Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest
Despite the importance of wildlife habitat protection in meeting land use management objectives, criteria for habitat identification are surprisingly amorphous. For example, while much current habitat modeling has tended to avoid the term "niche modeling," niche assumptions are implicit -...
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| Other Authors: | , , |
| Format: | Doctoral or Postdoctoral Thesis |
| Language: | English |
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2014
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| Online Access: | http://knowledgecommons.lakeheadu.ca/handle/2453/576 |
| id |
ftlakeheaduniv:oai:knowledgecommons.lakeheadu.ca:2453/576 |
|---|---|
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openpolar |
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Open Polar |
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Lakehead University Knowledge Commons |
| op_collection_id |
ftlakeheaduniv |
| language |
English |
| topic |
Boreal forest Forest resource inventory Habitat models Overstory composition Timber harvesting Woodland caribou |
| spellingShingle |
Boreal forest Forest resource inventory Habitat models Overstory composition Timber harvesting Woodland caribou Boan, Julee Jaye Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest |
| topic_facet |
Boreal forest Forest resource inventory Habitat models Overstory composition Timber harvesting Woodland caribou |
| description |
Despite the importance of wildlife habitat protection in meeting land use management objectives, criteria for habitat identification are surprisingly amorphous. For example, while much current habitat modeling has tended to avoid the term "niche modeling," niche assumptions are implicit - the presence of predators and competitors is essential to whether or not a species uses, or will use, an area. Nonetheless, there are species for which important elements of niche are not generally associated with legal interpretations of their "habitat". Woodland caribou (Rangifer tarandus caribou) are one such example. The range of the forest-dwelling ecotypes of woodland caribou has been declining in Canada since at least the late 1940s, and woodland caribou were assessed as Threatened by the Committee on the Status of Endangered Wildlife in Canada and were listed under the Federal Species at Risk Act in 2003. They are also protected under Ontario's Endangered Species Act (2007) and other provincial and territorial legislation. The consequences of management decisions, and the lens through which these decisions are assessed, have been intensified due to these legal implications. Most current research supports the hypothesis that higher predation is the key factor in decline and that larger wolf (Canis lupus) populations are due to increased abundance of early seral stage, forage-rich hardwood and mixedwood forests, created largely by logging, which support additional prey for wolves, including moose (Alces alces L.). While predators and apparent competitors appear to play a primary role in habitat selection by caribou, habitat modeling generally relies on forest overstory and age as a surrogate for predator avoidance. Yet, how well these models correspond to caribou, wolf, and moose use is largely unknown. Legal interpretations of protection rest primarily on interpretations of forest overstory and age, making explicit only the importance of forest disturbance. Here, I tested the ability of forest resource inventories (FRI), a key tool in identifying and quantifying wildlife habitat in forest management, to assess 3 key elements associated with caribou winter habitat: lichen, regenerating understory and predator use. I assessed the presence of Cladonia lichen, an important winter forage species for woodland caribou, using stand characteristics provided in FRIs. Further, I used ground data collected from regenerating areas (2009-2010) of previously conifer-dominated forests in northwestern Ontario, Canada, 10 and 30 years after logging, and 10 and 30 years after fire, to test if understory development and moose forage abundance differed between the two disturbance types and artificial or natural regeneration approaches. In addition, I used winter aerial surveys (2010-2013) and logistic regression to compare the characteristics of a conventional habitat model (forest overstory composition and age) to other habitat characteristics (and/or their surrogates). I also applied a novel approach for Structural Equation Modeling (SEM) to explore causal and indirect caribou habitat relationships at broad and fine scales. I found FRI was not capable of accurately predicting understory vegetation, specifically Cladonia lichen, in spite of the ability of field-based data using the same characteristics providing strong prediction. Further, I found understory composition varied significantly depending on post-harvest regeneration approach. Abundance of shrubs, as well as herbaceous plants (forage for apparent competitors for woodland caribou), was greater in naturally- regenerated post-harvest stands than similarly aged fire origin or post-harvest stands that used more intensive regeneration approaches. And lastly, I found that older, conifer forests alone, as depicted in FRI, did not provide good predictive capabilities of caribou use at broad scales. While conventional models based on forest overstory composition and age may be useful as a coarse filter in interpreting caribou habitat, more attention should be given to their limitations in landscapes changed by industrial development, particularly where road networks are likely to facilitate predator access and the identification of such habitat has legal implications. |
| author2 |
McLaren, Brian Malcolm, Jay Pulkie, Reino |
| format |
Doctoral or Postdoctoral Thesis |
| author |
Boan, Julee Jaye |
| author_facet |
Boan, Julee Jaye |
| author_sort |
Boan, Julee Jaye |
| title |
Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest |
| title_short |
Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest |
| title_full |
Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest |
| title_fullStr |
Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest |
| title_full_unstemmed |
Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest |
| title_sort |
limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest |
| publishDate |
2014 |
| url |
http://knowledgecommons.lakeheadu.ca/handle/2453/576 |
| geographic |
Canada |
| geographic_facet |
Canada |
| genre |
Alces alces Canis lupus Rangifer tarandus |
| genre_facet |
Alces alces Canis lupus Rangifer tarandus |
| op_relation |
http://knowledgecommons.lakeheadu.ca/handle/2453/576 |
| _version_ |
1766260948413186048 |
| spelling |
ftlakeheaduniv:oai:knowledgecommons.lakeheadu.ca:2453/576 2023-05-15T13:13:53+02:00 Limitations of forest overstory composition and age as proxies for habitat in a harvested boreal forest Boan, Julee Jaye McLaren, Brian Malcolm, Jay Pulkie, Reino 2014 application/pdf http://knowledgecommons.lakeheadu.ca/handle/2453/576 en_US eng http://knowledgecommons.lakeheadu.ca/handle/2453/576 Boreal forest Forest resource inventory Habitat models Overstory composition Timber harvesting Woodland caribou Dissertation 2014 ftlakeheaduniv 2022-05-01T17:26:24Z Despite the importance of wildlife habitat protection in meeting land use management objectives, criteria for habitat identification are surprisingly amorphous. For example, while much current habitat modeling has tended to avoid the term "niche modeling," niche assumptions are implicit - the presence of predators and competitors is essential to whether or not a species uses, or will use, an area. Nonetheless, there are species for which important elements of niche are not generally associated with legal interpretations of their "habitat". Woodland caribou (Rangifer tarandus caribou) are one such example. The range of the forest-dwelling ecotypes of woodland caribou has been declining in Canada since at least the late 1940s, and woodland caribou were assessed as Threatened by the Committee on the Status of Endangered Wildlife in Canada and were listed under the Federal Species at Risk Act in 2003. They are also protected under Ontario's Endangered Species Act (2007) and other provincial and territorial legislation. The consequences of management decisions, and the lens through which these decisions are assessed, have been intensified due to these legal implications. Most current research supports the hypothesis that higher predation is the key factor in decline and that larger wolf (Canis lupus) populations are due to increased abundance of early seral stage, forage-rich hardwood and mixedwood forests, created largely by logging, which support additional prey for wolves, including moose (Alces alces L.). While predators and apparent competitors appear to play a primary role in habitat selection by caribou, habitat modeling generally relies on forest overstory and age as a surrogate for predator avoidance. Yet, how well these models correspond to caribou, wolf, and moose use is largely unknown. Legal interpretations of protection rest primarily on interpretations of forest overstory and age, making explicit only the importance of forest disturbance. Here, I tested the ability of forest resource inventories (FRI), a key tool in identifying and quantifying wildlife habitat in forest management, to assess 3 key elements associated with caribou winter habitat: lichen, regenerating understory and predator use. I assessed the presence of Cladonia lichen, an important winter forage species for woodland caribou, using stand characteristics provided in FRIs. Further, I used ground data collected from regenerating areas (2009-2010) of previously conifer-dominated forests in northwestern Ontario, Canada, 10 and 30 years after logging, and 10 and 30 years after fire, to test if understory development and moose forage abundance differed between the two disturbance types and artificial or natural regeneration approaches. In addition, I used winter aerial surveys (2010-2013) and logistic regression to compare the characteristics of a conventional habitat model (forest overstory composition and age) to other habitat characteristics (and/or their surrogates). I also applied a novel approach for Structural Equation Modeling (SEM) to explore causal and indirect caribou habitat relationships at broad and fine scales. I found FRI was not capable of accurately predicting understory vegetation, specifically Cladonia lichen, in spite of the ability of field-based data using the same characteristics providing strong prediction. Further, I found understory composition varied significantly depending on post-harvest regeneration approach. Abundance of shrubs, as well as herbaceous plants (forage for apparent competitors for woodland caribou), was greater in naturally- regenerated post-harvest stands than similarly aged fire origin or post-harvest stands that used more intensive regeneration approaches. And lastly, I found that older, conifer forests alone, as depicted in FRI, did not provide good predictive capabilities of caribou use at broad scales. While conventional models based on forest overstory composition and age may be useful as a coarse filter in interpreting caribou habitat, more attention should be given to their limitations in landscapes changed by industrial development, particularly where road networks are likely to facilitate predator access and the identification of such habitat has legal implications. Doctoral or Postdoctoral Thesis Alces alces Canis lupus Rangifer tarandus Lakehead University Knowledge Commons Canada |