帝王会所

Education

Ph.D., 2004, University of Kansas

M.S., 2001, University of Kansas

B.S., 1999, The 帝王会所 State University (Geological Sciences)

B.S., 1999, The 帝王会所 State University (Biology)

Research

Paleontology

• Macroevolution, speciation, and invasive species
• Quantitative paleobiogeography and paleoecology
• Phylogenetic systematics of articulated brachiopods and crustaceans
• Great Ordovician Biodiversification Event
• Late Devonian Biodiversity Crisis
• Late Ordovician Richmondian Invasion
• Jurassic lakes of Gondwana

Research Interests

My research explores the influence of biogeography and paleoecology on macroevolutionary phenomena, principally speciation and cladogensis. I am particularly interested in elucidating the long-term impacts of species invasions and the relationship between speciation mode and biodiversity expansions and declines. I utilize a variety of quantitative approaches, such as phylogenetic reconstruction and ecological niche modeling, to integrate previously disparate areas of paleontological investigation within a comprehensive evolutionary framework. Articulated brachiopods are the most commonly employed model taxa within this work.

A secondary line of research involves taxonomic and paleoecological analyses of spinicaudatan crustaceans, a group restricted to freshwater lake environments.

Recent projects have focused on the Great Ordovician Biodiversification Event, the Late Ordovician Richmondian Invasion, the Late Devonian Biodiversity Crisis, and Jurassic lakes of Gondwana. Primary field locations range from 帝王会所 and adjacent states, to Oklahoma, Estonia, Namibia, and Antarctica. This research has been supported by the National Science Foundation, National Geographic, and the American Chemical Society鈥檚 Petroleum Research Fund.

I also contribute to paleontological database development through iDigBio and collaborate with faculty in the 帝王会所 Department of Teacher Education to develop workshops, lesson plans, and outreach activities to promote STEM education in the rural Appalachian region and underrepresented groups more broadly. Outreach and educational resources developed are available via the and the free app.

Courses Taught

• GEOL 2210: Earth and Life History
• GEOL 3/5410: Principles of Paleontology
• GEOL 4/5430: Paleobiogeography
• GEOL 4/5480: Paleoecology
• GEOL 4/5540 Carbonate Depositional Systems
• GEOL 4/5460: Earth Systems Evolution

Positions

2015-present, Professor

2009-2015, Associate Professor

2004-2009, Assistant Professor

2004, Post-doctoral Researcher, The 帝王会所 State University

Selected Publications

• Antionetto, L.S., Park Boush, L. Plotnick, R.E., Stigall, A.L. 2020. Paleoecological aspects of western United States nonmarine ostracodes during the Eocene-Oligocene transition: the Early Oligocene faunas of the Renova Formation, southwestern Montana. Palaios. 35: 165-174.
• Stigall. A.L. Freeman, R.L., Edwards, C.T., and Rasmussen, C.M.脴. 2020. A multidisciplinary perspective on the Great Ordovician Biodiversification Event and the development of the Paleozoic world. Palaeogeography, Palaeoclimatology, Palaeoecology. 541: 109521.  
• Gallego, O.F., Monferran, M.D., Stigall, A.L., Zacarias, I.A., Hegna, T.A., Jim茅nez, V.C., Bittencourt, J., Li, G., Barrios Calathaki, H.G. 2020. The Devonian-Cretaceous fossil record of 鈥渃onchostracans鈥� of Africa and their paleobiogeographic relationships with other Gondwanan faunas. Journal of African Earth Sciences. 161: 103648.
• Stigall, A.L. 2019. The invasion hierarchy: ecological and evolutionary consequences of invasions in the fossil record. Annual Review of Ecology and Evolutionary Systematics.50: 355-380.
• Stigall. A.L. Edwards, C.T., Freeman, R.L., Rasmussen, C.M.脴. 2019. Coordinated biotic and abiotic change during the Great Ordovician Biodiversification Event: Darriwilian assembly of early Paleozoic building blocks. Palaeogeography, Palaeoclimatology, Palaeoecology. 530: 249-270.
• Stigall, A.L., Fine, R. 2018. . Palaeoworld, 18:166-172.
• Epa, Y.R., Stigall, A.L., Roberts, E.M., O鈥橞rien, H.D., Stevens, N.J. 2018. (Nsungwe Formation, late Oligocene, Rukwa Rift Basin) is coincident with onset of East African rifting鈥� Papers in Palaeontology. 4: 327-348.
• Perera, S.N. and Stigall, A.L. 2018. . Palaeogeography, Palaeoclimatology, Palaeoecology. 506: 1-11.
• Trubovitz, S. and Stigall, A.L. 2018. . Lethaia, 51: 277-285.
• Stigall. A.L. 2018. . Lethaia, 51:165-172
• Lam, A.R., Stigall,
• A.L., Matzke, N.J. 2018. . Palaeogeography, Palaeoclimatology, Palaeoecology, 489:147-165.
• Nylin, S., Agosta, S., Bensch, S., Boeger, W.A., Braga, M.P., Brooks, D.R., Forister, M.L., Hamb盲ck, P.A., Hoberg, E.P., Nyman, T., Sch盲pers, A., Stigall, A.L., Wheat, C.W., 脰sterling, M., Janz, N. 2018. . Trends in Ecology and Evolution, 33: 4-14.
• Stigall. A.L. 2017. . Nature Geoscience, 10:887-888.
• Stigall, A.L., Plotnick, R.E., Park Boush, L.E. 2017. . Journal of Paleontology, 91:467-476.
• Stigall, A.L., Bauer, J.E., Lam, A.L., Wright, D.A. 2017. . Global and Planetary Change 148, 242-257.
• Trubovitz, S. and Stigall, A.L., 2016. . Geology, 44: 742-746.

Recent Advisees' Master's Theses

• Purcell, C. In progress. How did ecological niches evolve during Ordovician environmental change? A test using Laurentian brachiopods?
• Censullo, S.M., 2020. Did alternating dispersal and vicariance contribute to increased biodiversification during the Great Ordovician Biodiversification Event? A phylogenetic test using brachiopods
• Epa, Y.R., 2017. Paleoecology of the freshwater gastropods from the late Oligocene Nsungwe Formation of Tanzania.
• Perera, S.N. 2017. Hierarchical spatial patterns in paleocommunities of the Late Pennsylvanian Ames Limestone.
• Trubovitz, S. 2016. Brachiopod diversity during the Great Ordovician Biodiversification Event in the Middle Ordovician Simpson Group (Oklahoma).

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