基于LMDZ模型的西北干旱区水汽再循环率分析

Abstract

Abstract:

As an important link in the process of land water cycle,the contribution of local moisture recycling to precipitation in the arid region in northwest China cannot be ignored although its absolute amount is relatively limited. Based on the isotopic data simulated by LMDZ simulations,the spatiotemporal distribution characteristics and mechanism of the contribution proportion of recycled moisture during the period from 1979 to 2007 in the arid region in northwest China were analyzed by the isotopic mixing model.Results showed that the monthly and interannual contribution rate of advection moisture to precipitation was obviously higher than that of recycled moisture during the study period,it was high in summer but low in winter,and increased gradually at annual scale.Oppositely,the monthly and interannual contribution rate of recycled moisture to precipitation was relatively low,it was low in summer but high in winter,and decreased year by year (the interannual contribution proportion of plant transpiration moisture increased in winter half year).Spatially,the contribution proportion of advection moisture was different,and it was high in mountainous areas but low in desert plains.The contribution proportion of evaporation vapor was lower than that of plant transpiration vapor in most areas,but it was opposite in some regions.The spatial distribution of the contribution amount of advection vapor and surface evaporation vapor was consistent with its contribution rate,while the contribution amount of plant transpiration vapor was higher in mountainous areas than that in desert plains.

Key words: moisture recycling')">

moisture recycling, precipitation contribution proportion, spatial distribution, isotopic mixing model, LMDZ model, arid region Northwest China

YU Xiu-xiu, ZHANG Ming-jun, WANG Sheng-jie, QIU Xue, DU Ming-xia, ZHOU Sue, MENG Hong-fei.

Contribution of Moisture Recycling to Precipitation in the Arid Region in Northwest China Based on LMDZ Model [J].Arid Zone Research, 2019, 36(1): 29-43.

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: http://azr.xjegi.com/EN/

http://azr.xjegi.com/EN/Y2019/V36/I1/29

References 49

[1]	Van d E R J,Savenije H H G,Schaefli B,et al.Origin and fate of atmospheric moisture over continents[J].Water Resources Research,2010,46(9):201-210.
[2]	Van d E R J,Wang Erlandsson L,Keys P W,et al.Contrasting roles of interception and transpiration in the hydrological cycle Part 2:Moisture recycling[J].Earth System Dynamics,2014,5(1):441-469.
[3]	Hua L,Zhong L,Ke Z.Characteristics of the precipitation recycling ratio and its relationship with regional precipitation in China[J].Theoretical and Applied Climatology,2015,127(3-4):1-19.
[4]	Pathak A,Ghosh S,Kumar P.Precipitation recycling in the indian subcontinent during summer monsoon[J].Journal of Hydrometeorology,2014,15(5):2 050-2 066.
[5]	Goessling H F,Reick C H.What do moisture recycling estimates tell us? Exploring the extreme case of non-evaporating continents[J].Hydrology and Earth System Sciences,2011,15(15):3 217-3 235.
[6]	Aemisegger F,Pfahl S,Sodemann H,et al.Deuterium excess as a proxy for continental moisture recycling and plant transpiration[J].Atmospheric Chemistry & Physics,2014,14(8):29 721-29 784.
[7]	王圣杰,张明军.新疆天山降水稳定同位素的时空特征与影响因素[J].第四纪研究,2017,37(5):1 119-1 130.[Wang Shengjie,Zhang Mingjun.Spatio-temporal characteristics and influencing factors of stable isotopes in precipitation across the Chinese Tianshan Mountains[J].Quaternary Sciences,2017,37(5):1 119-1 130.]
[8]	Zhang M,Wang S.A review of precipitation isotope studies in China:Basic pattern and hydrological process[J].Journal of Geographical Sciences,2016,26(7):921-938.
[9]	Xu Y W,Kang S C,Zhang Y L,et al.A method for estimating the contribution of evaporative vapor from Nam Co to local atmospheric vapor based on stable isotopes of water bodies[J].Chinese Science Bulletin,2011,56(14):1 511-1 517.
[10]	Cui B L,Li X Y.Stable isotopes reveal sources of precipitation in the Qinghai Lake Basin of the Northeastern Tibetan Plateau[J].Science of the Total Environment,2015,527-528:26-37.
[11]	Kong Y,Pang Z,Froehlich K.Quantifying recycled moisture fraction in precipitation of an arid region using deuterium excess[J].Hydrology & Earth System Sciences,2013,65(1):388-402.
[12]	Peng T R,Liu K K,Wang C H,et al.A water isotope approach to assessing moisture recycling in the island based precipitation of Taiwan:A case study in the Western Pacific[J].Water Resources Research,2011,47(8):2 168-2 174.
[13]	Phillips D L,Gregg J W.Uncertainty in source partitioning using stable isotopes[J].Oecologia,2001,127(2):171-179.
[14]	Wang S,Zhang M,Che Y,et al.Contribution of recycled moisture to precipitation in oases of arid Central Asia:A stable isotope approach[J].Water Resources Research,2016,52(4):3 246-3 257.
[15]	Li Z,Qi F,Wang Q J,et al.Contributions of local terrestrial evaporation and transpiration to precipitation using δ18O and D-excess as a proxy in Shiyang inland river basin in China[J].Global & Planetary Change,2016,146:140-151.
[16]	马潜,张明军,王圣杰,等.中国西部局地蒸发水汽贡献率探讨[J].地理科学进展,2012,31(11):1 452-1 459.[Ma Qian,Zhang Mingjun,Wang Shengjie,et al.Contributions of local moisture to precipitations in Western China[J].Progress in Geography,2012,31(11):1 452-1 459.]
[17]	Zhang Xinping,Sun Zhian,Guan Huade,et al.GCM simulations of stable isotopes in the water cycle in comparison with GNIP observations over East Asia[J].Acta Meteorologica Sinica,2012,26(4):420-437.
[18]	潘素敏,张明军,王圣杰,等.基于GCM的中国土壤水中δ18O的分布特征[J].生态学杂志,2017,36(6):1 727-1 738.[Pan Sumin,Zhang Mingjun,Wang Shengjie,et al.Distribution characteristics ofδ18O in soil water in China based on GCMs[J].Chinese Journal of Ecology,2017,36(6):1 727-1 738.]
[19]	Yang Sen,Zhang Mingjun,Wang Shengjie,et al.Interannual trends in stable oxygen isotope composition in precipitation of China during 1979-2007:Spatial incoherence[J].Quaternary International,2017,454:25-37.
[20]	章新平,孙治安,张新主,等.东亚降水中δ18O的GCM模拟及其与GNIP实测值的比较[J].第四纪研究,2012,32(1):67-80.[Zhang Xinping,Sun Zhi’an,Zhang Xinzhu,et al.Intercomparison ofδ18O in precipitation simulated by isotopic GCMs with GNIP observations over East Asia[J].Quaternary Sciences,2012,32(1):67-80.]
[21]	Coletti A J,Deconto R M,Brighamgrette J,et al.A GCM comparison of Pleistocene superinterglacial periods in relation to Lake El’ gygytgyn,NE Arctic Russia[J].Climate of the Past,2015,11(7):979-989.
[22]	Wang S,Zhang M,Chen F,et al.Comparison of GCM simulated isotopic compositions of precipitation in arid central Asia[J].Journal of Geographical Sciences,2015,25(7):771-783.
[23]	陈亚宁.中国西北干旱区水资源研究[M].北京:科学出版社,2014.[Chen Yaning.Study on Water Resources in Arid Region of Northwest China[M].Bejing:Science Press,2014.]
[24]	陈亚宁,李稚,范煜婷,等.西北干旱区气候变化对水文水资源影响研究进展[J].地理学报,2014,69(9):1 295-1 304.[Chen Yaning,Li Zhi,Fan Yuting,et al.Research progress on the impact of climate change on water resources in the arid region of Northwest China[J].Acta Geographica Sinica,2014,69(9):1 295-1 304.]
[25]	姚俊强,杨青,刘志辉,等.中国西北干旱区降水时空分布特征[J].生态学报,2015,35(17):5 846-5 855.[Yao Junqiang,Yang Qing,Liu Zhihui,et al.Spatio-temporal change of precipitation in arid region of the Northwest China[J].Acta Ecologica Sinica,2015,35(17):5 846-5 855.]
[26]	张强,赵映东,张存杰,等.西北干旱区水循环与水资源问题[J].干旱气象,2008,26(2):1-8.[Zhang Qiang,Zhao Yingdong,Zhang Cunjie,et al.Issues about hydrological cycle and water resource in arid region of Northwest China[J].Arid Meteorology,2008,26(2):1-8.]
[27]	商沙沙,廉丽姝,马婷,等.近54 a中国西北地区气温和降水的时空变化特征[J].干旱区研究,2018,35(1):68-76.[Shang Shasha,Lian Lishu,Ma Ting,et al.Spatiotemporal variation of temperature and precipitation in Northwest China in recent 54 years[J].Arid Zone Research,2018,35(1):68-76.]
[28]	胡增运,胡汝骥,周启鸣,等.亚洲中部干旱区干湿时空变化特征[J].干旱区研究,2018,35(2):260-268.[Hu Zengyun,Hu Ruji,Zhou Qiming,et al.Spatiotemporal variation of wetting or drying in the arid regions in Central Asia[J].Arid Zone Research,2018,35(2):260-268.]
[29]	姚俊强,杨青,毛炜峄,等.西北干旱区大气水分循环要素变化研究进展[J].干旱区研究,2018,35(2):269-276.[Yao Junqiang,Yang Qing,Mao Weiyi,et al.Progress of study on variation of atmospheric water cycle factors over arid region in Northwest China[J].Arid Zone Research,2018,35(2):269-276.]
[30]	Risi C,Bony S,Vimeux F,et al.Water stable isotopes in the LMDZ4 general circulation model:Model evaluation for present day and past climates and applications to climatic interpretations of tropical isotopic records[J].Journal of Geophysical Research Atmospheres,2010,115(D12),doi:10.1029/2009JD013255.
[31]	Dansgaard W.Stable isotopes in precipitation[J].Tellus,1964,16(4):436-468.
[32]	Brubaker Kaye L,Dara Entekhabi,Eagleson P S.Estimation of continental precipitation pecycling[J].Journal of Climate,1993,6(6):1 077-1 089.
[33]	张强,俞亚勋,张杰.祁连山与河西内陆河流域绿洲的大气水循环特征研究[J].冰川冻土,2008,30(6):907-913.[Zhang Qiang,Yu Yaxun,Zhang Jie.Characteristics of water cycle in the Qilian Mountains and the oasis in Hexi inland river basins[J].Journal of Glaciology and Geocryology,2008,30(6):907-913.]
[34]	Skrzypek G,Myd owski A,Dogramaci S,et al.Estimation of evaporative loss based on the stable isotope composition of water using Hydrocalculator[J].Journal of Hydrology,2015,523:781-789.
[35]	Gibson J J,Reid R.Water balance along a chain of tundra lakes:A 20 year isotopic perspective[J].Journal of Hydrology,2014,519:2 148-2 164.
[36]	罗丽,王晓蕾,余鹏.饱和水汽压计算公式的比较研究[J].气象水文海洋仪器,2003(4):24-27.[Luo Li,Wang Xiaolei,Yu Peng.The compare and research of the calculate formula of the saturation water steam pressure[J].Meteorological,Hydrological and Marine Instrument,2003(4):24-27.]
[37]	Qiu X,Zhang M,Wang S.Preliminary research on hydrogen and oxygen stable isotope characteristics of different water bodies in the Qilian Mountains,Northwestern Tibetan Plateau[J].Environmental Earth Sciences,2016,75(23):1 491.
[38]	包为民,胡海英,王涛,等.蒸发皿中水面蒸发氢氧同位素分馏的实验研究[J].水科学进展,2008,19(6):780-785.[Bao Weimin,Hu Haiying,Wang Tao,et al.Experimental study on the fractionation mechanism of hydrogen and oxygen stable isotopes in evaporation from water surface of evaporation pans[J].Advances in Water Science,2008,19(6):780-785.]
[39]	Lis G,Wassenaar L I,Hendry M J.High-precision laser spectroscopy D/H and 18O/16O measurements of microliter natural water samples[J].Analytical Chemistry,2008,80(1):287-293.
[40]	努尔阿米乃姆·阿木克.博斯腾湖流域氢氧同位素及水化学特征研究[D].乌鲁木齐:新疆大学,2016.[Nuraminem Amuk.Study of Environmental Isotopes and Chemical Characteristics of Bosten Lake Basin[D].Urumqi:Xinjiang University,2016.]
[41]	曾海鳌,吴敬禄,刘文,等.哈萨克斯坦东部水体氢氧同位素和水化学特征[J].干旱区地理,2013,36(4):662-668.[Zeng Hai’ao,Wu Jinglu,Liu Wen,et al.Characteristics of hydrochemistry and hydrogen,oxygen isotopes of waters in Kazakhstan[J].Arid Land Geography,2013,36(4):662-668.]
[42]	Mischke S,Rajabov I,Mustaeva N,et al.Modern hydrology and[JP] late holocene history of Lake Karakul,eastern Pamirs (Tajikistan): A reconnaissance study[J].Palaeogeography Palaeoclimatology Palaeoecology,2010,289(1):10-24.
[43]	梁丽娥,李畅游,史小红,等.内蒙古呼伦湖流域地表水与地下水氢氧同位素特征及湖水来源分析[J].湿地科学,2017,15(3):385-390.[Liang Li’e,Li Changyou,Shi Xiaohong,et al.Characteristics of hydrogen and oxygen isotopes of surface and ground water and the analysis of source of lake water in Hulun Lake Basin,Inner Mongolia[J].Wetland Science,2017,15(3):385-390.]
[44]	刘志娇.达里诺尔湖水动力条件及氢氧稳定同位素试验研究[D].呼和浩特:内蒙古农业大学,2015.[Liu Zhijiao.Tests of Hydrodynamics and Hydrogen and Oxygen Stable Isotopes in Lake Darinol[D].Hohhot:Inner Mongolia Agricultural University,2015.]
[45]	Craig H,Gordon L I.Deuterium and 18O variations in the ocean and marine atmosphere[J].Symposium on Marine Geochemistry,1965:277-374.
[46]	Gat J R,Bowser C J,Kendall C.The contribution of evaporation from the Great Lakes to the continental atmosphere:Estimate based on stable isotope data[J].Geophysical Research Letters,1994,21(7):557-560.
[47]	许鹏.新疆北疆平原荒漠生态特征,问题与对策[J].草业学报,1997,6(4):6-10.[Xu Peng.Ecological characteristics,problems and developmental strategy of plain desert in Northern Xinjiang[J].Acta Prataculturae Sinica,1997，6(4):6-10.]
[48]	赵晶,周耀治,邓兴耀.西北干旱区植被覆盖时空动态特征[J].林业资源管理,2017(1):118-126.[Zhao Jing,Zhou Yaozhi,Deng Xingyao.Temporalspatial dynamic change characteristics of vegetation coverage in arid regions of Northwest China[J].Forest Resources Management,2017(1):118-126.]
[49]	王永森,马振民,徐征和.基于瑞利分馏模式的水体蒸发线斜率模型[J].水科学进展,2011,22(6):795-800.[Wang Yongsen,Ma Zhenmin,Xu Zhenghe.Slope of evaporation Lines in a model based on Rayleigh fractionation formula[J].Advances in Water Science,2011,22(6):795-800.]

Contribution of Moisture Recycling to Precipitation in the Arid Region in Northwest China Based on LMDZ Model

PDF (PC)

Like

Knowledge

Abstract

Cite this article

share this article

References 49

Related Articles 0

Metrics

Comments

Recommended 0