Paleontology in Utah

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The location of the state of Utah Map of USA UT.svg
The location of the state of Utah

Paleontology in Utah refers to paleontological research occurring within or conducted by people from the U.S. state of Utah. Utah has a rich fossil record spanning almost all of the geologic column. [1] During the Precambrian, the area of northeastern Utah now occupied by the Uinta Mountains was a shallow sea which was home to simple microorganisms. During the early Paleozoic Utah was still largely covered in seawater. The state's Paleozoic seas would come to be home to creatures like brachiopods, fishes, and trilobites. During the Permian the state came to resemble the Sahara desert and was home to amphibians, early relatives of mammals, and reptiles. During the Triassic about half of the state was covered by a sea home to creatures like the cephalopod Meekoceras , while dinosaurs whose footprints would later fossilize roamed the forests on land. Sand dunes returned during the Early Jurassic. During the Cretaceous the state was covered by the sea for the last time. The sea gave way to a complex of lakes during the Cenozoic era. Later, these lakes dissipated and the state was home to short-faced bears, bison, musk oxen, saber teeth, and giant ground sloths. Local Native Americans devised myths to explain fossils. Formally trained scientists have been aware of local fossils since at least the late 19th century. Major local finds include the bonebeds of Dinosaur National Monument. The Jurassic dinosaur Allosaurus fragilis is the Utah state fossil.

Contents

Prehistory

Scaphites. SmallScaphites.jpg
Scaphites .

During the Precambrian, the area of northeastern Utah now occupied by the Uinta Mountains was a shallow sea which was home to simple microorganisms. [2] During the Paleozoic, most of Utah was covered by a shallow sea. [2] The life of Utah during the Cambrian period included brachiopods and trilobites like Elrathia . Cambrian fossils are known from Antelope Springs, the House Range, Millard County in west central Utah. [1] Other Paleozoic marine life included algae, brachiopods, corals, snails, sponges, and trilobites. [2] Marine conditions continued into the Carboniferous. [2] Almost every kind of marine invertebrate could be found in Utah at this time. Fish were also present. This age is the best documented among the state's fossil record. [2] Later, during the Permian period, eastern Utah resembled the modern Sahara desert. Sediments deposited here are now known as the Cedar Mesa Formation. [3] One spectacular fossil trackway from this formation documents a possible predation event that occurred hundreds of millions of years ago. One small trackway of the ichnogenus Stenichnus , left by an early reptile like a protorothyrid or a primitive amphibian like a microsaur, proceeds for a short distance before disappearing when its tracks meet a trackway left by a larger animal. These larger tracks of the ichnogenus Anomalopus were likely left by a predatory pelycosaur who may have eaten the Stenichnus trackmaker. [4]

Sea levels in Utah dropped by the start of the Mesozoic, leaving only the western half of the state submerged. Life was abundant in the sea. [2] In Utah's Triassic marine ecosystems, Meekoceras was an especially common cephalopod. Its remains were preserved at what is now known as "Cephalopod Gulch" near Salt Lake City. [1] A series of floodplains filled the vacated eastern part of the state. [2] On land, the Triassic life included trees similar to those of Petrified Forest National Park. [1] Local dinosaurs left behind footprints that would later fossilize. [2] For the rest of the Mesozoic sea levels in the state would rise and fall. During a dry spell in the Jurassic the state was covered in sand dunes. Later the sea rose and covered much of the state. This sea was home to ammonites, brachiopods, clams, fish, marine reptiles, and snails. On land, Utah was still home to dinosaurs. [2] During the Middle Jurassic, eastern Utah was home to crocodilians. One small individual preserved in sediments now known as the Entrada Sandstone represents the only vertebrate body fossils known from western North America. [5] The Entrada Sandstone also preserves many footprints of mid-to-large sized carnivorous dinosaurs across more than thirty tracksites in the eastern part of the state. [6] These tracksites form "a single vast expanse of tracks covering an area of over 300 square miles", or roughly 1,000 square kilometers. This is known as the Moab megatracksite. [7] During the Late Jurassic a group of small to mid-sized ornithopods left behind another significant series of trackways that have since fossilized. These parallel trackways were laid down in sediments that would later become the Morrison Formation of the state's southeastern region, near the Arizona border. The tracks provide important clues to dinosaur social behavior. [8] During the Cretaceous significant volcanic activity occurred in Utah. [9] The Cretaceous was also the last period in geologic history that Utah was covered in sea water. [2] During the Early Cretaceous Utah was home to the pliosaurid Brachauchenius . Western Interior Seaway researcher Michael J. Everhart has called it a "true 'sea monster'" of its time". [10] Nevertheless, most of the fossils from this time are the preserved remains of contemporary local terrestrial life. [2] Later during the ensuing Late Cretaceous epoch the ammonite Scaphites was especially common in Utah's marine environments. [1]

Into the Cenozoic era, geologic processes elevated the state's topography. Utah was also host to a complex of large lakes. Many of these lakes' inhabitants fossilized. These massive lakes gradually vanished as the Cenozoic era proceeded. [2] The Uinta Basin region near the state's border with neighboring Wyoming has been a source of fossil bird tracks, fish, insects, and leaves dating back to the Eocene epoch of the Cenozoic era. [1] Later in the Cenozoic geologic uplift created the state's Basin and Range physiographic province. More recently, in the Quaternary, the state's many canyons were formed by rivers eroding through uplifted rock. Lake Bonneville formed and then largely dried out as local precipitation decreased. Its remnants are known as Great Salt Lake. Local wildlife included short-faced bears, bison, musk oxen, saber teeth, and giant ground sloths. [2]

History

Indigenous interpretations

Elrathia. ElrathiakingiUtahWheelerCambrian.jpg
Elrathia .

Near Monticello is a dinosaur tracksite preserved in the Chinle Formation with nearby Indian petroglyphs. [11] Between the years 700 and 1,000 the Fremont culture left petroglyphs of giant lizards up to six feet long next to a small one foot tall human figure at Cub Creek, not far from the Douglas/Carnegie bone beds of Dinosaur National Monument. These petroglyphs may have been inspired by the abundant local dinosaur bones and footprints. A sizable dinosaur tracksite is only 200 yards away. Alternatively, the lizard petroglyphs may have been inspired by fossil footprints of the ichnogenus Brachycheirotherium , which is sometimes accompanied by lizard-like tail drag marks. [12]

Fossils of the Cambrian trilobite Elrathia kingii are common in Utah between Antelope Spring and Deseret. Indigenous people of the area like the Pahvant Utes used them as protective amulets. The Ute traditional name for Elrathia fossils is Timpe khanitza pachavee, which means "little water bug in stone". Utes would fashion amulets from the fossils which were reported to have protective and healing properties. The amulets supposedly helped diphtheria, sore throat and many other kinds of illness. They were also said to protect against bullets. The traditional way of making an Elrathia amulet necklace was to fix thirteen specimens in order of increasing size with green, red, and brown beads made of clay accompanied by two horsehair tassles on a leather thong. [13] The idea of trilobite amulets as having protective power may have been inferred from the resilience of the stone surrounding an animal resembling a "normally vulnerable" water bug. It may also be possible that amulets made of fossils like trilobites or ammonites to physically deflect projectiles. [14]

Scientific research

Allosaurus fragilis. Allosaurus BW.jpg
Allosaurus fragilis .

One of the earliest expeditions into Utah occurred during the summer and fall of 1870, when an expedition led by O. C. Marsh collected fossils in on behalf of Yale University. [15] Later, in 1908, paleontologist Earl Douglass was excavating fossils on behalf of the Carnegie Museum of Natural History. Director Holland of the museum visited Douglass's camp that year. In September, Holland suggested that Douglass search for Jurassic dinosaur fossils in the Uinta Mountains north of his camp. Previous surveyors and paleontologists had noted dinosaur fossils of that age there and Holland suspected that they were promising hunting grounds. Douglass agreed and they set off to the Uinta Mountains the next day. Together they found a Diplodocus femur southeast of Split Mountain near the Green River. Encouraged by the discovery of the femur, Douglass returned to the Uinta Mountains the next year. Douglass had little luck during the spring and early part of the summer, but on August 17 he found a series of eight fossil Apatosaurus tail vertebrae, still articulated. On receiving word of the discovery, Holland returned to the site. [16]

Douglass built a home near the Green River and his family moved in from Pittsburgh. He spent the rest of his career in the area excavating fossils. [16] Among his finds were two more adult Apatosaurus and one juvenile, and the partial skeletons of Allosaurus , Barosaurus , Camarasaurus , Camptosaurus , Diplodocus , Dryosaurus , Stegosaurus . [17] Nondinosaurian finds included the crocodilian Goniopholis and the turtle Glyptops . The Carnegie Museum eventually ran out of funding for field work, which terminated in 1922. A year later, Charles Gilmore led an expedition into the area on behalf of the Smithsonian. Gilmore's team discovered the Diplodocus that would later be put on display in the Smithsonian. Later in the year, the University of Utah sent another field team into the area and discovered an Allosaurus skull. From 1924 to 1952 fieldwork had ceased in the area. Paleontologist Ted White ended up restarting fieldwork in the area on behalf of the National Park Service. [18] In 1915 US president Woodrow Wilson declared the quarry and surrounding land Dinosaur National Monument in order to protect it from settlement. [19] Between 1909 and 1923 millions of tons of rocks and fossils had been excavated from the Dinosaur National Monument area. [20] In 1958, the Dinosaur National Monument quarry building was finally completed. [19] Later, in 1988, the Jurassic dinosaur Allosaurus fragilis was designated the Utah state fossil.

Protected areas

People

Births

James A. Jensen was born in Leamington on August 2, 1918.

Robert C. Thorne was born in Ashley on 25 November 1898.

Deaths

Robert C. Thorne died in Vernal, Utah on 27 May 1960.

Natural history museums

See also

Footnotes

  1. 1 2 3 4 5 6 Murray (1974); "Utah", page 273.
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 Chure, Springer, Scotchmoor (2005); "Paleontology and geology".
  3. Lockley and Hunt (1999); "Tracks of the Arid Permian", pages 39-40.
  4. Lockley and Hunt (1999); "Tracks of the Arid Permian", pages 55-56.
  5. Lockley and Hunt (1999); "The Mid-Jurassic and the Moab Megatracksite", page 150.
  6. Lockley and Hunt (1999); "The Mid-Jurassic and the Moab Megatracksite", pages 152-153.
  7. Lockley and Hunt (1999); "The Mid-Jurassic and the Moab Megatracksite", pages 153-154.
  8. Lockley and Hunt (1999); "Morrison Formation Tracks of the Late Jurassic: The Golden Age of Brontosaurs", pages 174-176.
  9. Everhart (2005); "One Day in the Life of a Mosasaur", page 7.
  10. Everhart (2005); "Pliosaurs and Polycotylids", pages 143-144.
  11. Mayor (2005); "Footprints of Monsters", page 139.
  12. Mayor (2005); "Footprints of Monsters", pages 139-140.
  13. Mayor (2005); "Paiute and Ute Fossil Knowledge in the Great Basin", page 152.
  14. Mayor (2005); "Paiute and Ute Fossil Knowledge in the Great Basin", page 153.
  15. Everhart (2005); "Pteranodons: Rulers of the Air", page 195.
  16. 1 2 Foster (2007); "Dinosaur National Monument", page 86.
  17. Foster (2007); "Dinosaur National Monument", pages 86-87.
  18. Foster (2007); "Dinosaur National Monument", page 87.
  19. 1 2 Foster (2007); "Dinosaur National Monument", page 88.
  20. Murray (1974); "Utah", page 271.

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Paleontology in Georgia (U.S. state)

Paleontology in Georgia refers to paleontological research occurring within or conducted by people from the U.S. state of Georgia. During the early part of the Paleozoic, Georgia was largely covered by seawater. Although no major Paleozoic discoveries have been uncovered in Georgia, the local fossil record documents a great diversity of ancient life in the state. Inhabitants of Georgia's early Paleozoic sea included corals, stromatolites, and trilobites. During the Carboniferous local sea levels dropped and a vast complex of richly vegetated delta formed in the state. These swampy deltas were home to early tetrapods which left behind footprints that would later fossilize. Little is known of Triassic Georgia and the Jurassic is absent altogether from the state's rock record. During the Cretaceous, however, southern Georgia was covered by a sea that was home to invertebrates and fishes. On land, the tree Araucaria grew, and dinosaurs inhabited the state. Southern Georgia remained submerged by shallow seawater into the ensuing Paleogene and Neogene periods of the Cenozoic era. These seas were home to small coral reefs and a variety of other marine invertebrates. By the Pleistocene the state was mostly dry land covered in forests and grasslands home to mammoths and giant ground sloths. Local coal mining activity has a history of serendipitous Carboniferous-aged fossil discoveries. Another major event in Georgian paleontology was a 1963 discovery of Pleistocene fossils in Bartow County. Shark teeth are the Georgia state fossil.

Paleontology in Arkansas

Paleontology in Arkansas refers to paleontological research occurring within or conducted by people from the U.S. state of Arkansas. The fossil record of Arkansas spans from the Ordovician to the Eocene. Nearly all of the state's fossils have come from ancient invertebrate life. During the early Paleozoic, much of Arkansas was covered by seawater. This sea would come to be home to creatures including Archimedes, brachiopods, and conodonts. This sea would begin its withdrawal during the Carboniferous, and by the Permian the entire state was dry land. Terrestrial conditions continued into the Triassic, but during the Jurassic, another sea encroached into the state's southern half. During the Cretaceous the state was still covered by seawater and home to marine invertebrates such as Belemnitella. On land the state was home to long necked sauropod dinosaurs, who left behind footprints and ostrich dinosaurs such as Arkansaurus.

Paleontology in Nebraska

Paleontology in Nebraska refers to paleontological research occurring within or conducted by people from the U.S. state of Nebraska. Nebraska is world-famous as a source of fossils. During the early Paleozoic, Nebraska was covered by a shallow sea that was probably home to creatures like brachiopods, corals, and trilobites. During the Carboniferous, a swampy system of river deltas expanded westward across the state. During the Permian period, the state continued to be mostly dry land. The Triassic and Jurassic are missing from the local rock record, but evidence suggests that during the Cretaceous the state was covered by the Western Interior Seaway, where ammonites, fish, sea turtles, and plesiosaurs swam. The coasts of this sea were home to flowers and dinosaurs. During the early Cenozoic, the sea withdrew and the state was home to mammals like camels and rhinoceros. Ice Age Nebraska was subject to glacial activity and home to creatures like the giant bear Arctodus, horses, mammoths, mastodon, shovel-tusked proboscideans, and Saber-toothed cats. Local Native Americans devised mythical explanations for fossils like attributing them to water monsters killed by their enemies, the thunderbirds. After formally trained scientists began investigating local fossils, major finds like the Agate Springs mammal bone beds occurred. The Pleistocene mammoths Mammuthus primigenius, Mammuthus columbi, and Mammuthus imperator are the Nebraska state fossils.

Paleontology in Oklahoma

Paleontology in Oklahoma refers to paleontological research occurring within or conducted by people from the U.S. state of Oklahoma. Oklahoma has a rich fossil record spanning all three eras of the Phanerozoic Eon. Oklahoma is the best source of Pennsylvanian fossils in the United States due to having an exceptionally complete geologic record of the epoch. From the Cambrian to the Devonian, all of Oklahoma was covered by a sea that would come to be home to creatures like brachiopods, bryozoans, graptolites and trilobites. During the Carboniferous, an expanse of coastal deltaic swamps formed in areas of the state where early tetrapods would leave behind footprints that would later fossilize. The sea withdrew altogether during the Permian period. Oklahoma was home a variety of insects as well as early amphibians and reptiles. Oklahoma stayed dry for most of the Mesozoic. During the Late Triassic, carnivorous dinosaurs left behind footprints that would later fossilize. During the Cretaceous, however, the state was mostly covered by the Western Interior Seaway, which was home to huge ammonites and other marine invertebrates. During the Cenozoic, Oklahoma became home to creatures like bison, camels, creodonts, and horses. During the Ice Age, the state was home to mammoths and mastodons. Local Native Americans are known to have used fossils for medicinal purposes. The Jurassic dinosaur Saurophaganax maximus is the Oklahoma state fossil.

Paleontology in Texas

Paleontology in Texas refers to paleontological research occurring within or conducted by people from the U.S. state of Texas. Author Marian Murray has remarked that "Texas is as big for fossils as it is for everything else." Some of the most important fossil finds in United States history have come from Texas. Fossils can be found throughout most of the state. The fossil record of Texas spans almost the entire geologic column from Precambrian to Pleistocene. Shark teeth are probably the state's most common fossil. During the early Paleozoic era Texas was covered by a sea that would later be home to creatures like brachiopods, cephalopods, graptolites, and trilobites. Little is known about the state's Devonian and early Carboniferous life. However, evidence indicates that during the late Carboniferous the state was home to marine life, land plants and early reptiles. During the Permian, the seas largely shrank away, but nevertheless coral reefs formed in the state. The rest of Texas was a coastal plain inhabited by early relatives of mammals like Dimetrodon and Edaphosaurus. During the Triassic, a great river system formed in the state that was inhabited by crocodile-like phytosaurs. Little is known about Jurassic Texas, but there are fossil aquatic invertebrates of this age like ammonites in the state. During the Early Cretaceous local large sauropods and theropods left a great abundance of footprints. Later in the Cretaceous, the state was covered by the Western Interior Seaway and home to creatures like mosasaurs, plesiosaurs, and few icthyosaurs. Early Cenozoic Texas still contained areas covered in seawater where invertebrates and sharks lived. On land the state would come to be home to creatures like glyptodonts, mammoths, mastodons, saber-toothed cats, giant ground sloths, titanotheres, uintatheres, and dire wolves. Archaeological evidence suggests that local Native Americans knew about local fossils. Formally trained scientists were already investigating the state's fossils by the late 1800s. In 1938, a major dinosaur footprint find occurred near Glen Rose. Pleurocoelus was the Texas state dinosaur from 1997 to 2009, when it was replaced by Paluxysaurus jonesi after the Texan fossils once referred to the former species were reclassified to a new genus.

Paleontology in Wyoming

Paleontology in Wyoming includes research into the prehistoric life of the U.S. state of Wyoming as well as investigations conducted by Wyomingite researchers and institutions into ancient life occurring elsewhere. The fossil record of the US state of Wyoming spans from the Precambrian to recent deposits. Many fossil sites are spread throughout the state. Wyoming is such a spectacular source of fossils that author Marian Murray noted in 1974 that "[e]ven today, it is the expected thing that any great museum will send its representatives to Wyoming as often as possible." Murray has also written that nearly every major vertebrate paleontologist in United States history has collected fossils in Wyoming. Wyoming is a major source of dinosaur fossils. Wyoming's dinosaur fossils are curated by museums located all over the planet.

Paleontology in Colorado

Paleontology in Colorado refers to paleontological research occurring within or conducted by people from the U.S. state of Colorado. The geologic column of Colorado spans about one third of Earth's history. Fossils can be found almost everywhere in the state but are not evenly distributed among all the ages of the state's rocks. During the early Paleozoic, Colorado was covered by a warm shallow sea that would come to be home to creatures like brachiopods, conodonts, ostracoderms, sharks and trilobites. This sea withdrew from the state between the Silurian and early Devonian leaving a gap in the local rock record. It returned during the Carboniferous. Areas of the state not submerged were richly vegetated and inhabited by amphibians that left behind footprints that would later fossilize. During the Permian, the sea withdrew and alluvial fans and sand dunes spread across the state. Many trace fossils are known from these deposits.

Paleontology in New Mexico

Paleontology in New Mexico refers to paleontological research occurring within or conducted by people from the U.S. state of New Mexico. The fossil record of New Mexico is exceptionally complete and spans almost the entire stratigraphic column. More than 3,300 different kinds of fossil organisms have been found in the state. Of these more than 700 of these were new to science and more than 100 of those were type species for new genera. During the early Paleozoic, southern and western New Mexico were submerged by a warm shallow sea that would come to be home to creatures including brachiopods, bryozoans, cartilaginous fishes, corals, graptolites, nautiloids, placoderms, and trilobites. During the Ordovician the state was home to algal reefs up to 300 feet high. During the Carboniferous, a richly vegetated island chain emerged from the local sea. Coral reefs formed in the state's seas while terrestrial regions of the state dried and were home to sand dunes. Local wildlife included Edaphosaurus, Ophiacodon, and Sphenacodon.

Paleontology in Arizona Review of the topic

Paleontology in Arizona refers to paleontological research occurring within or conducted by people from the U.S. state of Arizona. The fossil record of Arizona dates to the Precambrian. During the Precambrian, Arizona was home to a shallow sea which was home to jellyfish and stromatolite-forming bacteria. This sea was still in place during the Cambrian period of the Paleozoic era and was home to brachiopods and trilobites, but it withdrew during the Ordovician and Silurian. The sea returned during the Devonian and was home to brachiopods, corals, and fishes. Sea levels began to rise and fall during the Carboniferous, leaving most of the state a richly vegetated coastal plain during the low spells. During the Permian, Arizona was richly vegetated but was submerged by seawater late in the period.

Paleontology in Washington (state)

Paleontology in Washington encompasses paleontological research occurring within or conducted by people from the U.S. state of Washington. Washington has a rich fossil record spanning almost the entire geologic column. Its fossil record shows an unusually great diversity of preservational types including carbonization, petrifaction, permineralization, molds, and cast. Early Paleozoic Washington would come to be home to creatures like archaeocyathids, brachiopods, bryozoans, cephalopods, corals, and trilobites. While some Mesozoic fossils are known, few dinosaur remains have been found in the state. Only about two-thirds of the state's land mass had come together by the time the Mesozoic ended. In the Cenozoic the state's sea began to withdraw towards the west, while local terrestrial environments were home to a rich variety of trees and insects. Vertebrates would come to include the horse Hipparion, bison, camels, caribou, oreodonts. Later, during the Ice Age, the northern third of the state was covered in glaciers while creatures like bison, caribou, woolly mammoths, mastodons, and rhinoceros roamed elsewhere in the state. The Pleistocene Columbian Mammoth, Mammuthus columbi is the Washington state fossil.

Paleontology in the United States

Paleontology in the United States refers to paleontological research occurring within or conducted by people from the United States. Paleontologists have found that at the start of the Paleozoic era, what is now "North" America was actually in the southern hemisphere. Marine life flourished in the country's many seas. Later the seas were largely replaced by swamps, home to amphibians and early reptiles. When the continents had assembled into Pangaea drier conditions prevailed. The evolutionary precursors to mammals dominated the country until a mass extinction event ended their reign.

The prehistory of the United States comprises the occurrences within regions now part of the United States during the interval of time spanning from the formation of the Earth to the documentation of local history in written form. At the start of the Paleozoic era, what is now "North" America was actually in the southern hemisphere. Marine life flourished in the country's many seas, although terrestrial life had not yet evolved. During the latter part of the Paleozoic, seas were largely replaced by swamps home to amphibians and early reptiles. When the continents had assembled into Pangaea drier conditions prevailed. The evolutionary precursors to mammals dominated the country until a mass extinction event ended their reign.

History of paleontology in the United States

The history of paleontology in the United States refers to the developments and discoveries regarding fossils found within or by people from the United States of America. Local paleontology began informally with Native Americans, who have been familiar with fossils for thousands of years. They both told myths about them and applied them to practical purposes. African slaves also contributed their knowledge; the first reasonably accurate recorded identification of vertebrate fossils in the new world was made by slaves on a South Carolina plantation who recognized the elephant affinities of mammoth molars uncovered there in 1725. The first major fossil discovery to attract the attention of formally trained scientists were the Ice Age fossils of Kentucky's Big Bone Lick. These fossils were studied by eminent intellectuals like France's George Cuvier and local statesmen and frontiersman like Daniel Boone, Benjamin Franklin, William Henry Harrison, Thomas Jefferson, and George Washington. By the end of the 18th century possible dinosaur fossils had already been found.

20th century in ichnology

The 20th century in ichnology refers to advances made between the years 1900 and 1999 in the scientific study of trace fossils, the preserved record of the behavior and physiological processes of ancient life forms, especially fossil footprints. Significant fossil trackway discoveries began almost immediately after the start of the 20th century with the 1900 discovery at Ipolytarnoc, Hungary of a wide variety of bird and mammal footprints left behind during the early Miocene. Not long after, fossil Iguanodon footprints were discovered in Sussex, England, a discovery that probably served as the inspiration for Sir Arthur Conan Doyle's The Lost World.

John Foster (paleontologist)

John Russell Foster is an American paleontologist. Foster has worked with dinosaur remains from the Late Jurassic of the Colorado Plateau and Rocky Mountains, as well as working on Cambrian age trilobite faunas in the southwest region of the American west. He named the crocodiliform trace fossil Hatcherichnus sanjuanensis in 1997 and identified the first known occurrence of the theropod trace fossil Hispanosauropus in North America in 2015.

References