Climate of the Carpathian Region in the period 1961–2010: climatologies and trends of 10 variables

ABSTRACT The Carpathians are the longest mountain range in Europe and a geographic barrier between Central Europe, Eastern Europe, and the Balkans. To investigate the climate of the area, the CARPATCLIM project members collected, quality‐checked, homogenized, harmonized, and interpolated daily data...

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Veröffentlicht in:	International journal of climatology 2015-06, Vol.35 (7), p.1322-1341
Hauptverfasser:	Spinoni, Jonathan, Szalai, Sandor, Szentimrey, Tamás, Lakatos, Monika, Bihari, Zita, Nagy, Andrea, Németh, Ákos, Kovács, Tamás, Mihic, Dragan, Dacic, Milan, Petrovic, Predrag, Kržič, Aleksandra, Hiebl, Johann, Auer, Ingeborg, Milkovic, Janja, Štepánek, Petr, Zahradnícek, Pavel, Kilar, Piotr, Limanowka, Danuta, Pyrc, Robert, Cheval, Sorin, Birsan, Marius‐Victor, Dumitrescu, Alexandru, Deak, György, Matei, Monica, Antolovic, Igor, Nejedlík, Pavol, Štastný, Pavel, Kajaba, Peter, Bochnícek, Oliver, Galo, Dalibor, Mikulová, Katarina, Nabyvanets, Yurii, Skrynyk, Oleg, Krakovska, Svitlana, Gnatiuk, Natalia, Tolasz, Radim, Antofie, Tiberiu, Vogt, Jürgen
Format:	Artikel
Sprache:	eng
Schlagworte:	Carpathians climate change cloud cover precipitation relative humidity sunshine duration surface air pressure temperature wind speed
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creator	Spinoni, Jonathan Szalai, Sandor Szentimrey, Tamás Lakatos, Monika Bihari, Zita Nagy, Andrea Németh, Ákos Kovács, Tamás Mihic, Dragan Dacic, Milan Petrovic, Predrag Kržič, Aleksandra Hiebl, Johann Auer, Ingeborg Milkovic, Janja Štepánek, Petr Zahradnícek, Pavel Kilar, Piotr Limanowka, Danuta Pyrc, Robert Cheval, Sorin Birsan, Marius‐Victor Dumitrescu, Alexandru Deak, György Matei, Monica Antolovic, Igor Nejedlík, Pavol Štastný, Pavel Kajaba, Peter Bochnícek, Oliver Galo, Dalibor Mikulová, Katarina Nabyvanets, Yurii Skrynyk, Oleg Krakovska, Svitlana Gnatiuk, Natalia Tolasz, Radim Antofie, Tiberiu Vogt, Jürgen
description	ABSTRACT The Carpathians are the longest mountain range in Europe and a geographic barrier between Central Europe, Eastern Europe, and the Balkans. To investigate the climate of the area, the CARPATCLIM project members collected, quality‐checked, homogenized, harmonized, and interpolated daily data for 16 meteorological variables and many derived indicators related to the period 1961–2010. The principal outcome of the project is the Climate Atlas of the Carpathian Region, hosted on a dedicated website (www.carpatclim‐eu.org) and made of high‐resolution daily grids (0.1° × 0.1°) of all variables and indicators at different time steps. In this article, we analyze the spatial and temporal variability of 10 variables: minimum, mean, and maximum temperature, daily temperature range, precipitation, cloud cover, relative sunshine duration, relative humidity, surface air pressure, and wind speed at 2 m. For each variable, we present the gridded climatologies for the period 1961–2010 and discuss the linear trends both on an annual and seasonal basis. Temperature was found to increase in every season, in particular in the last three decades, confirming the trends occurring in Europe; wind speed decreased in every season; cloud cover and relative humidity decreased in spring, summer, and winter, and increased in autumn, while relative sunshine duration behaved in the opposite way; precipitation and surface air pressure showed no significant trend, though they increased slightly on an annual basis. We also discuss the correlation between the variables and we highlight that in the Carpathian Region positive and negative sunshine duration anomalies are highly correlated to the corresponding temperature anomalies during the global dimming (1960s and 1970s) and brightening (1990s and 2000s) periods.
doi_str_mv	10.1002/joc.4059
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To investigate the climate of the area, the CARPATCLIM project members collected, quality‐checked, homogenized, harmonized, and interpolated daily data for 16 meteorological variables and many derived indicators related to the period 1961–2010. The principal outcome of the project is the Climate Atlas of the Carpathian Region, hosted on a dedicated website (www.carpatclim‐eu.org) and made of high‐resolution daily grids (0.1° × 0.1°) of all variables and indicators at different time steps. In this article, we analyze the spatial and temporal variability of 10 variables: minimum, mean, and maximum temperature, daily temperature range, precipitation, cloud cover, relative sunshine duration, relative humidity, surface air pressure, and wind speed at 2 m. For each variable, we present the gridded climatologies for the period 1961–2010 and discuss the linear trends both on an annual and seasonal basis. Temperature was found to increase in every season, in particular in the last three decades, confirming the trends occurring in Europe; wind speed decreased in every season; cloud cover and relative humidity decreased in spring, summer, and winter, and increased in autumn, while relative sunshine duration behaved in the opposite way; precipitation and surface air pressure showed no significant trend, though they increased slightly on an annual basis. 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To investigate the climate of the area, the CARPATCLIM project members collected, quality‐checked, homogenized, harmonized, and interpolated daily data for 16 meteorological variables and many derived indicators related to the period 1961–2010. The principal outcome of the project is the Climate Atlas of the Carpathian Region, hosted on a dedicated website (www.carpatclim‐eu.org) and made of high‐resolution daily grids (0.1° × 0.1°) of all variables and indicators at different time steps. In this article, we analyze the spatial and temporal variability of 10 variables: minimum, mean, and maximum temperature, daily temperature range, precipitation, cloud cover, relative sunshine duration, relative humidity, surface air pressure, and wind speed at 2 m. For each variable, we present the gridded climatologies for the period 1961–2010 and discuss the linear trends both on an annual and seasonal basis. Temperature was found to increase in every season, in particular in the last three decades, confirming the trends occurring in Europe; wind speed decreased in every season; cloud cover and relative humidity decreased in spring, summer, and winter, and increased in autumn, while relative sunshine duration behaved in the opposite way; precipitation and surface air pressure showed no significant trend, though they increased slightly on an annual basis. We also discuss the correlation between the variables and we highlight that in the Carpathian Region positive and negative sunshine duration anomalies are highly correlated to the corresponding temperature anomalies during the global dimming (1960s and 1970s) and brightening (1990s and 2000s) periods.</description><subject>Carpathians</subject><subject>climate change</subject><subject>cloud cover</subject><subject>precipitation</subject><subject>relative humidity</subject><subject>sunshine duration</subject><subject>surface air pressure</subject><subject>temperature</subject><subject>wind 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To investigate the climate of the area, the CARPATCLIM project members collected, quality‐checked, homogenized, harmonized, and interpolated daily data for 16 meteorological variables and many derived indicators related to the period 1961–2010. The principal outcome of the project is the Climate Atlas of the Carpathian Region, hosted on a dedicated website (www.carpatclim‐eu.org) and made of high‐resolution daily grids (0.1° × 0.1°) of all variables and indicators at different time steps. In this article, we analyze the spatial and temporal variability of 10 variables: minimum, mean, and maximum temperature, daily temperature range, precipitation, cloud cover, relative sunshine duration, relative humidity, surface air pressure, and wind speed at 2 m. For each variable, we present the gridded climatologies for the period 1961–2010 and discuss the linear trends both on an annual and seasonal basis. Temperature was found to increase in every season, in particular in the last three decades, confirming the trends occurring in Europe; wind speed decreased in every season; cloud cover and relative humidity decreased in spring, summer, and winter, and increased in autumn, while relative sunshine duration behaved in the opposite way; precipitation and surface air pressure showed no significant trend, though they increased slightly on an annual basis. We also discuss the correlation between the variables and we highlight that in the Carpathian Region positive and negative sunshine duration anomalies are highly correlated to the corresponding temperature anomalies during the global dimming (1960s and 1970s) and brightening (1990s and 2000s) periods.</abstract><cop>Chichester, UK</cop><pub>John Wiley & Sons, Ltd</pub><doi>10.1002/joc.4059</doi><tpages>20</tpages></addata></record>
fulltext	fulltext
identifier	ISSN: 0899-8418
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issn	0899-8418 1097-0088
language	eng
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source	Wiley Online Library Journals Frontfile Complete
subjects	Carpathians climate change cloud cover precipitation relative humidity sunshine duration surface air pressure temperature wind speed
title	Climate of the Carpathian Region in the period 1961–2010: climatologies and trends of 10 variables
url	https://sfx.bib-bvb.de/sfx_tum?ctx_ver=Z39.88-2004&ctx_enc=info:ofi/enc:UTF-8&ctx_tim=2025-01-27T13%3A12%3A41IST&url_ver=Z39.88-2004&url_ctx_fmt=infofi/fmt:kev:mtx:ctx&rfr_id=info:sid/primo.exlibrisgroup.com:primo3-Article-proquest_wiley&rft_val_fmt=info:ofi/fmt:kev:mtx:journal&rft.genre=article&rft.atitle=Climate%20of%20the%20Carpathian%20Region%20in%20the%20period%201961%E2%80%932010:%20climatologies%20and%20trends%20of%2010%20variables&rft.jtitle=International%20journal%20of%20climatology&rft.au=Spinoni,%20Jonathan&rft.date=2015-06-15&rft.volume=35&rft.issue=7&rft.spage=1322&rft.epage=1341&rft.pages=1322-1341&rft.issn=0899-8418&rft.eissn=1097-0088&rft_id=info:doi/10.1002/joc.4059&rft_dat=%3Cproquest_wiley%3E1694974625%3C/proquest_wiley%3E%3Curl%3E%3C/url%3E&disable_directlink=true&sfx.directlink=off&sfx.report_link=0&rft_id=info:oai/&rft_pqid=1685678728&rft_id=info:pmid/&rfr_iscdi=true