dc.description.abstract | Recognition of familiar and related conspecifics can be crucial for altruistic
behaviors. In spiders, a reduction in cannibalism has previously been used as evidence of
kin recognition. The goal of this study was to examine the changes in activity and
foraging for the non-social wolf spider, Pardosa milvina (Araneae: Lycosidae), as novel
proxies for recognition and to provide evidence for altruism. Activity and foraging by
juvenile spiders were explored on chemotactile cues (silk, excreta, feces) from related
and/or familiar spiders. The activity of spiders included time spent moving, speed, and
duration on familiar or kin cues. Foraging included the maximum consumption of
crickets and rate of capture on non-kin, kin, familiar non-kin, and familiar kin cues.
Pardosa spent more time ambulatory on kin cues than familiar cues. Additionally,
animals foraging on kin cues decreased consumption while those foraging on familiar
cues increased consumption. Capture rates increased on familiar cues, but tended to
decrease on kin cues. These results suggest that immature Pardosa utilize chemotactile
cues to distinguish kin and familiar conspecifics and may exploit this recognition to
increase their indirect fitness. These results also align with a recent producer-scrounger
foraging model that considers within-group relatedness as a key to understanding
exploitation by kin. Together these results indicate a foraging strategy that may help to
explain the early evolution of sociality in spiders. | en_US |