A1 Refereed original research article in a scientific journal
Parental coordination with respect to color polymorphism in a crater lake fish
Authors: Topi K. Lehtonen
Publisher: OXFORD UNIV PRESS INC
Publication year: 2017
Journal:Behavioral Ecology
Journal name in sourceBEHAVIORAL ECOLOGY
Journal acronym: BEHAV ECOL
Volume: 28
Issue: 3
First page : 925
Last page: 933
Number of pages: 9
ISSN: 1045-2249
eISSN: 1465-7279
DOI: https://doi.org/10.1093/beheco/arx052
Abstract
In many taxa, success in parental care requires the coordinated efforts of both parents. Given the evolutionary potential of parental performance, as well as phenotype-related behavioral differences, it is surprising that parental coordination in polymorphic species has attracted only very limited research attention. To redress this gap, I combined multiple approaches to assess parental performance and coordination of parental effort in the color polymorphic and biparental cichlid fish, Amphilophus sagittae, in its natural crater lake habitat. I compared parents of the 2 color morphs, dark and gold, as well as pairs that had mated color assortatively ("same color" pairs) versus disassortatively ("mixed" pairs). The 2 morphs differed in terms of a higher than expected number of single gold morph parents. Interestingly, parental coordination, in terms of the size of the defended territory and the rate of aggressive responses toward natural territory intruders, was lower in mixed than same color pairs. Mixed pairs also had their territories in deeper water. However, no pair type differences in early survival of biparentally defended broods were detected. The findings contribute toward a better understanding of the role of parental coordination in polymorphic species, highlighting the importance of considering parental effort, coordination, and performance in the context of the dynamics of (color) polymorphisms in the wild. Indeed, if the observed behavioral differences will translate into negative fitness effects for mixed pairs, parental performance can also provide a mechanism selecting for color assortative mating and restricting gene flow under mating regimes that are not completely assortative.
In many taxa, success in parental care requires the coordinated efforts of both parents. Given the evolutionary potential of parental performance, as well as phenotype-related behavioral differences, it is surprising that parental coordination in polymorphic species has attracted only very limited research attention. To redress this gap, I combined multiple approaches to assess parental performance and coordination of parental effort in the color polymorphic and biparental cichlid fish, Amphilophus sagittae, in its natural crater lake habitat. I compared parents of the 2 color morphs, dark and gold, as well as pairs that had mated color assortatively ("same color" pairs) versus disassortatively ("mixed" pairs). The 2 morphs differed in terms of a higher than expected number of single gold morph parents. Interestingly, parental coordination, in terms of the size of the defended territory and the rate of aggressive responses toward natural territory intruders, was lower in mixed than same color pairs. Mixed pairs also had their territories in deeper water. However, no pair type differences in early survival of biparentally defended broods were detected. The findings contribute toward a better understanding of the role of parental coordination in polymorphic species, highlighting the importance of considering parental effort, coordination, and performance in the context of the dynamics of (color) polymorphisms in the wild. Indeed, if the observed behavioral differences will translate into negative fitness effects for mixed pairs, parental performance can also provide a mechanism selecting for color assortative mating and restricting gene flow under mating regimes that are not completely assortative.
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