Details

Title

Impact of reflecting land surface on radiation environment over Hornsund, Spitsbergen – a model study for cloudless skies

Journal title

Polish Polar Research

Yearbook

2017

Volume

vol. 38

Numer

No 2

Publication authors

Keywords

aerosol radiative forcing ; Arctic ; fjord ; irradiance transmittance ; Monte Carlo modelling ; nadir radiance ; Svalbard

Divisions of PAS

Nauki o Ziemi

Coverage

149-174

Publisher

Committee on Polar Research ; Polish Academy of Sciences

Date

2017.07.27

Type

Artykuły / Articles

Identifier

ISSN 0138-0338 ; eISSN 2081-8262

References

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SZYMANOWSKI (2008), Preliminary results of GIS - based solar radiation model for Hornsund area The dynamics and mass budget of Arctic glaciers In : Extended abstracts of workshop and meeting IASC Working group on Arctic Institute of Marine Atmospheric Utrecht University, Austria Research, 29. ; PETKOV (2010), Ground - based observations of solar radiation at three Italian sites during the eclipse of of the environment impact on incoming global irradiance, Signs Atmospheric Research, 29, 96. ; ROZWADOWSKA (2012), The impact of a non - uniform land surface on the radiation environment over an Arctic fjord - a study with a radiative transfer model for stratus clouds over the Hornsund fjord, Oceanologia, 509. ; STYSZYŃSKA (2013), Results of Observations In eds Climate and Climate Change at Hornsund The Publishing House of Gdynia Maritime University, null, 321. ; BÉLANGER (2007), Impact of sea ice on the retrieval of water - leaving reflectance chlorophyll a concentration and inherent optical properties from satellite ocean color data of, Remote Sensing Environment, 111. ; KYLLING (2001), Ultraviolet radiation in partly snow covered terrain : observations and three - dimensional simulations, Geophysical Research Letters, 28, 3665. ; MARKOWICZ (2008), Observations and modeling of the surface aerosol radiative forcing during of the, Journal Atmospheric Sciences, 2877. ; RICCHIAZZI (1998), research and teaching software tool for plane - parallel radiative transfer in the Earth s atmosphere of the, Bulletin American Meteorological Society, 2101. ; HENYEY (1941), Diffuse radiation in the galaxy The, Astrophysical Journal, 93, 70. ; STEMPNIEWICZ (2013), Visual prey availability and distribution of foraging little auks ( Alle alle ) in the shelf waters of West, Polar Biology, 949. ; MARSHAK (2005), radiative transfer in cloudy atmospheres Verlag New York, null, 686. ; NIEDŹWIEDŹ (2013), cover at the Hornsund station In eds Climate and Climate Change at Hornsund The Publishing House of Gdynia Maritime University, null, 367. ; SPADA (2006), STAMMES application of the Equivalence Theorem in a Monte Carlo radiative transfer model for spherical shell atmospheres and, Atmospheric Chemistry Physics, 4823. ; LIOU (2007), transfer in mountains application to the Tibetan Plateau, Geophysical Research Letters, 23809. ; LENOBLE (2000), uence of the environment refl ectance on the ultraviolet zenith radiance for cloudless sky, Applied Optics, 39. ; STYSZYŃSKA (2007), Ice condition in Hornsund and its foreshore during winter season in Polish, null, 17, 147. ; ROZWADOWSKA (2002), Plane - parallel biases computed from inhomogeneous Arctic clouds and sea ice of, Journal Geophysical Research, 107. ; KYLLING (2000), Determination of an effective spectral surface albedo from ground - based global and direct UV irradiance measurement of, Journal Geophysical Research, 105. ; ALMEIDA (1991), Atmospheric aerosols Global climatology radiative characteristics Publishing, null, 561. ; CHOU (1992), solar radiation model for use in climate studies of the, Journal Atmospheric Sciences, 49. ; BERK (2003), Version Revision Users manual Air Force Research Laboratory, null, 1. ; THOMAS (2002), transfer in the atmosphere and ocean University, null, 517. ; KREUTER (2014), Solar irradiance in the heterogeneous albedo environment of the Arctic coast measurements a model study and, Atmospheric Chemistry Physics, 14, 5989. ; RICCHIAZZI (1998), Investigation of the effect of surface heterogeneity and topography on the radiation environment of Station with a hybrid radiative transfer model of, Journal Geophysical Research, 103. ; CHEN (2006), Application of three - dimensional solar radiative transfer to mountains of, Journal Geophysical Research, 111. ; MOSKALIK (2014), Principal Component and Cluster Analysis for determining diversifi cation of bottom morphology based on bathymetric profi les from Brepollen, Oceanologia, 56. ; DEGÜNTHER (1998), Case study of the influence of inhomogeneous surface albedo on UV irradiance, Geophysical Research Letters, 25, 3587. ; STYSZYŃSKA (2008), Ice condition in Hornsund and its foreshore during winter season in Polish, null, 18, 141.

DOI

10.1515/popore-2017-0008

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