Distributed hydrological modelling of total dissolved phosphorus transport in an agricultural landscape, part I: distributed runoff generation

Gerard-Marchanti P; Hively WD; Steenhuis TS

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Distributed hydrological modelling of total dissolved phosphorus transport in an agricultural landscape, part I: distributed runoff generation

机译：农业景观中总溶解磷迁移的分布式水文模拟，第一部分：分布式径流的产生

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Successful implementation of best management practices for reducing non-point source (NPS) pollution requires knowledge of the location of saturated areas that produce runoff. A physically-based, fully-distributed, GIS-integrated model, the Soil Moisture Distribution and Routing (SMDR) model was developed to simulate the hydrologic behavior of small rural upland watersheds with shallow soils and steep to moderate slopes. The model assumes that gravity is the only driving force of water and that most overland flow occurs as saturation excess. The model uses available soil and climatic data, and requires little calibration.

机译：成功实施最佳管理实践以减少非点源（NPS）污染，需要了解产生径流的饱和区域的位置。建立了基于物理的，完全分布式，GIS集成的模型，即土壤水分分布和路由模型（SMDR），以模拟土壤浅，坡度中等至中等的农村小型山地小流域的水文行为。该模型假设重力是水的唯一驱动力，并且大多数陆上水流都是由于饱和度过高而发生的。该模型使用可用的土壤和气候数据，几乎不需要校准。

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《Hydrology and Earth System Sciences》 |2006年第2期|共17页
作者
Gerard-Marchanti P; Hively WD; Steenhuis TS;
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正文语种 eng
中图分类水文科学（水界物理学）;
关键词
WATERSHED LOADING FUNCTIONS; EUROPEEN; SYSTEM; INPUT; AREAS; SHE; SMR;

机译：流水加载功能;欧洲;系统;输入;区域;SHE;SMR;

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1. Distributed hydrological modelling of total dissolved phosphorus transport in an agricultural landscape, part I: distributed runoff generation [J] . Gerard-Marchanti P, Hively WD, Steenhuis TS Hydrology and Earth System Sciences . 2006,第2期

机译：农业景观中总溶解磷迁移的分布式水文模拟，第一部分：分布式径流的产生
2. Distributed hydrological modeling of total dissolved phosphorus transport in an agricultural landscape, part II: dissolved phosphorus transport [J] . Hively WD, Gerard-Marchant P, Steenhuis TS Hydrology and Earth System Sciences . 2006,第2期

机译：农业景观中总溶解磷迁移的分布式水文模型，第二部分：溶解磷迁移
3. Distributed hydrological modeling of total dissolved phosphorus transport in an agricultural landscape, part II: dissolved phosphorus transport [J] . W. D.Hively, P.Gérard-Marchant, T. S.Steenhuis Hydrology and Earth System Sciences . 2006,第2期

机译：农业景观中总溶解磷迁移的分布式水文模型，第二部分：溶解磷迁移
4. Runoff simulation using distributed hydrological modeling approach, remote sensing and GIS techniques: A case study from an Indian agricultural watershed. [C] . V. M. Chowdary, V. R. Desai, Mukesh Gupta, Imaging a Sustainable Future . 2012

机译：采用分布式水文建模方法，遥感和GIS技术的径流仿真：印度农业流域的案例研究。
5. Hydrological modeling for the regional stormwater management plan: An application and intercomparison of event based runoff generation in an urban catchment using empirical, lumped vs. physical, distributed parameter modeling. [D] . Goodrow, Sandra M. 2009

机译：区域雨水管理计划的水文建模：基于经验的集总与物理分布参数建模在城市集水区基于事件的径流生成的应用和相互比较。
6. Simulating the hydrologic cycle in coal mining subsidence areas with a distributed hydrologic model [O] . Jianhua Wang, Chuiyu Lu, Qingyan Sun, -1

机译：用分布式水文模型模拟采煤塌陷区的水文循环
7. Distributed hydrological modelling of total dissolved phosphorus transport in an agricultural landscape, part I: distributed runoff generation [O] . Gérard-Marchant P., Hively W. D., Steenhuis T. S. 2006

机译：农业景观中总溶解磷运移的分布式水文模拟，第一部分：分布式径流的产生

Distributed hydrological modelling of total dissolved phosphorus transport in an agricultural landscape, part I: distributed runoff generation

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