High elevation energy and water balance: The role of surface albedo

MENENTI Massimo; JIA Li; MANCINI Marco; LI Xin; PELLICCIOTTI Francesca; YANG Kun; SHI Jancheng; ESCORIHUELA Maria Jose; CORBARI Chiara; REN Shaoting; MA Chunfeng; LIU Lian; SHAW Thomas; DING Baohong; YANG Wei

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High elevation energy and water balance: The role of surface albedo
High elevation energy and water balance: The role of surface albedo
2020年24卷第S1期页码：140-146
纸质出版：2020-06-07
DOI：
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High elevation energy and water balance: The role of surface albedo[J]. 遥感学报, 2020,24(S1):140-146. DOI：

Menenti M,Jia L,Mancini M,Li X,Pellicciotti F,Yang K,Shi J C,Escorihuela M J,Corbari C,Ren S T, Ma C F, Liu L, Shaw T, Ding B H and Yang W. 2020. High elevation energy and water balance: The role of surface albedo. Journal of Remote Sensing(Chinese). 24(S1): 140-146 DOI：

摘要

Abstract

Observation and modelling of the coupled energy and water balance is the key to understand hydrospheric and cryospheric processes at high elevation. The paper summarizes the progress to address this aspect in relation with different earth system elements

from glaciers to wetlands. The energy budget of two glaciers

i.e. Xiao Dongkemadi and Parlung No. 4

was studied by means of extended field measurements and a distributed model of the coupled energy and mass balance was developed and evaluated. The need for an accurate characterization of surface albedo was further documented for the entire Qinghai Tibet Plateau by numerical experiments with Weather Research and Forecast (WRF) on the sensitivity of the atmospheric boundary layer to the parameterization of land surface processes. A new approach to the calibration of a coupled distributed watershed model of the energy and water balance was demonstrated by a case – study on the Heihe River Basin in North West China. The assimilation of land surface temperature did lead to retrieval of critical soil and vegetation properties as the soil permeability and the canopy resistance to the exchange of vapour and carbon dioxide. The retrievals of actual Evapo – Transpiration (ET) were generated by the ETMonitor system and evaluated against eddy covariance measurements at sites spread throughout Asia. As regards glacier response to climate variability

the combined findings based on satellite data and model experiments showed that the spatial variability of surface albedo and temperature is significant and controls both glacier mass balance and flow. Experiments with both atmospheric and hydrosphere – cryosphere models documented the need and advantages of using accurate retrievals os land surface albedo to capture land – atmosphere interactions at high elevation.

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references

Chen Q.T. , Jia L. , Menenti M. , Hutjes R. , Hu G.C. , Zheng C.L. , Wang K . 2019 . A Numerical Analysis of Aggregation Error in Evapotranspiration Estimates Due to Heterogeneity of Soil Moisture and Leaf Area Index . Agriculture and Forest Meteorology , 269 - 270 , 335 - 350 . doi: https://doi.org/10.1016/j.agrformet.2019.02.017 https://doi.org/10.1016/j.agrformet.2019.02.017

Chen W. , Shen H. , Huang , and LiC , X 2017 . Improving soil moisture estimation with a dual ensemble Kalman smoother by jointly assimilating AMSR-E brightness temperature and MODIS LST , Remote Sensing, vol. 9 , no. 3 , pp. 273

Corbari C , Ravazzani G and Mancini M 2011 . A distributed thermodynamic model for energy and mass balance computation: FEST-EWB . Hydrological Processes . 25 , 1443 - 1452

Corbari C. , and Mancini , M 2014 . Calibration and validation of a distributed energy water balance model using satellite data of land surface temperature and ground discharge measurements , J. Hydrometeor., 15 , 376 - 392

Corbari C. , Mancini M. , Li J. , and Su Z . 2015 . Can satellite land surface temperature data be used similarly to ground discharge measurements for distributed hydrological model calibration?, Hydrol . Sci. J. , 60 ( 2 ), 202 - 217

Ding B. , Yang K. , Yang W. , He X. , Chen Y. , Lazhu , Guo X. , Wang L. , Wu H . and Yao T 2017 . Development of a Water and Enthalpy Budget-based Glacier mass balance Model (WEB-GM) and its preliminary validation , Water Resources Research, 53 ( 4 ): 3146 – 3178 . [ doi: 10.1002/2016WR018865 http://dx.doi.org/10.1002/2016WR018865 ]

Flanner M. G. , ZenderC. S. , Randerson and RaschJ. T. , P 2007 . Present day climate forcing and response from black carbon in snow, J . Geophys. Res. , 112 , D 11202 , [doi:10.1029/2006JD008003]

Gao Q. ; Makhoul E. ; Escorihuela M.J. ; Zribi M. ; Quintana Seguí P. ; García P. ; Roca M. , 2019 . Analysis of Retrackers' Performances and Water Level Retrieval over the Ebro River Basin Using Sentinel-3 . Remote Sens. Vol . 11 : 718

Han X. , Li X. , He P.G. , Kumbhar , Montzka C. , Kollet 1 , S .,

Miyoshi T. , Rosolem R. , Zhang Y. , Vereecken , and Franssen HH . -J . H 2015. DasPy 1.0 – the Open Source Multivariate Land Data Assimilation Framework in combination with the Community Land Model 4.5. Geoscientific Model Development Discussion. , 8 , 7395 - 7444 .

Jia L. , ZhengC. , Hu and MG.C. . Menenti,2018 . Chapter 4.03 - Evapotranspiration , In Comprehensive Remote Sensing, edited by Shunlin Liang,, Elsevier , Oxford, 2018 , Pages 25- 50, ISBN 97801 28032213, https://doi.org/10.1016/B978-0-12-409548-9.10353-7 https://doi.org/10.1016/B978-0-12-409548-9.10353-7

Li , ChengX. G. , LinH . et al ., , 2018 a . Watershed system modelthe essentials to model complex human‐nature system at the river basin scale , J . Geophys. Res. Atmosph..vol. 123 ( 6 ): 3019 - 3034

Li X. , ChengG. , GeY . et al. ,, 2018 b . Hydrological Cycle in the Heihe River Basin and Its Implication for Water Resource Management in Endorheic Basins , J . Geophys. Res. Atmosph.vol. 123 ( 2 ): 890 - 914

Liu L. , Ma Y. , Menenti M. , Zhang X . and Ma, W 2019 . Evaluation of WRF modeling in relation to different land surface schemes and initial and boundary conditions : A snow event simulation over the Tibetan Plateau. Journal of Geophysical Research: Atmospheres, Vol . 124 : 209 – 226 . https://doi.org/10.1029/2018JD029208 https://doi.org/10.1029/2018JD029208

Mancini , M 1990 . La modellazione distribuita della risposta idrologica: effetti della variabilità spaziale e della scala di rappresentazione del fenomeno dell'assorbimento . PhD dissertation , Politecnico di Milano, Milan , Italy (in italian).

Merlin O. , Escorihuela M. J. , Mayoral M. A. , Hagolle O. , BitarAl , and KerrA , Y 2013 . Self-calibrated evaporation-based disaggregation of SMOS soil moisture: An evaluation study at 3 km and 100 m resolution in Catalunya, Spain . Remote sensing of environment , 130 , 25 - 38 .

Pan X. , Li X. , Cheng , and HongG , Y 2017 . Effects of 4D-Var Data Assimilation Using Remote Sensing Precipitation Products in a WRF Model over the Complex Terrain of an Arid Region River Basin, Remote Sensing, vol . 9 , no. 9 , pp. 963 .

Petzold D. E. , 1977 . An estimation technique for snow surface albedo, Climatol . Bull. McGill Univ. , 21 , 1 – 11

Ravazzani G. , Mancini M. , Giudici , and AmadioI , P 2007 . Effects of soil moisture parameterization on a real- time flood forecasting system based on rainfall thresholds . In: Quantification and Reduction of Predictive Uncertainty for Sustainable Water Resources Management (Proceedings of Symposium HS2004 at IUGG2007 , Perugia, July 2007, PublIAHS. 313, 407 - 416 .

Ren S. , Menenti , and JiaM , L 2019 . Study on the driving factors for glacier thickness change patterns over Eastern and Western Nyainqentanglha Mountains using Landsat series satellite observations, ESA Living Planet Symposium 2019 .

Tian W. , Li X. , Cheng G. , Wang X. , and Hu , B 2012 . Coupling a groundwater model with a land surface model to improve water and energy cycle simulation , Hydrology and Earth System Sciences, vol. 16 , no. 12 , pp. 4707 - 4723 .

Wu K. , Liu S. , Jiang Z. , Xu J. , Wei , and Guo WJ 2018 . Recent glacier mass balance and area changes in the Kangri Karpo Mountains from DEMs and glacier inventories, CryosphereThe, vol. 12 , no. 1 , pp. 103 - 121 .

Yang D. , Gao B. , Jiao Y. , Lei H. , Zhang Y. , Yang , and CongH , Z 2015 . A distributed scheme developed for eco-hydrological modeling in the upper Heihe River , Science China Earth Sciences, vol. 58 , no. 1 , pp. 36 - 45 .

Zhang J. X. , JiaL. , Menenti and GM. . C . Hu ,. 2019 . Glacier Facies Mapping Using a Machine-Learning Algorithm: The Parlung Zangbo Basin Case Study. Remote Sensing, 11 , 452

Zhang J. , JiaL. , MenentiM. , RenS. , ZhangJ. , ( 2019 ). Glacier Velocity Measurements with Landsat-8 OLI Data: Case study on Yanong Glacier in Tibetan Plateau of China . IGARSS

Zhang Y. , Cheng G. , Li X. , Han X. , Wang L. , Li H. , Chang , and Flerchinger GX 2013 . Coupling of a simultaneous heat and water model with a distributed hydrological model and evaluation of the combined model in a cold region watershed, ProcessesHydrological, vol. 27 , no. 25 , pp. 3762 - 3776 .

Zhang Y. , Hou J. , Gu J. , Huang C and Li , X 2017 . SWAT‐Based Hydrological Data Assimilation System (SWAT‐HDAS) : Description and Case Application to River Basin‐Scale Hydrological Predictions, Journal of Advances in Modeling Earth Systems, vol . 9 , no. 8.

MENENTI Massimoet al . High elevation energy and water balance: the role of surface albedo

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