Assessment of Riparian Buffer Impacts within the Little River Watershed in Georgia USA with the SWAT Model

2010 ◽  
Author(s):  
D D Bosch ◽  
J Cho ◽  
R R Lowrance ◽  
G Vellidis ◽  
T C Strickland
Keyword(s):  
Swat Model ◽  
Riparian Buffer ◽  
River Watershed

scholarly journals Modeling the Impacts of Climate Change on Crop Yield and Irrigation in the Monocacy River Watershed, USA

Climate ◽  
2020 ◽  
Vol 8 (12) ◽  
pp. 139
Author(s):  
Manashi Paul ◽  
Sijal Dangol ◽  
Vitaly Kholodovsky ◽  
Amy R. Sapkota ◽  
Masoud Negahban-Azar ◽  
...  
Keyword(s):  
Climate Change ◽  
Crop Yield ◽  
Crop Yields ◽  
Swat Model ◽  
Global Climate Models ◽  
Climate Projections ◽  
Climate Change Scenarios ◽  
River Watershed ◽  
Temperature And Precipitation ◽  
The Impact

Crop yield depends on multiple factors, including climate conditions, soil characteristics, and available water. The objective of this study was to evaluate the impact of projected temperature and precipitation changes on crop yields in the Monocacy River Watershed in the Mid-Atlantic United States based on climate change scenarios. The Soil and Water Assessment Tool (SWAT) was applied to simulate watershed hydrology and crop yield. To evaluate the effect of future climate projections, four global climate models (GCMs) and three representative concentration pathways (RCP 4.5, 6, and 8.5) were used in the SWAT model. According to all GCMs and RCPs, a warmer climate with a wetter Autumn and Spring and a drier late Summer season is anticipated by mid and late century in this region. To evaluate future management strategies, water budget and crop yields were assessed for two scenarios: current rainfed and adaptive irrigated conditions. Irrigation would improve corn yields during mid-century across all scenarios. However, prolonged irrigation would have a negative impact due to nutrients runoff on both corn and soybean yields compared to rainfed condition. Decision tree analysis indicated that corn and soybean yields are most influenced by soil moisture, temperature, and precipitation as well as the water management practice used (i.e., rainfed or irrigated). The computed values from the SWAT modeling can be used as guidelines for water resource managers in this watershed to plan for projected water shortages and manage crop yields based on projected climate change conditions.

Pathogen transport and fate modeling in the Upper Salem River Watershed using SWAT model

2015 ◽  
Vol 151 ◽  
pp. 167-177 ◽  
Author(s):  
Mehran Niazi ◽  
Christopher Obropta ◽  
Robert Miskewitz
Keyword(s):  
Swat Model ◽  
River Watershed ◽  
Pathogen Transport

Land use and climate change effects on runoff in the upper Urumqi River watershed: a SWAT model based analysis

2018 ◽  
Vol 38 (14) ◽  
Author(s):  
祖拜代·木依布拉 ZUBAIDA·Muyibul ◽  
师庆东 SHI Qingdong ◽  
普拉提·莫合塔尔 POLAT·Muhtar ◽  
张润 ZHANG Run
Keyword(s):  
Climate Change ◽  
Land Use ◽  
Swat Model ◽  
River Watershed ◽  
Climate Change Effects ◽  
Model Based ◽  
Model Based Analysis

Estimating Annualized Riparian Buffer Costs for the Harpeth River Watershed

2009 ◽  
Vol 31 (4) ◽  
pp. 894-913 ◽  
Author(s):  
David C. Roberts ◽  
Christopher D. Clark ◽  
Burton C. English ◽  
William M. Park ◽  
Roland K. Roberts
Keyword(s):  
Riparian Buffer ◽  
River Watershed

scholarly journals Intercomparison of a Lumped Model and a Distributed Model for Streamflow Simulation in the Naoli River Watershed, Northeast China

Water ◽  
2018 ◽  
Vol 10 (8) ◽  
pp. 1004 ◽  
Author(s):  
Guihua Liu ◽  
Zhiming He ◽  
Zhaoqing Luan ◽  
Shuhua Qi
Keyword(s):  
Northeast China ◽  
Assessment Tool ◽  
Swat Model ◽  
Resource Planning ◽  
Coefficient Of Determination ◽  
Distributed Model ◽  
The Sanjiang Plain ◽  
River Watershed ◽  
Streamflow Variability ◽  
Streamflow Simulation

Water supply availability has significant impacts on the biggest base for commodity grain production: The Sanjiang Plain in northeast China. The SWAT (soil and water assessment tool) model and IHACRES (identification of unit hydrographs and component flows from rainfall, evapotranspiration and streamflow data) model were used for modelling streamflow variability in the upper Naoli River watershed to determine the applicability of hydrological models to the marsh rivers. Both the SWAT and IHACRES models were suitable for streamflow simulation, having R2 (coefficient of determination) and NS (Nash–Sutcliffe) values greater than 0.7, and PBIAS (percent bias) smaller than 25%. The IHACRES model was easy to use, with less data-preparation, and was found to be a better choice for runoff simulation in a watershed less affected by human activity. The simulation result was better in primeval times, i.e., 1956–1966, than the period 1967–2005, when its performance was found to be unfavorable. In contrast, the complex, processes-based SWAT model was found to be more appropriate for simultaneously simulating streamflow variability. In addition, the effects of land use change and human activities in the watershed—where agricultural activities are intensive—were evaluated. The study found that the SWAT model was potentially suitable for water resource planning and management.

Integrated Land and Water Scenarios of the Raisin River Watershed Using the SWAT Model

2009 ◽  
Vol 44 (4) ◽  
pp. 379-391 ◽  
Author(s):  
Isaac W. Wong ◽  
William G. Booty ◽  
Glenn Benoy ◽  
Cathy Nielsen ◽  
Phil Fong ◽  
...  
Keyword(s):  
Land Cover ◽  
Biodiversity Conservation ◽  
Agricultural Intensification ◽  
Assessment Tool ◽  
Swat Model ◽  
Performance Standards ◽  
Nutrient Concentrations ◽  
River Watershed ◽  
Water Quality And Quantity ◽  
Raisin River

Abstract This paper investigates the linkage between Canada's National Agri-Environmental Standards Initiative (NAESI) Biodiversity and Water themes by studying how patterns in terrestrial habitat, generated through land cover scenario modelling, influence water quality and quantity in the Raisin River watershed in southeastern Ontario. NAESI developed nonregulatory performance standards that define ideal and achievable levels of environmental quality. The indicators used to investigate the scenario risks included sediment and nutrient concentrations. The SWAT (Soil and Water Assessment Tool)-2005 model was calibrated and validated from 1985 to 2006 for current land cover and five other scenarios: potential natural vegetation (PNV); high biodiversity conservation (HBC); moderate biodiversity conservation; agricultural intensification with limited application of conservation direction; and agricultural intensification with no consideration of conservation direction (ANC). Scenario comparisons are provided for the average annual flow, and concentrations of total suspended sediment (TSS), total nitrogen, and total phosphorus for five watershed locations. The PNV scenario predicted the lowest total flows, and sediment and nutrient concentrations, and the ANC scenario predicted the highest sediment and nutrient concentrations. The SWAT median values for the HBC, "Current," and ANC scenarios at the outlet all exceeded the Ideal Performance Standards, except for the median TSS concentration of the HBC scenario.

scholarly journals Hydrologic Responses to Land Use Change in the Loess Plateau: Case Study in the Upper Fenhe River Watershed

2015 ◽  
Vol 2015 ◽  
pp. 1-10 ◽  
Author(s):  
Zhixiang Lu ◽  
Songbing Zou ◽  
Zuodong Qin ◽  
Yonggang Yang ◽  
Honglang Xiao ◽  
...  
Keyword(s):  
Remote Sensing ◽  
Land Use ◽  
Loess Plateau ◽  
Hydrological Modeling ◽  
Swat Model ◽  
Water Yield ◽  
The Loess Plateau ◽  
River Watershed ◽  
Lulc Changes ◽  
Basin Scale

We applied an integrated approach to investigate the impacts of land use and land cover (LULC) changes on hydrology at different scales in the Loess Plateau of China. Hydrological modeling was conducted for the LULC maps from remote sensing images at two times in the Upper Fenhe River watershed using the SWAT model. The main LULC changes in this watershed from 1995 to 2010 were the transformation of farmland into forests, grassland, and built-up land. The simulation results showed that forested land contributed more than any other LULC class to water yield, but built-up land had most impact due to small initial loss and infiltration. At basin scale, a comparison of the simulated hydrological components of two LULC maps showed that there were slight increases in average annual potential evapotranspiration, actual evapotranspiration, and water yield, but soil water decreased, between the two intervals. In subbasins, obvious LULC changes did not have clear impacts on hydrology, and the impacts may be affected by precipitation conditions. By linking a hydrological model to remote sensing image analysis, our approach of quantifying the impacts of LULC changes on hydrology at different scales provide quantitative information for stakeholders in making decisions for land and water resource management.

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