2024-03-28T21:05:22Zhttps://eprints.lib.hokudai.ac.jp/dspace-oai/requestoai:eprints.lib.hokudai.ac.jp:2115/730882023-08-08T17:00:33Zhdl_2115_20045hdl_2115_139Impacts of Snow Darkening by Deposition of Light-Absorbing Aerosols on Hydroclimate of Eurasia During Boreal Spring and SummerLau, William K. M.Sang, JeongKim, M. K.Kim, K. M.Koster, R. D.Yasunari, T. J.open accessCopyright 2018 American Geophysical Union.451In this study, we used the NASA GEOS-5 climate model to investigate the impact of snow darkening by deposition of light-absorbing aerosols on the hydroclimate of Eurasia during boreal spring and summer. Two sets of 10-member ensemble model integrations with prescribed sea surface temperature were carried out for 10 simulated years (2002-2011); one includes snow-darkening effects (SDE) by light-absorbing aerosols and one does not (NSDE). Differences between the two experiments in the hydroclimates over Eurasia were evaluated. Results show that SDE warming is most pronounced during the melting season due to strong snow-albedo feedback in the vicinity of the retreating seasonal snowline. SDE spurs a wet-first-dry-later modulation of the surface energy and water balances, characterized by an accelerated (days-to-weeks) snowmelt, accompanied by excessive runoff and a warming and wetting of the land (relative to NSDE) during the early melting season. The snowmelt is followed by a fast desiccation of the land during the late melting, and early warming season, and then a prolonged warmer and drier land, through the boreal summer. The prolonged warming is sustained by atmospheric conditions favorable for the development of atmospheric blocking, that is, higher middle-to-upper-tropospheric geopotential height, lower relative humidity, reduced cloudiness, and enhanced atmospheric subsidence. Overall, SDE by light-absorbing aerosols leads to a warmer and drier boreal summer hydroclimate, increasing the frequency of the top 5 and 1% extreme hot days (as defined by NSDE statistics) over western and northern Eurasia by approximately threefold and tenfold, respectively.American Geophysical Union2018-09-19engjournal articleVoRhttp://hdl.handle.net/2115/73088https://doi.org/10.1029/2018JD0285572169-897XJournal of geophysical research atmospheres1231684418461https://eprints.lib.hokudai.ac.jp/dspace/bitstream/2115/73088/2/Impacts%20of%20Snow%20Darkening%20by%20Deposition%20of%20Light-Absorbing%20Aerosols%20on%20Hydroclimate%20of%20Eurasia%20During%20Boreal%20Spring%20and%20Summer.pdfapplication/pdf10.9 MB2018-09-19https://eprints.lib.hokudai.ac.jp/dspace/bitstream/2115/73088/1/Supporting%20Information.pdfapplication/pdf1.75 MB2018-09-19