Integrative Research Center
I am a paleobiologist interested in three main topics: 1) understanding the broad implications of the paleobiology and paleoecology of extinct terrestrial vertebrates, particularly in relation to large scale problems such as the evolution of herbivory and the nature of the end-Permian mass extinction; 2) using quantitative methods to document and interpret morphological evolution in fossil and extant vertebrates; and 3) tropic network-based approaches to paleoecology. To address these problems, I integrate data from a variety of biological and geological disciplines including biostratigraphy, anatomy, phylogenetic systematics and comparative methods, functional morphology, geometric morphometrics, and paleoecology.
A list of my publications can be found here.
More information on some of my research projects and other topics can be found on the fossil non-mammalian synapsid page.
Most of my research in vertebrate paleobiology focuses on anomodont therapsids, an extinct clade of non-mammalian synapsids ("mammal-like reptiles") that was one of the most diverse and successful groups of Permian and Triassic herbivores. Much of my dissertation research concentrated on reconstructing a detailed morphology-based phylogeny for Permian members of the clade, as well as using this as a framework for studying anomodont biogeography, the evolution of the group's distinctive feeding system, and anomodont-based biostratigraphic schemes. My more recent research on the group includes: species-level taxonomy of taxa such as Dicynodon, Dicynodontoides, Diictodon, Oudenodon, and Tropidostoma; development of a higher-level taxonomy for anomodonts; testing whether anomodonts show morphological changes consistent with the hypothesis that end-Permian terrestrial vertebrate extinctions were caused by a rapid decline in atmospheric oxygen levels; descriptions of new or poorly-known anomodonts from Antarctica, Tanzania, and South Africa; and examination of the implications of high growth rates in anomodonts. Fieldwork is an important part of my paleontological research, and recent field areas include the Parnaíba Basin of Brazil, the Karoo Basin of South Africa, the Ruhuhu Basin of Tanzania, and the Luangwa Basin of Zambia. My collaborators and I have made important discoveries in the course of these field projects, including the first remains of dinocephalian synapsids from Tanzania and a dinosaur relative that implies that the two main lineages of archosaurs (one including crocodiles and their relatives and the other including birds and dinosaurs) were diversifying in the early Middle Triassic, only a few million years after the end-Permian extinction. Finally, the experience I have gained while studying Permian and Triassic terrestrial vertebrates forms the foundation for work I am now involved in using models of food webs to investigate how different kinds of biotic and abiotic perturbations could have caused extinctions in ancient communities.
Quantitative Approaches to Evolutionary Morphology
Geometric morphometrics is the basis of most of my quantitative research on evolutionary morphology, and I have been using this technique to address several biological and paleontological questions. For example, I conducted a simulation-based study of how tectonic deformation influences our ability to extract biologically-relevant shape information from fossil specimens, and the effectiveness of different retrodeformation techniques. I also used the method to address taxonomic questions in biostratigraphically-important anomodont taxa, and I served as a co-advisor for a Ph.D. student at the University of Bristol who used geometric morphometrics and finite element analysis to examine the functional significance of skull shape variation in fossil and extant crocodiles. Focusing on more biological questions, I am currently working on a large geometric morphometric study of plastron shape in extant emydine turtles. To date, I have compiled a data set of over 1600 specimens belonging to nine species, and I am using these data to address causes of variation at both the intra- and interspecific level. Some of the main goals of the work are to examine whether plastron morphology reflects a phylogeographic signal identified using molecular data in Emys marmorata, whether the "miniaturized" turtles Glyptemys muhlenbergii and Clemmys guttata have ontogenies that differ from those of their larger relatives, and how habitat preference, phylogeny, and shell kinesis affect shell morphology.
Trophic Network-based Approaches to Understanding Extinction and Community Evolution
A collaborative project that began during my time as a postdoctoral researcher at the California Academy of Sciences involves using using models of trophic networks to examine how disturbances can spread through communities and cause extinctions. Our model is based on ecological principles, and some of the main data that we are using are a series of Permian and Triassic communities from the Karoo Basin of South Africa. Our research has already shown that the latest Permian Karoo community was susceptible to collapse brought on by primary producer disruption, and that the earliest Triassic Karoo community was very unstable. Presently we are investigating the mechanics that underlie this instability, and we're planning to investigate how the perturbation resistance of communities as changed over time. We've also experimented with ways to use the model to estimate the magnitude and type of disruptions needed to cause observed extinction levels during the end-Permian extinction event in the Karoo. Then there's the research project I've been working on almost my whole life.
Stratigraphy and Phylogeny
Morphology and the stratigraphic occurrences of fossil organisms provide distinct, but complementary information about evolutionary history. Therefore, it is important to consider both sources of information when reconstructing the phylogenetic relationships of organisms with a fossil record, and I am interested how these data sources can be used together in this process. In my empirical work on anomodont phylogeny, I have consistently examined the fit of my morphology-based phylogenetic hypotheses to the fossil record because simulation studies suggest that phylogenies which fit the record well are more likely to be correct. More theoretically, I developed a character-based approach to measuring the fit of phylogenies to the fossil record. I also have shown that measurements of the fit of phylogenetic hypotheses to the fossil record can provide insight into when the direct inclusion of stratigraphic data in the tree reconstruction process results in more accurate hypotheses. Most recently, I co-advised two masters students at the University of Bristol who are examined how our ability to accurately reconstruct a clade's phylogeny changes over the course of the clade's history.
Recent Blog Posts
- From First Grade to the Field Museum: A Paleontologist's Research Comes Full Circle
- Brazil 2012 Fieldwork Diary
- Brazil 2012 Fieldwork Diary Entry 15: The Evolutionary Process of Science
- Brazil 2012 Fieldwork Diary Entry 14: The Benefits of Local Knowledge
- Brazil 2012 Fieldwork Diary Entry 13: Skeleton!
- Brazil 2012 Fieldwork Diary Entry 12: Cachaça on the Rocks
- Brazil 2012 Fieldwork Diary Entry 11: Farewell to Nova Iorque
- Brazil 2012 Fieldwork Diary Entry 10: My What Teeth You Have!
- Brazil 2012 Fieldwork Diary Entry 9: Watch Where You Walk
- Brazil 2012 Fieldwork Diary Entry 8: Finding Fossils from Space
- Ph.D., Integrative Biology, 2003, University of California, Berkeley
- B.S. (with distinction), Biology/Geology, 1998, University of Michigan
- Assistsant Curator of Paleomammalogy, 8/2007 to 4/2013, Department of Geology, Field Museum of Natural History
- Postdoctoral Researcher, 11/2006 to 8/2007, Dept. of Invertebrate Zoology & Geology, California Academy of Sciences
- Lecturer, 1/2007 to 6/2007, Dept. of Geosciences, San Francisco State University
- Royal Society USA/Canada Research Fellow, 11/2005 to 11/2006, Dept. of Earth Sciences, University of Bristol
- NSF Postdoctoral Fellow in Interdisciplinary Informatics, 9/2003 to 8/2005, Dept. of Invertebrate Zoology & Geology, California Academy of Sciences
- Associate Curator of Paleomammalogy, Science and Education, Field Museum of Natural History
- Lecturer, Committee on Evolutionary Biology, University of Chicago
- Honorary Research Associate, Bernard Price Institute for Palaeontological Research, University of the Witwatersrand