The peatland hydrologic impact model: Development and testing
Questions concerning the effects of drainage, peat mining and timber harvesting on streamflow response in the northern Lake States of the U.S.A. led to the development of the Peatland Hydrologic Impact Model (PHIM). PHIM is a generalized, deterministic, continuous simulation model, that is physicall...
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| Published in | Hydrology Research Vol. 18; no. 2; pp. 79 - 100 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Lyngby
Nordic Association for Hydrology
01.01.1987
IWA Publishing |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Questions concerning the effects of drainage, peat mining and timber harvesting on streamflow response in the northern Lake States of the U.S.A. led to the development of the Peatland Hydrologic Impact Model (PHIM). PHIM is a generalized, deterministic, continuous simulation model, that is physically-based to the extent possible. Three independent landtype submodels represent watershed conditions common in the region. The appropriate land-type submodel(s), either natural peatland (NWATBAL), mined peatland (MWATBAL), or mineral soil upland (UWATBAL) are configured by the model user to represent the watershed. The submodels were applied to test the model on the streamflow response from three different peatland watersheds. Stormflow events were simulated for a 3,758 ha natural peatland and a 155 ha mined peatland. Annual water yield simulations for a 9.72 ha upland-peatland watershed produced a mean ratio of predicted/observed streamflow of 1.01 ± 0.08 for six test years. The model is generalized so that it should be adaptable to similar physiographic regions with minor modifications. |
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| AbstractList | Development of the Peatland Hydrologic Impact Model (PHIM), a generalized, deterministic continuous simulation model, designed to study the effects of drainage, peat mining and timber harvesting on streamflow response in the northern Lake States of the U.S.A., is described. The model could simulate three common land-types of the region, natural peatland, mined peatland, and mineral upland soil. The streamflow responses of three different peatland catchments were used to test the model. Storm events were simulated for a natural peatland and a mined peatland. A ratio of predicted to observed streamflow of 1.01 plus or minus 0.08 was obtained for an upland peatland catchment over six test years. The PHIM model was designed to be adaptable to similar physiographic regions. Questions concerning the effects of drainage, peat mining and timber harvesting on streamflow response in the northern Lake States of the U.S.A. led to the development of the Peatland Hydrologic Impact Model (PHIM). PHIM is a generalized, deterministic, continuous simulation model, that is physically-based to the extent possible. Three independent landtype submodels represent watershed conditions common in the region. The appropriate land-type submodel(s), either natural peatland (NWATBAL), mined peatland (MWATBAL), or mineral soil upland (UWATBAL) are configured by the model user to represent the watershed. The submodels were applied to test the model on the streamflow response from three different peatland watersheds. Stormflow events were simulated for a 3,758 ha natural peatland and a 155 ha mined peatland. Annual water yield simulations for a 9.72 ha upland-peatland watershed produced a mean ratio of predicted/observed streamflow of 1.01 ± 0.08 for six test years. The model is generalized so that it should be adaptable to similar physiographic regions with minor modifications. Questions concerning the effects of drainage, peat mining and timber harvesting on streamflow response in the northern Lake States of the U.S.A. led to the development of the Peatland Hydrologic Impact Model (PHIM). PHIM is a generalized, deterministic, continuous simulation model, that is physically-based to the extent possible. Three independent landtype submodels represent watershed conditions common in the region. The appropriate land-type submodel(s), either natural peatland (NWATBAL), mined peatland (MWATBAL), or mineral soil upland (UWATBAL) are configured by the model user to represent the watershed. The submodels were applied to test the model on the streamflow response from three different peatland watersheds. Questions concerning the effects of drainage, peat mining, and timber harvesting on streamflow response in the northern Lake States of the U.S. led to the development of the peatland hydrologic impact model (PHIM). PHIM is a generalized, deterministic, continuous simulation model that is physically based to the extent possible. Three independent land-type submodels represent watershed conditions common in the region. The appropriate land-type submodel(s), either natural peatland (NWATBAL), mined peatland (MWATBAL), or mineral soil upland (UWATBAL) are configured by the model user to represent the watershed. The submodels were applied to test the model on the streamflow response from three different peatland watersheds. Stormflow events were simulated for a 3758-ha natural peatland and a 155-ha-mined peatland. Annual water yield simulations for a 9.72-ha upland peatland watershed produced a mean ratio of predicted-observed streamflow of 1.01 plus or minus 0.08 for six test years. The model is generalized so that it should be adaptable to similar physiographic regions with minor modifications. |
| Author | Guertin, D.P. (Arizona Univ., Tucson (USA). School of Renewable Natural Resources) Barten, P.K Brooks, K.N |
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| Snippet | Questions concerning the effects of drainage, peat mining and timber harvesting on streamflow response in the northern Lake States of the U.S.A. led to the... Development of the Peatland Hydrologic Impact Model (PHIM), a generalized, deterministic continuous simulation model, designed to study the effects of... Questions concerning the effects of drainage, peat mining, and timber harvesting on streamflow response in the northern Lake States of the U.S. led to the... |
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| SubjectTerms | Computer simulation Drainage effects Earth sciences Earth, ocean, space ESTADOS UNIDOS DE AMERICA ETATS-UNIS Exact sciences and technology Freshwater GENESIS DEL SUELO Harvesting HIDROLOGIA Hydrologic models HYDROLOGIE HYDROLOGY Hydrology. Hydrogeology Lakes MODELE MODELOS Peat PEAT SOILS PEATLAND Peatlands PEDOGENESE Soil SOIL GENESIS SOL TOURBEUX Storms Stream discharge Stream flow SUELO TURBOSO TOURBIERE TURBERA USA Water yield Watersheds |
| Title | The peatland hydrologic impact model: Development and testing |
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