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W2891051929 startingPage "576" @default.
W2891051929 abstract "Abstract Net Surface Heat Flux (SurHF) was estimated from 2008 to 2014 for Lake Geneva (Switzerland/France), using long‐term temperature depth profiles at two locations, hourly maps of reanalysis meteorological data from a numerical weather model and lake surface water temperatures from calibrated satellite imagery. Existing formulas for different heat flux components were combined into 54 different total SurHF models. The coefficients in these models were calibrated based on SurHF optimization. Four calibration factors characterizing the incoming long‐wave radiation, sensible, and latent heat fluxes were further investigated for the six best performing models. The combination of the modified parameterization of the Brutsaert equation for incoming atmospheric radiation and of similarity theory‐based bulk parameterization algorithms for latent and sensible surface heat fluxes provided the most accurate SurHF estimates. When optimized for one lake temperature profile location, SurHF models failed to predict the temperature profile at the other location due to the spatial variability of meteorological parameters between the two locations. Consequently, the optimal SurHF models were calibrated using two profile locations. The results emphasize that even relatively small changes in calibration factors, particularly in the atmospheric emissivity, significantly modify the estimated long‐term heat content. The lack of calibration can produce changes in the calculated heat content that are much higher than the observed annual climate change‐induced trend. The calibration improved parameterization of bulk transfer coefficients, mainly under low wind regimes." @default.
W2891051929 created "2018-09-27" @default.
W2891051929 creator A5003640361 @default.
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W2891051929 creator A5078218950 @default.
W2891051929 date "2018-09-01" @default.
W2891051929 modified "2023-10-01" @default.
W2891051929 title "Improving surface heat flux estimation for a large lake through model optimization and two-point calibration: The case of Lake Geneva" @default.
W2891051929 cites W137429588 @default.
W2891051929 cites W144245827 @default.
W2891051929 cites W1541895385 @default.
W2891051929 cites W1612806847 @default.
W2891051929 cites W1963519550 @default.
W2891051929 cites W1966485432 @default.
W2891051929 cites W1977473342 @default.
W2891051929 cites W1979713577 @default.
W2891051929 cites W1979946366 @default.
W2891051929 cites W1980879414 @default.
W2891051929 cites W1981184430 @default.
W2891051929 cites W1985479415 @default.
W2891051929 cites W1988106884 @default.
W2891051929 cites W1996614439 @default.
W2891051929 cites W2006411157 @default.
W2891051929 cites W2006957544 @default.
W2891051929 cites W2007798682 @default.
W2891051929 cites W2014301867 @default.
W2891051929 cites W2015958947 @default.
W2891051929 cites W2016207493 @default.
W2891051929 cites W2018481461 @default.
W2891051929 cites W2029604075 @default.
W2891051929 cites W2031682224 @default.
W2891051929 cites W2032587861 @default.
W2891051929 cites W2032946827 @default.
W2891051929 cites W2034857520 @default.
W2891051929 cites W2036684388 @default.
W2891051929 cites W2037091685 @default.
W2891051929 cites W2037290374 @default.
W2891051929 cites W2044782229 @default.
W2891051929 cites W2046431283 @default.
W2891051929 cites W2049790355 @default.
W2891051929 cites W2050830013 @default.
W2891051929 cites W2056197517 @default.
W2891051929 cites W2056752932 @default.
W2891051929 cites W2057255949 @default.
W2891051929 cites W2063580742 @default.
W2891051929 cites W2067997102 @default.
W2891051929 cites W2068320417 @default.
W2891051929 cites W2069230747 @default.
W2891051929 cites W2076292572 @default.
W2891051929 cites W2078783038 @default.
W2891051929 cites W2079090138 @default.
W2891051929 cites W2082428244 @default.
W2891051929 cites W2082679430 @default.
W2891051929 cites W2088124346 @default.
W2891051929 cites W2088366961 @default.
W2891051929 cites W2089132141 @default.
W2891051929 cites W2096045964 @default.
W2891051929 cites W2100262438 @default.
W2891051929 cites W2104345346 @default.
W2891051929 cites W2105118753 @default.
W2891051929 cites W2105357967 @default.
W2891051929 cites W2105440644 @default.
W2891051929 cites W2111670325 @default.
W2891051929 cites W2114110041 @default.
W2891051929 cites W2116485546 @default.
W2891051929 cites W2124738823 @default.
W2891051929 cites W2124998673 @default.
W2891051929 cites W2126080245 @default.
W2891051929 cites W2130130337 @default.
W2891051929 cites W2133515128 @default.
W2891051929 cites W2143538887 @default.
W2891051929 cites W2144514335 @default.
W2891051929 cites W2145265754 @default.
W2891051929 cites W2154920344 @default.
W2891051929 cites W2159584828 @default.
W2891051929 cites W2159923592 @default.
W2891051929 cites W2162123553 @default.
W2891051929 cites W2162906470 @default.
W2891051929 cites W2168765514 @default.
W2891051929 cites W2169101462 @default.
W2891051929 cites W2175558636 @default.
W2891051929 cites W2177869760 @default.
W2891051929 cites W2321346416 @default.
W2891051929 cites W2530779370 @default.
W2891051929 cites W2587107519 @default.
W2891051929 cites W2588701858 @default.
W2891051929 cites W2594168805 @default.
W2891051929 cites W2795742232 @default.
W2891051929 doi "https://doi.org/10.1002/lom3.10267" @default.
W2891051929 hasPublicationYear "2018" @default.
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