作 者:Yi Bai, Li Bin Ma , Sheng-Quan Xu,and Gui-Hu Wang
影响因子:0.997
刊物名称:Florida Entomologist
出版年卷:2015, 98(1): 162-169
文章摘要:Butterflies possess attributes that are sensitive to gradual environmental changes. Recently, the effects of environmental factors on the shapes
of organisms, as well as the interactions of these elements, have been extensively examined, i.e., effects of seasonal changes on the colors of
butterfly wings, and effects of landscape structure on butterfly distribution and morphology. However, few studies have dealt with variations in
butterfly shapes in response to varying environmental conditions. Here we aimed to determine how body size and shape variations in butterflies
are correlated to environmental heterogeneity. We used geometric morphometrics to quantify Pieris rapae wing shape variations. Results
showed that forewing and hind wing sizes were significantly different among the 15 populations. P. rapae individuals with larger wing sizes
were mainly distributed in mountainous areas, whereas those with smaller-sized wings were found on the plains. Canonical variate analysis
was employed to examine the patterns of variation in wing shapes among and within the populations. Significant differences in shape were
revealed in the forewings and the hind wings of P. rapae populations. All populations were divided into 2 groups on the first canonical variate
axis (CV1), which followed the Qinling Mountains as an important boundary between the Palearctic and Oriental Realms in zoogeographical
division of the world. The unweighted pair group method with arithmetic mean (UPGMA) clustered the 15 populations into 4 groups by forewing
and hind wing shape in response to the 4 environment types in Qinling Mountains. We suggest that wing shapes of P.rapae are sensitive
to environmental heterogeneity. The isolating effect of the Qinling Mountains on P. rapae population interactions was apparent.
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