Temat: Atmospheric circulation - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Zmienność cyrkulacji atmosfery nad Spitsbergenem w drugiej połowie XX wieku
Variability of atmospheric circulation above Spitsbergen in the second half of 20th Century
Autorzy:: Niedźwiedź, T.
Powiązania:: https://bibliotekanauki.pl/articles/260957.pdf
Data publikacji:: 2001
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: cyrkulacja atmosfery
Spitsbergen
atmospheric circulation
Opis:: The study presents variability of different circulation indices above the Spitsbergen for the period 1951-2000. Investigated area covers the part of the Atlantic sector of the Arctic located between 75-80°N and 0-30°E. The study based on the original calendar of circulation types (Niedźwiedź 1981, 2001), prepared with the help of the synoptic maps of Europe (Europäischer Wetterbericht, 1976-2000, Tägliche Wetterbericht 1950-1975). Twenty circulation types have been distinguished. The advection directions are marked by the capital letters while the anticyclonic situations by the subscript a and the cyclonic ones by subscript c; for example, Wa and Wc denote the anticyclonic and cyclonic situations respectively, with the air advection from the West. Thus, there are 16 circulation types with definite directions of the air masses. The other 5 situations are nonadvective: Ca - centre of anticyclone, Ka - anticyclonic wedge, Cc - centre of cyclone, Bc - cyclonic trough, and x - col and the situations which cannot be classified. This classification is similar to Lamb (1972) types and based on methods described in the most important works in synoptic climatology (Barry an Perry 1974, Yarnal 1993). The frequencies of the occurrence of all the distinguished circulation types for the 50-years period of 1951-2000 are presented on the table 4. On the average, the anticyclonic wedge (Ka ? 10.4 %) is the most frequent in the Spitsbergen. The second one is situation Ec and NE occurs during 9.9 and 8.8% of the days. The centre of high pressure over Spitsbergen (1.3 % of the days) and the NW situation (1.5 % of the days) are the least frequent. Weather and climate of Spitsbergen are modelled by the intensive cyclonic activity during 56 % of the days in a year. The largest frequency of the occurrence of low pressure systems is characteristic for the period from September to March with maximum in November (66 %), December and January (65%). The number of days with high pressure systems exceeds 50 % only in May (59 %). The variability of circulation have been obtained using the simple circulation indices: zonal westerly circulation W index, similar to P progression index, index of southerly circulation - S, and index of cyclonicity - C, as proposed by R. Murray and R. Lewis (1966) with some modifications. The author of this paper calculated these indices for each year, season and month (tables 1-3). The most characteristic for Spitsbergen is the zonal form of circulation with the eastern component (W = -147 for a year) with the great intensity in the period from October to April (March ?20.9). The minimum in the eastern air-flow can be observed in summer (July +0.7). Another characteristic feature for Spitsbergen is predomination of the cyclonic patterns (index C = 56 for a year), especially in the period from September to March (November 12.8). In May the index C is negative (-9.4), which confirms the great activity of anticyclonic pattern. Among the southerly circulation forms the northern component dominates (index S = -36 for a year). Only in July and August the opposite situation can be observed. Circulation forms over Spitsbergen have been fluctuated in the long-term period. In 1951-2000 the greatest changes have been observed in the indices C and W (fig. 3-7). Significant increasing trend was observed in annual values of C and S indices. Southerly circulation index S is well connected with North Atlantic Oscillation (NAO) index (table 6). The best correlation between the mean temperature at Hornsund and circulation indices exists for the S index (table 7).
Źródło:: Problemy Klimatologii Polarnej; 2001, 11; 7-26
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Wpływ cyrkulacji atmosfery na wysokie opady w Hornsundzie (Spitsbergen)
Influence of atmospheric circulation on the high precipitation in Hornsund (Spitsberegen)
Autorzy:: Niedźwiedź, T.
Powiązania:: https://bibliotekanauki.pl/articles/260911.pdf
Data publikacji:: 2002
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: cyrkulacja atmosfery
opady atmosferyczne
Spitsbergen
atmospheric circulation
precipitation
Opis:: Maximum daily precipitation and the number of days with precipitation 10.0 mm was analysed in Polish Polar Station in Hornsund (Spitsbergen), based on the measurements during 8008 days in the period 1978 June - 2000 July. The geographical coordinates of the station are following: j = 77°00? N, l = 15°33? E, Hs = 11 m a.s.l. This region is characterised by relatively large annual precipitation, varied from 230 mm in 1987 up to 640 mm in 1996. The largest diurnal total of precipitation - 58.3 mm was observed on August 1, 1994. The second high value 52.6 mm was noticed on September 6, 1996. During the observed period only 5 times daily precipitation exceeded 40 mm and 14 time was higher than 30 mm. Return period for possible daily precipitation greater than 70 mm is less than once in a hundred years. In the annual course the maximum of precipitation was observed mainly in August and September. Also the largest precipitation appears most often during the advection of air from the South and South-West with cyclones coming from the Atlantic Ocean. Special attention was made to the daily precipitation >=10 mm. they occurred during the 201 days (2.5%) and bringing about 35% of annual total. The probability of such events is highest in autumn (25%) during the south westerly cyclonic circulation type (SWc). Two other circulation types are caused also such precipitation: southern cyclonic type (Sc) with probability 24% and south westerly anticyclonic ones (SWa), with probability 11.5%. During the last decade of 20th century there was observed the increasing tendency in frequency of large precipitation in Hornsund. The sudden increase take place since 1994. These changes were connected with greater frequency in the intensity of westerly and southerly atmospheric circulation expressed by the zonal and meridional circulation indices.
Źródło:: Problemy Klimatologii Polarnej; 2002, 12; 65-75
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 3.

Tytuł:: Przebieg roczny ciśnienia atmosferycznego na Antarktydzie
Annual course of the atmospheric pressure on the Antarctic
Autorzy:: Kejna, M.
Powiązania:: https://bibliotekanauki.pl/articles/260645.pdf
Data publikacji:: 2005
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: ciśnienie atmosferyczne
Antarktyda
cyrkulacja atmosferyczna
Antarctic
atmospheric pressure
atmospheric circulation
Opis:: W artykule przedstawiono zmienność przestrzenną przebiegu rocznego ciśnienia atmosferycznego na Antarktydzie. Stwierdzono dwa typy przebiegów rocznych ciśnienia. Na wybrzeżu występuje przebieg charaktery-zujący się półroczną oscylacją, z maksymalnymi wartościami w sezonie letnim i zimowym oraz najniższymi w przejścio-wych porach roku. We wnętrzu kontynentu najwyższe ciśnienie występuje latem, a najniższe w chłodnej połowie roku. Największe amplitudy roczne ciśnienia występują we wnętrzu kontynentu. W ostatnich dwóch dekadach XX wieku zaznaczyły się istotne zmiany w przebiegu rocznym ciśnienia atmosferycznego.
At the polar latitudes of the Southern Hemisphere a circulation cell functions which is connected with the strong baric wedge feature of the atmosphere occurring between the Antarctic anticyclone and a very deep circumpolar trough by the Antarctic coastline. The circulation system in the Antarctic region shows seasonal variability called Southern Annular Mode (SAM). In the cold season the tropospheric exchange of air masses strengthens due to the increase of the katabatic winds? speed. The relocation of air masses from over Antarctica to its peripheries has an influence on the annual course of the atmospheric pressure. In the elaboration mean monthly air pressure values were taken into account from 106 Antarctic stations from the beginning of measurements to 2000. On the basis of these data the mean annual course of the atmospheric pressure has been counted as well as the yearly pressure range. Annual courses from two periods: 1958-1980 and 1981-2000 were also compared. Over the Antarctic the annual course of the atmospheric pressure is complex. At the costal part of the continent there are two maxima (in summer and in winter) and two minima in the transient seasons. This course is called semi-annual oscillation (SAO) in the literature. However this phenomenon shows certain regional specifics. On the Antarctic Peninsula and South Orkney Islands the winter maximum is more distinct, while minima are shifted to February and November. In the inland the winter maximum decreases with the distance from the coast and at stations situated in the highest parts of the glacial plateau the highest pressure values occur in summer and distinctly lower ones in winter. At some inland stations a slight increase of the pressure can be observed in the middle of winter what refers to the thermal coreless winters occurring frequently in this region. The annual range of the atmospheric pressure decreases from the coast (15-7 hPa) to the interior of the continent, where it reaches values above 20 hPa. During the last two decades of the 20th century significant changes took place in the annual courses of the pressure in comparison to the years 1958-1980. On the South Orkney Islands and the Antarctic Peninsula the pressure increased in summer and in autumn, while in winter distinctly decreased. At the remaining part of the Antarctic coast pressure decrease occurred in every seasons, and in the Weddell Sea region the autumn and spring minimum significantly deepened. At the majority of the stations the annual amplitudes of the atmospheric pressure decreased after 1980. These changes contributed to the disturbances in the functioning of the Antarctic climate system. On the Antarctic Peninsula the air temperature increased, while at many stations in the Eastern Antarctic considerable cooling occurred.
Źródło:: Problemy Klimatologii Polarnej; 2005, 15; 7-16
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 4.

Tytuł:: Zagadnienie odtworzenia wartości bilansu Lodowca Hansa (SW Spitsbergen)
The reconstruction of the mass balance of the Hansbreen (SW Spitsbergen)
Autorzy:: Marsz, A. A.
Styszyńska, A.
Powiązania:: https://bibliotekanauki.pl/articles/260915.pdf
Data publikacji:: 2002
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
cyrkulacja atmosfery
Lodowiec Hansa
Hansbreen
atmospheric circulation
Opis:: This article deals with an attempt to estimate the value of the net balance of Hansbreen (SW Spitsbergen).In order to estimate thes value an assumption has been made that the value of the net balance of Hansbreen is a function of two groups of factors, i.e. static and dynamic ones. The static elements (georgaphical location of Hansbreen, topography of the glacier and its surroundings, etc.) have no influence on the elements of the interannual changeability of the balance; a constant value will represent these elements in formulae. A group of dynamic factors that introduces an interannual changeability to the net balance is made up of a set of meteorological factors (mainly the course of air temperature, precipitation and cloudiness). The said meteorological factors are influenced by the character of atmospheric circulation. Because the main features of the character of the interannual changeability of the air circulation over that area are influenced by the spatial distribution of the anomalies sea surface temperature (SST), the analysis of variances has been chosen as the method used to define the direct statistical estimation of winter and summer balances as the function of monthly anomalies in SST occurring in the North Atlantic in a preceding period. As a result of statistical analysis, two linear functions of great statistical significance have been obtained, i.e. formula [1] and [2] enabling the estimation of winter and summer balances respectively. These functions use the values of anomalies in SST as independent variables. The influence of these values on the course of changeability in atmospheric circulation over the Nordic seas is obvious. The calculated values of the net balance of Hansbreen, estimated by means of the above mentioned functions and the values observed (Fig. 4) proved to be almost the same. Having the values of anomalies in SST (Reynolds data set) a sequence of values of net balance of Hansbreen has been estimated for the period 1970/71÷1996/97 (Table 2, Fig. 5) with the help of this method. An error of values calculated in this way can be found within limits ą0.106 m. water equivalent. The values of the calculated net balance taken from the above mentioned period were used to find by means of best estimating correlation between Hansbreen net balance and temperature and precipitation sums at Isfjord Radio station. Thanks to these results, the next sequence of values of Hansbreen balance for period 1926/27÷1969/70 (Table 3, Fig. 6) has been calculated. The final values are of no statistical significance and contain unknown errors. If they are close to reality it might mean that the balance of Hansbreen has been permanently negative since the end of the 20-ties.
Źródło:: Problemy Klimatologii Polarnej; 2002, 12; 117-131
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 5.

Tytuł:: Rola cyrkulacji atmosfery w kształtowaniu temperatury powietrza w styczniu na Spitsbergenie
Role of atmospheric circulation on the January temperature variability in Spitsbergen
Autorzy:: Niedźwiedź, T.
Powiązania:: https://bibliotekanauki.pl/articles/260696.pdf
Data publikacji:: 2004
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: cyrkulacja atmosfery
Spitsbergen
temperatury powietrza
atmospheric circulation
air temperature
Opis:: The study presents variability of simple circulation indices above Spitsbergen for the period 1899-2004 in January, based on original calendar of synoptic divided from the synoptic maps. After calculation of synoptic types frequencies the further results have been obtained using the simple circulation indices: W - westerly, zonal index, S - southerly - meridional index, C - cyclonicity index, as proposed by R. Murray and R. Lewis (1966) with some modifications, as well as Spitsbergen Oscillation (OS) defined as the standarized pressure difference between Bjornoya and Longyearbyen. The negative value of W index is typical for Spitsbergen, according to great frequency of eastern airflow. Variability of January temperature in Svalbard (t01SV) were investigated on the basis of averages from four stations: Isfjord Radio and Svalbard Lufthavn, as well as from Polish Polar Station in Hornsund Fiord on SW part of Spitsbergen, and from Bjornoya (Bear Island) - about 300 km SSE from Hornsund. After reconstructions of some lack data on the basis of linear regression, temperature data were obtained for the period of 1912-2004. For the temperature the main feature is period of cooling in the years 1912-1918 and then the great warming during the decade of 1930th (1933-1937). During the years 1937-1971 was observed the significant decreasing trend in January temperature to the cool period of years 1962-1971. The last period 1971-2004 has no any trend in temperature. But three large fluctuations took place with warm Januarys of 1972-1974, 1990-1992 and 1999-2001 and cool ones of 1975-1982, 1993-1998 and 2002-2004. Temperature of January changes in Spitsbergen depend on a great extend of circulation factors, mainly from the southern (S) and zonal circulation indices (W) or Spitsbergen Oscillation index (SO). Using the models of multiple regression was possible the recontruction of January temperature since 1899 on the basis of circulation indices. They explained about 63% of variance in temperature.
Źródło:: Problemy Klimatologii Polarnej; 2004, 14; 59-68
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 6.

Tytuł:: Struktura bilansu promieniowania słonecznego w Ny-Alesund (NW Spitsbergen) w latach 1989-2003
Structure of solar radiation balance in Ny-Alesund (NW Spitsbergen) in the period 1989-2003
Autorzy:: Budzik, T.
Powiązania:: https://bibliotekanauki.pl/articles/260647.pdf
Data publikacji:: 2004
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: promieniowanie słoneczne
Spitsbergen
cyrkulacja atmosferyczna
solar radiation
atmospheric circulation
Opis:: This case describes structure of solar radiation balance in Ny-?lesund, Spitsbergen, basing on twenty-four-hour?s magnitudes in 1989-2003. We put to the analysis each radiation streams: shortwave and longwave. Basing on it one year?s and monthly balances were estimated: (K*, L*, Q*). The radiation data used in this article are derieved from: Norsk Polarinsitutt in Oslo: Hisdal, Finnekasa and Vinje (1992) and Hisdal and Finnekasa (1996); 'The Alfred Wegener Institute for Polar and Marine Research': Koenig-Langlo and Marx (1997). The data of clouds from Ny-Alesund are derieved from: Climatolology Division, Norwegian Meteorological Institute, Norway. In 1989-2003 period - annual radiation balance Q* in whole spectrum was oscillating from - 71 MJ/m2 to 194 MJ/m2, average Q* was 57 MJ/m2. Highest values of Q* in year are recorded on June, July - average - 210-260 MJ/m2, lowest on polar night period -October-February (-87 MJ/m2 to -100 MJ/m2). Short-wave radiation balance K* was depending on sun level, sculpture of the earth?s surface and cloudiness modify amount of downward sun energy. Yearly balance sums of short-wave radiation K* was oscillating from 931 MJ/m2 to 1438 MJ/m2, average -1178 MJ/m2. Yearly course of stream K and balance K* shows maximum from April to August and zero values in November-February period. Analyzing many year?s estimation -highest yearly sum of K stream - 2634 MJ/m2 - was recorded on 1993 and lowest - 2157 MJ/m2 on 1990, average of sums in this period was - 2402 MJ/m2. Average yearly balance of L* was 1120 MJ/m2 on 1989-2003 period. Annual balance sums were oscillating from -936 MJ/m2 to -1265 MJ/m2.
Źródło:: Problemy Klimatologii Polarnej; 2004, 14; 189-197
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 7.

Tytuł:: Porównanie wybranych elementów meteorologicznych w sezonie letnim między stacjami Hornsund i Calypsobyen (Spitsbergen)
Comparison of some selected meteorological elements of the Summer season between Hornsund and Calypsobyen stations (Spitsbergen)
Autorzy:: Gluza, A.
Siłuch, M.
Siwek, K.
Powiązania:: https://bibliotekanauki.pl/articles/260651.pdf
Data publikacji:: 2004
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
cyrkulacja atmosferyczna
warunki klimatyczne
atmospheric circulation
weather conditions
Opis:: The aim of the study washas been to determine the differences in the 24-hour means values of some selected meteorological elements between the stations analysed and also to determine the influence of atmospheric circulation on their distribution. Meteorological data collected at the Polar Station of the Institute of Geophysics of the Polish Academy of Sciences in Hornsund and the Calypsobyen Station of the Maria Curie-Skłodowska University of Lublin wasere used for the present research. The present studies showed that air temperature in Calypsobyen is on average 0.6°C higher than in Hornsund. Calypsobyen is warmer than Hornsund fromat almost all circulation directions. Hornsund is warmer only in the case of the NW direction. The highest levels of temperature differences (> 1°C) occur from theat S and SW directions. Calypsobyen was 0.3°C colder than Hornsund only in the case of the NWc type. Regarding the average total cloud coveriness of the sky [0-10], the difference between the two stations analysed was as small as 0.1. This results from thea high total cloud coveriness of the sky during summer. No differences were found in the case of medium wind velocity levels similarly as was in the case for the of cloud coveriness. The a mean difference forro this parameter was 0.1 m/s. The location of the station, as well as the orographic reletions in its surroundings, exerts a significant influence on the difference in thetiation of wind velocities in relation to the directions of the circulation directions. The total - taken ever twenty-four hour sums - of the atmospheric precipitation levels as an averaged with to the circulation directions in Hornsund were on average 0.8 mm higher than for in Calypsobyen. Precipitation levels were higher in Calypsobyen only from theat N and E directions and in the situation of a weather wedge over Spitsbergen (Ka), however, even then the values of these differences were small (0.1-0.2 mm). Analysis of the data analysis pointed to the significance of the direction of the circulation direction and its influence on the value of differences between the meteorological elements selected. In some cases (i.e. wind velocity, precipitation level) local factors - and including orographic relations and the location of the measuring site - are decisive.
Źródło:: Problemy Klimatologii Polarnej; 2004, 14; 183-188
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 8.

Tytuł:: Struktura bilansu promieniowania słonecznego na obszarze Lodowca Avatsmarka w dniach 13 IV - 04 V 2002 r.
Structure of solar radiation balance on Avatsmark Glacier in the period of 13 IV - 4 V 2002
Autorzy:: Budzik, T.
Powiązania:: https://bibliotekanauki.pl/articles/260822.pdf
Data publikacji:: 2003
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
promieniowanie słoneczne
cyrkulacja atmosferyczna
solar radiation
atmospheric circulation
Opis:: It was carried out an analysis of solar radiation balance for a chosen active surface (glacier). The basis was meteorological data, which was recorded by an automatic weather station in the period of 13.04.2002 - 04.05.2002 in the area of Aavatsmark glacier (NW Spitsbergen). The individual radiation fluxes were analysed and balances and also diurnal sums were calculated on the basis of them. It was set the individual values of radiation balance against chosen meteorological parameters. These results were compared with the data from the nearby weather station in Ny-Alesund.
Źródło:: Problemy Klimatologii Polarnej; 2003, 13; 151-160
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 9.

Tytuł:: Warunki meteorologiczne na Lodowcu Waldemara (NW Spitsbergen) w sezonie letnim 1999 roku
Meteorological conditions on the Waldemar Glacier (NW Spitsbergen) in summer season 1999
Autorzy:: Kejna, M.
Powiązania:: https://bibliotekanauki.pl/articles/260965.pdf
Data publikacji:: 2001
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Lodowiec Waldemara
Spitsbergen
cyrkulacja atmosfery
Waldemar Glacier
atmospheric circulation
Opis:: The meteorological measurements were carried out on NW Spitsbergen on the Waldemar Glacier (surface 2.66 km2) in three points: ATA (133 m a.s.l., marginal zone), LW1 (130 m a.s.l., snout of glacier), LW2 (380 m a.s.l., firn part). The base station of Toruń Polar Expedition is situated on the north part of Kaffioyra (KH, 11 m a.s.l.), about 3 km away from glacier. The air temperature and relative air humidity were measured by termohigrographs in standard meteorological boxes, and precipitation by Hellmanns pluwiometer in the period 14.07-8.09.1999. The weather conditions on the Kaffiöyra region are determined by solar and circulation factors. In the summer season 1999 north and east advection of air masses dominated. The meteorological conditions on Waldemar Glacier are formed by the influence of two contrasting environments: the glacier and its moraine foreground. The mean air temperature in summer 1999 at the Kaffiöyra equaled 5.4°C and at the moraine of the Waldemar Glacier (ATA) 5.2°C. On the glacier the air temperature was much lower, and on the snout (LW1) was 4.5°C and decreases with the altitude (LW2 3.2°C) . The average gradient of air temperature between LW1 and LW2 stands was 0.53°C/100 m. Between the warmed up dark moraine ground (ATA) and the melted surface of the glacier a ?thermal jump? occurred (0.4°C on the distance 160 m). The highest maximum of air temperature at KH was 18.1°C, and on the Waldemar Glacier 16.4°C (LW1) and 16.5°C (LW2). The relative air humidity on Spitsbergen are formed under the influence of oceanic water and foehn phenomena. In summer season 1999 the mean relative air humidity was 84% at the Kaffioyra and increased with the altitude on the Waldemar Glacier (LW1 ? 86%, LW2 ?89%). In the period 21-07-31.08 at the Kaffioyra sums of the precipitation equaled 58.4 mm and on the glacier: 85.2 mm (133 m a.s.l.), 100,6 mm (233 m a.s.l.), 108.9 mm (380 m a.s.l.) and 131.8 mm (421 m a.s.l.). In summer season the meteorological conditions on the Waldemar Glacier show a large variability. It is a result of incoming air masses, warm from moraine foreground up the glacier and cool from the glacier plateau, from the interior of Spitsbergen.
Źródło:: Problemy Klimatologii Polarnej; 2001, 11; 55-65
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 10.

Tytuł:: Wpływ cyrkulacji atmosfery na występowanie dni mroźnych w Hornsundzie (Spitsbergen)
The influence of the atmospheric circulation on the occurrence of ice days in Hornsund (Spitsbergen)
Autorzy:: Niedźwiedź, T.
Łupikasza, E.
Małarzewski, Ł.
Powiązania:: https://bibliotekanauki.pl/articles/260763.pdf
Data publikacji:: 2012
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: dni mroźne
cyrkulacja atmosfery
Spitsbergen
Hornsund
ice days
atmospheric circulation
Opis:: Dni mroźne, definiowane jako dni z Tmax<0°C są jednym z termicznych wskaźników współ-czesnych zmian klimatu. Celem artykułu jest określenie wieloletnich zmian częstości występowania dni mroźnych w Hornsundzie oraz określenie relacji pomiędzy ich występowaniem i cyrkulacją atmosfery. Badania przeprowa-dzono na podstawie dostępnych danych dobowej maksymalnej temperatury powietrza (26.07.1957-16.08.1958 MRG; 4.07.1978-29.02.2012). Średnio w Hornsundzie notuje się 183 dni mroźnych w roku. Najczęściej pojawiają się one w marcu, zaś w ogóle nie występują w lipcu i sierpniu. W badanym okresie częstość występowania dni mroźnych istotnie malała w maju, czerwcu i grudniu. Tendencja spadkowa dotyczy również rocznych wartości liczby dni mroźnych. Sezonowe zróżnicowanie relacji pomiędzy częstością występowania dni mroźnych a cyrkulacją atmosfery jest słabsze niż w przypadku dni z przejściem temperatury przez próg 0°C. W większości miesięcy największym prawdopodo-bieństwem ich wystąpienia charakteryzują się typy antycyklonalne: Na, NEa, Ea, NWa oraz Ca i Ka. Występowaniu dni mroźnych nie sprzyja adwekcja ciepłego powietrza z południa.
Ice days defined as days with daily maximum temperature below 0°C are placed amongst the indices of current climate change. This paper aims at research both the long-term variability in the ice days occurrence and their relations to atmospheric circulation. All available data on daily maximum temperature were used (26.07.1957-16.08.1958 MRG; 4.07.1978-29.02.2012). On average, 183 ice days a year are noted in Hornsund. The highest number of the days occurs on March whereas they do not appear on July and August. The frequency of ice days were significantly lowering in May, June and August. The downward trend was also found in the annual index values. Seasonal differentiation of the relations between the ice days occurrence and atmospheric circulation are weaker than in case of days with freeze-thaw events. In majority months the highest probability of the ice days occurrence is linked to the six anticyclonic types (Na, NEa, Ea, NWa, Ca and Ka). Advection of warm air from south results in rarer ice days.
Źródło:: Problemy Klimatologii Polarnej; 2012, 22; 17-26
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 11.

Tytuł:: Amplituda dobowa temperatury powietrza na Antarktydzie
Diurnal air temperature range on the Antarctic
Autorzy:: Kejna, M.
Powiązania:: https://bibliotekanauki.pl/articles/260832.pdf
Data publikacji:: 2004
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: temperatury powietrza
Antarktyda
cyrkulacja atmosferyczna
air temperature
Antarctic
atmospheric circulation
Opis:: Diurnal air temperature ranges (DTR) have been counted based on the monthly mean values of the daily maximal and minimal air temperature from 23 Antarctic stations. DTR shows a considerable spatial differentiation on the Antarctic. The lowest DTR values (4-6°C) occur along the western coast of the Antarctic Peninsula and on the subantarctic islands. At the remaining coast of Antarctica the mean DTR vary from 6-7°C to 10°C at the stations situated on higher geographical latitude. In the Antarctic inlands the largest DTR values occur at the highest parts of glacier plateau (8-9°C), while on the South Pole they are distinctly smaller (6°C). In the annual course of DTR the following types have been distinguished: oceanic type at the western coast of the Antarctic Peninsula with small DTR in summer (2-4°C) and twice higher in winter; oceanic-continental type at the coast of Eastern Antarctic with large DTR during the whole year; continental-oceanic type with high DTR in summer and still higher (up to 13°C) in winter occurring at Western Antarctic and in the Weddell Sea basin; continental type characteristic for the interior of the continent with the highest DTR in summer (11-12°C) and smaller in winter; polar type with small DTR in summer (to 3°C) and considerable higher in winter (7-8°C). A decrease of DTR occurred on the Antarctic in regions characterized by increasing temperature in the second half of the 20th century, especially on the western coast of the Antarctic Peninsula, on the coast of Ross Sea and on the Queen Maud Land. The decrease in the DTR values was connected with the quicker increase of daily minimal air temperatures. On the other hand, in the regions where cooling was noted the DTR values increase (inlands of Eastern Antarctic and South Pole, and the Weddell Sea basin), mainly due to the fall in daily minimal air temperatures.
Źródło:: Problemy Klimatologii Polarnej; 2004, 14; 7-18
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 12.

Tytuł:: Satelitarna charakterystyka zachmurzenia ogólnego nad Svalbardem w roku 2007 w powiązaniu z cyrkulacją atmosfery
The satellite cloud climatology in 2007 above Svalbard in relation to atmospheric circulation conditions
Autorzy:: Kotarba, A.
Widawski, A.
Powiązania:: https://bibliotekanauki.pl/articles/260698.pdf
Data publikacji:: 2008
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Svalbard
zachmurzenie ogólne
cyrkulacja atmosferyczna
MODIS
typy cyrkulacji
cloud climatology
atmospheric circulation
types circulation
Opis:: W artykule przedstawiono rozkład czasowy i przestrzenny zachmurzenia ogólnego nad Sval-bardem w 2007 r. Wszystkie prezentowane wielkości zachmurzenia wyliczono z maski chmur, będącej jednym z produktów powstałych w wyniku przetworzenia danych satelitarnych radiometru MODIS, umieszczonego na satelitach Terra i Aqua. Analizie poddano średnie miesięczne, średnią roczną oraz średnie zachmurzenie w po-szczególnych 11 typach uproszczonej klasyfikacji Niedźwiedzia, tak dla całej powierzchni archipelagu, jak i jego poszczególnych części.
One of the fundamental problems in cloud climatology research is a lack of high spatial and temporal resolution data. Conventional, surface-based visual observations are limited to a small number of locations and represent atmospheric conditions only within a small vicinity of the stations. This is particularly true in the Arctic, which is inadequately sampled due to extreme weather condi-tions and maritime character of this area. As an alternative, satellite data can be utilized as a base for cloud climatology studies. In this paper Moderate Resolution Imaging Spectroradiometer (MODIS) observations are used as a source of cloud data for investigating the relation between total cloud cover and atmospheric circulation patterns over Svalbard. MODIS data were obtained as a Cloud Mask product – a 1 km resolution raster with four classes reflecting cloud detection confidence: 'confident clear', 'probably clear', 'uncertain clear' and 'certain cloudy'. Each class was arbitrary turned into fractional cloud cover as 0%, 33%, 66% and 100% respectively. Total number of 5607 MODIS passes over Svalbard was analyzed (about 16 a day). Area of study was divided into three regions – Spitsbergen (1) with subregions: 1a (north-western part), 1b (north-eastern part), 1c (southern part); Nordaustlandet (2); Barents Island and Edge Island (3). Mean monthly and annual cloud amount was calculated for each region as a ratio of cloudy pixels (weighted by 0%, 33%, 66% and 100%) to all pixels within given region/subregion. MODIS-derived information was then set against Niedźwiedź (2007) circulation type classification. Classification is an application of Lamb (1972) subjective classification, reduced in this study from 21 to 11 types: 5 cyclonic, 5 anticyclonic and 1 undetermined. As the results show, mean total cloud cover over Svalbard in 2007 amounted to 74%, varying from 61% in February up to 85% in August. The greatest mean monthly cloud cover (88%) was observed over Nordaustlandet in August, while the lowest (57%) over southern part of Spitsbergen in February. The cloudiest parts of Svalbard in 2007 were Nordaustlandet and Edge Island with 76% and 77% of annual mean cloud cover respectively – slightly more than Spitsbergen (73%). Spatial distribution of annual mean cloud cover Svalbard was controlled by topography and atmospheric circulation conditions. Atmospheric circulation over Svalbard in 2007 was dominated by advection from N-E-S directions and non-advective situations (center of cyclone or cyclonic trough). Average cloud cover was nearly constant throughout all circulation types, ranging from 74% (cyclonic advection from S+SE) to 77% (cyclone's center or cyclonic trough). Most diverse spatial distribution of cloud cover was observed during the days of central anticyclonic situations and anticyclonic wedge, while least diverse when cyclone's center, cyclonic trough or anticyclonic advection from S+SW occurred. MODIS-derived cloud cover variability can be well explained by circulation influence, e.g. foehn effect associated with anticyclonic E+SE advection, cloud amount increase as a result of S+SW or W+NW cyclonic advection from Norwegian Sea. Although annual course of cloud cover, as determined with satellite information, seems reliable, future studies should emphasise a comparison of MODIS data with surface based observations. Temporal coverage should be also expanded to years 2003-2008 in order to obtain statistically significant results.
Źródło:: Problemy Klimatologii Polarnej; 2008, 18; 127-140
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 13.

Tytuł:: Wpływ cyrkulacji atmosferycznej na warunki termiczne sezonów letnich (VII-VIII) w Calypsobyean (zachodni Spitsbergen)
The influence of atmospheric circulation on thermic conditions in summer seasons (VII-VIII) in Calypsobyen (Western Spitsbergen)
Autorzy:: Gluza, A.
Siwek, K.
Powiązania:: https://bibliotekanauki.pl/articles/260757.pdf
Data publikacji:: 2012
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: cyrkulacja atmosferyczna
temperatura powietrza
Calypsobyen
Bellsund
Spitsbergen
atmospheric circulation
air temperature
Opis:: Zarys treści. W pracy przedstawiono wpływ cyrkulacji atmosferycznej według klasyfikacji T. Niedźwiedzia na warunki termiczne w miesiącach letnich (lipiec i sierpień) w rejonie Bellsundu. Wykorzystano wartości dobowe (średnie, maksymalne i minimalne) temperatury powietrza z wysokości 200 cm n.p.g. ze stacji meteorologicznej w Calypsobyen. Dane pomiarowe pochodzą z sezonów letnich pięciu Wypraw UMCS na Spitsbergen z lat 2006-2009 i 2011. Długość serii pomiarowych w poszczególnych latach była związana z terminami rozpoczęcia i zakoń-czenia wypraw. Ponieważ pomiary wykonywane były w różnych terminach (między pierwszą dekadą czerwca a pierwszą dekadą września) do analizy wykorzystano dane z okresu wspólnego tj. od 1 lipca do 31 sierpnia. Łącznie przeanalizowano dane z 310 dni (po 62 dni z każdego roku).
The paper analyses relationship between atmospheric circulation and air temperature in Calypsobyen Bellsund region (NW Spitsbergen) in period 01st July – 31st August from the years 2006-2009 and 2011. For this purpose data from meteorological station in Calypsobyen (. = 77°33’29,5”N, . = 14°30’46,6”E), daily values of four temperature parameters (mean, maximum, minimum, diurnal temperature range) and daily types of atmospheric circulation for Spitsbergen made by T. Niedźwiedź have been used. The station is located on Calypsostranda, a flat sea terrace, at the height of about 23 m a. s. l., at a distance of 200 m from Bellsund Fjord and 2 km from the Scott Glacier. Dry lichen-moss tundra forms the substrate of the station. Circulation types Ca+Ka (about 20%) and Cc+Bc (about 14%) occurred the most frequently in analysed period. Types Sa+SWa+Wa and Ea+SEa (about 8%) occurred the most rarely. The highest mean daily temperatures were notified in circulation types Ea+SEa and Sa+SWa+Wa. Highest maximum temperatures were notified in circulation types NWc+Nc+NEc and NWa+Na+NEa. Lowest minimum temperatures were notified in circulation types Ca+Ka and Cc+Bc. Highest values of diurnal temperature range were notified in circulation types Sa+SWa+Wa, NWa+Na+NEa and Ea+SEa. In summer seasons air temperature in Calypsobyen depend mainly on direction from which air masses are coming. Local circulation is also important as well as foehn wind effect, radiation and insolation processes. Type of baric situation is mostly not so relevant.
Źródło:: Problemy Klimatologii Polarnej; 2012, 22; 27-34
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 14.

Tytuł:: Główne cechy cyrkulacji atmosfery nad Spitsbergenem (XII.1950 - IX.2006]
The main forms of atmospheric circulation above Spitsbergen (December 1950 - September 2006)
Autorzy:: Niedźwiedź, T.
Powiązania:: https://bibliotekanauki.pl/articles/260921.pdf
Data publikacji:: 2006
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: cyrkulacja atmosfery
typy cyrkulacji
wskaźniki cyrkulacji Niedźwiedzia
Arktyka Atlantycka
Spitsbergen
atmospheric circulation
types circulation
Opis:: Praca omawia najważniejsze zmiany jakie zachodziły w cyrkulacji atmosfery nad Spitsbergenem w latach 1950–2006. Po analizie zmienności typów i wskaźników cyrkulacji Niedźwiedzia stwierdzono wyraźny wzrost wartości wskaźnika cyrkulacji zachodniej (zwłaszcza latem i zimą) i południowej (głównie zimą i latem) oraz wzrost aktywności niżów we wszystkich porach roku, a zwłaszcza w zimie. Gwałtowny wzrost intensywności cyrkulacji południowej, który wystąpił w styczniu i kwietniu 2006 r. zaznaczył się dużymi anomaliami termicznymi (12.4–12.6K powyżej średniej wieloletniej). Być może rok 2006 stanie się najcieplejszym w całym okresie obserwacji instrumentalnych temperatury na Spitsbergenie.
The study presents variability of 21 circulation types and simple circulation indices above Spitsbergen for the period December 1950 – September 2006, based on original calendar of synoptic divided from the synoptic maps (Niedźwiedź 1992, 1997a). Classification of circulation types, based on method of H.H. Lamb (1972), used the direction of airflow (gradient wind) and pressure pattern (a – anticyclonic, c – cyclonic) as the main elements. After calculation of synoptic types frequencies the further results have been obtained using the simple circulation indices: W – westerly, zonal index, S – southerly – meridional index, C – cyclonicity index, as proposed by R. Murray and R. Lewis (1966) with some modifications (Niedźwiedź 1997b, 2001). The anticyclonic wedge (Ka – 10.5%) was the most frequent synoptic situation in the Spitsbergen (Table 1). The second one is circulation type Ec (9.9%) and NEc (8.7%). Weather and climate of Spitsbergen was modelled by the intense cyclonic activity during 56% of the days in a year (Fig. 1). The largest frequency of cyclonic types was noticed in November (67%). For May was typical the maximum frequency of the high pressure systems (59.7%). The annual variability of different airflows above Spitsbergen is presented on the Figures 2–5. The negative value of W index is typical for Spitsbergen, according to great frequency of eastern airflow (Table 2, Fig. 6). The great intensity of eastern airflow was observed from October to April, the weakest – during summer months. For the last 56 years was observed the increased tendency of index W. The most intense of southerly circulation index S was noticed on 1984–1994 (Table 3, Fig. 7). Positive trend was observed for winter, spring and summer. Only in autumn the tendency of S index was negative. For the Spitsbergen is typical predomination of cyclonic patterns (annual value of index C is +60), with highest values of index C from September to March (Table 4, Fig. 8). Only in May index C is negative (–10) thanks to great activity of anticyclones. For the last 56 years was observed the increasing activity of cyclonic weather above the Spitsbergen. For the last three years (2004–2006) was typical the concentration of extreme intensity of the particular forms of circulation, mainly in southerly one.
Źródło:: Problemy Klimatologii Polarnej; 2006, 16; 91-105
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 15.

Tytuł:: Zmiany temperatury powierzchni Morza Czukockiego (1982-2008)
Changes of sea surface temperature at the Chukchi Sea (1982-2008)
Autorzy:: Zblewski, S.
Marsz, A. A.
Powiązania:: https://bibliotekanauki.pl/articles/261049.pdf
Data publikacji:: 2009
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Morze Czukockie
temperatura powierzchni morza
cyrkulacja atmosferyczna
sea surface temperature
atmospheric circulation
Opis:: Praca charakteryzuje zmiany temperatury powierzchni Morza Czukockiego zachodzące w okresie 1982-2008 oraz wpływ na te zmiany cyrkulacji atmosferycznej. Stwierdzono występowanie dodatnich, istotnych statystycznie, miesięcznych i rocznych trendów temperatury powierzchni morza (TPM), nierównomiernie rozłożonych w przestrzeni. Obserwuje się występowanie asynchronicznych związków między cyrkulacją atmo-sferyczną a TPM, przy czym zmiany cyrkulacji atmosferycznej wyprzedzają w czasie zmiany TPM. W badanym okresie najsilniejszy wpływ na miesięczne i roczne zmiany TPM ma charakter cyrkulacji atmosferycznej występu-jącej w dłuższych okresach – wiosną, a nawet w całym okresie marzec-sierpień i marzec-wrzesień, poprzedzającym moment wystąpienia maksimum temperatury powierzchni morza. Wpływ cyrkulacji atmosferycznej na zmiany TPM nie jest bezpośredni, lecz realizuje się poprzez wpływ na dryf lodów na Morzu Czukockim w okresie wiosen-nym i letnim.
This work characterizes changes in sea surface temperature of the Chukchi Sea observed in the period 1982- 2008 and the way atmospheric circulation (mid-troposphere circulation, modified Arctic Dipole) influences these changes. The research made use of homogeneous data series of sea surface temperature (SST) originating from the data set NOAA NCDC ERSST v.2, in a 2�‹. x 2�‹�É grid (Fig. 1). In the examined period (1982-2008) the increase in sea surface temperature of the Chukchi Sea was observed (Table 1). In the central and southern part of the sea the increase in SST is much stronger (+0.067 deg/year) than in the northern part (0.002 deg/year). This phenomenon is connected with the fact that the northern part of the examined sea area was freed from ice only after the year 2002. During the observed period there was also mean annual increase in SST ranging from 0.62�‹C in the south-west part to 0.03�‹C in the northern part of the examined region (Fig. 2). In the period 1982-2008 strong, statistically significant correlations between SST and the character of the atmospheric circulation observed before were noted. The correlations of SST in the Chukchi Sea are stronger than those with the modified Artic Dipole. The changeability of value of the modified Arctic Dipole from March to September explains 36% (in the eastern part of the sea area) and up to 46% (in the western part) of annual changeability in SST. However the influence of changes in atmospheric circulation on the changeability of SST is not direct. The character of atmospheric circulation noted in spring season (III-V) and even during the entire spring and summer seasons (III-VIII) has influence on the ice drifting in the Chukchi Sea. The drifting ice has influence on the time during which the sea surface accumulates the heat and as a consequence affects the sea surface temperature. This sequence of consecutive correlations seems to be most important for the changes in the SST. The secondary role affecting the changes in SST in the Chukchi Sea plays the increased transport of warm water from the Bering Sea forced by strong positive phases of modified Arctic Dipole in September. This influence is limited to the area up to the southern part of the Chukchi Sea and to the time till the last three months (October-December).
Źródło:: Problemy Klimatologii Polarnej; 2009, 19; 147-158
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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