Title: | Extended SWAT model for dissolved reactive phosphorus transport in tile-drained fields and catchments |
Authors: | Lu, S., H.E. Andersen, H. Thodsen, G.H. Rubæk and D. Trolle |
Year: | 2016 |
Journal: | Agricultural Water Management |
Volume (Issue): | 175 |
Pages: | 78–90 |
Article ID: | |
DOI: | 10.1016/j.agwat.2015.12.008 |
URL (non-DOI journals): | |
Model: | SWAT (modified) & SWAT |
Broad Application Category: | hydrologic and pollutant |
Primary Application Category: | tile drainage effects and/or processes |
Secondary Application Category: | phosphorus cycling/loss and transport |
Watershed Description: | Two drained fields (4.5 ha and 4.28 ha) and 486 km^2 Odense River, all located on Funen Island in Denmark. |
Calibration Summary: | |
Validation Summary: | |
General Comments: | This is part of a SWAT Special Issue entitled "Agricultural water and nonpoint source pollution management at a watershed scale: PART I" that was published in Agricultural Water Management. The lead-off introductory article for that special issue is: Volk, M., D. Bosch, V. Nangia and B. Narasimhan. 2016. SWAT: Agricultural water and nonpoint source pollution management at a watershed scale. Agricultural Water Management. 175: 1-3. Doi: 10.1016/j.agwat.2016.06.013. |
Language: | English |
Keywords: | Tile drain; DRP; Soil TP accumulation; Lowland; SWAT; Leaching; Langmuir isotherma |