J. Albert C. Uy

ARESTY CHAIR IN TROPICAL ECOLOGY

ASSOCIATE PROFESSOR


204 Cox Science Center
1301 Memorial Drive, Coral Gables, FL 33146
E-mail: uy@bio.miami.edu
Office: (305) 284-8558
Lab: (305) 284-8552
Fax: (305) 284-3039

Lab website


EDUCATION AND PROFESSIONAL EXPERIENCE

  • 2011-present, Aresty Chair in Tropical Ecology & Associate Professor, University of Miami, FL
  • 2009-2010, Associate Professor, Syracuse University, Syracuse, NY
  • 2004-2009, Assistant Professor, Syracuse University, Syracuse, NY
  • 2002-2004, Assistant Professor, San Francisco State University, CA
  • 2000-2002, Postdoctoral Fellow in Biological Informatics, University of California, Santa Barbara, CA
  • 2000, Ph.D. in Biology, University of Maryland, College Park, MD
  • 1994, B.A. in Integrative Biology, University of California, Berkeley, CA
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GRANTS AND AWARDS

  • National Science Foundation CRPA grant. 2013-2016. "Incipient species project".
  • National Geographic Society. 2012-2013. "On the origin of species on islands: How variation within populations leads to fixed differences between incipient species".
  • National Science Foundation CAREER grant. 2007-2013. "Factors that shape the evolution of multimodal signals in the chestnut-bellied flycatcher".
  • National Science Foundation Postdoctoral Fellowship in Biological Informatics. 2000-2002. "Signal Evolution and Speciation".
  • National Geographic Society, Committee for Research and Exploration grant. 2001-2002. "Signal Evolution and Speciation in Kingfishers".
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AREAS OF FOCUS

  • Evolutionary Biology
  • Behavioral Ecology
  • Ecology
  • Tropical Biology
  • Conservation Biology
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RESEARCH INTERESTS

The tropics harbor the greatest diversity on the planet. However, we still know little about the mechanisms that create and maintain this striking diversity. Using an interdisciplinary approach, research in the Uy lab aims to elucidate how biological diversity is generated and maintained in tropical and island systems. Our current focus is to understand the link between mating signal diversification, and the ecology and evolution of reproductive isolation. Divergence in mating signals has been shown to create and maintain reproductive isolation, yet the underlying genetic changes and selective mechanisms causing this divergence remain little understood. We use an integrative and modern approach, which includes molecular phylogenetics, evolutionary genetics, population genetics, genomics, and behavioral and sensory ecology. In addition, we use our long-term field projects in the tropics to launch grass-roots conservation programs to protect imperiled ecosystems from habitat degradation and climate change.

 


TEACHING INTERESTS

I teach a diverse set of classes that range from a large lecture course on the fundamentals of ecology to a field course in the remote Solomon Islands. Although diverse in topic and approaches, a common goal in my teaching is to not only pass on information but to encourage and foster critical thinking. The lab course I teach in Animal Behavior, for instance, involves students conducting hands-on research projects that enforce information learned in class but also challenge students to design and implement independent research projects. The courses I teach at UM include: a large lecture course in Ecology, field courses in the Solomon Islands and the Galapagos Islands, lab course in Animal Behavior, and seminars at the graduate and advanced undergraduate levels.

 


SELECTED PUBLICATIONS

  • Cooper, E.A. & J.A.C. Uy. 2017. Genomic evidence for convergent evolution of a key trait underlying divergence in island birds. Molecular Ecology 26: 3760-3774
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  • Uy, F.M.K., S. Ravichandran, K.S. Patel, J. Aresty, P.P. Aresty, R. Audett, K. Chen, L. Epple, S.F. Jeffries, G. Serein, P. Tullis-Joyce & J.A.C. Uy. 2017. Active background choice facilitates crypsis in a tropical crab. Biotropica 49: 365-371
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  • Uy, J.A.C., E.A. Cooper, S. Cutie, M.R. Concannon, J. Poelstra, R.G. Moyle & C.E. Filardi.  2016. Mutations in different genes mediate convergent melanism between isolated populations of an island flycatcher. Proceedings Royal Society of London, Ser. B. doi: 10.1098/rspb.2016.0731.
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  • Chaves, J.A., E. A. Cooper, A.P. Hendry, J. Podos, L.F. De León, J.A.M. Raeymaekers, O.W. McMillan & J.A.C. Uy. 2016. Genomic variation at the tips of the adaptive radiation of Darwin’s finches. Molecular Ecology. doi: 10.1111/mec.13743.
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  • Sardell, J.M. & J.A.C. Uy. 2016. Hybridization following recent secondary contact results in asymmetric genotypic and phenotypic introgression between island species of Myzomela honeyeaters. Evolution 70: 257-269.
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  • Uy, J.A.C., R.G. Moyle, C.E. Filardi & Z.A. Cheviron. 2009. Difference in plumage color used in species recognition between incipient species is linked to a single amino acid substitution in the melanocortin-1 receptor. American Naturalist. 174: 244-254. (Chosen by Faculty 1000)
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