Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?

Wolf recovery in the Great Lakes region is anticipated to generate a top-down trophic cascade by altering white-tailed deer density, habitat selection, and/or foraging behavior. Through these direct impacts on deer, wolves are predicted to trigger additional indirect impacts on chronically browsed p...

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Bibliographic Details
Main Author: Callan, Ramana
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: uga 2010
Subjects:
Odocoileus viginianus
Canis lupus
Thuja occidentalis
wolves
white-tailed deer
trophic cascade
deer browsing intensity
wolf recovery
seedling recruitment
Great Lakes Region
northern white cedar
Wisconsin
multivariate models
local variables
re
Online Access:http://hdl.handle.net/10724/26862
http://purl.galileo.usg.edu/uga_etd/callan_ramana_201012_phd
id ftunivgeorgia:oai:athenaeum.libs.uga.edu:10724/26862
record_format openpolar
spelling ftunivgeorgia:oai:athenaeum.libs.uga.edu:10724/26862 2023-05-15T15:51:25+02:00 Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade? Callan, Ramana 2010-12 http://hdl.handle.net/10724/26862 http://purl.galileo.usg.edu/uga_etd/callan_ramana_201012_phd eng eng uga callan_ramana_201012_phd http://purl.galileo.usg.edu/uga_etd/callan_ramana_201012_phd http://hdl.handle.net/10724/26862 public Odocoileus viginianus Canis lupus Thuja occidentalis wolves white-tailed deer trophic cascade deer browsing intensity wolf recovery seedling recruitment Great Lakes Region northern white cedar Wisconsin multivariate models local variables re Dissertation 2010 ftunivgeorgia 2020-09-23T12:14:01Z Wolf recovery in the Great Lakes region is anticipated to generate a top-down trophic cascade by altering white-tailed deer density, habitat selection, and/or foraging behavior. Through these direct impacts on deer, wolves are predicted to trigger additional indirect impacts on chronically browsed plant communities. To detect the signal of top-down effects, we performed vegetation surveys in northern white cedar wetlands to measure species richness (S) of understory plants across a gradient of wolf impact. We fit species area-curves of vascular plants grouped by vegetation growth form and duration of wolf occupancy. Sampling at multiple scales revealed that areas consistently occupied by wolf packs were characterized by higher S of forbs at local scales (1-10 m2), and higher S of shrubs at broader scales (10 - 400 m2). Once we detected the signal of a trophic cascade, we further refined our approach by calculating a weighted wolf occupancy duration index (WWODI) based on historic and current wolf pack territory data. We found strong positive correlations between WWODI and the density and diversity of woody stems 50-100 cm tall. Unpalatable species and size classes above the browse line showed no relationship with WWODI. The characteristic gap in the size structure of woody stems, indicative of over-browsed understories, was less apparent in cedar wetlands with high wolf impact. Finally, we tested three possible hypotheses for observed relationships between S and WWODI: (1) a top-down trophic cascade, (2) a bottom-up trophic cascade, and (3) non-trophic associations. Using environmental variables, we created multivariate models of S of forbs, shrubs, tree seedlings and ferns. We used an information theoretic approach to select the best fit models and found that inclusion of WWODI was supported for models of understory plant species known to respond positively to release from herbivory: forbs, shrubs and tree seedlings. When landscape variables associated with wolf habitat selection were used to generate models of plant species richness, these models performed poorly. Evaluated collectively, our results provide little support for either the bottom-up or non-trophic hypotheses. Instead, our results are consistent with wolves triggering a release from browsing pressure by white-tailed deer (a top-down trophic cascade). PhD Daniel B. Warnell School of Forestry and Natural Resources Ecology Nathan Nibbelink Nathan Nibbelink Robert Warren Chris J. Peterson Robert J. Cooper Doctoral or Postdoctoral Thesis Canis lupus University of Georgia: Athenaeum@UGA
institution Open Polar
collection University of Georgia: Athenaeum@UGA
op_collection_id ftunivgeorgia
language English
topic Odocoileus viginianus
Canis lupus
Thuja occidentalis
wolves
white-tailed deer
trophic cascade
deer browsing intensity
wolf recovery
seedling recruitment
Great Lakes Region
northern white cedar
Wisconsin
multivariate models
local variables
re
spellingShingle Odocoileus viginianus
Canis lupus
Thuja occidentalis
wolves
white-tailed deer
trophic cascade
deer browsing intensity
wolf recovery
seedling recruitment
Great Lakes Region
northern white cedar
Wisconsin
multivariate models
local variables
re
Callan, Ramana
Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?
topic_facet Odocoileus viginianus
Canis lupus
Thuja occidentalis
wolves
white-tailed deer
trophic cascade
deer browsing intensity
wolf recovery
seedling recruitment
Great Lakes Region
northern white cedar
Wisconsin
multivariate models
local variables
re
description Wolf recovery in the Great Lakes region is anticipated to generate a top-down trophic cascade by altering white-tailed deer density, habitat selection, and/or foraging behavior. Through these direct impacts on deer, wolves are predicted to trigger additional indirect impacts on chronically browsed plant communities. To detect the signal of top-down effects, we performed vegetation surveys in northern white cedar wetlands to measure species richness (S) of understory plants across a gradient of wolf impact. We fit species area-curves of vascular plants grouped by vegetation growth form and duration of wolf occupancy. Sampling at multiple scales revealed that areas consistently occupied by wolf packs were characterized by higher S of forbs at local scales (1-10 m2), and higher S of shrubs at broader scales (10 - 400 m2). Once we detected the signal of a trophic cascade, we further refined our approach by calculating a weighted wolf occupancy duration index (WWODI) based on historic and current wolf pack territory data. We found strong positive correlations between WWODI and the density and diversity of woody stems 50-100 cm tall. Unpalatable species and size classes above the browse line showed no relationship with WWODI. The characteristic gap in the size structure of woody stems, indicative of over-browsed understories, was less apparent in cedar wetlands with high wolf impact. Finally, we tested three possible hypotheses for observed relationships between S and WWODI: (1) a top-down trophic cascade, (2) a bottom-up trophic cascade, and (3) non-trophic associations. Using environmental variables, we created multivariate models of S of forbs, shrubs, tree seedlings and ferns. We used an information theoretic approach to select the best fit models and found that inclusion of WWODI was supported for models of understory plant species known to respond positively to release from herbivory: forbs, shrubs and tree seedlings. When landscape variables associated with wolf habitat selection were used to generate models of plant species richness, these models performed poorly. Evaluated collectively, our results provide little support for either the bottom-up or non-trophic hypotheses. Instead, our results are consistent with wolves triggering a release from browsing pressure by white-tailed deer (a top-down trophic cascade). PhD Daniel B. Warnell School of Forestry and Natural Resources Ecology Nathan Nibbelink Nathan Nibbelink Robert Warren Chris J. Peterson Robert J. Cooper
format Doctoral or Postdoctoral Thesis
author Callan, Ramana
author_facet Callan, Ramana
author_sort Callan, Ramana
title Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?
title_short Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?
title_full Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?
title_fullStr Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?
title_full_unstemmed Are wolves in Wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?
title_sort are wolves in wisconsin affecting the biodiversity of understory plant communities via a trophic cascade?
publisher uga
publishDate 2010
url http://hdl.handle.net/10724/26862
http://purl.galileo.usg.edu/uga_etd/callan_ramana_201012_phd
genre Canis lupus
genre_facet Canis lupus
op_relation callan_ramana_201012_phd
http://purl.galileo.usg.edu/uga_etd/callan_ramana_201012_phd
http://hdl.handle.net/10724/26862
op_rights public
_version_ 1766386615469473792

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