Table_1_Dominant Arctic Predator Is Free of Major Parasitoid at Northern Edge of Its Range.docx

Parasitoids can affect host population dynamics with community-level consequences. In the Arctic, a high diversity of parasitoids relative to potential hosts suggests that parasitoids may exert strong selection pressure on arthropods, but the extent to which these interspecific linkages drive arthro...

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Bibliographic Details
Main Authors: Amanda M. Koltz, Lauren E. Culler, Joseph J. Bowden, Eric Post, Toke T. Høye
Format: Dataset
Language:unknown
Published: 2019
Subjects:
Online Access:https://doi.org/10.3389/fevo.2019.00250.s001
https://figshare.com/articles/Table_1_Dominant_Arctic_Predator_Is_Free_of_Major_Parasitoid_at_Northern_Edge_of_Its_Range_docx/8479757
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Summary:Parasitoids can affect host population dynamics with community-level consequences. In the Arctic, a high diversity of parasitoids relative to potential hosts suggests that parasitoids may exert strong selection pressure on arthropods, but the extent to which these interspecific linkages drive arthropod population dynamics remains unclear. Wolf spiders are dominant and ecologically important arctic predators that experience high rates of egg sac parasitism by wasps. We investigated potential changes in egg sac parasitism rates at two rapidly warming sites in Greenland: a high-arctic site (18 years of data, 1,088 egg sacs) and a low-arctic site (5 years of data, 538 egg sacs). While up to 13% of egg sacs were parasitized annually in the low-arctic site, we found no evidence of it at the high-arctic site despite the presence of congeneric parasitoid species at both locations. The surprising lack of parasitism in the north suggests that populations of this widespread spider species have different eco-evolutionary histories and may respond differentially to climate change.