施肥对太湖地区青紫泥水稻土稻季农田氮磷流失的影响

生态学杂志

施肥对太湖地区青紫泥水稻土稻季农田氮磷流失的影响

焦少俊^1,2;胡夏民³;潘根兴¹;周虹杰³;徐向东³

¹南京农业大学农业资源与生态环境研究所, 南京210095;²南京大学污染控制与资源化国家重点实验室, 南京 210093;³江苏省吴江市农业生态办公室, 江苏吴江 222300

收稿日期:2006-04-21 修回日期:1900-01-01 出版日期:2007-04-03 发布日期:2007-04-03

Effects of fertilization on nitrogen and phosphorus run-off loss from Qingzini paddy soil in Taihu Lake region during rice growth season

JIAO Shao-jun^1,2; HU Xia-min³; PAN Gen-xing¹; ZHOU Hong-jie³; XU Xiang-dong³

¹Institute of Resources, Ecosystem and Environment of Agriculture, Nanjing Agricultural University, Nanjing 210095, China;²State Key Laboratory of Pollution Control and Resource Reuse, Nanjing University, Nanjing 210093, China;³Wujiang Bureau of Agricultural Ecology, Wujiang 222300, Jiangsu, China

Received:2006-04-21 Revised:1900-01-01 Online:2007-04-03 Published:2007-04-03

摘要/Abstract

摘要： 选取太湖东岸的青紫泥水稻土区，对常规施肥和不施肥条件下水稻季稻田氮、磷的流失进行了观测。结果表明：水稻种植季内田面水和降雨径流水中氮磷的浓度呈现前期高后期低的趋势，初期施肥之后的降雨流失使稻田水中氮磷浓度大幅度降低；整个水稻生长季稻田氮磷的流失总量分别达38.8和0.95 kg·hm^-2，且主要以田面水径流流失为主；氮素主要以水溶性的铵态氮流失，而磷素则主要为颗粒态流失。不施肥处理中稻田氮、磷流失分别是常规施肥处理的47%和60%；水稻生长初期降雨下的氮径流流失占整个水稻生长期的50%，磷素占33%。降雨事件下的流失是农田非点源污染的主要贡献期，因而应作为控制的关键因子；对于基础肥力高的水稻土可考虑轮流施肥以减少环境的氮、磷流失与水系污染风险。

关键词: 氧化物矿物, 根系分泌物, 有机污染物, 表面化学

Abstract: A field observation on the nitrogen (N) and phosphorus (P) loss from a gley paddy soil (clayey illitic thermic typic Epiaqualf) in the Taihu Lake region during rice growth season showed that under conventional fertilization, the concentration of N and P in soil surface water and runoff was high at the early stage of rice growth, and then decreased quickly. The rainfall following fertilization caused a great decrease of N and P in soil surface water. During the whole growth season, the total runoff loss of N and P reached as high as 38.8 kg N·hm^-2 and 0.95 kg P·hm^-2, mainly through soil surface water. The majority of lost N was in NH₄⁺-N form, and that of lost P was particulate-P.Under no fertilization, the N and P loss was 47% and 60% of that under fertilization, respectively. At the early growth stage of rice, the runoff loss within 2 weeks after fertilization contributed about 50% of the total N loss and about 33% of the total P loss. The N and P loss after rain gave great contribution to the farmland non-point sources pollution. It was suggested that in the Taihu Lake region, fertilization by turns on the paddy soil with higher fertility could mitigate the N and P loss from paddy soil and the pollution risk of water system.

Key words: Metal oxide, Root exudates, Organic pollutant, Surface chemistry

焦少俊;胡夏民;潘根兴;周虹杰;徐向东. 施肥对太湖地区青紫泥水稻土稻季农田氮磷流失的影响[J]. 生态学杂志.

JIAO Shao-jun^1,2; HU Xia-min³; PAN Gen-xing¹; ZHOU Hong-jie³; XU Xiang-dong³ . Effects of fertilization on nitrogen and phosphorus run-off loss from Qingzini paddy soil in Taihu Lake region during rice growth season[J]. cje.

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