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Long-term manure application increased soil organic carbon and nitrogen mineralization through accumulation of unprotected and physically protected carbon fractions
作者姓名:Muhammad Nadeem ASHRAF  Cheng HU  Xiangru XU  Tariq AZIZ  Lei WU  Muhammad Ahmed WAQAS  Muhammad FAROOQ  Xu HU  Wenju ZHANG  Minggang XU
作者单位:1. Key Laboratory of Cultivated Land Quality Monitoring and Evaluation,Ministry of Agriculture and Rural Affairs,Institute of Agricultural Resources and Regional Planning,Chinese Academy of Agricultural Sciences;2. Institute of Soil and Environmental Sciences,University of Agriculture;3. Institute of Plant Protection and Soil Science,Hubei Academy of Agricultural Sciences;4. Institute of Soil and Environmental Sciences,University of Agriculture,Faisalabad,Sub-Campus Depalpur;5. Institute of Environment and Sustainable Development in Agriculture,Chinese Academy of Agricultural Sciences;6. Department of Plant Sciences,College of Agricultural and Marine Sciences,Sultan Qaboos University;7. Shanxi Province Key Laboratory of Soil Environment and Nutrient Resources,Engineer and Technology Academy of Ecology and Environment,Shanxi Agricultural University
基金项目:This research was supported by the National Natural Science Foundation of China (Nos. 41877105, 4190709398, and 41620104006).
摘    要:Soil organic carbon(SOC) and nitrogen(N) mineralization are important biogeochemical processes associated with soil fertility. These processes are influenced by physically, chemically, and biologically stabilized SOC fractions, the mechanisms of which are not well known. The present study was conducted to evaluate the combined effect of manure and mineral fertilizers on the contents of SOC fractions to promote the mineralization of SOC and N.Treatments included: i) no fertilizer control(CK); ii)...

关 键 词:fertilization  strategy  grain  yield  organic  C  fraction  organic  matter  stabilization  protection  mechanism
收稿时间:2021/7/22 0:00:00
修稿时间:2021/8/24 0:00:00

Long-term manure application increased soil organic carbon and nitrogen mineralization through accumulation of unprotected and physically protected carbon fractions
Muhammad Nadeem ASHRAF,Cheng HU,Xiangru XU,Tariq AZIZ,Lei WU,Muhammad Ahmed WAQAS,Muhammad FAROOQ,Xu HU,Wenju ZHANG,Minggang XU.Long-term manure application increased soil organic carbon and nitrogen mineralization through accumulation of unprotected and physically protected carbon fractions[J].Pedosphere,2023,33(2):343-354.
Authors:Muhammad Nadeem ASHRAF  Cheng HU  Xiangru XU  Tariq AZIZ  Lei WU  Muhammad Ahmed WAQAS  Muhammad FAROOQ  Xu HU  Wenju ZHANG and Minggang XU
Institution:1 Key Laboratory of Cultivated Land Quality Monitoring and Evaluation, Ministry of Agriculture and Rural Affairs, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing 100081(China) 2 Institute of Soil and Environmental Sciences, University of Agriculture, Faisalabad 38040(Pakistan) 3 Institute of Plant Protection and Soil Science, Hubei Academy of Agricultural Sciences, Wuhan 430064(China) 4 Institute of Soil and Environmental Sciences, University of Agriculture, Faisalabad, Sub-Campus Depalpur, Okara 56130(Pakistan) 5 Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Beijing 100081(China) 6 Department of Plant Sciences, College of Agricultural and Marine Sciences, Sultan Qaboos University, Al-Khoud 123(Oman) 7 Shanxi Province Key Laboratory of Soil Environment and Nutrient Resources, Engineer and Technology Academy of Ecology and Environment, Shanxi Agricultural University, Taiyuan 030031(China)
Abstract:Soil organic carbon (SOC) and nitrogen (N) mineralization are important biogeochemical processes associated with soil fertility. These processes are influenced by physically, chemically, and biologically stabilized SOC fractions, the mechanisms of which are not well known. The present study was conducted to evaluate the combined effect of manure and mineral fertilizers on the contents of SOC fractions to promote the mineralization of SOC and N. Treatments included: i) no fertilizer control (CK); ii) a combination of mineral N, phosphorus, and potassium fertilizers (NPK); iii) manure alone (M); iv) manure combined with NPK (MNPK); and v) a high dose of manure combined with NPK (hMNPK). The combined uses of manure and mineral fertilizers (MNPK and hMNPK) enhanced the accumulation of the unprotected coarse particulate organic carbon (C) fraction (cPOC) by 44%–72% compared to CK. Manure applications (M, MNPK and hMNPK) enhanced physically microaggregate-protected organic C (µagg), physicochemically protected organic C within the microaggregate-derived silt (µsilt) fraction (H-µsilt), and physicobiochemically protected organic C within the µsilt fraction (NH-µsilt) by 30%–56%, 62%–150%, and 27%–51%, respectively. In contrast, all chemically and biochemically protected SOC fractions showed a minor response to manure application. Accumulation of cPOC, µagg, H-µsilt, and physicochemically protected organic C within the microaggregate-derived clay fraction (H-µclay) significantly contributed to the mineralization of SOC and N, resulting in a significant increase in rice grain yield with long-term manure application. In summary, long-term combined use of manure and mineral fertilizers improved SOC accumulation in unprotected and physically protected fractions, which enhanced SOC and N mineralization and benefited soil productivity in a rice-wheat cropping system.
Keywords:fertilization strategy  grain yield  organic C fraction  organic matter stabilization  protection mechanism
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