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长江源区高寒草甸植被覆盖变化对蒸散过程的影响 被引量:9

Influence of Vegetation Coverage on Evapotranspiration of Alpine Meadow in Headwaters of the Yangtze River
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摘要 为了研究长江源区植被盖度变化对高寒草甸蒸散过程的影响,在长江源区选择坡向、坡型和坡度趋于一致,植被覆盖度分别为92%,65%和30%的高寒草甸建立天然观测场,采用小型蒸渗仪称重法观测计算不同覆盖条件下的高寒草甸蒸散量,分析了不同时期蒸散的动态变化特征和主要驱动因子。研究结果表明,在生长前期,随着植被盖度降低,高寒草甸蒸散量呈增加趋势;而在生长期、生长后期和冻结期,随着植被盖度降低,高寒草甸蒸散量呈减小趋势,且盖度变化对生长期蒸散量的影响尤为显著。不同时期主导蒸散变化的因子存在差异,热量因子在生长前、后期起主导作用,而在生长期起主导作用的是水分因子。 To investigate actual evapotranspiration(ET)under different degrees of vegetation coverage,three plots of alpine meadow were established on the places where the topography was of the same slope,direction,and shape and where the degrees of vegetation coverage were 92%,65%,and 30% in the headwaters of the Yangtze River.The lysimeter method was used to calculate ET of alpine meadow under different degrees of vegetation coverage.The characteristics of ET and the dominating factors in four periods were analyzed.Results show that ET increased with the reduction in vegetation coverage in the per-growth period,while ET decreased with the reduction in vegetation coverage in the growth period,post-growth period,and the frozen period.The change of vegetation coverage influenced ET in the growth period very obviously.The dominating factors varied with different periods.Heat played a leading role in the per-growth period and the post-growth period and moisture played a leading role in the growth period.
作者 范晓梅 刘光生 王一博 任东兴 王根绪
机构地区 兰州大学资源环境学院 中国科学院成都山地灾害与环境研究所 中国科学院寒区旱区环境与二广程研究所冻土工程国家重点试验室
出处 《水土保持通报》 CSCD 北大核心 2010年第6期17-21,26,共6页 Bulletin of Soil and Water Conservation
基金 国家基础科学研究(973)计划项目课题“江河源区冻土积雪变化及其生态效应”(2007CB411504) 国家自然科学基金项目(40730634 90511003) 寒区旱区环境与工程研究所冻土工程国家重点试验室开放基金试验(SKLFSE200804)
关键词 长江源区 高寒草甸 植被盖度 蒸散 驱动因子 headwaters of Yangtze River alpine meadow vegetation coverage evapotranspiration influencing factor
分类号 P332.2 [天文地球—水文科学]
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参考文献20

  • 1Parasuraman K, Elshorbagy A, Carey S K. Modelling the dynamics of the evapotranspiration process using genetic programming[J]. Hydrological Sciences Journal:Journal Des Sciences Hydrologiques, 2007,52 (3) : 563-578.
  • 2Lafleur P M. Connecting atmosphere and wetland:Energy and water vapour exchange[J]. Geography Compass, 2008,2:1027-1057.
  • 3Sanchez C S, Angeler D G, Sanchez A R,et al. Evapotranspiration in semi-arid wetlands: Relationships between inundation and the macrophyte-cover: Open-water ratio[J]. Advances in Water Resources, 2004, 27 (6) 643-655.
  • 4Kellner E. Surface energy fluxes and controls of evapotranspiration from a Swedish Sphagnum mire[J]. Agricultural and Forest Meteorology, 2001,110(2) : 101-123.
  • 5Rosenberg N J, Blad B L, Verma S B. Micoclimate:The Biological Envirornent of Plants[M]. New York: John Wiley & Sons, 1983.
  • 6周剑,程国栋,李新,王根绪.应用遥感技术反演流域尺度的蒸散发[J].水利学报,2009,39(6):679-687. 被引量:50
  • 7Gong D Z, Kang S Z,Yao I. M,et al. Estimation of evapotranspiration and its components from an apple orchard in northwest China using sap flow and water balance methods[J]. Hydrologal Processes, 2007,21 : 931-938.
  • 8Kenichi D, Shigeaki H,Aiko D,et al. Influence of evaporation from the forest floor on evapotranspiration from the dry canopy[J]. Hydrologal Processes, 2008,28 : 4083-4096.
  • 9刘苏峡,莫兴国.水文循环研究中亟待加强的薄弱环节[J].中国科学基金,2000,14(4):229-232. 被引量:4
  • 10Zhao L, Chen G C, Cbeng G D, et al. Permafrost: sta tus, variation and impacts[M]//Zheng D, Zhang Q S, Shao H. Mountain Geoecology and Sustainable Develop ment of the Tibetan Plateau. Netherlands: Kluwer Academic Publishers, 2000:113-137.

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水土保持通报
2010年 第6期

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