The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen)

The processes of heat- and mass transfer in Sveabukta Bay sea ice cover during Spring 2010 the particularity of which is conditioned by pollution from open coal storages situated on shore have been studied. Typical features of land fast ice radiation and thermodynamic properties were described and e...

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Published in:Ice and Snow
Main Authors: P. Bogorodsky V., A. Makshtas P., A. Marchenko V., V. Kustov Yu., П. Богородский В., А. Макштас П., А. Марченко В., В. Кустов Ю.
Format: Article in Journal/Newspaper
Language:Russian
Published: IGRAS 2015
Subjects:
Coal particles;contamination;heat- and mass transfer;land fast-ice;melting
Загрязнение;припайный лёд;таяние;частицы угля;энерго- и массоперенос
Van Mijenfjorden
Sveabukta
Annals of Glaciology
Arctic
Polar Research
Sea ice
Spitsbergen
Online Access:https://ice-snow.igras.ru/jour/article/view/29
https://doi.org/10.15356/2076-6734-2014-1-91-100
id ftjias:oai:oai.ice.elpub.ru:article/29
record_format openpolar
institution Open Polar
collection Ice and Snow (E-Journal)
op_collection_id ftjias
language Russian
topic Coal particles;contamination;heat- and mass transfer;land fast-ice;melting
Загрязнение;припайный лёд;таяние;частицы угля;энерго- и массоперенос
spellingShingle Coal particles;contamination;heat- and mass transfer;land fast-ice;melting
Загрязнение;припайный лёд;таяние;частицы угля;энерго- и массоперенос
P. Bogorodsky V.
A. Makshtas P.
A. Marchenko V.
V. Kustov Yu.
П. Богородский В.
А. Макштас П.
А. Марченко В.
В. Кустов Ю.
The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen)
topic_facet Coal particles;contamination;heat- and mass transfer;land fast-ice;melting
Загрязнение;припайный лёд;таяние;частицы угля;энерго- и массоперенос
description The processes of heat- and mass transfer in Sveabukta Bay sea ice cover during Spring 2010 the particularity of which is conditioned by pollution from open coal storages situated on shore have been studied. Typical features of land fast ice radiation and thermodynamic properties were described and estimates for vertical distribution of coal particles concentration within ice body were obtained. The coal particles were shown to serve as tracers of transfer processes in the sea ice thickness. It was revealed that the integral value of the absorbed solar radiation (shortwave radiation balance) is virtually independent of the features of the incoming solar radiation spectrum and the spectral dependence of the reflectivity of the ice cover of various contaminations. For computation of fast ice evolution characteristics the conceptual thermodynamic model which describes melting processes in the obvious form was used. According to calculations the melt pond forming on dirty ice under typical meteorological conditions begins one – three weeks earlier than that of clear ice depending on degree of contamination characterized by reflective ability of underlying surface. With decreasing of albedo the temperature of melt rises despite the fact that due to time difference the melting of clear ice occurs at higher temperatures. Анализируются результаты исследований таяния загрязнённого углём припая бухты Свеабукта залива Ван-Майен-фьорд (о. Западный Шпицберген), выполненных весной 2010 г. Приведены радиационные и термодинамические характеристики припайного льда, обусловленные осаждением частиц угля на его поверхность. Установлено, что интегральная величина поглощённой солнечной радиации (коротковолновый радиационный баланс) практически не зависит от особенностей спектра приходящей солнечной радиации. С помощью концептуальной термодинамической модели рассчитаны характеристики эволюции чистого и загрязнённого ледяного покрова. Показано, что при наблюдавшихся атмосферных условиях в зависимости от степени загрязнения льда сроки ...
format Article in Journal/Newspaper
author P. Bogorodsky V.
A. Makshtas P.
A. Marchenko V.
V. Kustov Yu.
П. Богородский В.
А. Макштас П.
А. Марченко В.
В. Кустов Ю.
author_facet P. Bogorodsky V.
A. Makshtas P.
A. Marchenko V.
V. Kustov Yu.
П. Богородский В.
А. Макштас П.
А. Марченко В.
В. Кустов Ю.
author_sort P. Bogorodsky V.
title The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen)
title_short The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen)
title_full The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen)
title_fullStr The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen)
title_full_unstemmed The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen)
title_sort role of coal pollution in intensification of the fast ice melting in the sveabukta bay (van mijenfjorden, spitsbergen)
publisher IGRAS
publishDate 2015
url https://ice-snow.igras.ru/jour/article/view/29
https://doi.org/10.15356/2076-6734-2014-1-91-100
long_lat ENVELOPE(14.667,14.667,77.717,77.717)
ENVELOPE(16.683,16.683,77.883,77.883)
geographic Van Mijenfjorden
Sveabukta
geographic_facet Van Mijenfjorden
Sveabukta
genre Annals of Glaciology
Arctic
Polar Research
Sea ice
Van Mijenfjorden
Spitsbergen
genre_facet Annals of Glaciology
Arctic
Polar Research
Sea ice
Van Mijenfjorden
Spitsbergen
op_source Ice and Snow; Том 54, № 1 (2014); 91-100
Лёд и Снег; Том 54, № 1 (2014); 91-100
2412-3765
2076-6734
10.15356/2076-6734-2014-1
op_relation Bogorodsky P.V., Phyushkov A.V. Influence of snow puddles on the formation of multiyear sea ice cover. Okeanologiya. Oceanology. 2011, 51 (2): 224–231. [In Russian].
Makshtas A.P. Teplovoy balans arkticheskikh l’dov v simniy period. Thermal balance of Arctic ice in the winter period. Leningrad: Hydrometeoizdat, 1984: 66 p. [In Russian].
Marchenko A.V., Morozov E.G., Muzylev S.V., Shestov A.S. Interaction of short internal waves with ice cover in Arctic fjord. Okeanologiya. Oceanology. 2010, 50 (1): 22–31. [In Russian].
Nazintsev Yu.L., Panov V.V. Fazovyi sostav i teplofizichskie kharakteristiki morskogo l’da. Phase composition and thermal physical characteristics of sea ice. St.-Petersburg: Hydrometeoizdat, 2000: 83 p. [In Russian].
Aamaas B., Bøggild C.E., Stordal F., Berntsen T., Holmen K., Storm J. Elemental carbon deposition to Svalbard snow from Norwegian settlements and long-range transport. Tellus. 2011, 63B: 340–351.
Barber D.G., Yackel J. The physical, radiative and microwave scattering characteristics of melt ponds on Arctic land fast sea ice. Intern. Journ. of Remote Sensing. 1999, 20: 2069–2090.
Bøggild C.E., Lüthje M., Holmes J. Albedo observations with large concentrations of black carbon in High Arctic snow packs from Svalbard. Proc. 64th Eastern Snow Conf. St. John’s, Newfaundland, Canada: 217–222.
Cottier F.R., Nilsen F., Skogseth R., Tverberg V., Skardhamar J., Svendsen H. Arctic fjords: a review of the oceanographic environment and dominant physical processes. Fjord Systems and Archives. № 344. Eds J.A. Howe, W.E.N. Austin, M. Forwick, M. Paetzel. London: Published by The Geological Society, 2010: 35–50.
Gerland S., Hall R. Variability of fast ice thickness in Spitsbergen fjords. Annals of Glaciology. 2006, 44: 231–239.
Golden K.M., Eicken H., Heaton A.L., Miner J., Pringle D.J., Zhu J. Thermal evolution of permeability and microstructure in sea ice. Geophys. Research Letters. 2007, 34: L16501. doi:10.1029/2007GL030447
Grenfell T.C., Perovich D.K. Seasonal and spatial evolution of albedo in a snow-ice-land-ocean environment. Journ. of Geophys. Research. 2004, 109: C01001. doi:10.1029/2003JC001866
Høyland K.V. Ice thickness, growth and salinity in Van Mijenfjorden, Svalbard, Norway. Polar Research. 2009, 28 (3): 339–352.
Jaedicke C. Snow drift losses from an Arctic catchment on Spitsbergen: an additional processes in the water balance. Cold. Res. Sci. Technol. 2002, 34: 1–10.
Marchenko A., Langen I., Shestov A. Hydrological characteristics of a narrow and shallow part of Van Mijen fjord on Spitsbergen. Proc. of the 21th Intern. Conf. on Port and Ocean Engineering under Arctic Conditions POAC-11. Montreal, Canada, June 10–14. 2011, POAC11-148.
Marchenko A., Shestov A., Karulin E., Morozov E., Karulina M., Bogorodsky P., Muzylev S., Onishchenko D., Makshtas A. Field studies of sea water and ice properties in Svalbard fjords. Proc. of the 21th Intern. Conf. on Port and Ocean Engineering under Arctic Conditions POAC-11. Montreal, Canada, June 10–14. 2011, POAC11-148.
Reimann S., Kallenborn R., Schmidbauer N. Severe aromatic hydrocarbon pollution in the Arctic Town of Longyearbyen (Svalbard) caused by snowmobile emissions. Environmental Science Technology. 2009, 43: 4791–4795.
Taylor P.D., Feltham D.L. A model of melt pond evolution on sea ice. Journ. of Geophys. Research. 2004, 109: C12007. doi.10.1029/2004JC002361
Yackel J., Hanesiak J., Barber D.G. Melt ponds on sea ice in the Canadian Arctic Archipelago. Pt. 1 – Variability in morphology and surface radiation. Journ. of Geophys. Research. Oceans. 2000, 105: 22049–22060.
http://rp5.ru. Архив погоды в Свальбарде (аэропорт) за 2009–2010 гг.
http://www.met.no. High resolution icecharct 2009–2010.
https://ice-snow.igras.ru/jour/article/view/29
doi:10.15356/2076-6734-2014-1-91-100
op_rights Authors who publish with this journal agree to the following terms:Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).
Авторы, публикующие статьи в данном журнале, соглашаются на следующее:Авторы сохраняют за собой авторские права и предоставляют журналу право первой публикации работы, которая по истечении 6 месяцев после публикации автоматически лицензируется на условиях Creative Commons Attribution License , что позволяет другим распространять данную работу с обязательным сохранением ссылок на авторов оригинальной работы и оригинальную публикацию в этом журнале.Редакция журнала будет размещать принятую для публикации статью на сайте журнала до выхода её в свет (после утверждения к печати редколлегией журнала). Авторы также имеют право размещать их работу в сети Интернет (например в институтском хранилище или персональном сайте) до и во время процесса рассмотрения ее данным журналом, так как это может привести к продуктивному обсуждению и большему количеству ссылок на данную работу (См. The Effect of Open Access).
op_rightsnorm CC-BY
op_doi https://doi.org/10.15356/2076-6734-2014-1-91-100
https://doi.org/10.15356/2076-6734-2014-1
https://doi.org/10.1029/2007GL030447
https://doi.org/10.1029/2003JC001866
container_title Ice and Snow
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spelling ftjias:oai:oai.ice.elpub.ru:article/29 2023-05-15T13:29:51+02:00 The role of coal pollution in intensification of the fast ice melting in the Sveabukta bay (Van Mijenfjorden, Spitsbergen) Роль угольного загрязнения в интенсификации таяния припайного льда в бухте Свеабукта (залив Ван-Майен-фьорд, о. Западный Шпицберген) P. Bogorodsky V. A. Makshtas P. A. Marchenko V. V. Kustov Yu. П. Богородский В. А. Макштас П. А. Марченко В. В. Кустов Ю. 2015-03-25 https://ice-snow.igras.ru/jour/article/view/29 https://doi.org/10.15356/2076-6734-2014-1-91-100 ru rus IGRAS Bogorodsky P.V., Phyushkov A.V. Influence of snow puddles on the formation of multiyear sea ice cover. Okeanologiya. Oceanology. 2011, 51 (2): 224–231. [In Russian]. Makshtas A.P. Teplovoy balans arkticheskikh l’dov v simniy period. Thermal balance of Arctic ice in the winter period. Leningrad: Hydrometeoizdat, 1984: 66 p. [In Russian]. Marchenko A.V., Morozov E.G., Muzylev S.V., Shestov A.S. Interaction of short internal waves with ice cover in Arctic fjord. Okeanologiya. Oceanology. 2010, 50 (1): 22–31. [In Russian]. Nazintsev Yu.L., Panov V.V. Fazovyi sostav i teplofizichskie kharakteristiki morskogo l’da. Phase composition and thermal physical characteristics of sea ice. St.-Petersburg: Hydrometeoizdat, 2000: 83 p. [In Russian]. Aamaas B., Bøggild C.E., Stordal F., Berntsen T., Holmen K., Storm J. Elemental carbon deposition to Svalbard snow from Norwegian settlements and long-range transport. Tellus. 2011, 63B: 340–351. Barber D.G., Yackel J. The physical, radiative and microwave scattering characteristics of melt ponds on Arctic land fast sea ice. Intern. Journ. of Remote Sensing. 1999, 20: 2069–2090. Bøggild C.E., Lüthje M., Holmes J. Albedo observations with large concentrations of black carbon in High Arctic snow packs from Svalbard. Proc. 64th Eastern Snow Conf. St. John’s, Newfaundland, Canada: 217–222. Cottier F.R., Nilsen F., Skogseth R., Tverberg V., Skardhamar J., Svendsen H. Arctic fjords: a review of the oceanographic environment and dominant physical processes. Fjord Systems and Archives. № 344. Eds J.A. Howe, W.E.N. Austin, M. Forwick, M. Paetzel. London: Published by The Geological Society, 2010: 35–50. Gerland S., Hall R. Variability of fast ice thickness in Spitsbergen fjords. Annals of Glaciology. 2006, 44: 231–239. Golden K.M., Eicken H., Heaton A.L., Miner J., Pringle D.J., Zhu J. Thermal evolution of permeability and microstructure in sea ice. Geophys. Research Letters. 2007, 34: L16501. doi:10.1029/2007GL030447 Grenfell T.C., Perovich D.K. Seasonal and spatial evolution of albedo in a snow-ice-land-ocean environment. Journ. of Geophys. Research. 2004, 109: C01001. doi:10.1029/2003JC001866 Høyland K.V. Ice thickness, growth and salinity in Van Mijenfjorden, Svalbard, Norway. Polar Research. 2009, 28 (3): 339–352. Jaedicke C. Snow drift losses from an Arctic catchment on Spitsbergen: an additional processes in the water balance. Cold. Res. Sci. Technol. 2002, 34: 1–10. Marchenko A., Langen I., Shestov A. Hydrological characteristics of a narrow and shallow part of Van Mijen fjord on Spitsbergen. Proc. of the 21th Intern. Conf. on Port and Ocean Engineering under Arctic Conditions POAC-11. Montreal, Canada, June 10–14. 2011, POAC11-148. Marchenko A., Shestov A., Karulin E., Morozov E., Karulina M., Bogorodsky P., Muzylev S., Onishchenko D., Makshtas A. Field studies of sea water and ice properties in Svalbard fjords. Proc. of the 21th Intern. Conf. on Port and Ocean Engineering under Arctic Conditions POAC-11. Montreal, Canada, June 10–14. 2011, POAC11-148. Reimann S., Kallenborn R., Schmidbauer N. Severe aromatic hydrocarbon pollution in the Arctic Town of Longyearbyen (Svalbard) caused by snowmobile emissions. Environmental Science Technology. 2009, 43: 4791–4795. Taylor P.D., Feltham D.L. A model of melt pond evolution on sea ice. Journ. of Geophys. Research. 2004, 109: C12007. doi.10.1029/2004JC002361 Yackel J., Hanesiak J., Barber D.G. Melt ponds on sea ice in the Canadian Arctic Archipelago. Pt. 1 – Variability in morphology and surface radiation. Journ. of Geophys. Research. Oceans. 2000, 105: 22049–22060. http://rp5.ru. Архив погоды в Свальбарде (аэропорт) за 2009–2010 гг. http://www.met.no. High resolution icecharct 2009–2010. https://ice-snow.igras.ru/jour/article/view/29 doi:10.15356/2076-6734-2014-1-91-100 Authors who publish with this journal agree to the following terms:Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access). Авторы, публикующие статьи в данном журнале, соглашаются на следующее:Авторы сохраняют за собой авторские права и предоставляют журналу право первой публикации работы, которая по истечении 6 месяцев после публикации автоматически лицензируется на условиях Creative Commons Attribution License , что позволяет другим распространять данную работу с обязательным сохранением ссылок на авторов оригинальной работы и оригинальную публикацию в этом журнале.Редакция журнала будет размещать принятую для публикации статью на сайте журнала до выхода её в свет (после утверждения к печати редколлегией журнала). Авторы также имеют право размещать их работу в сети Интернет (например в институтском хранилище или персональном сайте) до и во время процесса рассмотрения ее данным журналом, так как это может привести к продуктивному обсуждению и большему количеству ссылок на данную работу (См. The Effect of Open Access). CC-BY Ice and Snow; Том 54, № 1 (2014); 91-100 Лёд и Снег; Том 54, № 1 (2014); 91-100 2412-3765 2076-6734 10.15356/2076-6734-2014-1 Coal particles;contamination;heat- and mass transfer;land fast-ice;melting Загрязнение;припайный лёд;таяние;частицы угля;энерго- и массоперенос info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2015 ftjias https://doi.org/10.15356/2076-6734-2014-1-91-100 https://doi.org/10.15356/2076-6734-2014-1 https://doi.org/10.1029/2007GL030447 https://doi.org/10.1029/2003JC001866 2022-12-20T13:30:09Z The processes of heat- and mass transfer in Sveabukta Bay sea ice cover during Spring 2010 the particularity of which is conditioned by pollution from open coal storages situated on shore have been studied. Typical features of land fast ice radiation and thermodynamic properties were described and estimates for vertical distribution of coal particles concentration within ice body were obtained. The coal particles were shown to serve as tracers of transfer processes in the sea ice thickness. It was revealed that the integral value of the absorbed solar radiation (shortwave radiation balance) is virtually independent of the features of the incoming solar radiation spectrum and the spectral dependence of the reflectivity of the ice cover of various contaminations. For computation of fast ice evolution characteristics the conceptual thermodynamic model which describes melting processes in the obvious form was used. According to calculations the melt pond forming on dirty ice under typical meteorological conditions begins one – three weeks earlier than that of clear ice depending on degree of contamination characterized by reflective ability of underlying surface. With decreasing of albedo the temperature of melt rises despite the fact that due to time difference the melting of clear ice occurs at higher temperatures. Анализируются результаты исследований таяния загрязнённого углём припая бухты Свеабукта залива Ван-Майен-фьорд (о. Западный Шпицберген), выполненных весной 2010 г. Приведены радиационные и термодинамические характеристики припайного льда, обусловленные осаждением частиц угля на его поверхность. Установлено, что интегральная величина поглощённой солнечной радиации (коротковолновый радиационный баланс) практически не зависит от особенностей спектра приходящей солнечной радиации. С помощью концептуальной термодинамической модели рассчитаны характеристики эволюции чистого и загрязнённого ледяного покрова. Показано, что при наблюдавшихся атмосферных условиях в зависимости от степени загрязнения льда сроки ... Article in Journal/Newspaper Annals of Glaciology Arctic Polar Research Sea ice Van Mijenfjorden Spitsbergen Ice and Snow (E-Journal) Van Mijenfjorden ENVELOPE(14.667,14.667,77.717,77.717) Sveabukta ENVELOPE(16.683,16.683,77.883,77.883) Ice and Snow 125 1 91

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