Geographic variation in wing size and shape of the grasshopper Trilophidia annulata (Orthoptera: Oedipodidae): morphological trait variations follow an ecogeographical rule

• Published in: Scientific reports Vol. 6; no. 1; p. 32680
• Main Authors: Bai, Yi, Dong, Jia-Jia, Guan, De-Long, Xie, Juan-Ying, Xu, Sheng-Quan
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 06.09.2016; Nature Publishing Group
• Subjects: 631/158/852; 631/601/1466; Animals; Body Size; Climate change; Clines; Ecology; Environmental factors; Environmental gradient; Geography; Grasshoppers - anatomy & histology; Heterogeneity; High temperature; Humanities and Social Sciences; Morphology; Mountain regions; multidisciplinary; Regression analysis; Science; Wings, Animal - anatomy & histology
• ISSN: 2045-2322; 2045-2322
• DOI: 10.1038/srep32680

A quantitative analysis of wing variation in grasshoppers can help us to understand how environmental heterogeneity affects the phenotypic patterns of insects. In this study, geometric morphometric methods were used to measure the differences in wing shape and size of Trilophidia annulata among 39 geographical populations in China, and a regression analysis was applied to identify the major environmental factors contributing to the observed morphological variations. The results showed that the size of the forewing and hindwing were significantly different among populations; the shape of the forewing among populations can be divided into geographical groups, however hindwing shape are geographical overlapped, and populations cannot be divided into geographical groups. Environmental PCA and thin-plate spline analysis suggested that smaller individuals with shorter and blunter-tip forewings were mainly distributed in the lower latitudes and mountainous areas, where they have higher temperatures and more precipitation. Correspondingly, the larger-bodied grasshoppers, those that have longer forewings with a longer radial sector, are distributed in contrary circumstances. We conclude that the size variations in body, forewing and hindwing of T. annulata apparently follow the Bergmann clines. The importance of climatic variables in influencing morphological variation among populations, forewing shape of T. annulata varies along an environmental gradient.