Modeling nitrogen and water management effects in a wheat-maize double-cropping system.

@article{Fang2008ModelingNA,
  title={Modeling nitrogen and water management effects in a wheat-maize double-cropping system.},
  author={Quanxiao Fang and L. Ma and Qiang Yu and Robert W. Malone and S. A. Saseendran and Lajpat R. Ahuja},
  journal={Journal of environmental quality},
  year={2008},
  volume={37 6},
  pages={
          2232-42
        }
}
  • Q. Fang, L. Ma, +3 authors L. Ahuja
  • Published 1 November 2008
  • Environmental Science, Medicine
  • Journal of environmental quality
Excessive N and water use in agriculture causes environmental degradation and can potentially jeopardize the sustainability of the system. A field study was conducted from 2000 to 2002 to study the effects of four N treatments (0, 100, 200, and 300 kg N ha(-1) per crop) on a wheat (Triticum aestivum L.) and maize (Zea mays L.) double cropping system under 70 +/- 15% field capacity in the North China Plain (NCP). The root zone water quality model (RZWQM), with the crop estimation through… 
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Highly Influential Citations
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Background Citations
18
Methods Citations
15
Results Citations
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72 Citations

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Citation Type

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The North China Plain (NCP) is experiencing serious groundwater level decline and groundwater nitrate contamination due to excessive water pumping and application of nitrogen (N) fertilizer. In this
Irrigation strategies to improve the water use efficiency of wheat-maize double cropping systems in North China Plain
Model-based optimisation of nitrogen and water management for wheat–maize systems in the North China Plain
Excessive nitrogen fertiliser application and irrigation in the North China Plain leads to nitrate accumulation in sub-soil and water pollution. HERMES, a dynamic, process-oriented soil-crop model
Evaluating the Impact of Alternative Cropping Systems on Groundwater Consumption and Nitrate Leaching in the Piedmont Area of the North China Plain
The overexploitation of groundwater and the excessive application of nitrogen (N) fertilizer under the intensive double cropping system are responsible for the groundwater level decline and potential
Modeling Soil Water Content and Crop-Growth Metrics in a Wheat Field in the North China Plain Using RZWQM2
Soil water content (SWC) is an important factor restricting crop growth and yield in cropland ecosystems. The observation and simulation of soil moisture contribute greatly to improving water-use
Nitrogen and Rainfall Effects on Crop Growth—Experimental Results and Scenario Analyses
Nitrogen (N) fertilization is critical for crop growth; however, its effect on crop growth and evapotranspiration (ETc) behaviors under different amounts of rainfall is not well understood. As such,
Effects of irrigation and nitrogen fertilization management on crop yields and long-term dynamic characteristics of water and nitrogen transport at deep soil depths
Modeling Wheat and Maize Productivity as Affected by Climate Variation and Irrigation Supply in North China Plain
A modeling approach was used to analyze the response of crop productivity to irrigation in the North China Plain (NCP), where excessive use of water for irrigation has caused rapid decline in
Optimization of irrigation and nitrogen fertilizer management for spring maize in northwestern China using RZWQM2
Quantifying climate and management effects on regional crop yield and nitrogen leaching in the north china plain.
  • Q. Fang, L. Ma, +4 authors L. Ahuja
  • Environmental Science, Medicine
    Journal of environmental quality
  • 2013
TLDR
The calibrated Root Zone Water Quality Model (RZWQM2) was used to assess crop yield and N leaching under current and alternative management practices in a double-cropped wheat and maize system under long-term weather conditions (1970-2009) for dominant soil types at 15 locations in the North China Plain.
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References

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Simulation of water and nutrient processes can enhance intensive agriculture to help feed the world9s population in a sustainable manner. Due to excessive N application, environmental protection and
Irrigation strategies to improve the water use efficiency of wheat-maize double cropping systems in North China Plain
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