DRAINMOD-P: A Model for Simulating Phosphorus Dynamics and Transport in Drained Agricultural Lands: II. Model Testing

IF 1.4 4区 农林科学 Q3 AGRICULTURAL ENGINEERING
Manal H. Askar, M. Youssef, D. Hesterberg, K. King, A. Amoozegar, R. Skaggs, G. Chescheir, E. Ghane
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引用次数: 1

Abstract

HighlightsDRAINMOD-P was tested using a dataset from a drained field with desiccation cracks.Surface and subsurface phosphorus losses were mainly in the particulate form.Surface runoff was a major pathway for phosphorus loss in this field.The model performance in predicting edge-of-field phosphorus loss is promising.Abstract. The recently developed phosphorus (P) model DRAINMOD-P was tested using a four-year dataset from a subsurface-drained field in northwest Ohio with significant potential for desiccation cracking or preferential flow. The model satisfactorily predicted subsurface drainage discharge, with a monthly Nash-Sutcliffe efficiency (NSE) of 0.59 and index of agreement (IOA) of 0.89. Lack of annual water budget closure was reported and was likely caused by uncertainty in measured surface runoff and/or modeling approaches representing macropore flow. More than 80% of predicted surface and subsurface P losses were in the particulate form. Surface runoff was the major pathway for P loss, contributing 78% of predicted total P (TP) load. On average, predicted macropore flow represented about 15% of drainage discharge and contributed 21% of DRP loss via subsurface drains. The performance of DRAINMOD-P in predicting monthly dissolved reactive P and TP losses through subsurface drains can be rated as poor (NSE = 0.33 and IOA = 0.60) and very good (NSE = 0.81 and IOA = 0.95), respectively. DRAINMOD-P demonstrated potential for simulating P fate and transport in drained cropland. More testing is needed to further examine newly incorporated hydrological and biogeochemical components of the model. Keywords: Agricultural drainage, Edge-of-field phosphorus load, Macropore flow, Phosphorus model, Sediment yield, Water quality modeling.
排水农用地磷动态与迁移模拟模型[j]。模型试验
HighlightsDRAINMOD-P测试使用的数据集来自一个有干燥裂缝的排水油田。地表和地下磷主要以颗粒形式损失。地表径流是土壤磷流失的主要途径。该模型在预测田边磷损失方面具有良好的应用前景。最近开发的磷(P)模型DRAINMOD-P使用俄亥俄州西北部一个地下排水油田的四年数据集进行了测试,该数据集具有显著的干燥开裂或优先流动潜力。该模型能较好地预测地下排水流量,月NSE为0.59,月一致性指数(IOA)为0.89。据报道,缺乏年度水收支关闭,可能是由于测量的地表径流和/或代表大孔流的建模方法的不确定性造成的。超过80%的预测表面和地下磷损失以颗粒形式存在。地表径流是磷流失的主要途径,占预测总磷(TP)负荷的78%。平均而言,预测的大孔流约占排水流量的15%,并通过地下排水贡献了21%的DRP损失。在预测每月通过地下排水的溶解活性磷和总磷损失量方面,DRAINMOD-P的表现分别为差(NSE = 0.33, IOA = 0.60)和很好(NSE = 0.81, IOA = 0.95)。显示了在排水农田中模拟磷的命运和运输的潜力。需要更多的测试来进一步检查模型中新纳入的水文和生物地球化学成分。关键词:农业排水,田边磷负荷,大孔流,磷模型,产沙量,水质模型
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来源期刊
Transactions of the ASABE
Transactions of the ASABE AGRICULTURAL ENGINEERING-
CiteScore
2.30
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: This peer-reviewed journal publishes research that advances the engineering of agricultural, food, and biological systems. Submissions must include original data, analysis or design, or synthesis of existing information; research information for the improvement of education, design, construction, or manufacturing practice; or significant and convincing evidence that confirms and strengthens the findings of others or that revises ideas or challenges accepted theory.
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