Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions

Multi-scale resource selection modeling is used to identify factors that limit species distributions across scales of space and time. This multi-scale nature of habitat suitability complicates the translation of inferences to single, spatial depictions of habitat required for conservation of species...

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Main Authors: DeCesare, Nicholas J., Hebblewhite, Mark, Schmiegelow, Fiona, Hervieux, David, McDermid, Gregory J., Neufeld, Lalenia, Bradley, Mark, Whittington, Jesse, Smith, Kirby G., Morgantini, Luigi E., Wheatley, Matthew, Musiani, Marco
Format: Text
Language:unknown
Published: ScholarWorks at University of Montana 2012
Subjects:
Life Sciences
Rangifer tarandus
Online Access:https://scholarworks.umt.edu/wildbio_pubs/39
https://scholarworks.umt.edu/context/wildbio_pubs/article/1016/viewcontent/hebblewhite_transcending.pdf
id ftunivmontana:oai:scholarworks.umt.edu:wildbio_pubs-1016
record_format openpolar
spelling ftunivmontana:oai:scholarworks.umt.edu:wildbio_pubs-1016 2024-09-09T20:04:45+00:00 Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions DeCesare, Nicholas J. Hebblewhite, Mark Schmiegelow, Fiona Hervieux, David McDermid, Gregory J. Neufeld, Lalenia Bradley, Mark Whittington, Jesse Smith, Kirby G. Morgantini, Luigi E. Wheatley, Matthew Musiani, Marco 2012-06-01T07:00:00Z application/pdf https://scholarworks.umt.edu/wildbio_pubs/39 https://scholarworks.umt.edu/context/wildbio_pubs/article/1016/viewcontent/hebblewhite_transcending.pdf unknown ScholarWorks at University of Montana https://scholarworks.umt.edu/wildbio_pubs/39 https://scholarworks.umt.edu/context/wildbio_pubs/article/1016/viewcontent/hebblewhite_transcending.pdf Wildlife Biology Faculty Publications Life Sciences text 2012 ftunivmontana 2024-06-20T05:32:52Z Multi-scale resource selection modeling is used to identify factors that limit species distributions across scales of space and time. This multi-scale nature of habitat suitability complicates the translation of inferences to single, spatial depictions of habitat required for conservation of species. We estimated resource selection functions (RSFs) across three scales for a threatened ungulate, woodland caribou (Rangifer tarandus caribou), with two objectives: (1) to infer the relative effects of two forms of anthropogenic disturbance (forestry and linear features) on woodland caribou distributions at multiple scales and (2) to estimate scale-integrated resource selection functions (SRSFs) that synthesize results across scales for management-oriented habitat suitability mapping. We found a previously undocumented scale-specific switch in woodland caribou response to two forms of anthropogenic disturbance. Caribou avoided forestry cut-blocks at broad scales according to first-and second-order RSFs and avoided linear features at fine scales according to third-order RSFs, corroborating predictions developed according to predator-mediated effects of each disturbance type. Additionally, a single SRSF validated as well as each of three single-scale RSFs when estimating habitat suitability across three different spatial scales of prediction. We demonstrate that a single SRSF can be applied to predict relative habitat suitability at both local and landscape scales in support of critical habitat identification and species recovery. Text Rangifer tarandus University of Montana: ScholarWorks
institution Open Polar
collection University of Montana: ScholarWorks
op_collection_id ftunivmontana
language unknown
topic Life Sciences
spellingShingle Life Sciences
DeCesare, Nicholas J.
Hebblewhite, Mark
Schmiegelow, Fiona
Hervieux, David
McDermid, Gregory J.
Neufeld, Lalenia
Bradley, Mark
Whittington, Jesse
Smith, Kirby G.
Morgantini, Luigi E.
Wheatley, Matthew
Musiani, Marco
Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions
topic_facet Life Sciences
description Multi-scale resource selection modeling is used to identify factors that limit species distributions across scales of space and time. This multi-scale nature of habitat suitability complicates the translation of inferences to single, spatial depictions of habitat required for conservation of species. We estimated resource selection functions (RSFs) across three scales for a threatened ungulate, woodland caribou (Rangifer tarandus caribou), with two objectives: (1) to infer the relative effects of two forms of anthropogenic disturbance (forestry and linear features) on woodland caribou distributions at multiple scales and (2) to estimate scale-integrated resource selection functions (SRSFs) that synthesize results across scales for management-oriented habitat suitability mapping. We found a previously undocumented scale-specific switch in woodland caribou response to two forms of anthropogenic disturbance. Caribou avoided forestry cut-blocks at broad scales according to first-and second-order RSFs and avoided linear features at fine scales according to third-order RSFs, corroborating predictions developed according to predator-mediated effects of each disturbance type. Additionally, a single SRSF validated as well as each of three single-scale RSFs when estimating habitat suitability across three different spatial scales of prediction. We demonstrate that a single SRSF can be applied to predict relative habitat suitability at both local and landscape scales in support of critical habitat identification and species recovery.
format Text
author DeCesare, Nicholas J.
Hebblewhite, Mark
Schmiegelow, Fiona
Hervieux, David
McDermid, Gregory J.
Neufeld, Lalenia
Bradley, Mark
Whittington, Jesse
Smith, Kirby G.
Morgantini, Luigi E.
Wheatley, Matthew
Musiani, Marco
author_facet DeCesare, Nicholas J.
Hebblewhite, Mark
Schmiegelow, Fiona
Hervieux, David
McDermid, Gregory J.
Neufeld, Lalenia
Bradley, Mark
Whittington, Jesse
Smith, Kirby G.
Morgantini, Luigi E.
Wheatley, Matthew
Musiani, Marco
author_sort DeCesare, Nicholas J.
title Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions
title_short Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions
title_full Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions
title_fullStr Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions
title_full_unstemmed Transcending Scale Dependence in Identifying Habitat with Resource Selection Functions
title_sort transcending scale dependence in identifying habitat with resource selection functions
publisher ScholarWorks at University of Montana
publishDate 2012
url https://scholarworks.umt.edu/wildbio_pubs/39
https://scholarworks.umt.edu/context/wildbio_pubs/article/1016/viewcontent/hebblewhite_transcending.pdf
genre Rangifer tarandus
genre_facet Rangifer tarandus
op_source Wildlife Biology Faculty Publications
op_relation https://scholarworks.umt.edu/wildbio_pubs/39
https://scholarworks.umt.edu/context/wildbio_pubs/article/1016/viewcontent/hebblewhite_transcending.pdf
_version_ 1809937031310082048

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