Multiple Browsers Structure Tree Recruitment in Logged Temperate Forests

Multiple Browsers Structure Tree Recruitment in Logged Temperate Forests

Historical extirpations have resulted in depauperate large herbivore assemblages in many northern forests. In eastern North America, most forests are inhabited by a single wild ungulate species, white-tailed deer (Odocoileus virginianus), and relationships between deer densities and impacts on fores...

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Bibliographic Details
Published in:PloS one Vol. 11; no. 11; p. e0166783
Main Authors: Faison, Edward K, DeStefano, Stephen, Foster, David R, Rapp, Joshua M, Compton, Justin A
Format: Journal Article
Language:English
Published: United States Public Library of Science 28-11-2016
Public Library of Science (PLoS)
Subjects:
Alces americanus
Analysis
Animal behavior
Animals
Biology and Life Sciences
Browsing
Climate
Deer
Ecology and Environmental Sciences
Ecosystem
Foraging behavior
Forest communities
Forest ecosystems
Forest regeneration
Forestry - methods
Forests
Health aspects
Herbivores
Herbivory
Massachusetts
Moose
North America
Odocoileus virginianus
Plant Stems
Population decline
Population Density
Prunus pensylvanica
Quercus
Recruitment
Redundancy
Regeneration
Species composition
Species richness
Species Specificity
Sympatric populations
Temperate forests
Trees
Ungulates
White-tailed deer
North America
United States > US
Massachusetts
Connecticut
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Summary:Historical extirpations have resulted in depauperate large herbivore assemblages in many northern forests. In eastern North America, most forests are inhabited by a single wild ungulate species, white-tailed deer (Odocoileus virginianus), and relationships between deer densities and impacts on forest regeneration are correspondingly well documented. Recent recolonizations by moose (Alces americanus) in northeastern regions complicate established deer density thresholds and predictions of browsing impacts on forest dynamics because size and foraging differences between the two animals suggest a lack of functional redundancy. We asked to what extent low densities of deer + moose would structure forest communities differently from that of low densities of deer in recently logged patch cuts of Massachusetts, USA. In each site, a randomized block with three treatment levels of large herbivores-no-ungulates (full exclosure), deer (partial exclosure), and deer + moose (control) was established. After 6-7 years, deer + moose reduced stem densities and basal area by 2-3-fold, Prunus pensylvanica and Quercus spp. recruitment by 3-6 fold, and species richness by 1.7 species (19%). In contrast, in the partial exclosures, deer had non-significant effects on stem density, basal area, and species composition, but significantly reduced species richness by 2.5 species on average (28%). Deer browsing in the partial exclosure was more selective than deer + moose browsing together, perhaps contributing to the decline in species richness in the former treatment and the lack of additional decline in the latter. Moose used the control plots at roughly the same frequency as deer (as determined by remote camera traps), suggesting that the much larger moose was the dominant browser species in terms of animal biomass in these cuts. A lack of functional redundancy with respect to foraging behavior between sympatric large herbivores may explain combined browsing effects that were both large and complex.
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Competing Interests: The authors have declared that no competing interests exist.
Conceptualization: SD JAC DRF EKF. Data curation: EKF JMR SD. Formal analysis: EKF JMR SD. Funding acquisition: DRF SD EKF. Investigation: EKF SD JAC. Methodology: EKF SD JAC JMR. Project administration: SD EKF JAC. Resources: SD DRF EKF JMR. Software: JMR EKF. Supervision: EKF SD DRF JAC. Validation: EKF SD DRF JMR. Visualization: EKF. Writing – original draft: EKF. Writing – review & editing: EKF SD DRF JMR.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0166783