Sexual dimorphism in size and shape is common in many organisms, and is a key evolutionary feature. In this study, we analyzed morphometric data of the Jilin clawed salamander Onychodactylus zhangyapingi, an endemic C...Sexual dimorphism in size and shape is common in many organisms, and is a key evolutionary feature. In this study, we analyzed morphometric data of the Jilin clawed salamander Onychodactylus zhangyapingi, an endemic Chinese salamander, to examine sexual size and shape dimorphism. The morphometric data included 14 characteristics of 13 females and 11 males and was analyzed using univariate and multivariate methods. Our results showed that sexual dimorphism occurs not only in body size, but also in body shape. Males have a longer snout-vent length than females, a rarely reported pattern of male-biased sexual size dimorphism. Females have a larger space between the axilla and groin than males, while males have longer and larger tails compared to females. The sexual dimorphism in body size and shape can be explained by existing theories, but there is little data for the mating system, behavior, reproduction, or ecology of O. zhangyapingi, so further studies are required.展开更多
Sexual size dimorphism(SSD) plays a significant role in understanding the evolution of life history and mating behavior. In this study,we analyzed the morphological data from a treefrog,Hyla ussuriensis,in northeaster...Sexual size dimorphism(SSD) plays a significant role in understanding the evolution of life history and mating behavior. In this study,we analyzed the morphological data from a treefrog,Hyla ussuriensis,in northeastern China and found that there are significant differences between males and females. Females that are larger in body size increase fecundity as the total number of eggs is positively correlated to female body size. Males are smaller in body size due to the mate choice by females based on the size dimorphism index(SVL mean of female divided by that of male) for the population,which may be an evolutionary stable strategy(ESS). SSD can be influenced not only through mate choice,but also reproductive behavior by analyzing the female reproduction output in the field. Our data are consistent with many previous studies,indicating that fecundity selection and sexual selection may be the common cause for sexual dimorphism in this species. Furthermore,there are no significant morphological differences between mated and unmated frogs of both sexes,which suggests that any frog can obtain a breeding chance when it matures. It further indicates that males may not affect female choice except by their snout-vent length(SVL) and body mass. It is,of course,possible that females adopt a mating strategy to mate with males whose SVL and body mass are smaller than paired females. Our research provides unequivocal evidence for effective female choice and information on the evolution of SSD in the production of anuran pairing patterns.展开更多
基金supported by grants from the National Natural Science Foundation of China (NSFC 30900138, 31471971)
文摘Sexual dimorphism in size and shape is common in many organisms, and is a key evolutionary feature. In this study, we analyzed morphometric data of the Jilin clawed salamander Onychodactylus zhangyapingi, an endemic Chinese salamander, to examine sexual size and shape dimorphism. The morphometric data included 14 characteristics of 13 females and 11 males and was analyzed using univariate and multivariate methods. Our results showed that sexual dimorphism occurs not only in body size, but also in body shape. Males have a longer snout-vent length than females, a rarely reported pattern of male-biased sexual size dimorphism. Females have a larger space between the axilla and groin than males, while males have longer and larger tails compared to females. The sexual dimorphism in body size and shape can be explained by existing theories, but there is little data for the mating system, behavior, reproduction, or ecology of O. zhangyapingi, so further studies are required.
基金supported by the National Natural Science Foundation of China (Project No. 31172079)the Natural Science Foundation of Heilongjiang, China (Project No. QC2010035)the Aid Program for Science and Technology Innovative Research Team in Higher Educational Institutions of Heilongjiang and Harbin Normal University (KJTD2011-2)
文摘Sexual size dimorphism(SSD) plays a significant role in understanding the evolution of life history and mating behavior. In this study,we analyzed the morphological data from a treefrog,Hyla ussuriensis,in northeastern China and found that there are significant differences between males and females. Females that are larger in body size increase fecundity as the total number of eggs is positively correlated to female body size. Males are smaller in body size due to the mate choice by females based on the size dimorphism index(SVL mean of female divided by that of male) for the population,which may be an evolutionary stable strategy(ESS). SSD can be influenced not only through mate choice,but also reproductive behavior by analyzing the female reproduction output in the field. Our data are consistent with many previous studies,indicating that fecundity selection and sexual selection may be the common cause for sexual dimorphism in this species. Furthermore,there are no significant morphological differences between mated and unmated frogs of both sexes,which suggests that any frog can obtain a breeding chance when it matures. It further indicates that males may not affect female choice except by their snout-vent length(SVL) and body mass. It is,of course,possible that females adopt a mating strategy to mate with males whose SVL and body mass are smaller than paired females. Our research provides unequivocal evidence for effective female choice and information on the evolution of SSD in the production of anuran pairing patterns.