Abstract
The process of evaporation from the lake surface is one of the main mechanisms in the energy and water budgets of the lake hydrologic cycle, and an essential component of the water balance especially for inland lakes. In this study, using routine meteorological data as input, a one-layer potential evaporation model was employed to simulate evaporation and energy fluxes over Lake Yamdrok Yumco, the largest high-elevation inland lake in the mountain area of the Tibet-Himalaya in China. Then, the calculation results were compared with the measured values from a big pan evaporator of 20 m2 near the lake. The results show that the average annual input radiation flux R ↓ is 128.2 W m−2, the lake storage heat flux G is 19.4 W m−2, the sensible heat flux H is 20.4 W m−2 and the latent heat flux lE is 107.8 W m−2. The R ↓ and G exhibit similar seasonal variations. The lE reaches a maximum in October, lagging nearly 4 months behind the R ↓ and the G, which indicates the large heat capacity of the lake. The simulated annual evaporation ranges from 1,113.2 to 1,429.1 mm and its mean value is 1,252.5 mm during 1961–2005. The simulated annual evaporation is in good agreement with the measured value, and the measured average lake temperature is as expected when compared with the measured lake surface temperature.
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References
Brutsaert W (1982) Evaporation into the atmosphere. D. Reidel Publishing Company, Holland, pp 5–299
Chen GC, Huang ZW (2002) Characteristics of wetland and its conservation in the Qinghai Plateau. J Glaciol Geocryol 24(3):254–259 (in Chinese)
Chen SB, Liu YF, Thomas A (2006) Climatic change on the Tibetan Plateau: potential evapotranspiration trends from 1961–2000. Clim Chang 76:291–319
Du J (2001) Recent change of air temperature for 40 years in Qinghai-Xizang Plateau. Acta Geogr Sin 56(6):682–690 (in Chinese)
Du J, Ma YC (2004) Climatic trend of rainfall over Tibetan Plateau from 1970–2000. Acta Geogr Sin 59(3):375–382 (in Chinese)
Gianniou SK, Antonopoulos VZ (2007) Evaporation and energy budget in lake Vegoritis, Greece. J Hydrol 345:212–223
Guo N, Zhang J, Liang Y (2003) Climate change indicated by the recent change of inland lakes in Northwest China. J Glaciol Geocryol 25(2):211–214 (in Chinese)
IPCC (2007) Climate change 2007: the physical science basis, summary for policy makers. Contribution of Working Group 1 to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, WMO, UNEP, 18 pp
Jiang JH, Huang Q (2004) Distribution and variation of lakes in Tibetan Plateau and their comparison with lakes in other part of China. Water Res Prot (6):24–27 (in Chinese)
Jin XC, Liu SK, Zhang ZS, Tu QY, Xu NN (1995) The Lake Yamzho Yumco. In: Research of lakes environment in China (3). Ocean Press, Beijing, pp 114–130 (in Chinese)
Kondo J (1994) Meteorology of the water environment–water and heat balance of the Earth’s surface. Asakura Shoten Press, Japan, pp 6–348 (in Japanese)
Kondo J, Kuwagata T (1992) Hydrological climate in Japan (1): radiation and evaporation from shallow lakes. J Jpn Soc Hydrol Water Res 5:13–27 (in Japanese)
Kondo J, Xu JQ (1997) Seasonal variations in the heat and water balances for non-vegetated surfaces. J Appl Meteorol 36:1676–1695
Li WC, Li SJ, Pu PM (2001) Estimates of plateau lake evaporation: a case study of Zige Tangco. J Lake Sci 13(3):227–232 (in Chinese)
Liu JS, Fukusima Y, Hiyama T (1999) Hydrological response of meltwater from glacier covered watersheds to the climatic change in the Northwest China. Int Assoc Hydrol Sci 256:193–207
Liu JS, Hayakawa N, Lu MJ, Dong SH, Yuan JY (2003a) Hydrological and geocryological response of winter streamflow to climate warming in Northeast China. Cold Reg Sci Technol 37:15–24
Liu JS, Hayakawa N, Lu MJ, Dong SH, Yuan JY (2003b) Winter streamflow, ground temperature and active-layer thickness in Northeast China. Permafr Periglac 14(1):11–18
Liu JS, Wang SY, Huang YY (2007) Effect of climate change on runoff in a basin with mountain permafrost, Northwest China. Permafr Periglac 18:367–377
Liu JS, Wang SY, Yu SM, Yang DQ, Zhang L (2009) Climate warming and growth of high-elevation inland lakes on the Tibetan Plateau. Glob Planet Chang 67:209–217
Lu AX, Yao TD, Wang LH (2005) Study on the fluctuations of typical glaciers and lakes in the Tibetan Plateau using remote sensing. J Glaciol Geocryol 27(6):783–792 (in Chinese)
Lu AX, Wang LH, Yao TD (2006) The study of Yamzho Lake and Chenco Lake variation using remote sensing in Tibetan Plateau from 1970 to 2000. Remote Sens Technol Appl 21(3):173–177 (in Chinese)
Luosang L (2005) Utilization and protection of water resources in the Qinghai-Tibet Plateau. Res Sci 27(2):23–27 (in Chinese)
Momii K, Ito Y (2008) Heat budget estimates for Lake Ikeda, Japan. J Hydrol 361:362–370
Morrill C (2004) The influence of Asian summer monsoon variability on the water balance of a Tibetan lake. J Paleolimnol 32:273–286
Qin BQ (1993) The response of interior lakes to climate change in central Asia. J Lake Sci 5(2):118–127 (in Chinese)
Qin DH, Chen Y, Li X (2005) Climate and environmental changes in China. Science Press, Beijing, pp 104–181
Shi CX (1984) Model determination of water evaporation. Sci Geogr Sin 4:1–10 (in Chinese)
Shi YF, Shen YP, Zhang GW, Ding YJ, Li D et al (2003) An assessment of the issue of climatic shift from the warm-dry into warm-wet in Northwest China. Meteorological Press, Beijing, pp 7–55 (in Chinese)
Sun DP, Li BX, Ma YH, Liu QZ (2002) An investigation on evaporation experiments for Qinghai Lake water, China. J Salt Lake Res 04(10):1–12
Suzuki R, Xu JQ, Motoya K (2006) Global analyses of satellite-derived vegetation index related to climatologically wetness and warmth. Int J Climatol 26:425–438
Tang GP, Li XB, Liu YH (2000) Assessment method of vulnerability of water resources under global climate change. Adv Earth Sci 15(3):313–317 (in Chinese)
Wang CH, Dong WJ (2001) Abnormal characteristics of interannual variation in seasonally frozen ground, Qinghai-Xizang Plateau. Acta Geogr Sin 56(5):523–531 (in Chinese)
Wang SM, Dou HS (1998) The lake records in Qinghai-Tibet Plateau. In: Lakes in China. Science Press, Beijing, China, pp 340–401 (in Chinese)
Wei Z, Huang RH, Dong WJ (2003) Interannual and interdecadal variations of air temperature and precipitation over the Tibetan Plateau. Atmos Sci 27(2):157–170 (in Chinese)
Winter TC (1981) Uncertainties in estimating of water balances of lakes. Water Resour Res 17:82–115
Winter TC, Rosenberry DO, Sturrock AM (1995) Evaluation of 11 equations for determining evaporation for a small lake in north central United States. Water Resour Res 31:983–993
Wu HZ, Jiang QG, Cheng B (2007) Study of dynamic changes of lakes in Qinghai-Tibet Plateau based on remote sensing and GIS. Glob Geol 26(1):66–70
Xu J (2001) An analysis of climatic changes in eastern Asia using the potential evaporation. J Jpn Soci Hydrol Water Resour 14(2):151–170 (in Japanese)
Xu J, Haginoya S (2001) An estimation of heat and water balances in the Tibetan Plateau. J Meteorol Soc Jpn 79:485–504
Xu J, Haginoya S, Saito K, Motoya K (2005) Surface heat balance and pan evaporation trends in eastern Asia in the period 1971–2000. Hydrol Process 19:2161–2186
Yao TD, Zhu LP (2006) The response of environmental changes on Tibetan Plateau to global changes and adaptation strategy. Adv Earth Sci 21(5):459–464
Yu G, Lai GY, Xue B, Liu XM, Wang SM, Wang AJ (2004) Preliminary study on the responses of lake water from the western China to climate change in the future-Monte Carlo analysis applied in GCM simulations and lake water changes. J Lake Sci 16(3):193–202 (in Chinese)
Zhou YW, Wang YX, Gao XW, Yue HS (1996) Ground temperature, frozen ground distribution and climate warming in Northeast China. J Glaciol Geocryol 18:139–147 (in Chinese)
Zhou YW, Guo DX, Qiu GQ, Cheng GD, Li SJ (2000) Geocryology in China. Science Press, Beijing, pp 9–218 (in Chinese)
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This study was supported by the “National Basic Research Program of China” (No. 2007CB-411503), and jointly by the National Natural Science Foundation of China (40571037, 40561002).
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Yu, S., Liu, J., Xu, J. et al. Evaporation and energy balance estimates over a large inland lake in the Tibet-Himalaya. Environ Earth Sci 64, 1169–1176 (2011). https://doi.org/10.1007/s12665-011-0933-z
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DOI: https://doi.org/10.1007/s12665-011-0933-z