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干旱区地理 ›› 2013, Vol. 36 ›› Issue (3): 441-449.

• 生物与土壤 • 上一篇    下一篇

新疆北部覆膜滴灌棉田的碳交换日、生长季变化特征

许琰1,3,周石硚1,晋绿生2,王进2,杨景辉2,林长贵1,3   

  1. (1    中国科学院青藏高原研究所,  北京    100101;    2    乌兰乌苏农业气象试验站,  新疆    石河子    832003;3    中国科学院大学,  北京    100049)
  • 收稿日期:2012-09-18 修回日期:2012-11-30 出版日期:2013-05-25
  • 通讯作者: 周石硚,男,副研究员. Email:zhoushq@itpcas.ac.cn
  • 作者简介:许琰(1985-),女,硕士,研究方向为陆面过程. Email:xuyan@itpcas.ac.cn
  • 基金资助:

    “973”项目(2009CB421307;2009CB825101)

Diurnal and seasonal variation of carbon dioxide exchange over a film-mulched cotton field under drip irrigation in northern Xinjiang

XU  Yan1,3,ZHOU  Shi-qiao1,JIN  Lv-sheng2,WANG  Jin2,YANG  Jing-hui2,LIN  Chang-gui1,3   

  1. (1   Institute  of  Tibetan  Plateau  Research, Chinese  Academy  of  Sciences, Beijing  100101, China;   2   Wulanwusu  Agro-meteorological  Experiment Station, Shihezi  832100, Xinjiang, China;   3   Graduate  University  of  Chinese  Academy  of  Sciences, Beijing  100049, China)
  • Received:2012-09-18 Revised:2012-11-30 Online:2013-05-25

摘要: 利用涡动相关系统测定新疆石河子棉区覆膜滴灌棉田的CO2通量,分析2010年棉花各生育期净生态系统碳交换(NEE)的日变化特征,并将[NEE]拆分为生态系统总生产力(GEP)和生态系统呼吸(Reco),分析三者的生长季变化特征及其影响因素。结果表明:在播种期和苗期,棉田白天和夜间的NEE变化幅度都较小;其他生育期NEE白天呈‘V’形变化,夜间为正值且变化小。NEE的日变化主要受太阳总辐射影响。GEPRecoNEE的生长季变化趋势与叶面积指数变化相对一致,最大日累积量均出现在花铃期,分别为11.8,8.0和-6.2 g C·m-2·d-1。播种期、苗期、蕾期、花铃期和吐絮期的日平均[NEE]分别为2.6,1.6,-1.2,-2.8和0.5 g C·m-2·d-1。整个生长季棉田NEE累积量为-122.2 g C·m-2,表现为碳汇。由偏相关分析可得,GEPRecoNEE的生长季变化与气温的相关系数最高,其次为饱和水汽压差,再次为太阳总辐射和土壤温度,结果表明气温是影响棉田GEPRecoNEE生长季变化的主要气象因素。气温对棉田GEPReco和净碳吸收起促进作用,而饱和水汽压差对其起限制作用。

关键词: 碳交换, 涡动相关, 棉花, 覆膜滴灌, 新疆

Abstract: To study the diurnal and seasonal variation of CO2 fluxes and to explore the effects of biotic and abiotic factors on the seasonal dynamics of CO2 exchange for cotton fields,CO2 fluxes were measured using Eddy covariance (EC) methods at a film-mulched cotton field under drip irrigation in Wulanwusu (85°49′E,44°17′N,469 m a. s. l.),which is located in northern Xinjiang in the northwest part of China and has a continental climate. The net ecosystem carbon exchange (NEE) was partitioned into gross ecosystem production (GEP) and ecosystem respiration (Reco). Diurnal changes of NEE in each growth stage and evolution of daily GEPReco and NEE in cotton growing season were analyzed. Except for the emergence and seedling stage,the daytime CO2 fluxes varied with maximum assimilation occurred closing to the noon while the nighttime fluxes changed little. Overall,the evolution of daily GEPReco and NEE was closely related to the leaf area index (LAI). Absolute values of GEPReco and NEE increased to the maximum of 11.8,8.0 and 6.2 g C·m-2·d-1 respectively in the flower-boll stage when the LAI reached peak. The mean daily NEE was 2.6,1.6,-1.2,-2.8 and 0.5 g C·m-2·d-1 for the emergence,seedling,squaring,flower-boll and boll-opening stage,respectively. The integrated NEE value for the whole growing season was about -122.2 g C/m2 and for the whole year of 2010 was 65 g C·m-2·a-1,showed that the cotton fields behaved as a carbon sink in growing season and weak carbon source for the year. Partial correlation coefficients between daily CO2 fluxes and meteorological factors showed that air temperature was the most important one influencing the dynamics of carbon fluxes during the growing season. The rise in air temperature increased assimilation of carbon dioxide while vapor pressure deficit (VPD) exerted significant limitation on the carbon fluxes.

Key words: carbon exchange, Eddy covariance, cotton, film mulch under drip irrigation, Xinjiang

中图分类号: 

  • S181