Wetlands Knowledge Search Results
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There is a lack of scientific knowledge on the growing conditions of black ash, a species of cultural importance to Indigenous communities, and its resilience to global changes. The objective of this...
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Authors
Erik Emilson
Isabelle Aubin
The 2 Billion Trees (2BT) program offers a unique opportunity to reduce net greenhouse gas (GHG) emissions while simultaneously ensuring co-benefits to water quality and aquatic ecosystem health. The...
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Nitrogen and complete fertilizer applications improved growth of white spruce on overburden sites. Fertilization did not, however, have an effect on lodgepole pine growth on tailings sand sites
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Both aspen and spruce grew on sites with very high salinity and pH deeper in the soil profile (i.e., 40-100cm), so long as surface soils were not highly saline and had adequate moisture and nutrients.
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The deeper soil salvage depth (40 cm) was better than the shallow salvage depth (15 cm) at establishing a forest understory plant community characteristic of the boreal forest.
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Authors
Nelson Thiffault
Caludie-Maude Canuel
Michael Hoepting
James Farrell
This fact sheet provides an overview of a study on the management implications of pre-commercial thinning in balsam fir. While the effects of pre-commercial thinning on stand growth and quality are...
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This study tested the ability of rat root to grow in a high pH/high salinity environment, similar to that of a constructed oil sands tailings pond wetland.
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Tailings sand sites: fine root biomass decreased with depth and proximity to the textural interface. Overburden sites: fine root biomass decreased abruptly at the textural interface and EC increased
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Aspen sucker production from root fragments was 3X higher at salvage/placement depth of 40 cm compared to 15 cm. Successful suckering occurred in root fragments with little damage in upper 20 cm soil