Simulation of evapotranspiration and drainage from mature and clear-cut deciduous forests and young pine plantation
Journal Article
·
· Water Resour. Res.; (United States)
- Dept. of Agricultural Forest Service, Franklin, NC
Prosper, a phenomenological model of water exchange between soil, plant, and atmosphere, was used to simulate evapotranspiration and annual drainage for 2 years from a mature oak-hickory forest in the southern Appalachians. The simulation was tested by comparing drainage to measured streamflow. In a year of unusually high precipitation the simulated annual drainage was within 1.5% of measured streamflow. Simulations were also performed by using the same 2 years of meteorologic data, but vegetation parameters were changed to represent a young white pine plantation and a regrowing hardwood forest 1 year after clear-cutting. The model estimated that drainage for an average rainfall year was reduced 20 cm by a 16-year-old white pine plantation and increased 36 cm by clear-cutting. These results were comparable to changes of -20 and +38 cm observed in watershed experiments at Coweeta Hydrologic Laboratory. Simulated evapotranspiration during the summer was nearly identical for hardwood and pine forests, while winter and early spring water loss was greater for pine. Simulation suggests that the greater evapotranspiration by pine was due to increased interception in all seasons and increased transpiration in the dormant season. For the clear-cut area, simulated evapotranspiration was considerably less than it was for the pine or hardwood forest and thus caused simulated soil moisture contents to be greater during the summer season.
- OSTI ID:
- 7220779
- Journal Information:
- Water Resour. Res.; (United States), Journal Name: Water Resour. Res.; (United States) Vol. 11:5; ISSN WRERA
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
510100* -- Environment
Terrestrial-- Basic Studies-- (-1989)
54 ENVIRONMENTAL SCIENCES
APPALACHIA
ATMOSPHERIC PRECIPITATIONS
BIOMASS
EARTH ATMOSPHERE
ENERGY SOURCES
EVAPORATION
FLUID FLOW
FORESTS
MATHEMATICAL MODELS
METEOROLOGY
NORTH AMERICA
OAKS
PHASE TRANSFORMATIONS
PLANTS
RENEWABLE ENERGY SOURCES
SEASONAL VARIATIONS
SIMULATION
SOILS
SURFACE WATERS
SYSTEMS ANALYSIS
TRANSPIRATION
TREES
USA
VARIATIONS
WATERSHEDS
Terrestrial-- Basic Studies-- (-1989)
54 ENVIRONMENTAL SCIENCES
APPALACHIA
ATMOSPHERIC PRECIPITATIONS
BIOMASS
EARTH ATMOSPHERE
ENERGY SOURCES
EVAPORATION
FLUID FLOW
FORESTS
MATHEMATICAL MODELS
METEOROLOGY
NORTH AMERICA
OAKS
PHASE TRANSFORMATIONS
PLANTS
RENEWABLE ENERGY SOURCES
SEASONAL VARIATIONS
SIMULATION
SOILS
SURFACE WATERS
SYSTEMS ANALYSIS
TRANSPIRATION
TREES
USA
VARIATIONS
WATERSHEDS