论文题目:

A dual isotopic framework for identifying nitrate sources in surface runoff in a small agricultural watershed, northeast China

英文论文题目:

A dual isotopic framework for identifying nitrate sources in surface runoff in a small agricultural watershed, northeast China

第一作者:

Sui, Yuanyuan

英文第一作者:

Sui, Yuanyuan

联系作者:

欧阳

英文联系作者:

Y. Ou

发表年度:

2020

卷:

246

摘要:

The northeast black soil region of China, an important area of grain production, currently faces serious diffuse pollution issues. In this study, a dual isotopic (delta N-15 and delta O-18) framework was used to determine nitrate sources in runoff of a small agricultural watershed of this region. The results indicated that the ranges of delta N-15 and delta O-18 values of NO3-sources were significantly affected by natural geographic features and human activities. Nitrate in cropland runoff was mainly derived from soil, fertilizer and precipitation. Meanwhile, natural inputs, including those of soil and precipitation, represented the main nitrate sources in forest runoff. Domestic sewage, manure and precipitation contributed to most of the nitrate in runoff from villages. In addition, based on runoff export from different land uses and results from a stable isotope mixing model, soil and chemical fertilizer were identified as the main NO3-source in the whole watershed; suggesting that soil erosion could lead to serious diffuse pollution in the study area. Over all, this study not only provided suggestions to the optimal selection of Best Management Practices (BMPs) in Northeast China, but also could contribute to the identification and quantification of NO3-sources in agricultural watersheds of the black soil regions worldwide. (C) 2019 Elsevier Ltd. All rights reserved.

英文摘要:

The northeast black soil region of China, an important area of grain production, currently faces serious diffuse pollution issues. In this study, a dual isotopic (delta N-15 and delta O-18) framework was used to determine nitrate sources in runoff of a small agricultural watershed of this region. The results indicated that the ranges of delta N-15 and delta O-18 values of NO3-sources were significantly affected by natural geographic features and human activities. Nitrate in cropland runoff was mainly derived from soil, fertilizer and precipitation. Meanwhile, natural inputs, including those of soil and precipitation, represented the main nitrate sources in forest runoff. Domestic sewage, manure and precipitation contributed to most of the nitrate in runoff from villages. In addition, based on runoff export from different land uses and results from a stable isotope mixing model, soil and chemical fertilizer were identified as the main NO3-source in the whole watershed; suggesting that soil erosion could lead to serious diffuse pollution in the study area. Over all, this study not only provided suggestions to the optimal selection of Best Management Practices (BMPs) in Northeast China, but also could contribute to the identification and quantification of NO3-sources in agricultural watersheds of the black soil regions worldwide. (C) 2019 Elsevier Ltd. All rights reserved.

刊物名称:

Journal of Cleaner Production

英文刊物名称:

Journal of Cleaner Production

参与作者:

Y. Y. Sui, Y. Ou, B. X. Yan, A. N. Rousseau, Y. T. Fang, R. Z. Geng, L. X. Wang and N. Ye

英文参与作者:

Y. Y. Sui, Y. Ou, B. X. Yan, A. N. Rousseau, Y. T. Fang, R. Z. Geng, L. X. Wang and N. Ye