulacid multituberculate.
?M sp.
  • Montana
A neoplagiaulacid multituberculate.
?Neoplagiaulax?N. burgessi
  • Montana
A neoplagiaulacid multituberculate.
ParacimexomysP. priscus
  • Montana
A multituberculate of uncertain phylogenetic placement.
ParessonodonP. nelsoniA cimolomyid multituberculate.
StygimysS. kuszmauli
  • Montana
It was a member of the extinct order Multituberculata.

Metatherians

Metatherians reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
AlphadonA. marshi
  • Montana
  • North Dakota
An alphadontid. genus of small, primitive mammal that was a member of the Metatheria, a group of mammals that includes modern-day marsupials.
A. cf. marshi
  • Montana
  • South Dakota
An alphadontid.
A. wilsoni
  • Montana
An alphadontid.
A. cf. wilsoni
  • Montana
An alphadontid.
A. sp.
  • North Dakota
  • South Dakota
An alphadontid.
DidelphodonD. padanicus
  • South Dakota
A stagodontid.
D. vorax
  • Montana
  • North Dakota
A stagodontid. genus of Stagodontidae marsupials from the Late Cretaceous of North America.
D. cf. vorax
  • South Dakota
A stagodontid.
D. sp.
  • North Dakota
A stagodontid.
cf. D. sp.
  • North Dakota
  • South Dakota
A stagodontid.
GlasbiusG. twitchelli
  • Montana
A glasbiid.
G. cf. twitchelli
  • Montana
A glasbiid.
Leptalestes[120] L. cooki
  • Montana
A pediomyid.
L. krejcii
  • Montana
  • South Dakota
A pediomyid.
NanocurisN. improvidaA deltatheridiid.
NortedelphysN. jasoni (= N. intermedius)[121] [122]
  • Montana
  • South Dakota
A herpetotheriid.
PediomysP. elegans
  • Montana
  • South Dakota
A pediomyid.
ProtalphadonP. foxi
  • Montana
An alphadontid.
P. lulli
  • Montana
An alphadontid.
Protolambda[123] P. florencae
  • Montana
  • North Dakota
  • South Dakota
A pediomyid.
P. hatcheri
  • Montana
  • South Dakota
A pediomyid.
P. mcgilli[124]
  • Montana
A pediomyid.
TurgidodonT. rhaister
  • Montana
An alphadontid.

Eutherians

Eutherians reported from the Hell Creek Formation
GenusSpeciesStateStratigraphic positionMaterialNotesImages
AltacreodusA. magnus
  • Montana
  • North Dakota
a possible creodont, formerly a species of Cimolestes[125]
AlosteraA. saskatchewanensis
  • Montana
A eutherian of uncertain phylogenetic placement.
AmbilestesA. cerberoides
  • Montana
A eutherian of uncertain classification, formally a species of Cimolestes
BatodonB. tenuis
  • Montana
A cimolestid eutherian.
CimolestesC. incisus
  • Montana
A cimolestid eutherian.
C. stirtoni
  • Montana
A cimolestid eutherian.
GypsonictopsG. hypoconus
  • Montana
  • South Dakota
A gypsonictopsid eutherian.
G. illuminatus
  • Montana
  • North Dakota
A gypsonictopsid eutherian.
G. cf. illuminatus
  • Montana
A gypsonictopsid eutherian.
G. sp.
  • Montana
A gypsonictopsid eutherian.
cf. Paranyctoidescf. Paranyctoides sp.
  • Montana
A nyctitheriid eutherian.
ProtungulatumP. coombsi
  • Montana
A stem-placental.
PurgatoriusP. ceratops
  • Montana
A genus with four species believed to be either stem-placentals or stem-primates.
ScollardiusS. propalaeoryctes
  • Montana
A eutherian of uncertain classification, formally a species of Cimolestes

Flora

The Hell Creek Formation was a low floodplain at the time before the sea retreated, and in the wet ground of the dense woodland, the diversity of angiosperms and conifers were present. An endless diversity of herbaceous flowering plants, ferns and moss grew in the forest understory. On the exposed point bars of large river systems, there were shrubs and vines. The evidence of the forested environment is overwhelmingly supported by petrified wood, rooted gley paleosols,[126] and ubiquitous tree leaves. The presence of the simple and lobed leaves, combined with an extremely high dicot diversity, extinct cycadeoid Nilssoniocladus, Ginkgo, many types of monocots, and several types of conifers is different from any modern plant community. There are numerous types of leaves, seeds, flowers and other structures from Angiosperms, or flowering plants. The Hell Creek Formation of this layer contains over 300 tablets, of which angiosperms are by far the most diverse and dominant flora of the entire population, about 90 percent, followed by about 5% of conifers, 4% of ferns, and others. Compared to today Hell Creek's flora which is prairie, then Hell Creek's flora was hardwood forest mixed with deciduous and evergreen forest. In sharp contrast to the Great Plains today, the presence of many thermophilous taxa such as palm trees and gingers meant the climate was warmer and wetter then.

The plants of the Hell Creek Formation generally represent angiosperm-dominated riparian forests of variable diversity, depending on stratigraphic position and sedimentary environment. There appears to be floral transitions visible on a stratigraphic range from the lower to the upper Hell Creek Formation. For this reason, Kirk Johnson and Leo Hickey divided it into five zones and described them as HCIa, HCIb, HCIIa, HCIIb, and HCIII as a reflection of floral change through time.[127] For example, the HCIa zone is dominated by "Dryophyllum" subfalcatum, Leepierceia preartocarpoides, "Vitis" stantonii, and "Celastrus" taurenensis, and is located 55 to 105 meters below the K-Pg boundary layer. Although the HCIb zone is a very thin layer, about 5 meters of rock, it bears unusually high diversity of herbaceous and shrubby plants, including Urticaceae, Ranunculaceae, Rosaceae, and Cannabaceae.[128] There is evidence of transitional floras in the middle of the Hell Creek Formation as shown by HCII and HCIII zones. The HCII flora represents a transitional period where taxa from the lower Hell Creek are replaced by the HCIII flora. The diversity of the HCIII zone is very high, and its composition is more uniform than that of HCII, many of which were rare or absent from the zones below, and some others that used to be common below became rarer in the HCIII zone. These forms include Elatides longifolia, "Dryophyllum" tennessensis, Liriodendrites bradacii, and many members of the Laurales including Bisonia niemii, "Ficus" planicostata, and Marmarthia trivialis, while "Celastrus" taurenensis, Leepierceia preartocarpoides, and many cupressaceous conifers became rarer. This phenomenon suggests that the global temperature was warming during the last 300,000-500,000 years of the Cretaceous period.[128] [129] [130]

Johnson claims that there are no grasses, oaks, maples, beeches, figs, or willows in the Hell Creek Formation. There is no evidence of fern prairie either.[131] However, there was an extremely high angiosperm diversity — common plane trees, "Dryophyllum" subfalcatum, Leepierceia preartocarpoides, and palm trees — along with extinct cycadeoid Nilssoniocladus, Ginkgo, araucariaceous, podocarpaceous, and cupressaceous conifers. This represents the mixed deciduous and evergreen broad-leaved forest as the Hell Creek landscape. The nature of these forests is uncertain because Johnson found that the majority of the angiosperm and conifer genera are now extinct. He also believes that, very roughly 80% of the terrestrial plant taxa died out in what is now Great Plains at the K-Pg boundary. On other hand, there is a great increase in the abundance of fossil fern spores in the two centimeters of rock that directly overlies the impact fallout layer (the famous K-Pg boundary layer). This increase in fern spore abundance is commonly referred as "the fern spike" (meaning that if the abundance of spores as a function of stratigraphic position were plotted out, the graph would show a spike just above the impact fallout layer).

Many of the modern plant affinities in the Hell Creek Formation (e.g., those with the prefix "aff." or with quotes around the genus name) may not in reality belong to these genera; instead they could be entirely different plants that resemble modern genera. Therefore, there is some question regarding whether the modern Ficus or Juglans, as two examples, actually lived in the Late Cretaceous.

Compared to the rich Hell Creek Formation fossil plant localities of the Dakotas, relatively few plant specimens have been collected from Montana. A few taxa were collected at Brownie Butte Montana by Shoemaker, but most plants were collected from North Dakota (Slope County) and from South Dakota. Among the localities, the Mud Buttes, located in Bowman County, North Dakota, is probably the richest megaflora assemblage known and the most diverse leaf quarry from the Hell Creek Formation.[128] "TYPE" after the binomial means that it is represented by a type specimen found in the Yale-Peabody Museum collections. "YPM" is the prefix for the Yale-Peabody Museum specimen number; "DMNH" is for the Denver Museum of Nature & Science; "USNM" is for Smithsonian National Museum of Natural History; and so on. The majority of Hell Creek megafloral specimens are collected at the Denver Museum of Nature & Science.

Overview (from Johnson, 2002)

302 plant morphotypes based on leaf only, including:

Paleoflora

Ferns

GenusSpeciesLocationStratigraphic positionAbundanceNotesImages
EquisetumE. spRare in the Hell Creek Formation.
Polypodiaceae?indeterminate
SalviniaS. spFloating aquatic plant.

Cycadophytes

GenusSpeciesLocationStratigraphic positionAbundanceNotesImages
NilssoniocladusN. comtulaUnlike N. yukonensis, its leaves are pinnules. Common.
N. yukonensisThe only Hell Creek Formation cycadophyte. A simple leaf. Common.

Conifers

GenusSpeciesLocationStratigraphic positionAbundanceNotesImages
Araucaria?indeterminateCasts of Monkey-puzzle leaves.
CupressinocladusC. interruptusCasts of cupressaceae foliage. Uncommon
DammaritesD. spA conifer seed cone. It's likely to belong to Elatides longifolia.
DitaxocladusD. catenulataA cupressaceous conifer closely related to Cupressinocladus. Common.
ElatocladusElatocladus sp,A taxodioid leaf morphogenus
ElatidesE. longifoliaAraucaria-like or Cunninghamia-like conifer.
Less common in the lower 2/3 but more common in the upper 1/3 of the Hell Creek Formation.
GlyptostrobusG. europaeusUncommon conifer.
MetasequoiaM. occidentalisM. occidentalis seed cones are known from the Hell Creek.
PlatyspiroxylonPlatyspiroxylon sp.A cupressaceaeous wood morphogenus
Podocarpoxylon Podocarpoxylon sp.A possibly podocarpaceous wood morphogenus
SequoiaxylonSequoiaxylon sp.A cupressaceaeous wood morphogenus
TaxodioxylonTaxodioxylon sp.A cupressaceaeous wood morphogenus
TaxodiumT. olrikiiRelated to today's bald cypress.
Unidentified UnidentifiedUnspecified cheirolepidiacous fossils

Angiosperms

GenusSpeciesLocationStratigraphic positionAbundanceNotesImages
"Artocarpus""A." lessigianaAbundant at Brownie Butte, Montana.
Annona?A?. robustaAbundant at Brownie Butte, Montana.
AraliaephyllumA. polevoiA lobed leaf. Closely relating to Bisonia. Fairly common.
Averrhoitescf. A. affinisAn uncommon taxon with compound leaves.
BisoniaB. niemiA broad leaf, probably in the Laurales.
A common taxon. Type specimen was found in South Dakota.
BrownieaB. serrataIn the Nyssaceae, closely relating to extant Camptotheca. Less common.
Cannabaceae? indeterminateIncertae sedis. It's not likely in the Cannabaceae.[132]
CarpitesC. ulmiformisThough this fossil fruit is abundant in the Early Paleocene, it's also found in Hell Creek. It may belong to Apiaceae.[133]
"Celastrus""C." taurenensisIncertae sedis. It's common in the lowermost to the middle Hell Creek Formation, but less common in the upper 1/3 Hell Creek Formation.
"Cinnamomum""C." lineafoliaIncluded in Ficus affinis by L. Hickey.
Belongs in Rhamnaceae (modern buckthorns and Ceanothus). Some other specimens referred to Cinnamomum sezanensis(?) sp.), a real cinnamon bush. Its affinity is questionable.
Cissitescf. C. acerifoliaThis morphotype was first described from the Cenomanian Dakota Group.[134]
C. insignisThis form represents of the group of Cenomanian leaves from Dakota Formation.
C. lobataA lobed leaf with half-naked basal lateral veins. Common in the upper 1/3 of the Hell Creek Formation.
C. puilasokensisA palmately lobed leaf with 5 primary veins. Common in the upper 1/3 of the Hell Creek Formation.
CobbaniaC. corrugataA prehistoric species of water lettuce, previously assigned to the genus Pistia.
C. hickeyiAnother Cobbania species from pond sediments known as "Licking Leaves."[135]
CornophyllumC. newberryiThe majority of leaves are entire-margined but some may develop a few teeth.
"Cypercites""C." spA reed-type plant.
DryophyllumD. subfalcatumThis taxon is extremely common in the Hell Creek Formation, but is rare in Paleocene sediments.
It is believed to be in Sabiaceae, closely related to the living Meliosma.[136]
aff. "Dryophyllum" subfalcatumsee above.
"D." tenneseensisThis taxon is similar to D. subfalcatum]] but with extremely high L/W ratio and craspedodromous venation.
ErlingdorfiaE. montanaJohnson, 1996. In the Platanaceae (related to today's Sycamore). A very common taxon.
"Ficus""F." planicostataDespite the genus name, it's in Lauraceae.
GrewiopsisG. saportanaAnother generic Platanaceae.
HarmsiaH. hydrocotyloideaIncertae sedis. May be related to lotus. An uncommon taxon.
Humulus?aff. Humulus sp.May be related to the extant genus Humulus.
HydropterisH. pinnataFloating aquatic fern
LimnobiophyllumL. scutatumFloating aquatic monocot, closely related to Pistia.
LiriodendritesL. bradaciiJohnson, 1996. In the Magnoliidae: a common taxon.
"Liriodendron""L." laramienseUnlobed leaf. May be related to today's tulip tree (yellow poplar). An uncommon taxon.
LiriodendronL. spFour-lobed leaf. May be related to today's tulip tree (yellow poplar). An uncommon taxon.
LeepierceiaL. preartocarpoidesIncertae sedis but possibly in Proteales. Johnson, 1996.
LaurophyllumL. wardianaLarge leaves. Closely related to "Dryophyllum" subfalcatum.
"Magnolia"M. pulchraOccurs in southern the Wyoming flora,
Leo Hickey claims it is found further north in Montana and the Dakotas.
MarmarthiaM. johnsoniiA new Marmarthia species described in Peppe et al. 2007.[137]
M. pearsoniiJohnson, 1996. In the Lauraceae: a very common taxon.
M. trivialisJohnson, 1996. In the Lauraceae: a very common taxon.
"Myrica""Myrica" torreyiIncertae sedis. Not actually a bayberry.
NelumboN. spOne of the most common aquatic plants in Hell Creek.
NelumbiumN. montanumAn aquatic angiosperm, closely related to lotus. Uncommon.
NordenskioldiaN. borealisA fossil fruit likely to belonging to Zizyphoides flabella.[138]
ParanymphaeaP. hastataDespite the name, it's not related to extant genus Nymphaea.
PalaeoasterP. porosiaA papaveraceous with fruits and seeds visually similar to Romneya though it's dubious.
PenosphyllumP. cordatumMay be related to Sterculioideae. A common taxon.
PlatanitesP. marginataJohnson, 1996. In the Platanaceae. A common taxon.
P. raynoldsiiAn uncommon taxon.
PorosiaP. verrucosaA fossil fruit that may belong to Rutaceae.[139]
RhamnicaR. cleburniiIncertae sedis. A Tetracera look-alike leaf.
SabalitesS. spCoryphoid palm tree. Very common.
SpinifructusS. antiquusA fruit seed that may belong to the palm family (Arecaceae), closely related to the genus Astrocaryum.[140]
TrapagoT. angulataA water caltrop look-alike.
TrochodendroidesT. arcticaA fossil fruit that may belong to Trochodendroides nebrascensis'.
T. ellipticumA katsura look-alike. An uncommon taxon.
T. genetrixA katsura look-alike. A common taxon.
T. nebrascensisA very common taxon.
"Vitis""V." stantoniiPossibly a member of the Platanaceae rather than Vitaceae[141]
"Ziziphus""Z." fibrillosusA common taxon.
ZingiberopsisZ. attenuataRelated to today's ginger plant. Its closest living relative is the Asian genus Alpinia.
Some Hell Creek Formation specimens show damage from hispine beetles ("leaf beetles" (Wilf et al., 2000)).
Z. magnifoliaAnother Zinigberopsis species, previously assigned to Canna? magnifolia.
ZizyphoidesZ. flabellaAn uncommon taxon.

Palynology

GenusSpeciesLocationStratigraphic positionAbundanceNotesImages
AbietineaepollenitesAbietineaepollenites foveoreticulatus[142] MontanaA conifer palynomorph
Abietineaepollenites microalatusMontanaA conifer palynomorph
Abietineaepollenites variusMontanaA conifer palynomorph
AcanthotriletesAcanthotriletes levidensisMontana
AlnipollenitesAlnipollenites verusMontana
AppendicisporitesAppendicisporites tricornitatusMontana
AquilapollenitesAquilapollenites amplusMontana
Aquilapollenites attenuatus
Aquilapollenites collaris
Aquilapollenites conatusMontana
Aquilapollenites delicatusMontana
Aquilapollenites marmarthensis
Aquilapollenites polarisMontana
Aquilapollenites pulvinusMontana
Aquilapollenites pyriformisMontana
Aquilapollenites quadricretaeus
Aquilapollenites quadrilobus
Aquilapollenites reductusMontana
Aquilapollenites reticulatusMontana
Aquilapollenites senonicus
Aquilapollenites turbidus
Aquilapollenites striatus
AzollaAzolla cretaceaMontanaA mosquito fern palynomorph
BalmeisporitesBalmeisporites sp.
CalamosporaCalamospora mesozoicaMontana
CamarozonosporitesCamarozonosporites heskemensisMontana
CicatricosisporitesCicatricosisporites carlylensisMontana
Cicatricosisporites dorogensisMontana
CingulatisporitesCingulatisporites dakotaensisMontana
Cingulatisporites scabratusMontana
ClavatricolpitesClavatricolpites prolatusMontana
ConcavisporitesConcavisporites rugulatusMontana
Concavisporites rugulatusMontana
ConverrucosisporitesConverrucosisporites sp.Montana
CorylusCorylus granilabratusMontanaA hazelnut palynomorph
CupanieiditesCupanieidites majorMontana
CyathiditesCyathidites foveolatusMontana
Cyathidites minorMontana
CycadopitesCycadopites scabratusMontana
DeltoidosporaDeltoidospora diaphanaMontana
DicotetraditesDicotetradites granulatusMontana
EphedripitesEphedripites ovatusMontana
Ephedripites undulatusMontana
ErdtmanipollisErdtmanipollis cretaceusMontana
South Dakota
GleicheniiditesGleicheniidites excelsusMontana
Gleicheniidites senonicusMontana
GnetaceaepollenitesGnetaceaepollenites eocenipitesMontana
HaloragaciditesHaloragacidites quadratusMontana
HamulatisporisHamulatisporis hamulatisMontana
HymenophyllumsporitesHymenophyllumsporites parvusMontanaA fern spore palynomorph
Hymenophyllumsporites pseudomaximusMontanaA fern spore palynomorph
IlexpollenitesIlexpollenites compactus
InaperturopollenitesInaperturopollenites rugulatusMontana
InterpollisInterpollis cf. I. supplingensis
KurtzipitesKurtzipites trispissatusMontana
Kurtzipites trispissatusMontana
LaevigatosporitesLaevigatosporites anomalusMontana
Laevigatosporites discordatusMontana
Laevigatosporites gracilisMontana
Laevigatosporites ovatusMontana
LiliaciditesLiliacidites variegatusMontana
Liliacidites sp.Montana
LycopodiumsporitesLycopodiumsporites austroclavatiditesMontana
MomipitesMomipites circularisMontana
Momipites parvusMontana
MonosulcitesMonosulcites carpentieriMontana
Monosulcites crescentusMontana
Monosulcites latusMontana
Monosulcites tectatusMontana
Monosulcites sp.Montana
MyrtipitesMyrtipites granulatusMontana
Myrtipites scabratusMontana
NyssapollenitesNyssapollenites analepticusMontana
Nyssapollenites pseudocruciatusMontana
OsmundaciditesOsmundacidites wellmaniiMontana
PachysandraPachysandra cretaceaeMontana
South Dakota
PalmiditesPalmidites maximusMontana
PeromonolitesPeromonolites granulatusMontana
PhyllocladiditesPhyllocladidites mawsoniiMontana
Phyllocladidites rueiMontana
PodocarpiditesPodocarpidites otagoensisMontana
PolyadopollenitesPolyadopollenites psilatusMontana
PolycolpitesPolycolpites granulatusMontana
PolypodiiditesPolypodiidites inangahuensisMontana
ProteaciditesProteacidites retususMontana
Proteacidites retususMontana
Proteacidites thalmanniiMontana
PsilatricolporitesPsilatricolporites prolatusMontana
PterocaryapollenitesPterocaryapollenites stellatusMontana
ReticuloidosporitesReticuloidosporites dentatusMontana
SchizosporisSchizosporis complexusMontana
Schizosporis parvusMontana
SpheripollenitesSpheripollenites subgranulatusMontana
SpinamonoporitesSpinamonoporites typicusMontana
StereisporitesStereisporites antiquasporitesMontana
Stereisporites psilatusMontana
StriainaperturitesStriainaperturites ovatusMontana
StyxStyx majorMontana
Styx minorMontana
TaxodiaceaepollenitesTaxodiaceaepollenites hiatusMontana
TriatriopollenitesTriatriopollenites granilabratusMontana
TricolpitesTricolpites bacustriatusMontana
Tricolpites delicatulusMontana
Tricolpites foveolatusMontana
Tricolpites interangulus
Tricolpites parvistriatusMontana
Tricolpites psilascabratusMontana
Tricolpites reticulatusMontana
Tricolpites striatusMontana
TricolpopollenitesTricolpopollenites clavireticulatusMontana
Tricolpopollenites megaexactusMontana
Tricolpopollenites microreticulatusMontana
Tricolpopollenites microscabratusMontana
Tricolpopollenites sp1, sp2Montana
TricolporopollenitesTricolporopollenites elongatusMontana
Tricolporopollenites foveotectatusMontana
Tricolporopollenites granustriatusMontana
Tricolporopollenites megaexactusMontana
Tricolporopollenites prolatusMontana
Tricolporopollenites striatusMontana
TriplanosporitesTriplanosporites sinuosusMontana
TriporopollenitesTriporopollenites rugatusMontana
UlmipollenitesUlmipollenites undulosusMontana
Ulmipollenites verrucatusMontana
UlmoideipitesUlmoideipites tricostatusMontana
WodehouseiaWodehouseia spinataMontana
ZlivisporisZlivisporis blanensisMontana

See also

References

Bibliography

General
Geology
Paleontology

External links

Notes and References

  1. DePalma . Robert . Cichocki . Frederich . Dierick . Manuel . Feeney . Robert . Preliminary Notes on the First Recorded Amber Insects from the Hell Creek Formation . The Journal of Paleontological Sciences . 2010 . 10 . 1–7 . 16 November 2020.
  2. Nel . André . DePalma . Robert A. . Engel . Michael S. . A possible hemiphlebiid damselfly in Late Cretaceous amber from South Dakota (Odonata: Zygoptera) . Transactions of the Kansas Academy of Science . 2010 . 113 . 3/4 . 231–234 . 10.1660/062.113.0312 . 41309615. 84827761 .
  3. Web site: Messer . A'ndrea Eluse . Leaf-mining insects destroyed with the dinosaurs, others quickly appeared . Penn State News . Pennsylvania State University . 20 August 2014.
  4. Web site: North Dakota site shows wreckage from same object that killed the dinosaurs . UW News . University of Washington . 29 March 2019.
  5. Peterson . Douglas . The Day the Dinosaurs Died . The New Yorker.
  6. Nel . André . Maastrichtian representatives of the dragonfly family Aeschnidiidae question the entomofaunal turnover of the early Late Cretaceous . Palaeoentomology . 2021 . 4 . 3 . 10.11646/palaeoentomology.4.3.5 . 17 Feb 2024 .
  7. Web site: Graf . Dan . Cummings . Kevin . The Mussel Project . UWSP Mussel Project . The University of Wisconsin-Stevens Point . 7 June 2021.
  8. Pearson et al. (2002) p. 154
  9. Pearson et al. (2002) pp. 145–167
  10. Pearson et al. (2002) p. 155
  11. Pearson et al. (2002) pp. 156
  12. Listed as "cf. Barbourula sp." in "Class Amphibia," Estes and Berberian, (1970). Page 4.
  13. "Class Amphibia," in Estes and Berberian, (1970). Page 4.
  14. "Class Amphibia," in Estes and Berberian, (1970). Page 4. All taxa listed occur in Montana, see page 1.
  15. Listed as "Eopelobates? sp." in "Class Amphibia," Estes and Berberian, (1970). Page 4.
  16. David G. Demar Jr. . 2013 . A new fossil salamander (Caudata, Proteidae) from the Upper Cretaceous (Maastrichtian) Hell Creek Formation, Montana, U.S.A . Journal of Vertebrate Paleontology . 33 . 3 . 588–598 . 10.1080/02724634.2013.734887 . 2013JVPal..33..588D . 128532897 .
  17. "Class Osteichthyes," in Estes and Berberian, (1970). Page 3.
  18. Hilton . Eric J. . Grande . Lance . 2022-10-03 . Late Cretaceous sturgeons (Acipenseridae) from North America, with two new species from the Tanis site in the Hell Creek Formation of North Dakota . Journal of Paleontology . 97 . 1 . 189–217 . 10.1017/jpa.2022.81 . 252702937 . free .
  19. "Class Osteichthyes," in Estes and Berberian, (1970). Page 3. All taxa listed occur in Montana, see page 1.
  20. Sato . Hiroki . Murray . Alison M. . Vernygora . Oksana . Currie . Philip J. . A rare, articulated sturgeon (Chondrostei: Acipenseriformes) from the Upper Cretaceous of Dinosaur Provincial Park, Alberta, Canada . Journal of Vertebrate Paleontology . 4 July 2018 . 38 . 4 . (1)-(15) . 10.1080/02724634.2018.1488137 . 92574712 .
  21. "Class Osteichthyes," in Estes and Berberian, (1970). Page 4.
  22. Grande . Lance . Bemis . William E. . A Comprehensive Phylogenetic Study of Amiid Fishes (Amiidae) Based on Comparative Skeletal Anatomy. an Empirical Search for Interconnected Patterns of Natural History . Journal of Vertebrate Paleontology . 10 April 1998 . 18 . sup1 . 1–696 . 10.1080/02724634.1998.10011114 . 1998JVPal..18S...1G .
  23. Grande . Lance . An Empirical Synthetic Pattern Study of Gars (lepisosteiformes) and Closely Related Species, Based Mostly on Skeletal Anatomy. the Resurrection of Holostei . Copeia . 2010 . 2010 . 2A . iii–871 . 20787269 .
  24. Listed as "cf. Paralbula casei" in "Class Osteichthyes," Estes and Berberian, (1970). Page 4.
  25. "Class Osteichthyes," in Estes and Berberian, (1970). Page 4. All taxa listed occur in Montana, see page 1.
  26. Hilton . Eric J. . During . Melanie A.D. . Grande . Lance . Ahlberg . Per E. . New paddlefishes (Acipenseriformes, Polyodontidae) from the Late Cretaceous Tanis Site of the Hell Creek Formation in North Dakota, USA . Journal of Paleontology . May 2023 . 97 . 3 . 675–692 . 10.1017/jpa.2023.19 . 2023JPal...97..675H . 258095684 . free .
  27. Grande . Lance . Bemis . William E. . Osteology and Phylogenetic Relationships of Fossil and Recent Paddlefishes (Polyodontidae) with Comments on the Interrelationships of Acipenseriformes . Memoir . Society of Vertebrate Paleontology . 1991 . 1 . ii–121 . 10.2307/3889328 . 3889328 .
  28. Terry A. Gates . Eric Gorscak . Peter J. Makovicky . 2019 . New sharks and other chondrichthyans from the latest Maastrichtian (Late Cretaceous) of North America . Journal of Paleontology . 93. 3. 512–530 . 10.1017/jpa.2018.92 . 2019JPal...93..512G . free .
  29. "Class Chondrichthyes," in Estes and Berberian, (1970). Page 3.
  30. "Class Chondrichthyes," in Estes and Berberian, (1970). Page 3. All taxa listed occur in Montana, see page 1.
  31. Book: Todd D. Cook . Michael G. Newbrey . Donald B. Brinkman . James I. Kirkland . 2014 . Euselachians from the freshwater deposits of the Hell Creek Formation of Montana . Through the End of the Cretaceous in the Type Locality of the Hell Creek Formation in Montana and Adjacent Areas . 503 . 229–246 . 10.1130/2014.2503(08) . Geological Society of America Special Papers . 978-0-8137-2503-1 .
  32. White . Paul . Fastovsky . David . Sheehan . Peter . Taphonomy and suggested structure of the dinosaurian assemblage of the Hell Creek Formation (Maastrichtian), eastern Montana and western North Dakota . PALAIOS . 1998 . 13 . 1 . 41 . 10.2307/3515280 . 3515280 . 1998Palai..13...41W .
  33. Manning . P. L. . Ott . C. . Falkingham . P. L. . 2008 . The first tyrannosaurid track from the Hell Creek Formation (Late Cretaceous), Montana, U.S.A . PALAIOS . 23 . 10. 645–647 . 10.2110/palo.2008.p08-030r . 2008Palai..23..645M . 129985735 .
  34. Lockley . M. . Triebold . M. . Janke . P. R. . 2014 . Dinosaur Tracks from the Hell Creek Formation (Upper Cretaceous, Maastrichtian), South Dakota . Fossil Footprints of Western North America: New Mexico Museum of Natural History and Science, Bulletin . 62 . 459–468 .
  35. Carpenter . Kenneth . Breithaupt . Brent . Latest Cretaceous occurrence of nodosaurid ankylosaurs (Dinosauria, Ornithischia) in Western North America and the gradual extinction of the dinosaurs . Journal of Vertebrate Paleontology . 2 September 1986 . 6 . 3 . 251–257 . 10.1080/02724634.1986.10011619 . 1986JVPal...6..251C .
  36. Carpenter . K. . Late Cretaceous dinosaurs from the Denver Basin, Colorado . Rocky Mountain Geology . November 2002 . 37 . 2 . 237–254 . 10.2113/11 . 2002RMGeo..37..237C .
  37. Giffin . Emily B. . Gabriel . Diane L. . Johnson . Rolf E. . A New Pachycephalosaurid Hell Creek Formation of Montana . Journal of Vertebrate Paleontology . 22 January 1988 . 7 . 4 . 398–407 . 10.1080/02724634.1988.10011672 . 4523163 .
  38. Bakker et al. (2006)
  39. Horner . John R. . Goodwin . Mark B. . Evans . David C. . A new pachycephalosaurid from the Hell Creek Formation, Garfield County, Montana, U.S.A. . Journal of Vertebrate Paleontology . 28 October 2022 . 42 . 4 . 10.1080/02724634.2023.2190369 . 2022JVPal..42E0369H . 258154892 .
  40. Williamson . Thomas E. . Carr . Thomas D. . A new genus of derived pachycephalosaurian from western North America . Journal of Vertebrate Paleontology . 2003 . 22 . 4 . 779–801 . 10.1671/0272-4634(2002)022[0779:ANGODP]2.0.CO;2 . 86112901 .
  41. "Table 21.1," in Weishampel, et al. (2004). Page 465.
  42. Woodruff . D. Cary . Schott . Ryan K. . Evans . David C. . Two new species of small-bodied pachycephalosaurine (Dinosauria, Marginocephalia) from the uppermost Cretaceous of North America suggest hidden diversity in well-sampled formations . Papers in Palaeontology . November 2023 . 9 . 6 . 10.1002/spp2.1535 . 2023PPal....9E1535W . 265261709 .
  43. Book: Carpenter . Kenneth . Horns and Beaks: Ceratopsian and Ornithopod Dinosaurs . 2006 . Indiana University Press . . 978-0-253-02795-5 .
  44. Book: Ryan . Michael J. . Chinnery-Allgeier . Brenda J. . Eberth . David A. . New Perspectives on Horned Dinosaurs: The Royal Tyrrell Museum Ceratopsian Symposium . 2010 . Indiana University Press . 978-0-253-35358-0 . j.ctt16gzgng .
  45. Scannella . John B. . Fowler . Denver W. . A stratigraphic survey of Triceratops localities in the Hell Creek Formation, northeastern Montana (2006–2010) . Through the End of the Cretaceous in the Type Locality of the Hell Creek Formation in Montana and Adjacent Areas . 2014 . 10.1130/2014.2503(12) .
  46. 10.7934/p1099 . Evolutionary Trends in Triceratops from the Hell Creek Formation, Montana (Project) . 2014 . Scannella . B. . Fowler . W. . Goodwin . B. . Horner . R. .
  47. Scannella . John . A chasmosaurine ceratopsid premaxilla from the basal sandstone of the Hell Creek Formation, Montana . Vertebrate Anatomy Morphology Palaeontology . 10 November 2020 . 8 . 154–169 . 10.18435/vamp29366 . 228888356 . free .
  48. Web site: Biles. Jan. Rare dinosaur skull being prepared for exhibition. Topeka Capital-Journal.com. Topeka Capital-Journal. 7 September 2015.
  49. Web site: Super-sized Ceratopsian Skull Might be New Species. Everything Dinosaur. 29 August 2015 . 29 August 2015.
  50. Web site: O' Connell. Max. Dinosaur skull found in Buffalo likely a new species. Rapid City Journal. 27 August 2015 . 27 August 2015.
  51. Ostrom . John H. . Leptoceratops gracilis from the 'Lance' Formation of Wyoming . Journal of Paleontology . May 1978 . 52 . 3 . 697–704 . 1303974 .
  52. Christopher J. Ott and Peter L. Larson, 2010, "A New, Small Ceratopsian Dinosaur from the Latest Cretaceous Hell Creek Formation, Northwest South Dakota, United States: A Preliminary Description", In: Ryan, M.J., Chinnery-Allgeier, B.J., and Eberth, D.A. (eds.) New Perspectives on Horned Dinosaurs: The Royal Tyrrell Museum Ceratopsian Symposium, Bloomington, Indiana University Press, 656 pp.
  53. Christopher J. Ott and Peter L. Larson, 2010, "A New, Small Ceratopsian Dinosaur from the Latest Cretaceous Hell Creek Formation, Northwest South Dakota, United States: A Preliminary Description", In: Ryan, M.J., Chinnery-Allgeier, B.J., and Eberth, D.A. (eds.) New Perspectives on Horned Dinosaurs: The Royal Tyrrell Museum Ceratopsian Symposium, Bloomington, Indiana University Press, 656 pp.
  54. Christopher J. Ott and Peter L. Larson, 2010, "A New, Small Ceratopsian Dinosaur from the Latest Cretaceous Hell Creek Formation, Northwest South Dakota, United States: A Preliminary Description", In: Ryan, M.J., Chinnery-Allgeier, B.J., and Eberth, D.A. (eds.) New Perspectives on Horned Dinosaurs: The Royal Tyrrell Museum Ceratopsian Symposium, Bloomington, Indiana University Press, 656 pp.
  55. Nicholas R. Longrich . 2011 . Titanoceratops ouranous, a giant horned dinosaur from the Late Campanian of New Mexico. Cretaceous Research . 32 . 3. 264–276. 10.1016/j.cretres.2010.12.007. 2011CrRes..32..264L .
  56. Scannella . J. . Horner . J.R. . 2010 . Torosaurus Marsh, 1891, is Triceratops Marsh, 1889 (Ceratopsidae: Chasmosaurinae): synonymy through ontogeny . Journal of Vertebrate Paleontology . 30 . 4. 1157–1168 . 10.1080/02724634.2010.483632 . 2010JVPal..30.1157S . 86767957 .
  57. Mallon . Jordan C . Holmes . Robert B . Bamforth . Emily L . Schumann . Dirk . The record of Torosaurus (Ornithischia: Ceratopsidae) in Canada and its taxonomic implications . Zoological Journal of the Linnean Society . 7 May 2022 . 195 . 1 . 157–171 . 10.1093/zoolinnean/zlab120 . free .
  58. Forster . Catherine A. . Taxomomic validity of the ceratopsid dinosaur Ugrosaurus olsoni (Cobabe and Fastovsky) . Journal of Paleontology . March 1993 . 67 . 2 . 316–318 . 10.1017/S0022336000032273 . 1993JPal...67..316F . 133184183 .
  59. Scannella . John B. . Fowler . Denver W. . Goodwin . Mark B. . Horner . John R. . Evolutionary trends in Triceratops from the Hell Creek Formation, Montana . Proceedings of the National Academy of Sciences . 15 July 2014 . 111 . 28 . 10245–10250 . 10.1073/pnas.1313334111 . free . 24982159 . 4104892 . 2014PNAS..11110245S .
  60. Campione . N.E. . Evans . D.C. . 2011 . Cranial Growth and Variation in Edmontosaurs (Dinosauria: Hadrosauridae): Implications for Latest Cretaceous Megaherbivore Diversity in North America . PLOS ONE . 6 . 9. e25186 . 10.1371/journal.pone.0025186 . 21969872 . 3182183. 2011PLoSO...625186C . free .
  61. Manning . Phillip L. . Morris . Peter M. . McMahon . Adam . Jones . Emrys . Gize . Andy . Macquaker . Joe H. S. . Wolff . George . Thompson . Anu . Marshall . Jim . Taylor . Kevin G. . Lyson . Tyler . Gaskell . Simon . Reamtong . Onrapak . Sellers . William I. . van Dongen . Bart E. . Buckley . Mike . Wogelius . Roy A. . Mineralized Soft-Tissue Structure and Chemistry in a Mummified Hadrosaur from the Hell Creek Formation, North Dakota (USA) . Proceedings: Biological Sciences . 7 October 2009 . 276 . 1672 . 3429–3437 . 10.1098/rspb.2009.0812 . 30244137. 19570788 . 2817188 .
  62. Vajda . Vivi . Lyson . Tyler R. . Bercovici . Antonie . Doman . Jessman H. . Pearson . Dean A. . A snapshot into the terrestrial ecosystem of an exceptionally well-preserved dinosaur (Hadrosauridae) from the Upper Cretaceous of North Dakota, USA . Cretaceous Research . November 2013 . 46 . 114–122 . 10.1016/j.cretres.2013.08.010. 2013CrRes..46..114V .
  63. Rohrer . W. L. . Konizeski . R. . On the Occurrence of Edmontosaurus in the Hell Creek Formation of Montana . 34 . May 1960 . 34 . 3 . 464–466 . 1300943 .
  64. Wosik . Mateusz . Goodwin . Mark B. . Evans . David C. . A nestling-sized skeleton of Edmontosaurus (Ornithischia, Hadrosauridae) from the Hell Creek Formation of northeastern Montana, U.S.A., with an analysis of ontogenetic limb allometry . Journal of Vertebrate Paleontology . 2 November 2017 . 37 . 6 . e1398168 . 10.1080/02724634.2017.1398168 . 2017JVPal..37E8168W . 90735967 .
  65. Boyd . Clint A. . Brown . Caleb Marshal . Scheetz . Rodney D. . Clarke . Julia A. . Taxonomic Revision of the Basal Neornithischian Taxa Thescelosaurus and Bugenasaura . 12 September 2009 . 29 . 3 . 758–770 . 20627088 . Journal of Vertebrate Paleontology. 10.1671/039.029.0328 . 2009JVPal..29..758B . 84273584 .
  66. Listed as "?Thescelosaurus garbanii" in "Dinosaur distribution (Late Cretaceous; North America; Montana)." Weishampel, et al. (2004). Page 584.
  67. Noted as being present, although misspelled as "Thescelosaurus garbani, in " "Dinosaur distribution (Late Cretaceous; North America; South Dakota)." Weishampel, et al. (2004). Page 586.
  68. Boyd, Brown, et al. (2009)
  69. Galton . Peter M. . Notes on Thescelosaurus, a Conservative Ornithopod Dinosaur from the Upper Cretaceous of North America, with Comments on Ornithopod Classification . Journal of Paleontology . September 1974 . 48 . 5 . 1048–1067 . 1303302 .
  70. Manning . Phillip L. . Ott . Christopher . Falkingham . Peter L. . A Probable Tyrannosaurid Track from the Hell Creek Formation (Upper Cretaceous), Montana, United States . PALAIOS . September–October 2008 . 23 . 9/10 . 645–647 . 10.2110/palo.2008.p08-030r . 27670550 . 2008Palai..23..645M . 129985735 .
  71. Dalman . S.G. . Lucas . S.G. . A new large Tyrannosaurid Alamotyrannus brinkmani, n. gen., n. sp. (Theropoda: Tyrannosauridae), from the Upper Cretaceous Ojo Alamo Formation (Naashoibito Member), San Juan Basin, New Mexico . New Mexico Museum of Natural History and Science Bulletin.
  72. Molnar . R.E. . An Albertosaur from the Hell Creek Formation of Montana . Journal of Paleontology . January 1980 . 54 . 1 . 102–108 . 1304167.
  73. Molnar . R. E. . A New Theropod Dinosaur from the Upper Cretaceous of Central Montana . Journal of Paleontology . January 1978 . 52 . 1 . 73–82 . 1303791 .
  74. Denver W. Fowler . John P. Wilson . Elizabeth A. Freedman Fowler . Christopher R. Noto . Daniel Anduza . John R. Horner . 2020 . Trierarchuncus prairiensis gen. et sp. nov., the last alvarezsaurid: Hell Creek Formation (uppermost Maastrichtian), Montana . Cretaceous Research . 116 . Article 104560 . 10.1016/j.cretres.2020.104560 . 225630913 . free . 2020CrRes.11604560F .
  75. "Dinosaur distribution (Late Cretaceous; North America; Montana)." Weishampel, et al. (2004). Page 584.
  76. Hutchinson and Chiappe, 1998. The first known alvarezsaurid (Theropoda: Aves) from North America. Journal of Vertebrate Paleontology. 18(3), 447–450.
  77. "Dinosaur distribution (Late Cretaceous; North America; Montana)." Weishampel, et al. (2004). Page 584.
  78. "Dinosaur distribution (Late Cretaceous; North America; North Dakota)." Weishampel, et al. (2004). Page 585.
  79. "Dinosaur distribution (Late Cretaceous; North America; South Dakota)." Weishampel, et al. (2004). Page 586.
  80. Horner . John R. . Goodwin . Mark B. . Myhrvold . Nathan . Dinosaur Census Reveals Abundant Tyrannosaurus and Rare Ontogenetic Stages in the Upper Cretaceous Hell Creek Formation (Maastrichtian), Montana, USA . PLOS ONE . 9 February 2011 . 6 . 2 . e16574 . 10.1371/journal.pone.0016574 . free . 21347420 . 3036655 . 2011PLoSO...616574H .
  81. Triebold, 1997. The Sandy Site: Small Dinosaurs from the Hell Creek Formation of South Dakota. in Wolberg, Stump and Rosenberg (eds). Dinofest International: Proceedings of a Symposium sponsored by Arizona
  82. Longrich (2008), pages 983–996.
  83. 10.1371/journal.pone.0092022. A New Large-Bodied Oviraptorosaurian Theropod Dinosaur from the Latest Cretaceous of Western North America. PLOS ONE. 9. 3. e92022. 2014. Lamanna . M. C. . Sues . H. D. . Schachner . E. R. . Lyson . T. R. . 24647078 . 3960162. 2014PLoSO...992022L. free.
  84. Stein . Walter W. . TAKING COUNT: A Census of Dinosaur Fossils Recovered From the Hell Creek and Lance Formations (Maastrichtian). . The Journal of Paleontological Sciences . 2019 . 8 . 1–42 .
  85. Schachner . Emma . Larson . Tyler . Hanks . Harold . A preliminary report of a new specimen of Chirostenotes (Oviraptorosauria: Theropoda) from the Hell Creek Formation of North Dakota . in 10.1080/02724634.2006.10010069 . Abstracts of Papers . Journal of Vertebrate Paleontology . 2006 . 26 . 1–152 . 2006JVPal..26S...1. .
  86. Russel . Dale A. . Manabe . Makoto . Synopsis of the Hell Creek (uppermost Cretaceous) dinosaur assemblage. . Geological Society of America Special Papers . 2002 . 361 . 169–176 . 9780813723617 . 18 October 2020.
  87. Benner . Elizabeth K. C. . Cullen . T. M. . Evans . D. C. . MORPHOLOGICAL AND HISTOLOGICAL ANALYSIS OF A NEW LARGE-BODIED 10 CAENAGNATHID SPECIMEN (THEROPODA: OVIRAPTOROSAURIA) FROM THE HELL CREEK FORMATION (MONTANA) . Canadian Society of Vertebrate Paleontology . May 18–21, 2016 . 17–18 . 17 November 2020.
  88. 10.1371/journal.pone.0092022. A New Large-Bodied Oviraptorosaurian Theropod Dinosaur from the Latest Cretaceous of Western North America. PLOS ONE. 9. 3. e92022. 2014. Lamanna . M. C. . Sues . H. D. . Schachner . E. R. . Lyson . T. R. . 24647078 . 3960162. 2014PLoSO...992022L. free.
  89. Atkins-Weltman . K. L. . Simon . D. J. . Woodward . H. N. . Funston . G. F. . Snively . E. . 2024 . A new oviraptorosaur (Dinosauria: Theropoda) from the end-Maastrichtian Hell Creek Formation of North America . PLOS ONE . 19 . 1 . e0294901 . 10.1371/journal.pone.0294901 . free. 38266012 . 10807829 . 2024PLoSO..1994901A .
  90. Russel . Dale A. . Manabe . Makoto . Synopsis of the Hell Creek (uppermost Cretaceous) dinosaur assemblage. . Geological Society of America Special Papers . 2002 . 361 . 169–176 . 9780813723617 . 23 October 2020.
  91. Dinosaur distribution (Late Cretaceous; North America; North Dakota). Weishampel, et al. (2004). Page 585
  92. Evans . D. C. . Larson . D. W. . Currie . P. J. . 10.1007/s00114-013-1107-5 . A new dromaeosaurid (Dinosauria: Theropoda) with Asian affinities from the latest Cretaceous of North America . Naturwissenschaften . 2013 . 24248432. 100 . 11 . 1041–9. 2013NW....100.1041E . 14978813 .
  93. Stidham, 1999. North American avisaurids (Aves: Enantiornithes): New data on morphology and phylogeny. VII International Symposium on Mesozoic Terrestrial Ecosystems, abstracts.
  94. Larry D. Martin . Evgeny N. Kurochkin . Tim T. Tokaryk . 2012 . A new evolutionary lineage of diving birds from the Late Cretaceous of North America and Asia . . 21 . 59–63. 10.1016/j.palwor.2012.02.005.
  95. The first giant raptor (Theropoda: Dromaeosauridae) from the Hell Creek Formation. Robert T.. Bakker. Peter L.. Larson. Larry D.. Martin. David A.. Burnham. Robert A.. DePalma. 30 October 2015. 10.17161/paleo.1808.18764. Paleontological Contributions. 14: 1–16. free.
  96. Olshevsky, G., 1991, A Revision of the Parainfraclass Archosauria Cope, 1869, Excluding the Advanced Crocodylia. Mesozoic Meanderings 2 pp 196
  97. Carpenter. K.. 1982. Baby dinosaurs from the Late Cretaceous Lance and Hell Creek formations and a description of a new species of theropod. Contributions to Geology, University of Wyoming. 20. 2. 123–134.
  98. Carpenter. K.. 1982. Baby dinosaurs from the Late Cretaceous Lance and Hell Creek formations and a description of a new species of theropod. Contributions to Geology, University of Wyoming. 20. 2. 123–134.
  99. Elzanowski . A. . Paul . G.S. . Stidham . T.A. . 2001 . An avian quadrate from the Late Cretaceous Lance Formation of Wyoming . Journal of Vertebrate Paleontology . 20 . 4. 712–719 . 10.1671/0272-4634(2000)020[0712:aaqftl]2.0.co;2. 86292770 .
  100. Book: Estes . Richard . Fossil vertebrates from the late Cretaceous Lance formation, eastern Wyoming . 1964 . University of California Press . 3753287 .
  101. Larson . Derek W. . Currie . Philip J. . Multivariate Analyses of Small Theropod Dinosaur Teeth and Implications for Paleoecological Turnover through Time . PLOS ONE . 23 January 2013 . 8 . 1 . e54329 . 10.1371/journal.pone.0054329 . 23372708 . 3553132 . 2013PLoSO...854329L . free .
  102. Stidham . Thomas Allen . The origin and ecological diversification of modern birds: Evidence from the extinct wading ducks, Presbyornithidae (Neornithes: Anseriformes) . 2001 . . 892837810 .
  103. Longrich . N.R. . Tokaryk . T. . Field . D.J. . 2011 . Mass extinction of birds at the Cretaceous–Paleogene (K–Pg) boundary . Proceedings of the National Academy of Sciences . 108 . 37. 15253–15257 . 10.1073/pnas.1110395108 . 2011PNAS..10815253L . 21914849 . 3174646. free .
  104. "Class Aves," in Estes and Berberian, (1970). Page 7. All taxa listed occur in Montana, see page 1.
  105. "Class Aves," in Estes and Berberian, (1970). Page 7.
  106. Henderson . Michael . Peterson . Joseph . An Azhdarchid Pterosaur Cervical Vertebra from the Hell Creek Formation (Maastrichtian) of Southeastern Montana . Journal of Vertebrate Paleontology . 30 March 2006 . 26 . 1 . 192–195 . 10.1671/0272-4634(2006)26[192:AAPCVF]2.0.CO;2 . 4524549 . 130751879 .
  107. R. Matsumoto . S. E. Evans . 2010 . Choristoderes and the freshwater assemblages of Laurasia . . 36 . 2 . 253–274 . 10.5209/rev_jige.2010.v36.n2.11. free . 2010JIbG...36..253M .
  108. "Order Testudinata," in Estes and Berberian, (1970). Page 5.
  109. "Order Testudinata," in Estes and Berberian, (1970). Page 5. All taxa listed occur in Montana, see page 1.
  110. Walter G. Joyce . Donald B. Brinkman . Tyler R. Lyson . 2019 . A new species of trionychid turtle, Axestemys infernalis sp. nov., from the Late Cretaceous (Maastrichtian) Hell Creek and Lance formations of the Northern Great Plains, USA . Palaeontologia Electronica . 22 . 3 . Article number 22.3.72 . 10.26879/949 . free .
  111. Arbour . Victoria M. . Zanno . Lindsay E. . Larson . Derek W. . Evans . David C. . Sues . Hans-Dieter . The furculae of the dromaeosaurid dinosaur Dakotaraptor steini are trionychid turtle entoplastra . PeerJ . 9 February 2016 . 4 . e1691 . 10.7717/peerj.1691 . 26893972 . 4756751 . free .
  112. Georgia E. Knauss . Walter G. Joyce . Tyler R. Lyson . Dean Pearson . 2011 . A new kinosternoid from the Late Cretaceous Hell Creek Formation of North Dakota and Montana and the origin of the Dermatemys mawii lineage . Paläontologische Zeitschrift . 85 . 2 . 124–142 . 10.1007/s12542-010-0081-x . 2011PalZ...85..125K . 129123961 .
  113. Web site: Cretaceous-Period Softshell Turtle Lived alongside Giant Dinosaurs Sci-News.com . 2022-03-15 . Breaking Science News Sci-News.com . 14 March 2022 . en-US.
  114. Tyler R. Lyson . Jacob L. Sayler . Walter G. Joyce . 2019 . A new baenid turtle, Saxochelys gilberti, gen. et sp. nov., from the uppermost Cretaceous (Maastrichtian) Hell Creek Formation: sexual dimorphism and spatial niche partitioning within the most speciose group of Late Cretaceous turtles . Journal of Vertebrate Paleontology . 39 . 4 . e1662428 . 10.1080/02724634.2019.1662428 . 2019JVPal..39E2428L . 208587902 .
  115. Web site: 2019-03-31. Fossils may capture the day the dinosaurs died. Here's what you should know.. https://web.archive.org/web/20210305093325/https://www.nationalgeographic.com/science/article/fossils-found-from-day-dinosaurs-died-chicxulub-tanis-cretaceous-extinction. dead. March 5, 2021. 2021-08-20. Science. en.
  116. Van Vranken . Nathan E. . Boyd . Clint A. . The first in situ collection of a mosasaurine from the marine Breien Member of the Hell Creek Formation in south-central North Dakota, USA . PaleoBios . 21 August 2021 . 38 . 1 . 10.5070/P938054460 . free .
  117. Nicholas R. Longrich . Bhart-Anjan S. Bhullar . Jacques A. Gauthier . 2012 . Mass extinction of lizards and snakes at the Cretaceous–Paleogene boundary . Proceedings of the National Academy of Sciences of the United States of America . 109 . 52 . 21396–21401 . 10.1073/pnas.1211526110 . 23236177 . 3535637. 2012PNAS..10921396L . free .
  118. Nicholas R. Longrich . Bhart-Anjan S. Bhullar . Jacques A. Gauthier . 2013 . Correction for "Mass extinction of lizards and snakes at the Cretaceous–Paleogene boundary," by Nicholas R. Longrich, Bhart-Anjan S. Bhullar, and Jacques A. Gauthier, which appeared in issue 52, December 26, 2012, of Proc Natl Acad Sci USA (109:21396–21401; first published December 10, 2012; 10.1073/pnas.1211526110) . Proceedings of the National Academy of Sciences of the United States of America . 110 . 16 . 6608 . 10.1073/pnas.1303907110. 2013PNAS..110Q6608. . 3631639 . free .
  119. [Zofia Kielan-Jaworowska]
  120. J. David Archibald . Yue Zhang . Tony Harper . Richard L. Cifelli . Protungulatum, confirmed Cretaceous occurrence of an otherwise Paleocene eutherian (placental?) mammal . Journal of Mammalian Evolution . 18 . 3 . 153–161 . 2011 . 10.1007/s10914-011-9162-1 . 16724836 .
  121. Gregory P. Wilson. Mammals across the K/Pg boundary in northeastern Montana, U.S.A.: dental morphology and body-size patterns reveal extinction selectivity and immigrant-fueled ecospace filling . Paleobiology . 39 . 3 . 429–469 . 2013 . 10.1666/12041 . 2013Pbio...39..429W . 36025237 .
  122. Thomas E. Williamson . Stephen L. Brusatte . Thomas D. Carr . Anne Weil . Barbara R. Standhardt . The phylogeny and evolution of Cretaceous–Palaeogene metatherians: cladistic analysis and description of new early Palaeocene specimens from the Nacimiento Formation, New Mexico . Journal of Systematic Palaeontology . 10 . 4 . 625–651 . 2012 . 10.1080/14772019.2011.631592 . 2012JSPal..10..625W . 83996185 .
  123. Davis . B. M. . A revision of 'pediomyid' marsupials from the Late Cretaceous of North America . Acta Palaeontologica Polonica . 2007 . 52 . 2 . 217–256 .
  124. Kelly . T.S. . 2014 . Preliminary report on the mammals from Lane's Little Jaw Site Quarry: a latest Cretaceous (earliest Puercan?) local fauna, Hell Creek Formation, southeastern Montana . Paludicola . 10 . 1 . 50–91 .
  125. Fox . Richard C. . A revision of the Late Cretaceous–Paleocene eutherian mammal Cimolestes Marsh, 1889 . Canadian Journal of Earth Sciences . December 2015 . 52 . 12 . 1137–1149 . 10.1139/cjes-2015-0113 . 2015CaJES..52.1137F .
  126. Fastovsky . David E. . McSWEENEY . Kevin . Paleosols spanning the Cretaceous-Paleogene transition, eastern Montana and western North Dakota . Geological Society of America Bulletin . 1987 . 99 . 1 . 66 . 10.1130/0016-7606(1987)99<66:PSTCTE>2.0.CO;2 . 1987GSAB...99...66F .
  127. Book: 10.1130/SPE247-p433 . Megafloral change across the Cretaceous/Tertiary boundary in the northern Great Plains and Rocky Mountains, U.S.A. . Global Catastrophes in Earth History; an Interdisciplinary Conference on Impacts, Volcanism, and Mass Mortality . Geological Society of America Special Papers . 1990 . Johnson . Kirk R. . Hickey . Leo J. . 247 . 433–444 . 0-8137-2247-0 .
  128. Book: 10.1130/0-8137-2361-2.329 . Megaflora of the Hell Creek and lower Fort Union Formations in the western Dakotas: Vegetational response to climate change, the Cretaceous-Tertiary boundary event, and rapid marine transgression . The Hell Creek Formation and the Cretaceous-Tertiary boundary in the northern Great Plains: An Integrated continental record of the end of the Cretaceous . 2002 . Johnson . Kirk R. . 978-0-8137-2361-7 .
  129. Johnson . Kirk R. . Nichols . Douglas J. . Attrep . Moses . Orth . Charles J. . High-resolution leaf-fossil record spanning the Cretaceous/Tertiary boundary . Nature . August 1989 . 340 . 6236 . 708–711 . 10.1038/340708a0 . 1989Natur.340..708J . 4302433 .
  130. Barnet . James S.K. . Littler . Kate . Kroon . Dick . Leng . Melanie J. . Westerhold . Thomas . Röhl . Ursula . Zachos . James C. . A new high-resolution chronology for the late Maastrichtian warming event: Establishing robust temporal links with the onset of Deccan volcanism . Geology . 1 February 2018 . 46 . 2 . 147–150 . 10.1130/G39771.1 . 2018Geo....46..147B . 10871/30937 . free .
  131. Retallack . Gregory J. . A pedotype approach to latest Cretaceous and earliest Tertiary paleosols in eastern Montana . Geological Society of America Bulletin . November 1994 . 106 . 11 . 1377–1397 . 10.1130/0016-7606(1994)106<1377:APATLC>2.3.CO;2 . 1994GSAB..106.1377R .
  132. Web site: Cruisin' the fossil freeway : an epoch tale of a scientist and an artist on the ultimate 5,000-mile paleo road trip WorldCat.org . 2024-01-27 . search.worldcat.org . en.
  133. Manchester . Steven R. . O'Leary . Elizabeth L. . 2010 . Phylogenetic Distribution and Identification of Fin-winged Fruits . Botanical Review . 76 . 1 . 1–82 . 10.1007/s12229-010-9041-0 . 40792810 . 2010BotRv..76....1M . 8207808 .
  134. Johnson . Kirk Richard . 1989 . A high-resolution megafloral biostratigraphy spanning the Cretaceous-Tertiary boundary in the northern Great Plains .
  135. Stockey . Ruth A. . Rothwell . Gar W. . Johnson . Kirk R. . October 2016 . Evaluating Relationships among Floating Aquatic Monocots: A New Species of Cobbania (Araceae) from the Upper Maastrichtian of South Dakota . International Journal of Plant Sciences . en . 177 . 8 . 706–725 . 10.1086/688285 . 89477112 .
  136. Peppe . Daniel J. . Hickey . Leo J. . October 2014 . Fort Union Formation Fossil Leaves (Paleocene, Williston Basin, North Dakota, USA) Indicate Evolutionary Relationships Between Paleocene and Eocene Plant Species . Bulletin of the Peabody Museum of Natural History . 55 . 2 . 171–189 . 10.3374/014.055.0209 . 129724520 .
  137. Peppe . Daniel J. . Erickson . J. Mark . Hickey . Leo J. . May 2007 . Fossil leaf species from the Fox Hills Formation (Upper Cretaceous: North Dakota, USA) and their paleogeographic significance . Journal of Paleontology . 81 . 3 . 550–567 . 10.1666/05067.1 . 2007JPal...81..550P . 129967389 .
  138. Crane . Peter R. . Manchester . Steven R. . Dilcher . David L. . October 1991 . Reproductive and Vegetative Structure of Nordenskioldia (Trochodendraceae), A Vesselless Dicotyledon from the Early Tertiary of the Northern Hemisphere . American Journal of Botany . 78 . 10 . 1311–1334 . 10.1002/j.1537-2197.1991.tb12599.x .
  139. Manchester . Steven R. . Kodrul . Tatyana M. . Morphology, affinities and phytogeographic history of Porosia Hickey in the Cretaceous and Paleocene of North America and Asia . Acta Palaeobotanica . June 2014 . 54 . 1 . 77–99 . 10.2478/acpa-2014-0002 . free .
  140. McIver . Elisabeth E . The paleoenvironment of Tyrannosaurus rex from southwestern Saskatchewan, Canada . Canadian Journal of Earth Sciences . February 2002 . 39 . 2 . 207–221 . 10.1139/e01-073 . 2002CaJES..39..207M .
  141. Book: Arens . Nan Crystal . Allen . Sarah E. . Through the End of the Cretaceous in the Type Locality of the Hell Creek Formation in Montana and Adjacent Areas . A florule from the base of the Hell Creek Formation in the type area of eastern Montana: Implications for vegetation and climate . 1 January 2014 . 10.1130/2014.2503(06) . 9780813725031 .
  142. Norton . N.J. . Hall . J.H. . 1969 . Palynology of the Upper Cretaceous and Lower Tertiary in the type locality of the Hell Creek Formation, Montana, USA . Palaeontographica Abteilung B . 125 . 1–64.