Using predator-prey theory to predict outcomes of a broad-scale test of apparent competition

© 2015 by The University of Chicago. 0003-0147/2015/18505-55371$15.00. All rights reserved. Apparent competition is an important process influencing many ecological communities. We used predator-prey theory to predict outcomes of ecosystem experiments aimed at mitigating apparent competition by redu...

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Bibliographic Details
Main Authors: R Serrouya, M Wittmann, B McLellan, Heiko Wittmer, S Boutin
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2015
Subjects:
Ecology
apparent competition
predation
Rangifer tarandus
Canis lupus
Odocoileus virginianus
conservation
Animals
Competitive Behavior
Conservation of Natural Resources
Deer
Ecosystem
Food Chain
Models
Biological
Population Dynamics
Predatory Behavior
Puma
Seasons
Wolves
Science & Technology
Life Sciences & Biomedicine
Evolutionary Biology
Environmental Sciences & Ecology
ENDANGERED MOUNTAIN CARIBOU
WOODLAND CARIBOU
POPULATION-DYNAMICS
BRITISH-COLUMBIA
SPECIES CONSERVATION
UNGULATE POPULATION
SPACE USE
KILL RATE
MANAGEMENT
Biological Sciences
Alces alces
Online Access:https://doi.org/10.26686/wgtn.12960971.v1
https://figshare.com/articles/journal_contribution/Using_predator-prey_theory_to_predict_outcomes_of_a_broad-scale_test_of_apparent_competition/12960971
Description
Summary:© 2015 by The University of Chicago. 0003-0147/2015/18505-55371$15.00. All rights reserved. Apparent competition is an important process influencing many ecological communities. We used predator-prey theory to predict outcomes of ecosystem experiments aimed at mitigating apparent competition by reducing primary prey. Simulations predicted declines in secondary prey following reductions in primary prey because predators consumed more secondary prey until predator numbers responded to reduced prey densities. Losses were exacerbated by a higher carrying capacity of primary prey and a longer lag time of the predator’s numerical response, but a gradual reduction in primary prey was less detrimental to the secondary prey. We compared predictions against two field experiments where endangered woodland caribou (Rangifer tarandus caribou) were victims of apparent competition. First, when deer (Odocoileus sp.) declined suddenly following a severe winter, cougar (Puma concolor) declined with a 1– 2-year lag, yet in the interim more caribou were killed by cougars, and caribou populations declined by 40%. Second, when moose (Alces alces) were gradually reduced using a management experiment, wolf (Canis lupus) populations declined but did not shift consumption to caribou, and the largest caribou subpopulation stabilized. The observed contrasting outcomes of sudden versus gradual declines in primary prey supported theoretical predictions. Combining theory with field studies clarified how to manage communities to mitigate endangerment caused by apparent competition that affects many taxa.

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