Add to ORKGDeveloping drainage water management (DWM) systems in the Midwest to reduce nitrogen (N) transport to the northern Gulf of Mexico hypoxic zone requires understanding of the long-term performance of these systems. Few studies have evaluated long-term impacts of DWM, and the simulation of controlled drainage (CD) with the Root Zone Water Quality Model (RZWQM) is limited, while shallow drainage (SD) has not been examined. We tested RZWQM using nine years (2007-2015) of field data from southeast Iowa for CD, SD, conventional drainage (DD), and undrained (ND) systems and simulated the long-term (1971-2015) impacts. RZWQM accurately simulated N loss in subsurface drainage, and the simulations agreed with field data that CD and SD substantially re...
Agricultural nitrogen losses are the major contributor to nitrogen loads in the Mississippi River, a...
Thoroughly tested simulation models are needed to help quantify the long-term effects of agriculture...
Subsurface agricultural drainage has allowed for enhanced agricultural production in many areas of t...
Accurate simulation of agricultural management effects on N loss in tile drainage is vitally importa...
Artificial subsurface drainage systems are often used throughout the upper Midwest to remove excess ...
Subsurface drainage, popularly known as tile drainage, is an essential water management practice in ...
Nitrate-nitrogen (NO3-N) transport from agricultural lands is a major source of surface water pollut...
Much of the U.S. Corn Belt is characterized by relative flat, poorly-drained areas which with extens...
Increased level of NO3-N in the drinking water supplies is a major health concern these days. The lo...
Nitrate from agricultural fields in the tile-drained upper Midwest is one of the primary causes of t...
Agricultural nitrogen losses are the major contributor to nitrogen loads in the Mississippi River, a...
In addition to raising local water quality concerns, nitrate loads from Midwest agriculture are susp...
Agricultural systems are the primary contributor of non-point source nitrogen (N) and phosphorus (P)...
Drainage water management, in the context of subsurface agricultural drainage, consists of managing ...
It is estimated that there are approximately 3.6 million ha of land with artificial subsurface drain...
Agricultural nitrogen losses are the major contributor to nitrogen loads in the Mississippi River, a...
Thoroughly tested simulation models are needed to help quantify the long-term effects of agriculture...
Subsurface agricultural drainage has allowed for enhanced agricultural production in many areas of t...
Accurate simulation of agricultural management effects on N loss in tile drainage is vitally importa...
Artificial subsurface drainage systems are often used throughout the upper Midwest to remove excess ...
Subsurface drainage, popularly known as tile drainage, is an essential water management practice in ...
Nitrate-nitrogen (NO3-N) transport from agricultural lands is a major source of surface water pollut...
Much of the U.S. Corn Belt is characterized by relative flat, poorly-drained areas which with extens...
Increased level of NO3-N in the drinking water supplies is a major health concern these days. The lo...
Nitrate from agricultural fields in the tile-drained upper Midwest is one of the primary causes of t...
Agricultural nitrogen losses are the major contributor to nitrogen loads in the Mississippi River, a...
In addition to raising local water quality concerns, nitrate loads from Midwest agriculture are susp...
Agricultural systems are the primary contributor of non-point source nitrogen (N) and phosphorus (P)...
Drainage water management, in the context of subsurface agricultural drainage, consists of managing ...
It is estimated that there are approximately 3.6 million ha of land with artificial subsurface drain...
Agricultural nitrogen losses are the major contributor to nitrogen loads in the Mississippi River, a...
Thoroughly tested simulation models are needed to help quantify the long-term effects of agriculture...
Subsurface agricultural drainage has allowed for enhanced agricultural production in many areas of t...