Your search keyword '"Feirana"' showing total 2 results

1. Unveiling the roles of interspecific competition and local adaptation in phenotypic differentiation of parapatric frogs.

Author

Huang, Yan, Wang, Xiaoyi, Yang, Xin, Jiang, Jianping, and Hu, Junhua

Subjects

*ABIOTIC environment, *CONVERGENT evolution, *ECOLOGY, *FROGS, *BODY size, *COMPETITION (Biology), *PHYSIOLOGICAL adaptation

Abstract

Understanding how ecological processes affect phenotypic evolution has been and continues to be an important goal of ecology and evolutionary biology. Interspecific competition for resources can be a selective force driving phenotypic differentiation that reduces competition among sympatric species (character divergence), enabling closely-related species to coexist. However, although patterns of character divergence are well documented in both empirical and theoretical researches, how local adaptation to abiotic environment affects trait evolution in the face of interspecific competition is less known. Here, we investigate how patterns in morphological traits of 2 parapatric frog species, Feirana quadranus and F. taihangnica , vary among allopatric and sympatric regions using range-wide data derived from extensive field surveys. Feirana quadranus was overall larger than F. taihangnica in body size (i.e. snout–vent length [SVL]), and the difference between SVL of both species in sympatry was larger than that in allopatry. From allopatry to sympatry, the 2 species diverged in foot and hand traits, but converged in eye size and interorbital span, even when we controlled for the effects of geographic gradients. Sympatric divergence in SVL, hand and foot traits is likely acting as a case of evolutionary shift caused by interspecific competition. In contrast, sympatric convergence of eye-related traits may derive at least partly from adaptation to local environments. These results imply the relative roles of interspecific competition and local adaptation in shaping phenotypic diversification. Our findings illustrate how traits evolve in parapatric species pair due to sympatric divergent and convergent evolution. It thus provides insights into understanding underlying evolutionary processes of parapatric species, that is, competition and local adaptation. [ABSTRACT FROM AUTHOR]

Published

2020

2. Unveiling the roles of interspecific competition and local adaptation in phenotypic differentiation of parapatric frogs

Author

Xin Yang, Xiaoyi Wang, Yan Huang, Jianping Jiang, and Junhua Hu

Subjects

0106 biological sciences, Sympatry, character displacement, media_common.quotation_subject, Allopatric speciation, Parapatric speciation, Biology, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 03 medical and health sciences, Character displacement, character convergence, functional traits, 030304 developmental biology, Local adaptation, media_common, resource competition, 0303 health sciences, adaptive evolution, Interspecific competition, Articles, Evolutionary biology, Sympatric speciation, Animal Science and Zoology, Feirana

Abstract

Understanding how ecological processes affect phenotypic evolution has been and continues to be an important goal of ecology and evolutionary biology. Interspecific competition for resources can be a selective force driving phenotypic differentiation that reduces competition among sympatric species (character divergence), enabling closely-related species to coexist. However, although patterns of character divergence are well documented in both empirical and theoretical researches, how local adaptation to abiotic environment affects trait evolution in the face of interspecific competition is less known. Here, we investigate how patterns in morphological traits of 2 parapatric frog species, Feirana quadranus and F. taihangnica, vary among allopatric and sympatric regions using range-wide data derived from extensive field surveys. Feirana quadranus was overall larger than F. taihangnica in body size (i.e., snout–vent length [SVL]), and the difference between SVL of both species in sympatry was larger than that in allopatry. From allopatry to sympatry, the 2 species diverged in foot and hand traits, but converged in eye size and interorbital span, even when we controlled for the effects of geographic gradients. Sympatric divergence in SVL, hand and foot traits is likely acting as a case of evolutionary shift caused by interspecific competition. In contrast, sympatric convergence of eye-related traits may derive at least partly from adaptation to local environments. These results imply the relative roles of interspecific competition and local adaptation in shaping phenotypic diversification. Our findings illustrate how traits evolve in parapatric species pair due to sympatric divergent and convergent evolution. It thus provides insights into understanding underlying evolutionary processes of parapatric species, that is, competition and local adaptation.

Published

2020