成都平原水稻-油菜轮作系统氧化亚氮排放

应用生态学报

成都平原水稻-油菜轮作系统氧化亚氮排放

于亚军^1,2;朱波¹;王小国¹;项虹艳¹;郑循华³

¹中国科学院成都山地灾害与环境研究所, 成都 610041;²中国科学院研究生院, 北京100049; ³中国科学院大气物理研究所, 北京 100029

收稿日期:2007-07-27 修回日期:1900-01-01 出版日期:2008-06-20 发布日期:2008-06-20

N₂O emission from ricerapeseed rotation system in Chengdu Plain of Sichun Basin.

YU Ya-jun^1,2;ZHU Bo¹;WANG Xiao-guo¹;XIANG Hong-yan¹;ZHENG Xun-hua³

¹Institute of Mountain Hazards and Environment, Chinese Academy of Scie
nces, Chengdu 610041, China;²Graduate University of Chinese Academy of Sc
iences, Beijing 100049, China; ³Institute of Atmospheric Physics, Chinese
Academy of Sciences, Beijing 100029, China

Received:2007-07-27 Revised:1900-01-01 Online:2008-06-20 Published:2008-06-20

摘要/Abstract

摘要： 2005年6月—2006年6月利用静态箱/气相色谱法对成都平原水稻油菜轮作系统氧化亚氮（N₂O）排放进行定位观测, 研究了该系统N₂O排放特征及土壤水热状况、氮肥施用、作物参与对N₂O排放的影响. 结果表明: 成都平原水稻-油菜轮作系统N₂O排放总量为（8.3±2.8）kg·hm^-2·a^-1, 水稻季、油菜季和休闲期对整个轮作周期N₂O排放总量的贡献分别为30%、65%和5%. 水稻季N₂O平均排放速率表现为排灌交替期最大, 持续淹水期和排水晒田期相当;氮肥施用是N₂O排放高峰出现的主要驱动力;土壤表层含水量偏低是旱季出现土壤N₂O吸收现象的主要原因. 土壤水分、土壤温度、施用氮肥和作物参与均在不同程度上影响N₂O排放, 土壤水分是影响N₂O排放的关键因子, 避免水稻季土壤频繁干湿交替或控制旱季土壤水分(表层土壤含水孔隙率介于50%～70%)可有效抑制N₂O排放.

关键词: 南长山岛, 碳储量, 黑松, 刺槐

Abstract: By using static chamber/gas chromatograph techniques, the N₂O emission from rice-rapeseed rotation system in Chengdu Plain of Sichuan Basin was measured from June 2005 to June 2006, with its characteristics and affecting factors investigated. The results showed that the totalemission of N₂O in a rotation cycle was (8.3±2.8) kg·hm^-2·a^-1, and the emission in rice season, rapeseed season and fallow season accounted for 30%, 65%, and 5% of the total, respectively. In rice season, the mean N₂O flux was higher during alternative drainage and irrigation than during continuous flooding and drainage, and was roughly the same during continuous flooding and drainage. N application was the main driving factor for the appearance of N₂O emission peak, and the lower moisture content in surface soil layer in rapeseed season and fallow season was the main cause inducing soil N₂O absorption. Soil moisture, soil temperature, N application, and crop involvement affected the N₂O emission to various extents, and soil moisture was the key factor affecting the N₂O emission. To avoid the high frequency of dry and wet alternation in rice season or to regulate soil moisture content to a level of 50%-70% WFPS (percentage of water-filled pore space) in rapeseed season and fallow season could effectively decrease the N₂O emission from the rice-rapeseed rotation system.

Key words: Nanchangshan Island, carbon storage, Pinus thunbergii,  Robinia pseudoacacia.

于亚军^1,2;朱波¹;王小国¹;项虹艳¹;郑循华³. 成都平原水稻-油菜轮作系统氧化亚氮排放[J]. 应用生态学报.

YU Ya-jun^1,2;ZHU Bo¹;WANG Xiao-guo¹;XIANG Hong-yan¹;ZHENG Xun-hua³ . N₂O emission from ricerapeseed rotation system in Chengdu Plain of Sichun Basin. [J]. Chinese Journal of Applied Ecology.

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