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Paleontology in Wisconsin

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Paleontological research in the U.S. state of Wisconsin
The location of the state of Wisconsin

Paleontology in Wisconsin refers to paleontological research occurring within or conducted by people from the U.S. state of Wisconsin. The state has fossils from the Precambrian, much of the Paleozoic, some parts of the Mesozoic and the later part of the Cenozoic. Most of the Paleozoic rocks are marine in origin. Because of the thick blanket of Pleistocene glacial sediment that covers the rock strata in most of the state, Wisconsin’s fossil record is relatively sparse. In spite of this, certain Wisconsin paleontological occurrences provide exceptional insights concerning the history and diversity of life on Earth.

Prehistory

Precambrian

How earth possibly looked like during the Precambrian eon

Many metamorphic, igneous and sedimentary rock units are exposed in the north-central part of Wisconsin. Although they are mostly barren of fossils, some of the sedimentary ones contain stromatolites.

Cambrian

A reconstruction of the ecosystem at Blackberry hill, showing a variety of organisms. The purple circle shaped objects are stranded jellyfish, the arthropod on the lower left making the trackway Protichnites is the euthycarcinoid Mosineia, the bigger brown organisms are large slug like mollusks that are the supposed makers of the Climactichnites trails at the site. And the tiny arthropod near the bottom is the phyllocarid Arenosicaris.

Exposures of Cambrian rock units, many of which are fossiliferous, occur in western and central Wisconsin, especially along the banks of the Mississippi, Saint Croix and Wisconsin Rivers. Most of the rocks are Upper Cambrian; however, others are thought to be Middle Cambrian. Fossils of many groups of organisms have been found including stromatolites, conulariids, brachiopods, gastropods, monoplacophorans, trilobites, graptolites, and conodont elements. Wisconsin’s Cambrian rocks have also produced fossils of more aglaspidid (a grouping of arthropods closely related to trilobites) species (around 12) than those of any other state. A portion of central Wisconsin known as Blackberry Hill is a Konservat-Lagerstätte famous for its many types of trace fossils, mass strandings of jellyfish, and especially for producing fossils of one of the first animals to emerge from the sea and walk on land (i.e., a species of euthycarcinoid).

Ordovician

A diorama of a typical Ordovician sea floor

Many fossiliferous Lower to Upper Ordovician rock units are exposed in the southwestern portion of Wisconsin. During this time, most of Wisconsin was covered in a shallow tropical ocean that teemed with an abundance of life. These include many species of stromatolites, fungi, sponges, conulariids, rugose corals, tabulate corals, bryozoans, brachiopods, gastropods, monoplacophorans, bivalves, nautiloids, trilobites, ostracods, crinoids, graptolites, and conodont elements.

Silurian

A diorama depicting the large Silurian reefs that ran through ancient Wisconsin and Illinois

Fossiliferous Silurian rocks are exposed in eastern Wisconsin, from the Door County peninsula to the Illinois border. Fossils include stromatolites, stromatoporoids, sponges, conulariids, rugose and tabulate corals, bryozoans, brachiopods, gastropods, monoplacophorans, bivalves, nautiloids, trilobites, ostracods, phyllocarids, cystoids, crinoids, graptolites, conodont elements, and jawless fish bones. During the Middle-Late Silurian, the area around modern Milwaukee contained a massive reef system. The fauna that lived there at that time is among the most diverse for its age on the entire continent. Donald G. Mikulic has called it "a textbook example of ancient reefs." Also of much significance is the Waukesha Biota, which is a Konservat-Lagerstätte famous for its superbly preserved fossils of strange arthropods, worms, and other organisms not previously recorded from Silurian rocks. Among the Waukesha Biota's fossil organisms seldom preserved in other Silurian occurrences are a synziphosurine, a possible cheloniellid, a thylacocephalan, a bizarre arthropod called Parioscorpio, an enigmatic bivalved arthropod, conodonts, lobopods, palaeoscolecids, a cycloneuralian and other 'worms,' graptolites, and chordates.

  • Drawing of the Silurian encrinurid trilobite Mackenziurus lauriae Gass, Edgecombe, Ramskold, Mikulic, and Watkins, 1992. Drawing of the Silurian encrinurid trilobite Mackenziurus lauriae Gass, Edgecombe, Ramskold, Mikulic, and Watkins, 1992.
  • The Silurian styginid trilobite Meroperyx from the Waukesha Biota. The Silurian styginid trilobite Meroperyx from the Waukesha Biota.
  • An unnamed dalmanitid trilobite which is one of the more common arthropods from the Waukesha Biota. An unnamed dalmanitid trilobite which is one of the more common arthropods from the Waukesha Biota.
  • Silurian worm, possibly a cycloneuralian, from the Waukesha Biota. Silurian worm, possibly a cycloneuralian, from the Waukesha Biota.
  • Acheronauta, a possible mandibulate arthropod from the Waukesha biota. Acheronauta, a possible mandibulate arthropod from the Waukesha biota.
  • Venustulus, a synziphosurine arthropod and a distant relative to modern horseshoe crabs from the Waukesha Biota. Venustulus, a synziphosurine arthropod and a distant relative to modern horseshoe crabs from the Waukesha Biota.
  • Parioscorpio, an enigmatic arthropod from the Waukesha biota that has been thought of as a crustacean, a trilobite relative, or a scorpion. Parioscorpio, an enigmatic arthropod from the Waukesha biota that has been thought of as a crustacean, a trilobite relative, or a scorpion.
  • Thylacares, a thylacocephalan arthropod from the Waukesha Biota. Unlike most other members of its grouping, Thylacares had small eyes, and a smaller stomach. Thylacares, a thylacocephalan arthropod from the Waukesha Biota. Unlike most other members of its grouping, Thylacares had small eyes, and a smaller stomach.
  • A specimen of the “Waukesha Butterfly Animal”, an unnamed enigmatic arthropod from the Waukesha biota, nicknamed due to its carapace resembling the wings of a butterfly (which it is not related to). A specimen of the “Waukesha Butterfly Animal”, an unnamed enigmatic arthropod from the Waukesha biota, nicknamed due to its carapace resembling the wings of a butterfly (which it is not related to).
  • MPM 34493, A Calymene celebra specimen from the Racine Dolomite Formation MPM 34493, A Calymene celebra specimen from the Racine Dolomite Formation
  • Bumastus niagarensis was a styginid trilobite from southeastern Wisconsin Bumastus niagarensis was a styginid trilobite from southeastern Wisconsin
  • Panderodus was a conodont that lived throughout the early Paleozoic. This particular specimen was collected in Waukesha Panderodus was a conodont that lived throughout the early Paleozoic. This particular specimen was collected in Waukesha

Devonian

The Arthrodire Placoderm Holonema rugosum which has been found in Devonian deposits of several states including Wisconsin

Four Devonian formations are located in the southeastern portion of Wisconsin in the vicinity of Milwaukee. While all are fossiliferous to some degree, the youngest is entirely sub-surface, and the others are very limited in exposure and mostly inaccessible, except for occasional glacial erratics found in excavations and along the shore of Lake Michigan. In spite of its elusiveness, one unit---the Milwaukee Formation---has been found to have one of the most diverse biotas of its age (late Givetian) coming from a single formation. Its fossil biota includes around 250 species of agglutinated foraminifers, radiolarians, chitinozoans, conulariids, rugose and tabulate corals, tentaculitoids, bryozoans, hederelloids, brachiopods, hyoliths, gastropods, rostroconchs, bivalves, nautiloids, actinoceratoids, ammonoids, annelid worms (scolecodonts), trilobites, ostracods, phyllocarids, crinoids, blastoids, edrioasteroids, graptolites, conodont elements, fishes (placoderms, sharks, acanthodians, sarcopterygians), terrestrial fungi, and land plants (cladoxylopsids? and lycopods). It also includes many types of trace fossils.

  • The Devonian brachiopod Tylothyris from the Milwaukee Formation. The Devonian brachiopod Tylothyris from the Milwaukee Formation.
  • The Devonian trilobite Eldredgeops norwoodensis (Stumm, 1953) from the Milwaukee Formation. The Devonian trilobite Eldredgeops norwoodensis (Stumm, 1953) from the Milwaukee Formation.
  • The Devonian trilobite Crassiproetus from Milwaukee Formation. The Devonian trilobite Crassiproetus from Milwaukee Formation.
  • Melocrinites nodosus spinosus (Weller, 1898), a spiny, stalked crinoid from the Milwaukee Formation. Melocrinites nodosus spinosus (Weller, 1898), a spiny, stalked crinoid from the Milwaukee Formation.
  • IG plate (lower jaw) from the Devonian placoderm Eastmanosteus pustulosus (Eastman, 1897) from the Milwaukee Formation. IG plate (lower jaw) from the Devonian placoderm Eastmanosteus pustulosus (Eastman, 1897) from the Milwaukee Formation.
  • Prototaxites milwaukeensis (Penhallow, 1908), a large fungus initially thought to be a marine alga, from the Milwaukee Formation. Prototaxites milwaukeensis (Penhallow, 1908), a large fungus initially thought to be a marine alga, from the Milwaukee Formation.
  • Lycopod axis (branch) from the Milwaukee Formation. Lycopod axis (branch) from the Milwaukee Formation.
  • Bark (possibly from a cladoxylopsid) initially thought to be a marine alga, from the Milwaukee Formation. Bark (possibly from a cladoxylopsid) initially thought to be a marine alga, from the Milwaukee Formation.
  • The tooth of the sarcopterygian fish Onychodus from the Milwaukee Formation. The tooth of the sarcopterygian fish Onychodus from the Milwaukee Formation.
  • The shell of the nautiloid cephalopod Gyronaedyceras from the Milwaukee Formation. The shell of the nautiloid cephalopod Gyronaedyceras from the Milwaukee Formation.
  • The Lingulid brachiopod Barroisella from the Milwaukee Formation. The Lingulid brachiopod Barroisella from the Milwaukee Formation.
  • The conlariid Conularia milwaukeensis from the Milwaukee Formation. The conlariid Conularia milwaukeensis from the Milwaukee Formation.
  • The tooth plate of a ptyctodontid placoderm from the Milwaukee Formation. The tooth plate of a ptyctodontid placoderm from the Milwaukee Formation.
  • The calyx of the crinoid Taxocrinus from the Milwaukee Formation. The calyx of the crinoid Taxocrinus from the Milwaukee Formation.
  • The bivalve mollusk Mytilarca from the Milwaukee Formation. The bivalve mollusk Mytilarca from the Milwaukee Formation.
  • A cluster of Tentaculites from the Milwaukee Formation. A cluster of Tentaculites from the Milwaukee Formation.

Permian-Neogene

Placenticeras, one of the few Mesozoic animals found in Wisconsin

Rocks of Permian to Neogene age were either rarely deposited in Wisconsin or were eroded away by the Pleistocene glaciers and other erosional agents. As a result, dinosaurs and other organisms of this age did not leave many fossils in Wisconsin. Some ammonite fossils originating from the Coleraine Formation and dating to the middle Turonian epoch of the Late Cretaceous have been found reworked in glacial till, showing that some fossils from this time are present in Wisconsin. These include the species Placenticeras pseudoplacenta and Scaphites carlilensis.

Quaternary

During the Quaternary, deposition resumed; however, the local climate was cold and glaciers would come to cover nearly all of the state's land area. Wisconsin contains sediment from all of the Pleistocene glacial stages, especially the stage that bears the state's name. Hemlock and spruce trees formed forests inhabited by creatures like giant beavers, horses, and woolly mammoths.

The Hebior Mammoth, found near the small town of Paris, Wisconsin. Currently in the atrium of the Milwaukee Public Museum.
Castoroides lived in many parts of North america, including Wisconsin

History

Lapham examining a meteorite which had fallen in Wisconsin in 1868
The Silurian trilobite Calymene celebra; Wisconsin's state fossil.

Polymath naturalist Increase Allen Lapham is regarded as Wisconsin's first geologist. During the late 1830s Lapham discovered a wide variety of fossils in great abundance in some rocky hills near Milwaukee. He wondered about the stratigraphic relationship between the rocks preserving his fossils and those from New York described in James Hall's recent research. Lapham sent a sizable sampling of the local fossils to Hall in 1846. Hall began researching the area and in 1862 recognized the local reefs for what they were. The Silurian-aged reefs of the Milwaukee area were the first Paleozoic reefs in the world to be described for the scientific literature. They were also the first fossil reefs in North America to be properly recognized as such. Hall set out to formally describe the fossils of the reef, and found them to be among the most diverse of the period on the entire continent. Lapham died in 1875 and most of his fossils and mineral specimens were sold to the University of Wisconsin. Sadly, most of his specimens were destroyed nine years later during a fire that consumed the university's science building. During the second half of the 19th century the region was prospected by "gentleman naturalists" who collected fossils on behalf of Hall and other well known paleontologists. Examples include T. A. Greene and E. E. Teller who collected near Milwaukee, P. R. Hoy, who collected near Racine, and F. H. Day, who collected in the Wauwatosa area. In 1877 research by T. C. Chamberlin uncovered differences in the composition and fossils of the reef-bearing rocks of the Milwaukee area as compared to those that didn't contain reefs. Donald G. Mikulic praised Chamberlin's research on the Milwaukee reefs as "a classic work of paleoecology and sedimentology". In the early 20th century the reefs commanded the research attention of figures like W. C. Alden, A. W. Grabau, and R. R. Schrock. Gradually scientific interest in the Silurian reefs of Milwaukee waned along with the decline in local quarrying.

Lapham, Greene, Teller, Day, and another gentleman naturalist, C. E. Monroe, also gathered extensive collections from the Devonian Milwaukee Formation. The majority of those fossils came from natural cement quarries that operated between 1876 and 1911 along the Milwaukee River in the area now occupied by Estabrook and Lincoln Parks. Greene and some of the others would pay the quarry workers for their fossil finds, resulting in large numbers of high quality fossils. These beds soon became well known for containing one of the most diverse Devonian fish faunas in the United States. Most of that material as well as that collected after closure of the quarries now resides in museums, such as the Thomas A. Greene Geological Museum, Milwaukee Public Museum, Weis Earth Science Museum, Field Museum of Natural History, National Museum of Natural History (Smithsonian), Museum of Comparative Zoology, and Buffalo Museum of Science. Much of that material has not been studied in depth for over one hundred years, but a preliminary study conducted in 2019 indicates that the Milwaukee Formation contains one of the richest and most diverse biotas in North America coming from a single formation of its age.

Other significant, more recent developments in Wisconsin paleontology include the discovery of the Waukesha Biota and Blackberry Hill, as discussed above.

The Silurian trilobite Calymene celebra was designated as Wisconsin's state fossil in 1985.

People

Natural history museums

See also

Footnotes

  1. ^ Barreto, Springer, Scotchmoor (2005); "Paleontology and geology".
  2. Wisconsin Geological and Natural History Survey (2019).
  3. Gass (2015).
  4. Collette, Gass & Hagadorn (2012).
  5. ^ Mikulic (2001); "Abstract", page 7.
  6. Wendruff (2018).
  7. Mikulic, Briggs & Kluessendorf (1985).
  8. Meyer & Gunderson (1986).
  9. ^ Gass, Kluessendorf, Mikulic & Brett (2019).
  10. Larson, Steven D. Jorgensen and Neal L. "Middle Turonian (Upper Cretaceous) ammonites from a gravel pit in Wisconsin". {{cite journal}}: Cite journal requires |journal= (help)
  11. ^ Hayes (2001); page 2.

References

  • Barreto, Claudia, Dale Springer, Judy Scotchmoor. July 1, 2005. "Wisconsin, US." The Paleontology Portal. Accessed September 21, 2012.
  • Collette, Joseph H.; Kenneth C. Gass & James W. Hagadorn (2012). "Protichnites eremita unshelled? Experimental model-based neoichnology and new evidence for a euthycarcinoid affinity for this ichnospecies". Journal of Paleontology. 86 (3): 442–454. doi:10.1666/11-056.1. S2CID 129234373.
  • Gass, Kenneth C. 2015. Solving the Mystery of the First Animals on Land: The Fossils of Blackberry Hill. Siri Scientific Press., 96 pp. 9780992997953
  • Gass, Kenneth C., Kluessendorf, Joanne, Mikulic, Donald G. & Brett, Carlton E. 2019. Fossils of the Milwaukee Formation: A Diverse Middle Devonian Biota from Wisconsin, USA. Siri Scientific Press, 224 pp. 9780995749672
  • Meyer, Ronald C. & Gunderson, Gerald O. (1986). "Discovering a new Silurian soft-bodied fauna Waukesha County, Wisconsin". Rocks and Minerals. 61 (6): 310–319. doi:10.1080/00357529.1986.11768462.
  • Hayes, Paul G. Increase Allen Lapham: Wisconsin's First Geologist. Geoscience Wisconsin. Volume 18. 2001.
  • Mikulic, Donald G. The Reefs that Made Milwaukee Famous. Geoscience Wisconsin. Volume 18. 2001.
  • Mikulic, Donald G., Briggs, Derek E.G. & Kluessendorf, Joanne. New exceptionally preserved biota from the lower Silurian of Wisconsin, U.S.A. Philosophical Transactions of the Royal Society of London, Series B 311 715-717 (1985).
  • Wendruff, Andrew J. 2016. Paleobiology and Taphonomy of Exceptionally Preserved Organisms from the Brandon Bridge Formation (Silurian), Wisconsin, USA. Ph.D Dissertation, Ohio State University.
  • Wisconsin Geological and Natural History Survey. . University of Wisconsin-Madison Division of Extension. Accessed November 15, 2019.

External links

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