Characterizing the evapotranspiration of a degraded grassland in the Sanjiangyuan Region of Qinghai province

Abstract

Abstract: The evapotranspiration (ET) of degraded grassland in the Sanjiangyuan region was investigated to further elucidate the water cycle in this region. The eddy covariance technique was used to measure evapotranspiration and sensible heat flux continuously for 3 years in this degraded grassland in Qinghai province, China. The annual precipitations (PPT) were 460.7, 496.1, and 480.1 mm for the three consecutive years. The annual ETs were 452.24, 474.24, and 459.57 mm, varying in accord with the annual PPT. About 75% of the annual ET occurred during the growing season from DOY121 to 300. The ratio of ET to PPT was greater than 95% during the study period, indicating that there is some balance between ET and PPT and the average in the growing season for each of the three years were 1.86, 1.92, 1.81 mm/d, respectively. However, the averaged ET was lower than 0.6 mm/d during the non-growing season. The annual and daily dynamics were single peak type curves. The maximum monthly ET rate was 2.0-2.2 mm/d, which occurred mainly in June or July. The daily peak appeared at noon and was 0.21 and 0.10 mm/h during the growing and non-growing seasons respectively. ET was most sensitive to net radiation during the growing season while the effect of air temperature and vapour pressure deficit were secondary. Compared with the non-degraded area of Kobresia humilis meadow, the ET of the degraded grassland was lower in the growing season but higher in the non-growing season. The lower vegetation cover was attributed to this result.

CLC Number:

S812.29

CHEN Dong-dong, XU Shi-xiao, ZHAO Xin-quan, ZHAO Liang. Characterizing the evapotranspiration of a degraded grassland in the
Sanjiangyuan Region of Qinghai province[J]. Acta Prataculturae Sinica, 2012, 21(3): 223-233.

References

Brutsaert W. Evaporation into the Atmosphere: Theory, History, and Applications. Boston: Kluwer Academic Publicers, 1982.
Wever L A, Flanagan L B, Carlson P J. Seasonal and interannual variation in evapotranspiration, energy balance and surface conductance in a northern temperate grassland. Agricultural and Forest Meteorology, 2002, 112(1): 31-49.
Adams J M, Faure H, Faure-Denard L, et al. Increases in terrestrial carbon storage from the Last Glacial Maximum to the present. Nature, 1990, 348: 711-714.
马致远. 三江源地区水资源的涵养和保护. 地球科学进展, 2004, 19(13): 108-111.
陈孝全, 苟新京, 高延林, 等. 三江源自然保护区生态环境. 西宁: 青海人民出版社, 2002.
王堃, 洪绂曾, 宗锦耀. 三江源地区草地资源现状及持续利用途径. 草地学报, 2005, (1): 28-31.
李博. 中国北方草地退化及其防治对策. 中国农业科学, 1997, 30(6): 1-9.
刘纪远, 徐新良, 邵全琴. 近 30 年来青海三江源地区草地退化的时空特征. 地理学报, 2008, 63(4): 364-376.
王启基, 来德珍, 景增春, 等. 三江源区资源与生态环境现状及可持续发展. 兰州大学学报 (自然科学版), 2005, 41(4): 31-37.
曹广民, 龙瑞军. 三江源区“黑土滩”型退化草地自然恢复的瓶颈及解决途径. 草地学报, 2009, (1): 4-9.
Baldocchi D D. Assessing the eddy covariance technique for evaluating carbon dioxide exchange rates of ecosystems: past, present and future. Global Change Biology, 2003, 9(4): 479-492.
Li S G, Asanuma J, Kotani A, et al. Evapotranspiration from a Mongolian steppe under grazing and its environmental constraints. Journal of Hydrology, 2007, 333(1): 133-143.
Bremer D J, Auen L M, Ham J M, et al. Evapotranspiration in a prairie ecosystem: effects of grazing by cattle. Agronomy Journal, 2001, 93(2): 338-348.
Meyers T P. A comparison of summertime water and CO₂ fluxes over rangeland for well watered and drought conditions. Agricultural and Forest Meteorology, 2001, 106: 205-214.
Gu S, Tang Y, Cui X, et al. Characterizing evapotranspiration over a meadow ecosystem on the Qinghai-Tibetan Plateau. Journal of Geophysical Research, 2008, 113: D08118, doi: 10.1029/2007 JD009173.
赵亮, 古松, 周华坤, 等. 青海省三江源区人工草地生态系统CO₂通量. 植物生态学报, 2008, 32(3): 544-554.
李春, 何洪林, 刘敏, 等. ChinaFLUX CO₂通量数据处理系统与应用. 地球信息科学, 2008, 10(5): 557-565.
温学发, 于贵瑞, 孙晓敏. 基于涡度相关技术估算植被/大气间净CO₂交换量中的不确定性. 地球科学进展, 2004, 19(4): 658-663.
Zhao L, Li Y, Xu S, et al. Diurnal, seasonal and annual variation in net ecosystem CO₂ exchange of an alpine shrubland on Qinghai-Tibetan plateau. Global Change Biology, 2006, 12(10): 1940-1953.
Falge E, Baldocchi D, Olson R, et al. Gap filling strategies for long term energy flux data sets. Agricultural and Forest Meteorology, 2001, 107(1): 71-77.
Li Y, Zhou L, Xu Z, et al. Comparison of water vapour, heat and energy exchanges over agricultural and wetland ecosystems. Hydrological Processes, 2009, 23(14): 2069-2080.
Hao Y, Wang Y, Huang X, et al. Seasonal and interannual variation in water vapor and energy exchange over a typical steppe in Inner Mongolia, China. Agricultural and Forest Meteorology, 2007, 146(1-2): 57-69.
Frank A B. Evapotranspiration from northern semiarid grasslands. Agronomy Journal, 2003, 95(6): 1504-1509.
Hanson R L. Evapotranspiration and droughts. U.S.Geological Survey Water Supply Paper, 1988, 2375: 99-104.
Song J. Phenological influences on the albedo of prairie grassland and crop fields. International Journal of Biometeorology, 1999, 42(3): 153-157.
Lafleur P M, Rouse W R, Carlson D W. Energy balance differences and hydrologic impacts across the northern treeline. International Journal of Climatology, 1992, 12(2): 193-203.
冯超, 古松, 赵亮, 等. 青藏高原三江源区退化草地生态系统的地表反照率特征. 高原气象, 2010, 29(1): 70-77.
Gao F, Schaaf C B, Strahler A H, et al. MODIS bidirectional reflectance distribution function and albedo climate modeling grid products and the variability of albedo for major global vegetation types. Jounal of Geophysical Research, 2005, 110: D01104, doi: 10.1029/2004JD005190.
季国良, 江灏, 吕兰芝. 青藏高原的长波辐射特征. 高原气象, 1995, 14(4): 451-458.
Rosenberg N J, Blad B L, Verma S B. Microclimate: The Biological Environment. 2nd ed. New York: John Wiley & Sons, 1983.
王一博, 王根绪, 吴青柏, 等. 植被退化对高寒土壤水文特征的影响. 冰川冻土, 2010, 32(5): 989-998.
赵亮, 徐世晓, 伏玉玲, 等. 积雪对藏北高寒草甸CO₂和水汽通量的影响. 草地学报, 2005, 13(3): 242-247.

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Characterizing the evapotranspiration of a degraded grassland in the
Sanjiangyuan Region of Qinghai province

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