Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta

Abstract Snow dynamics influence seasonal behaviors of wildlife, such as denning patterns and habitat selection related to the availability of food resources. Under a changing climate, characteristics of the temporal and spatial patterns of snow are predicted to change, and as a result, there is a n...

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Main Authors:	Berman, Ethan E., Coops, Nicholas C., Kearney, Sean P., Stenhouse, Gordon B.
Language:	unknown
Published:	Borealis
Subjects:	Other Canada Ursus arctos
Online Access:	https://doi.org/10.5683/SP2/ZP3FB0

id	ftborealisdata:doi:10.5683/SP2/ZP3FB0
record_format	openpolar
spelling	ftborealisdata:doi:10.5683/SP2/ZP3FB0 2023-05-15T18:42:17+02:00 Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta Berman, Ethan E. Coops, Nicholas C. Kearney, Sean P. Stenhouse, Gordon B. https://doi.org/10.5683/SP2/ZP3FB0 unknown Borealis https://doi.org/10.5683/SP2/ZP3FB0 Other ftborealisdata https://doi.org/10.5683/SP2/ZP3FB0 2022-10-10T05:34:36Z Abstract Snow dynamics influence seasonal behaviors of wildlife, such as denning patterns and habitat selection related to the availability of food resources. Under a changing climate, characteristics of the temporal and spatial patterns of snow are predicted to change, and as a result, there is a need to better understand how species interact with snow dynamics. This study examines grizzly bear (Ursus arctos) spring habitat selection and use across western Alberta, Canada. Made possible by newly available fine-scale snow cover data, this research tests a hypothesis that grizzly bears select for locations with less snow cover and areas where snow melts sooner during spring (den emergence to May 31st). Using Integrated Step Selection Analysis, a series of models were built to examine whether snow cover information such as fractional snow covered area and date of snow melt improved models constructed based on previous knowledge of grizzly bear selection during the spring. Comparing four different models fit to 62 individual bear-years, we found that the inclusion of fractional snow covered area improved model fit 60% of the time based on Akaike Information Criterion tallies. Probability of use was then used to evaluate grizzly bear habitat use in response to snow and environmental attributes, including fractional snow covered area, date since snow melt, elevation, and distance to road. Results indicate grizzly bears select for lower elevation, snow-free locations during spring, which has important implications for management of threatened grizzly bear populations in consideration of changing climatic conditions. This study is an example of how fine spatial and temporal scale remote sensing data can be used to improve our understanding of wildlife habitat selection and use in relation to key environmental attributes. Usage notes R code and data The zipped file contains an RMD file and corresponding data used in this analysis. r_data_berman_et_al_2019.zip Other/Unknown Material Ursus arctos Borealis Canada
institution	Open Polar
collection	Borealis
op_collection_id	ftborealisdata
language	unknown
topic	Other
spellingShingle	Other Berman, Ethan E. Coops, Nicholas C. Kearney, Sean P. Stenhouse, Gordon B. Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta
topic_facet	Other
description	Abstract Snow dynamics influence seasonal behaviors of wildlife, such as denning patterns and habitat selection related to the availability of food resources. Under a changing climate, characteristics of the temporal and spatial patterns of snow are predicted to change, and as a result, there is a need to better understand how species interact with snow dynamics. This study examines grizzly bear (Ursus arctos) spring habitat selection and use across western Alberta, Canada. Made possible by newly available fine-scale snow cover data, this research tests a hypothesis that grizzly bears select for locations with less snow cover and areas where snow melts sooner during spring (den emergence to May 31st). Using Integrated Step Selection Analysis, a series of models were built to examine whether snow cover information such as fractional snow covered area and date of snow melt improved models constructed based on previous knowledge of grizzly bear selection during the spring. Comparing four different models fit to 62 individual bear-years, we found that the inclusion of fractional snow covered area improved model fit 60% of the time based on Akaike Information Criterion tallies. Probability of use was then used to evaluate grizzly bear habitat use in response to snow and environmental attributes, including fractional snow covered area, date since snow melt, elevation, and distance to road. Results indicate grizzly bears select for lower elevation, snow-free locations during spring, which has important implications for management of threatened grizzly bear populations in consideration of changing climatic conditions. This study is an example of how fine spatial and temporal scale remote sensing data can be used to improve our understanding of wildlife habitat selection and use in relation to key environmental attributes. Usage notes R code and data The zipped file contains an RMD file and corresponding data used in this analysis. r_data_berman_et_al_2019.zip
author	Berman, Ethan E. Coops, Nicholas C. Kearney, Sean P. Stenhouse, Gordon B.
author_facet	Berman, Ethan E. Coops, Nicholas C. Kearney, Sean P. Stenhouse, Gordon B.
author_sort	Berman, Ethan E.
title	Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta
title_short	Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta
title_full	Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta
title_fullStr	Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta
title_full_unstemmed	Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta
title_sort	data from: grizzly bear response to fine spatial and temporal scale spring snow cover in western alberta
publisher	Borealis
url	https://doi.org/10.5683/SP2/ZP3FB0
geographic	Canada
geographic_facet	Canada
genre	Ursus arctos
genre_facet	Ursus arctos
op_relation	https://doi.org/10.5683/SP2/ZP3FB0
op_doi	https://doi.org/10.5683/SP2/ZP3FB0
_version_	1766231924562460672

Data from: Grizzly bear response to fine spatial and temporal scale spring snow cover in Western Alberta

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