Affiliation:
1. University of Bonn, Department of Geography , Bonn , Germany
2. Leibniz Institute for the Analysis of Biodiversity Change (LIB) , Museum Koenig, Bonn , Germany
3. University of South-Eastern Norway, Department of Natural Sciences and Environmental Health , Bø , Norway
Abstract
AbstractTo predict species’ responses to a rapidly changing environment, it is necessary to detect current clines of life-history traits and understand their drivers. We studied body size variation, a key trait in evolutionary biology, of two arctic–alpine lycosid spiders and underlying mechanisms controlling this variation. We used long time-series data of body size of spiders sampled in Norway, augmented with museum data. Individuals of both species sampled in areas and years with longer snow-free periods grew larger than individuals in areas and years with shorter snow-free periods. Interestingly, temperatures below 0 °C led to a larger body size in Pardosa palustris, while temperatures above 0 °C led to a larger body size in Pardosa hyperborea. We assume that P. palustris, as the generally larger species, is less sensitive to environmental variability and low temperatures, because it can retain more energy compared with a smaller species and, therefore, can invest more resources in its offspring. With rising temperatures, both species might profit from a higher resource availability. In a rapidly changing arctic–alpine environment, alterations in the life-history traits and adaptation strategies of spiders are expected, which, regarding body size, seem to be highly influenced by early snowmelt and diverging thermal constraints.
Publisher
Oxford University Press (OUP)
Subject
Ecology, Evolution, Behavior and Systematics
Cited by
1 articles.
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