Ecosystem‐scale loss of grazing habitat impacted by abundance of dominant herbivores

Abstract Grazing lawns, patches of grazing‐tolerant plants with high nutrient value, provide important habitat for herbivores, and changes in abundance can impact herbivore populations. Grazing lawns are maintained in quality and quantity by repeated grazing and are a result of a positive feedback s...

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Bibliographic Details
Published in:Ecosphere
Main Authors: Brian D. Uher‐Koch, Joel A. Schmutz, Heather M. Wilson, R. Michael Anthony, Thomas L. Day, Thomas F. Fondell, Brian T. Person, James S. Sedinger
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2019
Subjects:
Arctic fox
black brant
Branta bernicla nigricans
Carex
geese
grazing lawn
Ecology
QH540-549.5
Arctic
Brant
Arctic Fox
Branta bernicla
Online Access:https://doi.org/10.1002/ecs2.2767
https://doaj.org/article/6214ab62c7d84e19bccf5e7f825b9abb
Description
Summary:Abstract Grazing lawns, patches of grazing‐tolerant plants with high nutrient value, provide important habitat for herbivores, and changes in abundance can impact herbivore populations. Grazing lawns are maintained in quality and quantity by repeated grazing and are a result of a positive feedback since the availability of grazing lawn can increase herbivore populations and increased herbivore populations can result in an increase in grazing lawn extent. We sampled aerial imagery from a long‐term dataset (>20 yr) at an internationally important breeding area for avian herbivores to model changes in grazing lawn abundance over time and identify the possible factors impacting those changes, including numbers of breeding birds, their primary predator, and spring phenology. Our data suggest that avian herbivores and their predators likely exert strong impacts on plant communities and may drive vegetation abundance. Decreases in the number of herbivore nests in our study coincided with an almost complete lack of grazing lawn in the mid‐2000s. Any factors dictating the amount of grazing lawn available for avian herbivores could strongly influence breeding success and the maximum size of these populations. Our results demonstrate the importance of studying complex interactions among predators, herbivores, and plants, and population moderation by both bottom‐up and top‐down processes.

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