Impacts of intensive harvesting on hydrology and nutrient dynamics of northern hardwood forests

Whole-tree clear-cutting and progressive strip-cutting of northern hardwood forests at the Hubbard Brook Experimental Forest in central New Hampshire resulted in measurable changes in physical and chemical conditions of forest streams. As a result of reduced transpiration and interception, water yie...

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Bibliographic Details
Published in:Canadian journal of fisheries and aquatic sciences 2000-01, Vol.57 (S2), p.19-29
Main Authors: Martin, C Wayne, Hornbeck, James W, Likens, Gene E, Buso, Donald C
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Clearcutting
Creeks & streams
Environmental aspects
Forestry
Forests
Fresh water ecosystems
Fundamental and applied biological sciences. Psychology
General forest ecology
Generalities. Production, biomass. Quality of wood and forest products. General forest ecology
Growing season
Hydrology
Interception
Logging
Marine ecosystems
Nutrient dynamics
Streams
Synecology
Transpiration
USA, New Hampshire
Water yield
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Summary:Whole-tree clear-cutting and progressive strip-cutting of northern hardwood forests at the Hubbard Brook Experimental Forest in central New Hampshire resulted in measurable changes in physical and chemical conditions of forest streams. As a result of reduced transpiration and interception, water yield for the first year after whole-tree harvesting increased by >150 mm, the majority of which occurred during the growing season. Peak flows increased only moderately. Water yield and peak flow increases disappeared within 4-6 years as a result of rapidly regrowing vegetation. Sediment yields increased during and after harvesting but can be maintained within normal ranges of reference streams by careful use of best management practices. Stream chemistry changes occurred immediately following harvesting, most notably in the form of increases in concentrations of Ca 2+ , K + , NO 3 - , and H + . The concentrations return close to preharvest levels within 3-5 years. The above changes are discussed in terms of their causes and implications for aquatic habitat and fisheries.
ISSN:0706-652X
1205-7533
DOI:10.1139/f00-106