Abstract
Understanding how abiotic conditions influence dispersal patterns of organisms is important for understanding the degree to which species can track and persist in the face of changing climate.The goal of this study was to understand how weather conditions influence the dispersal pattern of multiple nonmigratory grasshopper species from lower elevation grassland habitats in which they complete their life‐cycles to higher elevations that extend beyond their range limits.Using over a decade of weekly spring to late‐summer field survey data along an elevational gradient, we explored how abundance and richness of dispersing grasshoppers were influenced by temperature, precipitation, and wind speed and direction. We also examined how changes in population sizes at lower elevations might influence these patterns.We observed that the abundance of dispersing grasshoppers along the gradient declined 4‐fold from the foothills to the subalpine and increased with warmer conditions and when wind flow patterns were mild or in the downslope direction. Thirty‐eight unique grasshopper species from lowland sites were detected as dispersers across the survey years, and warmer years and weak upslope wind conditions also increased the richness of these grasshoppers. The pattern of grasshoppers along the gradient was not sex biased. The positive effect of temperature on dispersal rates was likely explained by an increase in dispersal propensity rather than by an increase in the density of grasshoppers at low elevation sites.The results of this study support the hypothesis that the dispersal patterns of organisms are influenced by changing climatic conditions themselves and as such, that this context‐dependent dispersal response should be considered when modeling and forecasting the ability of species to respond to climate change.
Highlights
Dispersal is an important process that influences the spatial and temporal distributions, local stability, and genetic structure of populations (Clobert et al, 2012; Ibrahim et al, 1996)
The results of this study support the hypothesis that the dispersal patterns of organisms are influenced by changing climatic conditions themselves and as such, that this context-dependent dispersal response should be considered when modeling and forecasting the ability of species to respond to climate change
If the weather conditions that promote dispersal patterns are opposed to or do not reflect the conditions that promote grasshopper population sizes, increased movement rates of grasshoppers would be best explained by changes in dispersal propensity that is influenced by changing abiotic conditions
Summary
Dispersal is an important process that influences the spatial and temporal distributions, local stability, and genetic structure of populations (Clobert et al, 2012; Ibrahim et al, 1996). Precipitation, and other weather factors (e.g., wind speed), are known to influence dispersal patterns, the strength and direction of effect can be highly taxon dependent (Travis et al, 2013). Given the likelihood that dispersal is context-dependent rather than a fixed trait, climate change studies should invoke a more dynamic expectation of how species' dispersal responses will themselves be influenced by shifting climatic conditions (Kokko & Lopez-Sepulcre, 2006; Travis et al, 2013). We test the hypothesis that the dispersal propensity of organisms beyond their range limits can be context-dependent and, in particular, that it is influenced by changing weather conditions. If the weather conditions that promote dispersal patterns are opposed to or do not reflect the conditions that promote grasshopper population sizes, increased movement rates of grasshoppers would be best explained by changes in dispersal propensity that is influenced by changing abiotic conditions
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