Faunal isotope records reveal trophic and nutrient dynamics in twentieth century Yellowstone grasslands

Population sizes and movement patterns of ungulate grazers and their predators have fluctuated dramatically over the past few centuries, largely owing to overharvesting, land-use change and historic management. We used ? 13C and ? 15N values measured from bone collagen of historic and recent gray wo...

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Bibliographic Details
Published in:Biology Letters
Main Authors: Fox-Dobbs, Kena, Koch, Paul L., Nelson, A. A., Leonard, Jennifer A.
Format: Text
Language:unknown
Published: Sound Ideas 2012
Subjects:
stable isotope
Yellowstone
Canis lupus
grasslands
historic
Online Access:https://soundideas.pugetsound.edu/faculty_pubs/582
https://doi.org/10.1098/rsbl.2012.0321
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Summary:Population sizes and movement patterns of ungulate grazers and their predators have fluctuated dramatically over the past few centuries, largely owing to overharvesting, land-use change and historic management. We used ? 13C and ? 15N values measured from bone collagen of historic and recent gray wolves and their potential primary prey from Yellowstone National Park to gain insight into the trophic dynamics and nutrient conditions of historic and modern grasslands. The diet of reintroduced wolves closely parallels that of the historic population. We suggest that a significant shift in faunal ? 15N values over the past century reflects impacts of anthropogenic environmental changes on grassland ecosystems, including grazer-mediated shifts in grassland nitrogen cycle processes. © 2012 The Royal Society.

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