基于SCS-CN模型的沟垄微型集雨系统径流预测

生态学杂志

基于SCS-CN模型的沟垄微型集雨系统径流预测

尹鑫卫¹,李晓玲^1**,康燕霞¹,王琦²,黄彩霞¹,高亚平^1

(¹甘肃农业大学工学院，兰州 730070； ²甘肃农业大学草业学院，兰州 730070)

出版日期:2015-12-10 发布日期:2015-12-10

Prediction of runoff in ridge-furrow rainwater harvesting system based on SCS-CN model.

YIN Xin-wei¹, LI Xiao-lin^1**, KANG Yan-xia¹, WANG Qi², HUANG Cai-xia¹, GAO Ya-ping^1

(¹College of Engineering, Gansu Agricultural University, Lanzhou 730070, China; ^2College of Grassland Science, Gansu Agricultural University, Lanzhou 730070, China)

Online:2015-12-10 Published:2015-12-10

摘要/Abstract

摘要： 地表径流是引起土壤侵蚀的主要动力，控制水土流失和提高降水资源利用效率是半干旱区农业可持续发展的关键因素。本研究利用沟垄微型集雨径流场实测径流资料，基于SCSCN模型，结合下垫面、降雨量等信息，分析模型参数（径流曲线数CN和初损系数λ）的敏感性，测定不同沟垄比和不同覆盖材料对模型参数的影响，提出适合沟垄微型集雨系统产流计算的参数值，并对其进行模拟验证及有效性分析。结果表明，初损系数λ是影响模型模拟的主要因子，试验沟垄比对模型参数率定的影响较小；该模型所模拟的径流量与实测径流量具有较好的一致性，土垄、普通塑料膜垄和生物可降解膜垄的有效性系数分别为0.864、0.988和0.947，说明模型在参数的确定上较为合理，可应用于沟垄微型集雨系统降雨径流的预测，为半干旱区控制水土流失和提高降水资源利用效率提供科学方法。

关键词: 土壤pH, 氮沉降, 碳、氮、磷, 温带草原

Abstract: Surface runoff is the main factor causing water loss and soil erosion. Controlling water loss and soil erosion and maximizing rainfall utilization are key factors for agricultural sustainable development in semiarid regions. In this paper, the sensitivity of SCSCN model parameters (runoff curve number (CN) and initial loss coefficient (λ)) was analyzed based on runoff data collected from microrunoff observation experiment, combined with underlying surface and rainfall data. Effects of different ridgefurrow ratios and different mulching materials on the model parameters were studied. Meanwhile, the model parameters were modified and verified with the data collected from the microridgefurrow rainwater harvesting system. The results indicated that λ was the main factor in the model, and the effect of ridgefurrow ratios on model parameters was not distinct. There was good consistency between the runoff simulated by the model and the actually measured value. The validity coefficients of common plastic film, biodegradable mulch film and compacted soil were 0.864, 0.988 and 0.947, respectively, showing that this model was relatively reasonable in determining the parameters and could accurately predict runoff in the microridgefurrow rainwater harvesting system, thus providing scientific methods for controlling water loss and soil erosion and maximizing rainfall utilization in semiarid regions.

Key words: temperate steppe, carbon, nitrogen and phosphorus., nitrogen deposition, soil pH

尹鑫卫1,李晓玲1**,康燕霞1,王琦2,黄彩霞1,高亚平1. 基于SCS-CN模型的沟垄微型集雨系统径流预测[J]. 生态学杂志.

YIN Xin-wei1, LI Xiao-lin1**, KANG Yan-xia1, WANG Qi2, HUANG Cai-xia1, GAO Ya-ping1. Prediction of runoff in ridge-furrow rainwater harvesting system based on SCS-CN model.[J]. cje.

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