Wetlands Knowledge Search Results
Resource
Authors
Kristin Denryter
Rachel Cook
John Cook
Katherine Parker
Resource Date:
January
2022
We quantified rates of intake of digestible protein and digestible energy by tame caribou foraging in temporary enclosures in the predominant plant communities of northeastern British Columbia, Canada, during summer–autumn and compared intake rates to daily requirements for protein and energy during lactation. Our results,coupled with recent measurements of body fat of wild caribou innortheastern British Columbia, refute the hypothesis that thenutritional environment available to caribou during summer innortheastern British Columbia is adequate to fully support nutri-tional demands of lactating caribou, which has implications toproductivity of caribou populations, recovery, and conservation.
Resource
Authors
Jean Polfus
Micheline Manseau
Deborah Simmons
Michael Neyelle
Walter Bayha
Frederick Andrew
Leon Andrew
Cornelya Klütsch
Keren Rice
Paul Wilson
Using multiple knowledge sources to interpret patterns of biodiversity can generate the comprehensive species characterizations that are required for effective conservation strategies. Caribou...
Resource
Authors
Rachel Hovel
Jeremy Brammer
Emma Hodgson
Amy Amos
Trevor Lantz
Chanda Turner
Tracey Proverbs
Sarah Lord
Rapid environmental change in the Arctic elicits numerous concerns for ecosystems, natural resources, and ways of life. Robust monitoring is essential to adaptation and management in light of these...
Resource
Authors
Guillermo Castilla
Ronald Hall
Rob Skakun
Michelle Filiatrault
André Beaudoin
Michael Gartrell
Lisa Smith
Kathleen Groenewegen
Chris Hopkinson
Jurjen van der Sluijs
Resource Date:
February
2022
Wall-to-wall 30 m raster maps of broad forest type, stand height, crown closure, stand volume, total volume, aboveground biomass, and stand age were created for a ~400,000 km2 area, validated with independent data, and generalized into a polygon GIS layer resembling a traditional FI map. The MVI project showed that a reasonably accurate FI map for large, remote, predominantly non-inventoried boreal regions can be obtained at a low cost by combining limited field data with remote sensing data from multiple sources.