基于 SLURP 模型、ECM 和 RUSLE 的综合应用的非点源氮磷负荷估算和来源解析：以中国晋江河流域为例。

Load estimation and source apportionment of nonpoint source nitrogen and phosphorus based on integrated application of SLURP model, ECM, and RUSLE: a case study in the Jinjiang River, China.

机构信息

College of Water Sciences, Beijing Normal University, No 19, Xinjiekouwai Street, Beijing 100875, China.

出版信息

Environ Monit Assess. 2013 Feb;185(2):2009-21. doi: 10.1007/s10661-012-2684-z. Epub 2012 May 29.

Abstract

The nonpoint source (NPS) pollution is difficult to manage and control due to its complicated generation and formation. Load estimation and source apportionment are an important and necessary process for efficient NPS control. Here, an integrated application of semi-distributed land use-based runoff process (SLURP) model, export coefficients model (ECM), and revise universal soil loss equation (RUSLE) for the load estimation and source apportionment of nitrogen and phosphorus was proposed. The Jinjiang River (China) was chosen for the evaluation of the method proposed here. The chosen watershed was divided into 27 subbasins. After which, the SLURP model was used to calculate land use runoff and to estimate loads of dissolved nitrogen and phosphorus, and ECM was applied to estimate dissolved loads from livestock and rural domestic sewage. Next, the RUSLE was employed for load estimation of adsorbed nitrogen and phosphorus. The results showed that the 12,029.06 t a(-1) pollution loads of total NPS nitrogen (TN) mainly originated from dissolved nitrogen (96.24 %). The major sources of TN were land use runoff, which accounted for 45.97 % of the total, followed by livestock (32.43 %) and rural domestic sewage (17.83 %). For total NPS phosphorous (TP), its pollution loads were 570.82 t a(-1) and made up of dissolved and adsorbed phosphorous with 66.29 and 33.71 % respectively. Soil erosion, land use runoff, rural domestic sewage, and livestock were the main sources of phosphorus with contribution ratios of 33.71, 45.73, 14.32, and 6.24 % respectively. Therefore, land use runoff, livestock, and soil erosion were identified as the main pollution sources to influence loads of NPS nitrogen and phosphorus in the Jinjiang River and should be controlled first. The method developed here provided a helpful guideline for conducting NPS pollution management in similar watershed.

摘要

非点源（NPS）污染由于其复杂的产生和形成而难以管理和控制。负荷估算和源分配是有效控制 NPS 的重要和必要过程。在这里，提出了一种综合应用半分布式基于土地利用的径流过程（SLURP）模型、输出系数模型（ECM）和修正的通用土壤流失方程（RUSLE）来估算氮和磷负荷及其源分配的方法。选择中国晋江河流域进行方法评价。选择的流域被分为 27 个子流域。然后，使用 SLURP 模型计算土地利用径流并估算溶解氮和磷的负荷，应用 ECM 估算来自畜牧业和农村生活污水的溶解负荷。接下来，采用 RUSLE 估算吸附氮和磷的负荷。结果表明，总 NPS 氮（TN）的 12029.06 t a(-1)污染负荷主要来源于溶解氮（96.24%）。TN 的主要来源是土地利用径流，占总量的 45.97%，其次是畜牧业（32.43%）和农村生活污水（17.83%）。对于总 NPS 磷（TP），其污染负荷为 570.82 t a(-1)，由溶解磷和吸附磷组成，分别占 66.29%和 33.71%。土壤侵蚀、土地利用径流、农村生活污水和畜牧业是磷的主要来源，贡献率分别为 33.71%、45.73%、14.32%和 6.24%。因此，土地利用径流、畜牧业和土壤侵蚀被确定为影响晋江河流域 NPS 氮和磷负荷的主要污染源，应首先加以控制。这里开发的方法为类似流域的 NPS 污染管理提供了有益的指导。

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基于 SLURP 模型、ECM 和 RUSLE 的综合应用的非点源氮磷负荷估算和来源解析：以中国晋江河流域为例。

Load estimation and source apportionment of nonpoint source nitrogen and phosphorus based on integrated application of SLURP model, ECM, and RUSLE: a case study in the Jinjiang River, China.

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