Water Stewardship Information Sources

Resource Name The impacts of forest harvest and wildfire on soils and hydrology in temperate forests: A baseline to develop hypotheses for the Boreal Plain
Unique File Number 318
Information Type Applied Research
Surface Water A
Aquatic Ecosystem
Groundwater
Groundwater & Surface Water
Management for Natural & Industrial Hazards A
Strengths Overview of boreal plain hydrology and soils as affected by forest harvesting and wildfire
Limitations dated (2003)
Challenges
Outstanding Research Questions
Outstanding Research Questions
Information Subtype boreal hydrology
Organization FORWARD Project
Resource Name Chanasyk, DS et al. 2003. The impacts of forest harvest and wildfire on soils and hydrology in temperate forests: A baseline to develop hypotheses for the Boreal Plain. Journal of Environmental Engineering and Science, 2003, 2(S1): S51-S62, 10.1139/s03-034
Resource Purpose This component of the Forest Riparian and Watershed Disturbance (FORWARD) project evaluates soils in burned, harvested, and undisturbed watersheds to quantify effects of disturbance on forest soils in the Boreal Plain. The current knowledge of disturbance effects on soils is reviewed, with a focus on temperate ecosystems, to generate the following hypotheses to be tested in field studies. Harvest and fire should affect surface horizons more than mineral horizons. Forest harvest should affect soils most through compaction, the degree being mediated by soil texture, soil moisture, and harvest operations. Nutrient export will likely increase from logged watersheds, with changes in microbial processes being more strongly associated with nitrogen (N) losses and erosional processes more strongly linked to phosphorus (P) losses. Effects of fire on Boreal Plain soils will increase with fire severity. Coarser soils after fire should be subject to hydrophobicity, erosion, and low infiltration rates. Chemical changes should include increased solubility of oxidized cations. N losses should exceed P losses and be due to volatilization and leaching of mineralized N compounds. Particulate P should comprise P loss; although P availability may increase after fire, soluble P movement from the forest environment will be limited by P uptake by soils. Key words: watershed disturbance, forest soils, forest fire, forest harvest, soil properties, nutrient cycling
Type of Information article
How does this help decision making?
Program Status complete
NE Coverage boreal Plains
Drinking Water
Ecosystem
Fish
Groundwater
Public Safety
SW Quality y
SW Quantity y
Link http://www.nrcresearchpress.com/doi/abs/10.1139/s03-034#.UyEbSD9dWSp
Text Query
Google Earth
iMap Path Link
Spatial Metadata
Map
Contact Email