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我国不同区域农田养分平衡对土壤肥力时空演变的影响 被引量:49

Effect of Nutrient Balance on Spatial and Temporal Change of Soil Fertility in Different Agriculture Area in China
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摘要 区域农田养分盈亏是驱动农田土壤肥力时空变化的主要因素。对我国6个农业生态试验站(海伦、沈阳、栾城、长武、常熟、鹰潭)站区农田土壤肥力在近年来时空演变的研究表明,除了海伦站黑土和常熟站水稻土的有机质和全氮平均含量下降外,其他站区均呈现增加趋势,主要原因是黑土和乌栅土有机质和全氮含量较高,目前农田有机C和N投入水平无法维持其平衡;6个站区土壤速效磷有增有减,而土壤速效钾除了栾城和鹰潭站区域外均呈降低趋势。从站区农田养分的年平衡与土壤养分的年变化量关系看,农田氮、磷、钾的盈亏量决定了土壤养分的变化方向。土壤有机碳和全氮的初始含量过高(分别超过15.1 g/kg和1.60 g/kg)时,也会导致其年际间的变化方向从增加变为降低。农田氮素盈亏量与土壤全氮变化量之间相关不显著,主要是由于化肥投入和作物籽粒输出的农田氮平衡不能完全代表土壤氮素的真实盈亏情况;而农田磷素和钾素的盈亏量与土壤速效磷和速效钾的年变化量的显著相关。 Nutrient budget of farmland system is a driving force on the change of soil fertility. The spatial and temporal change of soil nutrient contents in recent years was studied on a regional scale in 6 experiment stations in Chinese Ecological Research Network. The results showed that the average content of soil organic carbon and total nitrogen increased except in Hailun and Changshu Experiment Station areas where the main soil is black soil and paddy soil. The possible reason is that C and N balance of the farmland system was unable to maintain the higher content of soil organic carbon and total nitrogen in the two kind of fertile soils. Soil average available P contents increased or decreased without a common temporal trend in 6 stations, but soil average available K contents mainly decreased except in Luancheng and Yingtan Experiment Station areas. The nutrient budget of farmland system decided the direction and extent of temporal change of soil nutrient contents. For soil available P and K, their annual change amount showed a significant positive relationship with annual budget of farmland system. However, such relationship did not exist for soil total N because the balance only considering the input from fertilization and nitrogen biofixing and the output from crop uptake are unable to express the real budget of N in farmland system. Also, the initial contents of soil organic carbon and total nitrogen affect their change direction, which will turn from increase to decrease when the initial content of soil organic carbon and total nitrogen is larger than 15.1 g/kg and 1.60 g/ kg, respectively.
出处 《地球科学进展》 CAS CSCD 北大核心 2008年第11期1201-1208,共8页 Advances in Earth Science
基金 中国科学院知识创新工程重要方向项目“热量梯度变化下农田土壤养分长期转化过程的联网研究”(编号:KSCX2-YW-407) 国家重点基础研究发展计划项目“水热梯度带农田生态系统重要过程的演变规律与区域系统稳定性保持的调控对策”(编号:2005CB121108) 国家自然科学基金重大项目“生态系统水碳氮循环过程对全球变化的响应与适应机制”(编号:30590381)资助
关键词 农田养分盈亏 土壤养分 土壤有机碳 时空演变 区域尺度 Farmland nutrient budget Soil nutrient Soil organic carbon Spatial and temporal change Regional scale.
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  • 1Paoletti M G, Foissner W, Coleman D. Soil Biota, Nutrient Cycling and Farming Systems [ M ]. Boca Raton, FL: Lewis Publishers, 1993.
  • 2Drinkwater L E, Snapp S S. Nutrients in Agroecosystems: Rethinking the Management Paradigm[ J ]. Advanced Agronomy, 2007, 92: 163-186.
  • 3Van der Hoek K W, Bouwman A F. Upscaling of nutrient budgets from agroecological niche to global scale [ C ]//Smaling E M A,Oenema O, Fresco L O, eds. Nutrient Disequilibria in Agroecosystems. Wallingford: CAB International, 1999: 57-73.
  • 4Bindraban P S, Stoorvogel J J, Jansen D M, et al. Land quality indicators for sustainable land management: Proposed method for yield gap and soil nutrient balance [ J ]. Agriculture, Ecosystems and Environment,2000,81 (2) : 103-112.
  • 5OECD (Organisation for Economic Co-operation and Development ). Environmental indicators for agriculture, Volume 3, Methods and results [ R]. Paris: Organization for Economic Cooperation and Development, 2001.
  • 6Giles J. Nitrogen study fertilizes fears of pollution [ J ]. Nature, 2005, 433 : 791.
  • 7Stoorvogel J J, Smaling E M A. Assessment of soil nutrient depletion in sub-Saharan Africa: 1983-2000 [ R]. Report 28, Winand Staring Centre, Wageningen, The Netherlands,1990.
  • 8SHENRun-Ping,SUNBo,ZHAOQi-Guo.Spatial and Temporal Variability of N, P and K Balances for Agroecosystems in China[J].Pedosphere,2005,15(3):347-355. 被引量:52
  • 9SUN Bo,SHEN Run-Ping,A. F. BOUWMAN.Surface N Balances in Agricultural Crop Production Systems in China for the Period 1980-2015[J].Pedosphere,2008,18(3):304-315. 被引量:24
  • 10鲁如坤,时正元,施建平.我国南方6省农田养分平衡现状评价和动态变化研究[J].中国农业科学,2000,33(2):63-67. 被引量:182

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