Apparent variations in nitrogen runoff and its uptake in paddy rice under straw incorporation

• Published in: Journal of Integrative Agriculture Vol. 21; no. 11; pp. 3356 - 3367
• Main Authors: BASHIR, Muhammad Amjad, ZHAI, Li-mei, WANG, Hong-yuan, LIU, Jian, RAZA, Qurat-Ul-Ain, GENG, Yu-cong, REHIM, Abdur, LIU, Hong-bin
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.01.2022; Key Laboratory of Nonpoint Source Pollution Control,Ministry of Agriculture and Rural Affairs/Institute of Agricultural Resources and Regional Planning,Chinese Academy of Agricultural Sciences,Beijing 100081,P.R.China; Department of Soil Science,Faculty of Agricultural Sciences and Technology,Bahauddin Zakariya University,Multan 60800,Pakistan; College of Agriculture,Bahadur Sub-Campus Layyah,Bahauddin Zakariya University,Mutan 60800,Pakistan%Key Laboratory of Nonpoint Source Pollution Control,Ministry of Agriculture and Rural Affairs/Institute of Agricultural Resources and Regional Planning,Chinese Academy of Agricultural Sciences,Beijing 100081,P.R.China%School of Environment and Sustainability,University of Saskatchewan,Saskatoon,SK S7N 3H5,Canada%Department of Soil Science,Faculty of Agricultural Sciences and Technology,Bahauddin Zakariya University,Multan 60800,Pakistan%College of Agriculture,Bahadur Sub-Campus Layyah,Bahauddin Zakariya University,Mutan 60800,Pakistan; Elsevier
• Subjects: nitrogen runoff; nitrogen uptake; rice yield; straw return; water pollution; water pollution; rice yield; straw return; nitrogen uptake; nitrogen runoff
• ISSN: 2095-3119; 2352-3425
• DOI: 10.1016/j.jia.2022.08.062

Straw incorporation is a widespread practice to promote agricultural sustainability. However, the potential effects of straw incorporation with the prolonged time on nitrogen (N) runoff loss from paddy fields are not well studied. The current study addresses the knowledge gap by assessing the effects of straw incorporation on the processes influencing N runoff patterns and its impacts on crop yield, N uptake, total N (TN), and soil organic matter (SOM). We conducted field experiments with rice (Oryzasativa L.)–wheat (Triticumaestivum L.) rotation, rice–tobacco (Nicotianatabacum L.) rotation, and double-rice cropping in subtropical China from 2008 to 2012. Each rotation had three N treatments: zero N fertilization (CK), chemical N fertilization (CF), and chemical N fertilization combined with straw incorporation (CFS). The treatment effects were assessed on TN runoff loss, crop yield, N uptake, soil TN stock, and SOM. Results showed that TN runoff was reduced by substituting part of the chemical N fertilizer with straw N in the double rice rotation, while crop N uptake was significantly (P<0.05) decreased due to the lower bioavailability of straw N. In contrast, in both rice–wheat and rice–tobacco rotations, TN runoff in CFS was increased by 0.9–20.2% in the short term when straw N was applied in addition to chemical N, compared to CF. However, TN runoff was reduced by 2.3–19.3% after three years of straw incorporation, suggesting the long-term benefits of straw incorporation on TN loss reduction. Meanwhile, crop N uptake was increased by 0.8–37.3% in the CFS of both rotations. This study demonstrates the challenges in reducing N runoff loss while improving soil fertility by straw incorporation over the short term but highlights the potential of long-term straw incorporation to reduce N loss and improve soil productivity.