Details

Title

Conditions influencing incoming global solar radiation in Hornsund (Spitsbergen) in spring 2015

Journal title

Polish Polar Research

Yearbook

2017

Numer

No 3

Publication authors

Divisions of PAS

Nauki o Ziemi

Publisher

Polish Academy of Sciences ; Committee on Polar Research

Date

2017

Identifier

ISSN 0138-0338 ; eISSN 2081-8262

References

HartmannD (1994), Global physical climatology Academic San, null, 411. ; ToledanoC (2012), deGalisteoJ Overview of sun photometer measurements of aerosol properties in Scandinavia, Atmospheric Environment, 52, 18. ; LipińskiO (2016), The role of atmospheric circulation in shaping total cloudiness over Spitsbergen in Polish, null, 1983. ; StyszyńskaA (2013), Solar radiation In eds Climate and climate change at Hornsund The publishing house of Gdynia Maritime University, null, 117. ; OhmuraA (1982), historical of studies on the balance of tundra of, review energy Arctic International Journal Climatology, 185. ; RozwadowskaA (2010), Variability in aerosol optical properties at, Oceanologia, 599. ; GavrilovaM (1963), Radiation Climate of the Leningrad in, Arctic, 225. ; SpinnangrG (1968), Global radiation and duration of sunshine in Northern Norway Meteor, null, 5, 66. ; PrzybylakR (2016), The climate of the, Arctic, 287. ; TomasiC (2007), Aerosols in polar regions historical overview based on optical depth and in situ observations of, and Journal Geophysical Research, 112. ; NiedźwiedźT (2016), catalogue of circulation types for Spitsbergen digital collection Department of Climatology University of, null. ; MatuszkoD (null), Sunshine duration in the European arctic based on the data from selected stations in the polar regions in Polish, null, 25, 2015. ; MarshunovaM (1971), Radiation Regime of the Foreign Leningrad in, Arctic, 182. ; QuinnP (2007), haze current trends knowledge gaps, Arctic Tellus, 99. ; NiedźwiedźT (2013), The atmospheric circulation In eds Climate and climate change at Hornsund The publishing house of Gdynia Maritime University, null, 57. ; GłowickiB (1985), Radiation conditions in the Hornsund area, Polish Polar Research, 301. ; LisokJ (null), iAREA campaign on aerosol in Spitsbergen Part Study of physical and chemical properties, Atmospheric Environment, 2016. ; SteinA (null), atmospheric transport and dispersion modelling system of the, Bulletin American Meteorological Society, 2015. ; MarszA (2013), and sunshine duration In eds Climate and climate change at Hornsund The publishing house of Gdynia Maritime University, null, 101. ; BudykoM (1971), Climate life Leningrad in, null, 470. ; RozwadowskaA (2008), Aerosol measurements in Hornsund during XXIX PAS Polar Expedition in Polish, null, 18, 161. ; KarasińskiG (2014), observations of volcanic dust over Polish Polar Station at Hornsund after eruptions of Eyjafjallajökull and, Acta Geophysica, 316. ; PakszysP (null), and Annual changes of aerosol optical depth and Ångström exponent over Spitsbergen In eds Impact of climate changes on marine environments Planetary, Earth Sciences, 2015. ; PrzybylakR (1992), Air temperature and humidity relations at Hornsund in the period on the background of atmospheric circulation in Polish, null, 2, 1978. ; OhmuraA (1981), Climate and balance of tundra Geographische Schriften, energy Arctic, 448. ; KotarbaA (2008), The satellite cloud climatology in above Svalbard in relation to atmospheric circulation conditions in Polish, null, 18, 127.

DOI

10.1515/popore-2017-0021

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