Publications | CV

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Publications

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(36) Burns, M.D., S.T. Friedman, K.A. Corn, O. Larouche, S.A. Price, P.C. Wainwright, and E.D. Burress. 2024. High latitude ocean habitats are a crucible of fish body shape diversification. Evolution Letters. In Press. (Accepted 4/16/2024).

 

(35) Burress, E.D. and P. B. Hart. 2024. Pelagic zone is an evolutionary catalyst, but an ecological dead end, for North American minnows. Evolution. In Press. (Accepted 4/15/2024).

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(34) Burress, E.D. and M.M. Muñoz. 2023. Phenotypic rate and state are decoupled in response to river-to-lake transitions in cichlid fishes. Evolution 77: 2365-2377. PDF.

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(33) Roberts-Hugghis, A.S., E.D. Burress, Lam,B. and P.C. Wainwright. 2023. The cichlid pharyngeal jaw novelty enhances evolutionary integration in the feeding apparatus. Evolution 77: 1917-1929. PDF.

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(32) Burress, E.D. and M.M. Muñoz. 2023. Functional trade-offs asymmetrically promote phenotypic evolution. Systematic Biology 72: 150-160. PDF.

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(31) Burress, E.D., L. Piálek, J. Casciotta, A. Almirón, and O. Říčan. 2023. Rapid parallel morphological and mechanical diversification of South American pike cichlids (Crenicichla). Systematic Biology 72: 120-133. PDF.

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(30) Corn, K., S.T. Friedman, E.D. Burress, and P.C. Wainwright. 2022. The rise of biting during the Cenozoic fueled reef fish body shape diversification. PNAS 119: e2119828119. PDF.

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(29) Ghezelayagh, A., R.C. Harrington, E.D. Burress, et al. (20 authors). 2022. Prolonged morphological expansion of spiny-rayed fishes following the end-Cretaceous. Nature Eco Evo. 6: 1211-1220. PDF.

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(28) Burress, E.D. and M.M. Muñoz. 2021. Ecological limits on the decoupling of prey capture and processing in fishes. Integrative and Comparative Biology 61: 773-782. PDF.

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(27) Burress, E.D. and M.M. Muñoz. 2021. Ecological opportunity from innovation, not islands, drove the anole lizard adaptive radiation. Systematic Biology 71: 93-104. PDF.

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(26) Corn, K.A., C.M. Martinez, E.D. Burress, & P.C. Wainwright. 2021. A multifunction trade-off has contrasting effects on the evolution of form and function. Systematic Biology 70: 681-693. PDF.

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(25) Burress, E.D., C.M. Martinez, & P.C. Wainwright. 2020. Decoupled jaws promote trophic diversity in cichlid fishes. Evolution 74: 950-961. PDF.

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(24) Burress, E.D. & P.C. Wainwright. 2020. A peacock bass (Cichla) functional novelty relaxes a constraint imposed by the classic cichlid pharyngeal jaw innovation. Biological Journal of the Linnean Society 130: 382-394. PDF.

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(23) Hart, P.B., M.L. Niemiller, E.D. Burress, J.W. Armbruster, W.B. Ludt, & P. Chakrabarty. 2020. Cave-adapted evolution in the North American Amblyopsid fishes inferred using phylogenomics and geometric morphometrics. Evolution 74: 936-949. PDF.

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(22) Burress, E.D., M. Tan, & P.C. Wainwright. 2019. Head shape modulates the diversification of a classic cichlid pharyngeal jaw innovation. The American Naturalist. 194: 693-706. PDF.

 

(21) Burress, E.D. and P. C. Wainwright. 2019. Adaptive radiation in labrid fishes: a central role for functional innovations during 65 My of relentless diversification. Evolution 73: 346-359. PDF.

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(20) Piálek, L., E.D. Burress, K. Dragová, A. Almirón, J. Casciotta, O. Říčan. 2018. Phylogenomics of pike cichlids (Cichlidae: Crenicichla) of the C. mandelburgeri species complex: rapid ecological speciation in the Iguazu River and high endemism in the Middle Parana Basin. Hydrobiologia. Early View. PDF.

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(19) Kokubun, E.E., K.O. Bonato, E.D. Burress, C.B. Fialho. 2018. Diet and body shape among populations of Bryconamericus ihernigii (Otophysi: Characidae) across the Campos Sulinos ecosystem. Neotropical Ichthyology. PDF.

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(18) Burress, E.D., Piálek, L., Casciotta, J., Almirón, A., Tan, M., Armbruster, J.W., & Říčan, O. 2018. Island- and lake-like parallel adaptive radiations replicated in rivers. Proceedings of the Royal Society B 20171762. PDF.

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(17) Burress, E.D., Alda, F., Duarte, A., M. Loureiro, Armbruster, A., & Chakrabarty, P. 2018. Phylogenomics of pike cichlids (Cichlidae: Crenicichla) and the rapid ecological speciation of an incipient species flock. Journal of Evolutionary Biology. PDF.

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(16) Burress, E.D. & M. Tan. 2017. Ecological opportunity alters the timing and shape of adaptive radiation. Evolution. doi: 10.1111/evo.13362. PDF.

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(15) Bonato, K.O., Burress, E.D., Armbruster, J.W., & Fialho, C.B. 2017. Resource partitioning among syntopic Characidae corroborated by gut content and stable isotope analyses. Hydrobiologia doi: 10.1007/s10750-017--3314-0. PDF.

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(14) Burress, P.B.H., E.D. Burress, J.W. Armbruster. 2017. Body shape variation within the Southern Cavefish, Typhlichthys subterraneus (Percopsiformes: Amblyopsidae). Zoomorphology. DOI 10.1007/s00435-017-0360-0. PDF.

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(13) Bonato, K.O., Burress, E.D., & Fialho, C.B. 2017. Dietary differentiation in relation to mouth and tooth morphology of a neotropical characid fish community. Zoologischer Anzeiger 267: 31-40. PDF.

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(12) Burress, E.D., Holcomb, J.M., Tan, M., & Armbruster, J.W. 2016. Ecological diversification associated with the benthic-to-pelagic transition by North American minnows. Journal of Evolutionary Biology 30: 549-560. PDF.

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(11) Burress, E.D., Holcomb, J.M., Orlandi-Bonato, K., & Armbruster, J.W. 2016. Body size is negatively correlated with trophic position among cyprinids. Royal Society Open Science 3: 150652. PDF.

 

(10) Burress, E.D., Holcomb, J.M., & Armbruster, J.W. 2016. Ecological clustering with a diverse minnow assemblage according to morpholgoical, dietary and isotopic data. Freshwater Biology 61: 328-339. PDF.

 

(9) Burress, E.D. 2016. Ecological diversification associated with the pharyngeal jaw diversity of Neotropical cichlid fishes. Journal of Animal Ecology. DOI: 10.1111/1365-2656.12457 PDF.

 

(8) Burress, E.D., A. Duarte, W.S. Serra., and M. Loureiro. 2015. Rates of piscivory predict pharyngeal jaw morphology in a piscivorous lineage of cichlid fishes. Ecology of Freshwater Fish DOI: 10.1111/eff.12236 PDF.

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(7) Burress, E.D. 2015. Cichlid fishes as models of ecological diversification: patterns, mechanisms, and consequences. Hydrobiologia DOI: 10.1007/210750-014-1960-z. PDF.

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(6) Burress, E.D., A. Duarte, W.S. Serra, M. Loureiro, M.M. Gangloff, and S. Siefferman. 2013. Functional diversification within a predator species flock. PLOS One 8: e80929. DOI: 10.1371/journal.pone.0080929. PDF.

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(5) Burress, E.D., A. Duarte, W.S. Serra, M.M. Gangloff, and L. Siefferman. 2013. Species-specific ontogenetic diet shifts among Neotropical Crenicichla: using stable isotopes and tissues stoichiometry. Journal of Fish Biology 82: 1904-1915. PDF.

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(4) Burress, E.D., A. Duarte, M.M. Gangloff, and L. Siefferman. 2013. Isotopic trophic guild structure of a diverse subtropical South American fish community. Ecology of Freshwater Fish 22: 66-72. DOI: 10.1111/eff.12002. PDF.

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(3) Burress, E.D., M.M. Gangloff, and L. Siefferman. 2013. Trophic analysis of two subtropical South American freshwater crabs using stable isotope ratios. Hydrobiologia 702: 5-13. DOI: 10.1007/s10750-012-1290-y. PDF.

 

(2) Serra, W.S., M. Zarucki, A. Duarte, E.D. Burress, F. Teixeira-de-Mello, I. González-Bergonzoni, and M. Loureiro. 2013. First report of four characiform fishes (Ostariophysi: Characiformes) for Uruguay. Checklist 9: 1576-1579. PDF.

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(1) Serra, W.S., A. Duarte, E.D. Burress, and M. Loureiro. 2011. Perciformes, Cichlidae, Crenicichla tendybaguassu Lucena and Kullander, 1992: first report for Uruguay. Checklist 7: 357-359. PDF.