Trimerotropis pallidipennis (Burmeister, 1838)

Trimerotropis pallidipennis View in CoL

According to the data shown in Table 1 and Figure 1 View Fig , body size was strongly and negatively correlated with altitude (r = 0.9782, P = 0.0001). This result suggests that chromosome inversions may be associated with adaptation to different environments not only at population levels ( Colombo 2002) but also in a broader geographical scope. We think that in this case, body size–related variables may point in the direction of season length limitation due to a slower rate of growth caused by lower temperatures, along with the shortening of the time available for development ( Berner et al. 2004; Blanckenhorn & Demont 2004; Berner & Blanckenhorn 2006). An altitudinal cline related with body size, temperature, and development rate was studied in the European grasshopper Omocestus viridulus (L.) ( Berner et al. 2004; Berner & Blanckenhorn 2006); however, this species was revealed to be univoltine all along the gradient. Trimerotropis pallidipennis was shown to be bivoltine instead, at least in the high-mountain population of Uspallata (C. Lange, personal communication). We do not know whether there are variations in voltinism along the gradient.

One of the chromosome inversions affects a morphometric variable; in fact, inversion 6M in the population of Uspallata significantly increases tegmen length ( Table 2, from Colombo 2002). We think that the effect on a morphometric variable at a location may be related to the pattern of distribution on a broader geographical scope.

Colombo & Confalonieri (1996) found that inversion frequencies were negatively correlated with minimum temperature; we think now that this correlation may be masking several other variables, which in time are covariate with it. Chromosome inversions may be related with the adaptation to such variables.