%0 Journal Article %1 brodie2003reciprocal %A Brodie, E. D., III %A Ridenhour, B. J. %D 2003 %J Integrative and Comparative Biology %K Thamnophis coevolution garter_snakes newts quantitative_genetics species_interactions %N 3 %P 408-418 %R 10.1093/icb/43.3.408 %T Reciprocal Selection at the Phenotypic Interface of Coevolution %U https://doi.org/10.1093/icb/43.3.408 %V 43 %X Coevolutionary interactions depend upon a phenotypic interface of traits in each species that mediate the outcome of interactions among individuals. These phenotypic interfaces usually involve performance traits, such as locomotion or resistance to toxins, that comprise an integrated suite of physiological, morphological and behavioral traits. The reciprocal selection from species interactions may act directly on performance, but it is ultimately the evolution of these underlying components that shape the patterns of coevolutionary adaptation in performance. Bridging the macroevolutionary patterns of coevolution to the ecological processes that build them therefore requires a way to dissect the phenotypic interface of coevolution and determine how specific components of performance in one species exert selection on complimentary components of performance in a second species. We present an approach for analyzing the strength of selection in a coevolutionary interaction where individuals interact at random, and for identifying which component traits of the phenotypic interface are critical to mediating coevolution. The approach is illustrated with data from a predator-prey arms race between garter snakes and newts that operates through the interface of tetrodotoxin (TTX) and resistance to it.

@article{brodie2003reciprocal, abstract = {{Coevolutionary interactions depend upon a phenotypic interface of traits in each species that mediate the outcome of interactions among individuals. These phenotypic interfaces usually involve performance traits, such as locomotion or resistance to toxins, that comprise an integrated suite of physiological, morphological and behavioral traits. The reciprocal selection from species interactions may act directly on performance, but it is ultimately the evolution of these underlying components that shape the patterns of coevolutionary adaptation in performance. Bridging the macroevolutionary patterns of coevolution to the ecological processes that build them therefore requires a way to dissect the phenotypic interface of coevolution and determine how specific components of performance in one species exert selection on complimentary components of performance in a second species. We present an approach for analyzing the strength of selection in a coevolutionary interaction where individuals interact at random, and for identifying which component traits of the phenotypic interface are critical to mediating coevolution. The approach is illustrated with data from a predator-prey arms race between garter snakes and newts that operates through the interface of tetrodotoxin (TTX) and resistance to it.}}, added-at = {2020-12-11T16:27:18.000+0100}, author = {{Brodie, E. D.}, III and Ridenhour, B. J.}, biburl = {https://www.bibsonomy.org/bibtex/227793a055cf09125f748af5f9c80a207/peter.ralph}, doi = {10.1093/icb/43.3.408}, eprint = {https://academic.oup.com/icb/article-pdf/43/3/408/1726271/i1540-7063-043-03-0408.pdf}, interhash = {25e7f355ce807f41447d3d5698db8e8d}, intrahash = {27793a055cf09125f748af5f9c80a207}, issn = {1540-7063}, journal = {Integrative and Comparative Biology}, keywords = {Thamnophis coevolution garter_snakes newts quantitative_genetics species_interactions}, month = {07}, number = 3, pages = {408-418}, timestamp = {2020-12-11T16:27:18.000+0100}, title = {Reciprocal Selection at the Phenotypic Interface of Coevolution}, url = {https://doi.org/10.1093/icb/43.3.408}, volume = 43, year = 2003 }