Žiemų tipai Baltijos jūros regione ir Lietuvoje
The temperature of the second type in the beginning and the end of the winter coincides with long-term average however air temperature during January and February is lower; the thickest snow cover (16 cm) lies in the third ten-day period of February. The third type can be mainly described by lower t...
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ftlithuaniansrc:oai:elaba:4996160 2023-05-15T17:34:06+02:00 Žiemų tipai Baltijos jūros regione ir Lietuvoje The winter types in the Baltic Sea region and Lithuania Keršytė, Dovilė Rimkus, Egidijus 2014 http://vu.lvb.lt/VU:ELABAPDB4996160&prefLang=en_US lit eng lit eng info:eu-repo/semantics/altIdentifier/doi/10.6001/geografija.v50i1.2888 http://vu.lvb.lt/VU:ELABAPDB4996160&prefLang=en_US Geografija / Lietuvos mokslų akademija, Vilnius : Lietuvos mokslų akademijos leidykla, 2014, t. 50, nr. 1, p. 1-10 ISSN 1392-1096 Air temperature anomalies Winter types Number of days with snow cover Snow depth Baltic Sea region NAO AO info:eu-repo/semantics/article 2014 ftlithuaniansrc https://doi.org/10.6001/geografija.v50i1.2888 2021-12-02T01:22:37Z The temperature of the second type in the beginning and the end of the winter coincides with long-term average however air temperature during January and February is lower; the thickest snow cover (16 cm) lies in the third ten-day period of February. The third type can be mainly described by lower temperature than the long-term one; the thickest snow cover (20 cm) lies in the first ten-day period of March. Winter temperature of the fourth type varies a lot; the thickest snow cover (15 cm) forms in the first ten-day period of January and February. The air temperature of the fifth type exceeds the long-term one during the majority of the winter while snow cover reaches only 6 centimetres (in late February–early March). Relationships between winter types and circulation patterns over the North Atlantic were also investigated. During the highest NAO and AO Index values at the biggest anomalies of positive air temperature in the Baltic Sea region and higher than the long-term average air temperature in Lithuania were determined, whereas during the lowest NAO and AO Index values the opposite deviations were recorded. Closer relationships were determined in the second half of winter. Article in Journal/Newspaper North Atlantic LSRC VL (Lithuanian Social Research Centre Virtual Library) Geografija 50 1 |
institution |
Open Polar |
collection |
LSRC VL (Lithuanian Social Research Centre Virtual Library) |
op_collection_id |
ftlithuaniansrc |
language |
Lithuanian English |
topic |
Air temperature anomalies Winter types Number of days with snow cover Snow depth Baltic Sea region NAO AO |
spellingShingle |
Air temperature anomalies Winter types Number of days with snow cover Snow depth Baltic Sea region NAO AO Keršytė, Dovilė Rimkus, Egidijus Žiemų tipai Baltijos jūros regione ir Lietuvoje |
topic_facet |
Air temperature anomalies Winter types Number of days with snow cover Snow depth Baltic Sea region NAO AO |
description |
The temperature of the second type in the beginning and the end of the winter coincides with long-term average however air temperature during January and February is lower; the thickest snow cover (16 cm) lies in the third ten-day period of February. The third type can be mainly described by lower temperature than the long-term one; the thickest snow cover (20 cm) lies in the first ten-day period of March. Winter temperature of the fourth type varies a lot; the thickest snow cover (15 cm) forms in the first ten-day period of January and February. The air temperature of the fifth type exceeds the long-term one during the majority of the winter while snow cover reaches only 6 centimetres (in late February–early March). Relationships between winter types and circulation patterns over the North Atlantic were also investigated. During the highest NAO and AO Index values at the biggest anomalies of positive air temperature in the Baltic Sea region and higher than the long-term average air temperature in Lithuania were determined, whereas during the lowest NAO and AO Index values the opposite deviations were recorded. Closer relationships were determined in the second half of winter. |
format |
Article in Journal/Newspaper |
author |
Keršytė, Dovilė Rimkus, Egidijus |
author_facet |
Keršytė, Dovilė Rimkus, Egidijus |
author_sort |
Keršytė, Dovilė |
title |
Žiemų tipai Baltijos jūros regione ir Lietuvoje |
title_short |
Žiemų tipai Baltijos jūros regione ir Lietuvoje |
title_full |
Žiemų tipai Baltijos jūros regione ir Lietuvoje |
title_fullStr |
Žiemų tipai Baltijos jūros regione ir Lietuvoje |
title_full_unstemmed |
Žiemų tipai Baltijos jūros regione ir Lietuvoje |
title_sort |
žiemų tipai baltijos jūros regione ir lietuvoje |
publishDate |
2014 |
url |
http://vu.lvb.lt/VU:ELABAPDB4996160&prefLang=en_US |
genre |
North Atlantic |
genre_facet |
North Atlantic |
op_source |
Geografija / Lietuvos mokslų akademija, Vilnius : Lietuvos mokslų akademijos leidykla, 2014, t. 50, nr. 1, p. 1-10 ISSN 1392-1096 |
op_relation |
info:eu-repo/semantics/altIdentifier/doi/10.6001/geografija.v50i1.2888 http://vu.lvb.lt/VU:ELABAPDB4996160&prefLang=en_US |
op_doi |
https://doi.org/10.6001/geografija.v50i1.2888 |
container_title |
Geografija |
container_volume |
50 |
container_issue |
1 |
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1766132827328348160 |