Comparison and Evaluation of Model Structures for the Simulation of Pollution Fluxes in a Tile-Drained River Basin

Hoang, Linh; Griensven, Ann van; Keur, Peter van der; Refsgaard, Jens Christian; Troldborg, Lars; Nilsson, Bertel; Mynett, Arthur E.

doi:10.2134/jeq2011.0398

Cited by 15 publications

(16 citation statements)

References 52 publications

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“…Other input data issues include uncertainties related to assumed half-life and other key pesticide properties , as well as a lack of accounting for septic tank effects (Aouissi et al, 2014). Hoang et al (2014) note that SWAT simulated overall accurate nitrate loads but that the model simulated twice as much nitrate transport via groundwater flow compared with tile drain flow, which is inconsistent with other studies in the region. They also state that inaccurate partitioning among flow components likely contributed to the weaker replication of daily nitrate fluxes.…”

Section: Input Data and Modeling Structure Limitationsmentioning

confidence: 84%

“…However, the results presented by Hoang et al (2014) indicate that SWAT apparently underpredicted subsurface tile drainage flows. Fohrer et al (2014) also comment on the need to decouple SWAT tile drainage pesticide transport from subsurface lateral transport.…”

Section: Subsurface Tile Drainagementioning

confidence: 89%

“…However, several studies explicitly state, or show via hydrograph comparisons, that daily and/or monthly peak flows were typically underestimated (Bieger et al, 2014;Boithias et al, 2014;Cerro et al, 2014;Fohrer et al, 2014;Hoang et al, 2014;Molina-Navarro et al, 2014;Pagliero et al, 2014;Santhi et al, 2014;Watson and Putz, 2014;Zabaleta et al, 2014). In contrast, some studies report overprediction of peak flows (Bieger et al, 2014;Hoang et al, 2014;Piniewski et al, 2014), weaknesses in seasonal representation of streamflows (Piniewski et al, 2014), or underprediction of low flow periods (Hoang et al, 2014). Hoang et al (2014) also note that SWAT accurately replicated measured daily hydrographs but overpredicted surface runoff and conversely underpredicted subsurface drainage flow.…”

Section: Hydrograph and Flow Path Representationmentioning

confidence: 99%

“…These authors provide further insights regarding input data uncertainty and/or structural limitations of SWAT for their respective analyses. Cerro et al (2014), Hoang et al (2014), White et al (2014b), and Fohrer et al (2014) report mostly strong daily and monthly nutrient or pesticide baseline NSE statistics for their respective studies, the majority of which ranged from 0.37 to 0.88. Hoang et al (2014) note a weaker daily nitrate NSE of 0.37 for reasons discussed below.…”

Section: Nutrient and Pesticide Transportmentioning

confidence: 99%

“…Cerro et al (2014), Hoang et al (2014), White et al (2014b), and Fohrer et al (2014) report mostly strong daily and monthly nutrient or pesticide baseline NSE statistics for their respective studies, the majority of which ranged from 0.37 to 0.88. Hoang et al (2014) note a weaker daily nitrate NSE of 0.37 for reasons discussed below. Fohrer et al (2014) report stronger daily statistics for the pesticide Metazachlor (NSE = 0.68; R 2 = 0.62) compared with the pesticide Flufenacet (NSE = 0.13; R 2 = 0.51), but graphical comparisons indicate that simulation of both pesticides replicated overall measured trends.…”

Section: Nutrient and Pesticide Transportmentioning

confidence: 99%

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Applications of the SWAT Model Special Section: Overview and Insights

2014

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The Soil and Water Assessment Tool (SWAT) model has emerged as one of the most widely used water quality watershed-and river basin-scale models worldwide, applied extensively for a broad range of hydrologic and/or environmental problems. The international use of SWAT can be attributed to its flexibility in addressing water resource problems, extensive networking via dozens of training workshops and the several international conferences that have been held during the past decade, comprehensive online documentation and supporting software, and an open source code that can be adapted by model users for specific application needs. The catalyst for this special collection of papers was the 2011 International SWAT Conference & Workshops held in Toledo, Spain, which featured over 160 scientific presentations representing SWAT applications in 37 countries. This special collection presents 22 specific SWAT-related studies, most of which were presented at the 2011 SWAT Conference; it represents SWAT applications on five different continents, with the majority of studies being conducted in Europe and North America. The papers cover a variety of topics, including hydrologic testing at a wide range of watershed scales, transport of pollutants in northern European lowland watersheds, data input and routing method effects on sediment transport, development and testing of potential new model algorithms, and description and testing of supporting software. In this introduction to the special section, we provide a synthesis of these studies within four main categories: (i) hydrologic foundations, (ii) sediment transport and routing analyses, (iii) nutrient and pesticide transport, and (iv) scenario analyses. We conclude with a brief summary of key SWAT research and development needs.Applications of the SWAT Model Special Section: Overview and Insights Philip W. Gassman,* Ali M. Sadeghi, and Raghavan Srinivasan H ydrological and water quality simulation models are being used increasingly to address an extensive array of water resource problems across the globe, including the effects of alternative best management practices (BMPs) and future climate change on streamflow and water quality. A plethora of such simulation models have been developed in recent decades to address various water quantity and water quality problems. These models are designed to operate across a range of scales (e.g., field versus watershed) and environmental conditions, and with varying levels of input data and model structure complexity. Dozens of review studies have been compiled that provide comparisons of either specific components or complete modeling packages for various subsets of existing water quality models (e.g., Borah et al., 2006;Breuer et al., 2008;Refsgaard et al., 2010;Daniel et al., 2011).The Soil and Water Assessment Tool (SWAT) model (Arnold et al., 1998;Williams et al., 2008) has emerged as one of the most widely used water quality watershed-and river basin-scale models worldwide, representing multiple decades of model development (Gassman...

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Section: Input Data and Modeling Structure Limitationsmentioning

confidence: 84%

Section: Subsurface Tile Drainagementioning

confidence: 89%

Section: Hydrograph and Flow Path Representationmentioning

confidence: 99%

Section: Nutrient and Pesticide Transportmentioning

confidence: 99%

Section: Nutrient and Pesticide Transportmentioning

confidence: 99%

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Applications of the SWAT Model Special Section: Overview and Insights

2014

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Hydrological mediated denitrification in groundwater below a seasonal flooded restored riparian zone

Jensen

Engesgaard

Johnsen

et al. 2017

Water Resources Research

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A restored riparian zone was characterized to understand the effects of flooding on subsurface hydrological flow paths and nitrate removal in groundwater. Field and laboratory investigations were combined with numerical modeling of dynamic flow and reactive nitrate transport. Flooding enhances nitrate removal in groundwater primarily by two mechanisms. First, by creating a stagnant flow zone beneath the flooded area thereby increasing the residence time and leaving more time for nitrate removal. Secondly, nitrate removal is increased by enhancing upward flow into the highly reactive organic‐rich top layers. Flooding therefore contributes to nitrate removal in “hot spots”, where nitrate is transported to the peat and during “hot moments”, when flow is stagnant. The permeability of the capping peat layer relative to the aquifer is important as it controls both mechanisms. The model shows that the deep‐seated nitrate removal is greater than projected from the laboratory nitrate reduction experiments.

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Evaluation of the predictive reliability of a new watershed health assessment method using the SWAT model

Jabbar

Grote

2020

Environ Monit Assess

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Comparison and Evaluation of Model Structures for the Simulation of Pollution Fluxes in a Tile-Drained River Basin

Cited by 15 publications

References 52 publications

Applications of the SWAT Model Special Section: Overview and Insights

Applications of the SWAT Model Special Section: Overview and Insights

Hydrological mediated denitrification in groundwater below a seasonal flooded restored riparian zone

Evaluation of the predictive reliability of a new watershed health assessment method using the SWAT model

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