Temat: Spitsbergen - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Zmienność warunków meteorologicznych w Hornsundzie (SW Spitsbergen) w okresie 1 VII 1999 - 30 VI 2000 roku
Variability of meteorological conditions at Hornsund (SW Spitsbergen) in the period from 1st July 1999 to 30th June 2000
Autorzy:: Araźny, A.
Powiązania:: https://bibliotekanauki.pl/articles/260790.pdf
Data publikacji:: 2000
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: badania meteorologiczne
Spitsbergen
Hornsund
Opis:: Measurements and meteorological observations at Hornsund were carried out in the frame of the 22nd Polish Polar Expedition "Spitsbergen 1999/2000" research work. This was the consecutive year-long expedition organized by the Geophysical Institute of the Polish Academy of Sciences. Circulation factors have a great influence on the meteorological conditions at Hornsund. The mean annual atmospheric pressure at the sea level (1005.0 hPa) was lower than its long-term average. The mean wind velocity was 5.8 m/s. There were 971.9 hours with sunshine. The analysed year was characterised by high air temperature as for the Arctic conditions. The mean annual air temperature was -3.7°C, and was 1.1OChigher then its long-term average. The analysis of the air temperature trend in the period 1978-2000 shows a systematic warming about 0.07°C/year on the southern Spitsbergen. The annual sum of precipitation was 500.9 mm, i.e. about 77 mm higher then the long-term average. In September the highest monthly precipitation sum (230.0 mm) was measured till now.
Źródło:: Problemy Klimatologii Polarnej; 2000, 10; 55-72
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Warunki meteorologiczne na Równinie Kaffiöyra (NW Spitsbergen) w okresie od 13 lipca do 9 września 1999 roku
Meteorological conditions at Kaffiöyra (Nw Spitsbergen) in the period 13.07 - 9.09.1999
Autorzy:: Araźny, A.
Powiązania:: https://bibliotekanauki.pl/articles/260679.pdf
Data publikacji:: 2000
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: badania meteorologiczne
Równinia Kaffiöyra
Spitsbergen
warunki meteorologiczne
Opis:: The article presents results of meteorological observations carried out in the summer of 1997 on the Kaffiöyra Plain during 13rd Toruń Polar Expedition. The measurements were carried out four climatological time a day (01, 07, 13 and 19 LMT) from 21st July to 1st September 1997 i.e. 43 days. The values of meteorological elements are presented in tab. 2 and fig. 2. Apart from the 1997 summer data, there have also been presented for comparison mean values of basic meteorological elements from comparable period s (July 21 - August 31 ) of all the summer seasons when the Toruń Polar Expeditions operated on Spitsbergen (tab. 4). The summer season in 1997 was very wet, with domination of strong winds and average sunshine, thermic and humidity conditions. During the research period cyclonic situations dominated (52.4%), on 47.6%, of the days the weather conditions were formed by anticyclones.
Źródło:: Problemy Klimatologii Polarnej; 2000, 10; 73-92
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Zróżnicowanie termiki gruntu na Równinie Kaffiöyra (NW Spitsbergen) w lecie 1997 i 1998 w porównaniu z okresem 1975-98
Differentiation of soil temperature on the Kaffiöyra Plain (NW Spitsbergen) in summer 1997 and 1998 in comparison to the period 1975-98
Autorzy:: Araźny, A.
Powiązania:: https://bibliotekanauki.pl/articles/260959.pdf
Data publikacji:: 2001
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: termika gruntu
temperatura gruntu
Spitsbergen
soil temperature
Opis:: The paper presents the results of soil temperature measurements on the Kaffiöyra Plain from the polar summer period 1997 (Tab. 1) and 1998 (Tab. 2) compared to the period 1975-1998 (Tab. 3). The soil temperature measurements were carried out on three ecotops: on the sandy beach, on end moraine of the Aavatsmark Glacier, and on tundra (Fig. 1). The measurements were taken daily at 01, 07, 13 and 19 LMT at depths: 1, 5, 10, 20 and 50 cm by soil thermometers. The thermal characteristics of soils at different ecotops differ by physical characteristics, moisture, degree of vegetation cover and thickness of active layer. The paper presents the question of thermal changes in the soil with general weather conditions. The 1997 summer was very wet, strong winds domination and mean sunshine. The 1998 summer, on the contrary, was more cloudy and warmer, and the atmosphere dynamics lower with rare light rainfall (Fig. 2, Tab. 4). The comparison of summer seasons was made for the common period 21 July - 31 August. The thermal changes of the soil on the Kaffioyra Plain are best illustrated by the data from the beach because observations at this stand were made during all of the expeditions. The mean temperature at all depth was the lowest in 1982 and 1997, the highest in 1985 and 1998 (Fig. 5). In the analysed period the measurement point on the beach was the coldest stand, tundra was warmer, and the stand on the moraine the warmest (Tab. 3, Fig. 4).
Źródło:: Problemy Klimatologii Polarnej; 2001, 11; 81-92
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Wpływ warunków meteorologicznych na kształtowanie się odpływu powierzchniowego na Lodowcu Waldemara (NW Spitsbergen) latem 1997 roku
Influence of meteorological conditions to the surface run-off on the Waldemar Glacier (NW Spitsbergen) in the summer of 1997
Autorzy:: Brykała, D.
Araźny, A.
Powiązania:: https://bibliotekanauki.pl/articles/260802.pdf
Data publikacji:: 2000
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
warunki meteorologiczne
Lodowiec Waldemara
pomiary meteorologiczne
ablacja
Opis:: In the summer season 1997 during the 13rd Toruń Polar Expedition research works were carried out to investigate the dynamics of water run-off in a selected supraglacial stream on the Waldemar Glacier in comparison to the course of meteorological conditions and ablation (figs l and 3). We have tried to present also the temporal and spatial changes in the structure of surface run-off on the glacier. Over the Kaffiöyra region in the whole summer season, especially in August, cyclonic weather dominated. Its characteristic features were: small sunshine duration (16.6 percent of the possible value), high cloudiness (8.5 on the scale l-10), high frequency of strong winds (mean velocity 5.4 m/s), and very abundant and intensive atmospheric precipitation (sum 122.5 mm) (fig. 2). The ablation is considerably differentiated spatially and temporary. In the studied period its highest value was observed below 250 m above sea level, and the lowest one on 430 m above sea level (19 cm e.w.). On 150 m above sea level, at the hydrometric stand, the ablation was 119 cm e.w. The gradient of ablation varied from 0.3 cm to 3.6 cm e.w. per 100 m height in the selected periods (Sobota 1998). The three big streams marked on fig. 3 (A. B and e) have the greatest role in the formation of the surface drainage system of the Waldemar Glacier. Daily measurements of the discharge intensity were made on the 508.6 m long supraglacial stream. The stationary measurement point was on 147m above sea level, about 160 m above the place where the stream leaves the snout of the glacier. The spatial differentiation induced the authors to distinguish five glacio-hydrological zones on the Waldemar Glacier: intensive ablation. Organized run-off, snow patches, slush, and dry snow (fig, 4, tab. l). The main criteria to distinguish the individual zones were the followings: morphology of the glacial surface, pollution degree of the snow by moraine material, and types of the surface run-off. Table 2 presents the correlation coefficients between the meteorological parameters and ablation and the discharge in the analysed stream. In most of the cases the correlation between the individual parameters is high (r > 0.77). The highest values of the correlation coefficient occur between the discharge and the course of temperature and ablation.
Źródło:: Problemy Klimatologii Polarnej; 2000, 10; 139-158
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Porównanie warunków klimatycznych i bioklimatycznych północnej części Ziemi Oscara II z innymi obszarami zachodniego wybrzeża Spitsbergenu w okresie 1875-2000
Comparison of climatic and bioklimatic conditions in the northern part of Oscar II Land with other areas of the west coast of Spitsbergen from 1975-2000
Autorzy:: Przybylak, R.
Araźny, A.
Powiązania:: https://bibliotekanauki.pl/articles/260858.pdf
Data publikacji:: 2005
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
klimat
bioklimat
odczucia cieplne
climate
bioclimate
thermal state
Opis:: W artykule porównano warunki klimatyczne i bioklimatyczne N części Ziemi Oskara II z innymi obszarami zachodniego wybrzeża Spitsbergenu w okresie 1975-2000. Klimat Ziemi Oskara II przedstawiono na podstawie danych meteorologicznych ze stacji Ny Alesund. Klimat centralnej i południowej części zachodniego wybrzeża Spitsbergenu reprezentują odpowiednio stacje: Svalbard-Lufthavn i Hornsund. Dla wymienionych obszarów obliczono i przeanalizowano różnice pomiędzy średnimi miesięcznymi i rocznymi wartościami wybranych elementów meteorologicznych (wiatr, zachmurzenie, temperatura i wilgotność powietrza oraz opady atmosferyczne) i wskaźników biometeorologicznych (niedosyt fizjologiczny, wielkość ochładzająca powietrza, wskaźnik ochładzania wiatrem, temperatura ochładzania wiatrem, przewidywana izolacyjność odzieży).
The paper describes the climate and bioclimate of the tundra zone in the northern part of Oscar II Land (the area from Jonsfiorden to Kongsfiorden) from 1975 to 2000. A comparison with the climate and bioclimate of other parts of the west coast of Spitsbergen is also presented. For the analysis, meteorological data from three stations (Ny Alesund, Svalbard Lufthavn and Hornsund) were used (Fig. 1). Significant differentiation of climatic conditions on the west coast of Spitsbergen was found (Table 1 and Fig. 2). Wind direction and speed was strongly modified by the local topographic conditions. For this reason, the lowest mean annual wind speed (by 1.2 to 1.7 m/s) of the three analysed stations, was in Ny Alesund. The degree of cloudiness was similar at Ny Alesund and Svalbard Lufthavn, while at Hornsund it was greater by about 6%. Mean annual air temperature at Ny Alesund is slightly higher (by 0.1°C) than at Svalbard Lufthavn and significantly lower (by 1.1°C) than at Hornsund. In the annual course, in comparison with the central part of the west coast, the northern part of Oscar II Land is markedly warmer in winter (on average by 1.0°C) and significantly colder in summer (by 1.0°C). An opposite relationship may be noted when comparison is made with the southern part of Spitsbergen. The greatest values of relative humidity occur in the southern and northern parts of Spitsbergen, while in the central part of the western coast their values are smaller (in particular in summer). Atmospheric precipitation was twice as low in the central part of the western coast of Spitsbergen as it was in its northern and southern parts. Differences in bioclimatic conditions were found on the west coast of Spitsbergen (Table 2, Fig. 3). To establish their characteristics, a number of biometeorological and thermophysiological indices were used. These enabled the estimation of the sensations of heat in humans standing outdoors in this part of Spitsbergen. Analysis of the physiological deficit (D) values on the west coast of Spitsbergen indicate that water evaporation from the human upper respiratory tract during the whole year is high. The cooling power (H) shows significant differences between different parts of western Spitsbergen. The mean number of days per year with thermal comfort for humans oscillated between 11 at Svalbard Lufthavn and 18 at Hornsund to 42 at Ny Alesund. On the other hand, days with cold discomfort were most frequent in central (277) and southern (271) parts of Spitsbergen, while in the northern part they rarely occurred (only 217). The best thermal sensations (described as 'cool') according to the wind chill index (WCI) occur from June to September at all stations, and also in May at Ny Alesund. In the other months conditions described as 'cold' were noted over the entire area. Days with a possibility of frostbite were noted with an annual average frequency of about 10 at Ny Alesund and 25 at Svalbard Lufthavn and Hornsund. The wind chill temperature (WCT) throughout the west coast of Spitsbergen shows the dominance of moderate sensations of cold from November to April. During the summer months (July and August) sensations of 'cold' did not occur. The insulation predicted index (Iclp) was used to estimate the bioclimate of Spitsbergen from the point of view of an individual's need for clothes to obtain thermal comfort. The index was calculated for a standing man and a man who is walking at a speed of 4km/h. Its values for the standing individual oscillated from 4.35 clo at Hornsund to about 4.49 clo at Svalbard Lufthavn. On the other hand, for the walker, clothes would need half the thermal insulation level to obtain thermal comfort.
Źródło:: Problemy Klimatologii Polarnej; 2005, 15; 119-131
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Warunki meteorologiczne i biometeorologiczne okolic Hornsundu (Spitsbergen Zachodni) w roku 2009
Meteorological and biometeorological conditions in the Hornsund region (Western Spitsbergen) in 2009
Autorzy:: Araźny, A.
Budzik, T.
Migała, K.
Puczko, D.
Powiązania:: https://bibliotekanauki.pl/articles/261011.pdf
Data publikacji:: 2010
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: warunki meteorologiczne i biometeorologiczne
Spitsbergen
WCI
STI
meteorological and biometeorological conditions
Opis:: W artykule zostały zaprezentowane rezultaty pomiarów meteorologicznych przeprowadzonych w południowej części Ziemi Wedela Jarlsberga, SW Spitsbergen w roku 2009. Pomiary były prowadzone na czterech stanowiskach: na terasie morskiej (PSP), morenie bocznej lodowca (WER) i na lodowcu: w strefie akumulacji (HT9) i poniżej linii równowagi (HT4). Informacje o wartościach elementów meteorologicznych zostały wykorzystane do oceny warunków biotermiczno-meteorologicznych jakie występowały w tych typach terenu. W tym celu przeanalizowano wartości wskaźnika ochładzania wiatrem (WCI), temperatury odczuwalnej (STI) oraz poszczególnych strumieni wymiany ciepła między człowiekiem a otoczeniem.
Presented paper is focused on the meteorological and biometeorological conditions observed in south part of the Wedel Jarslberg Land (SW Spitsbergen) in 2009. Meteorological data used in presented study were collected in four locations: at the Polish Polar Station (PSP: 77.00159°N 15.54131°E, 10 m a.s.l.), lateral moraine of Werenskiold Glacier (WER: 77.07101°N, 15.17852°E, 31 m a.s.l.), middle part of Hans Glacier below equlibium line (HT4: 77.04738°N, 15.63275°E, 180 m a.s.l.) and accumulation’s zone of Hans Glacier (HT9: 77.11656°N, 15.48781°E, 430 m a.s.l.). The average air temperature registered in 2009 was -2.7°C and it is one of the warmest year from starting of the meteorological observations at the Polish Polar Station in 1978. The last two months (November and December) were exceptional: with almost 6°C higher monthly average of air temperature (in comparison with average from 1983 to 2006). Meteorological data as: air temperature, relative humidity, wind speed and solar irradiation were used for calculating the following biometeorological indexes: wind chill index (WCI), subjective temperature index (according to Błażejczyk; STI), man-environment heat exchange fluxes (mC, mE, mRes), radiation and total heat exchange balances (mQ, mS). A significant variety of the biometeorological stimuli at investigated area were observed: in lateral moraine (WER) the most often “comfortable” conditions occurred – up to 34% of the time of August – if wind chill index is taken into account – while this class of thermal feelings at HT4 location is rare (less than 1% of the time of August). The high value of negative heat balance of man exposed to meteorological conditions at the Hans glacier during winter could be danger for human body, if no special arctic wear is used.
Źródło:: Problemy Klimatologii Polarnej; 2010, 20; 83-101
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Porównanie warunków meteorologicznych na zachodnim wybrzeżu Spitsbergenu w sezonie letnim 2005 r.
Diversification of meteorological conditions on the western coast of Spitsbergen during the summer season of 2005
Autorzy:: Przybylak, R.
Araźny, A.
Gluza, A.
Hojan, M.
Migała, K.
Sikora, S.
Siwek, K.
Zwoliński, Z.
Powiązania:: https://bibliotekanauki.pl/articles/260889.pdf
Data publikacji:: 2006
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: warunki meteorologiczne
sezon letni
Arktyka
Spitsbergen
meteorological conditions
summer season
Arctic
Opis:: W artykule przedstawiono porównanie warunków meteorologicznych w sezonie letnim 2005 r. na podstawie danych zebranych w trakcie trwania polskich wypraw polarnych do Hornsundu, Calypsobyen, doliny Ebby i Kaffiöyry. Dodatkowo, aby szczegółowiej poznać ich zróżnicowanie na zachodnim wybrzeżu Spitsbergenu skorzystano z dostępnych danych dla 2 norweskich stacji: Ny Alesund i Svalbard Lufthavn. Ze względu na różny czas pracy polskich ekspedycji polarnych do porównania warunków meteorologicznych wybrano wspólny okres 21.07-31.08. Stwierdzono, iż zróżnicowanie przestrzenne większości badanych elementów meteorologicznych na zachodnim wybrzeżu Spitsbergenu latem 2005 r. było znaczące. Na kształtowanie warunków meteorologicznych na badanym obszarze, a więc i na ich zróżnicowanie przestrzenne, w pełni sezonu letniego większy wpływ wywiera stopień kontynentalizmu klimatu niż szerokość geograficzna. Jednak wraz ze zbliżaniem się końca lata polarnego rola wspomnianych czynników się odwraca.
The paper presents the data concerning the spatial diversification of meteorological conditions occurring on the western coast of Spitsbergen during the summer season of 2005. For the analysis daily data have been used from four Polish stations (Kaffiöyra - KH, Ebby valley - EBB, Calypsobyen - CAL and Hornsund - HOR) and two Norwegian stations (Ny Ĺlesund - NYA, Svalbard Lufthavn - SVA), mainly for the common period of observation (from 21st July to 31st August) (Fig. 1). The Hornsund station was used as a reference station. Differences have been computer for all the analysed meteo-rological variables between stations for every 24-hour period, ten- / eleven-day period, and for the common period of observations as a whole (the meterological variables analysed include air pressure (AP), wind speed (v), cloudiness (C), sunshine duration (SS), maximum daily temperature (Tmax), mean daily temperature (Ti), minimum daily temperature (Tmin), relative humidity (f), and atmospheric precipitation (P)) (Table 1, Fig. 2, Fig. 5). All results proved that the spatial diversification of almost all analysed variables is significant. It is very evident that in the summer the degree of climate continentality has a greater influence on this diversification than the geographical latitude. Local topography plays also important role in the diversification of meteorological variables on the western coast of Spitsbergen. A good example of this influence is presented in Figure 4, showing different kinds of wind roses. It can be seen that winds from different directions dominate in each station. Mean daily courses of some selected meteorological variables (Fig. 3) also show that spatial diversification is varied throughout the day. For example, greater differences are noted during "night" hours for atmospheric pressure and wind speed, while an opposite relation exists for air temperature and relative humidity. Extreme values of analysed meteorological variables during the common period of observation (from 21st July to 31st August 2005) are shown in Table 2. The highest temperature (13.1°C) occurred in Svalbard Lufthavn located in the most continental part of Spitsbergen, while the lowest (0.5°C) was in the Hornsund region, where cyclones bringing thick clouds are very common. Day-to-day variabilities of the majority of the analysed meteorological variables on the west coast of Spitsbergen are quite large (Table 3).
Źródło:: Problemy Klimatologii Polarnej; 2006, 16; 125-138
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Warunki meteorologiczne na Równinie Kaffiøyra (NW Spitsbergen) w sezonach letnich w okresie 2012-2014
Meteorological Conditions on the Kaffiøyra Plain (NW Spitsbergen) in Summer Seasons in the Period 2012-2014
Autorzy:: Przybylak, R.
Ulandowska-Monarcha, P.
Araźny, A.
Powiązania:: https://bibliotekanauki.pl/articles/163786.pdf
Data publikacji:: 2016
Wydawca:: Polskie Towarzystwa Geofizyczne
Tematy:: Arktyka
Spitsbergen
Kaffiøyra
warunki meteorologiczne
zmiany sezonowe
Arctic
meteorological conditions
seasonal changes
Opis:: W artykule przedstawiono charakterystykę warunków meteorologicznych w północnej części Kaffiøyry (NW Spitsbergen, rys. 1) w sezonach letnich (21 VII – 31 VIII) w okresie 2012-2014 (tab. 1, rys. 2-9). Pomiary i obserwacje meteorologiczne prowadzono w ogródku meteorologicznym zlokalizowanym w pobliżu stacji polarnej UMK na morenie czołowo-bocznej Lodowca Aavatsmarka (φ=78°4’N, λ=11°51’E, h=11,5 m n.p.m.). Wykonywano je 4 razy na dobę, w terminach 00, 06, 12, 18 UTC (01, 07, 13, 19 LMT). W artykule uzyskane wyniki porównano z wieloletnimi wartościami większości elementów meteorologicznych obliczonymi z kilkudziesięciu sezonów letnich, w których zorganizowano Toruńskie Wyprawy Polarne w okresie 1975-2014 (tab. 1). W sezonach letnich 2012-2014 stwierdzono większą prędkość wiatru (5,3 m·s^-1 w stosunku do 4,6 m·s^-1 w wieloleciu 1975-2014). Przyczyniła się do tego przede wszystkim zwiększona jego prędkość w sezonie letnim 2012 r. (6,1 m·s^-1). Świadczy to o wzroście działalności cyklonalnej na obszarze Spitsbergenu. Oprócz wiatru znaczącym zmianom podległy także wszystkie parametry temperatury powietrza (tab. 1). W największym stopniu wzrosła temperatura maksymalna (o 0,8 ^oC), a w najmniejszym minimalna (tylko o 0.4 ^oC). Warto też odnotować znaczny wzrost średniej dobowej amplitudy temperatury powietrza, o 0,5 ^oC. Ociepleniu klimatu w rejonie Kaffiøyry towarzyszy także znaczny wzrost opadów, który w latach 2012-2014 wyniósł nieznacznie powyżej 150% ich wielkości z lat 1975-2014. (tab. 1). Pozostałe elementy wymawiane w artykule nie wykazały większych zmian w porównaniu do danych wieloletnich.
This article provides the characteristics of meteorological conditions in the north of Kaffiøyra (NW Spitsbergen, Fig. 1) in the summer seasons (21 July – 31 August) of 2012-2014 (Table 1, Figs 2-9). The observations and measurements were carried out at a meteorological site located near the NCU Polar Station on the terminal-lateral moraine of the Aavatsmark Glacier (φ=78°4’N, λ=11°51’E, h=11.5 m a.s.l.). The measurements were taken four times per day at 00:00, 06:00, 12:00 and 18:00 UTC (01:00, 07:00, 13:00 and 19:00 LMT). In this article, the obtained results are compared with multi-annual values of most meteorological elements obtained from a few dozen summer seasons, during which Toruń Polar Expeditions were organised in the years 1975-2014 (Table 1). In the summer seasons of 2012-2014, the observed wind speed was greater than in the years 1975-2014 (5.3 m· s^-1 vs. 4.6 m·s^-1, respectively). This was mainly due to its increased speed in the summer of 2012 (6.1 m·s^-1) and it is also an indication of intensified cyclonic activity in the area of Spitsbergen at the time. Besides the wind, all other parameters of air temperature were also subject to considerable changes (Table 1). The maximum temperature of air increased the most (by 0.8 ^oC), whereas the change in minimum temperature was the smallest (only by 0.4 ^oC). A substantial increase in the mean diurnal amplitude of air temperature by 0.5 ^oC is also noteworthy. The warming of the climate of Kaffiøyra is accompanied by greater precipitation, which in the years 2012-2014 slightly exceeded 150% of its respective amount for 1975-2014 (Table 1). The other meteorological elements analysed in this article do not show any major changes as compared with the long-term data.
Źródło:: Przegląd Geofizyczny; 2016, 1-2; 73-92
0033-2135
Pojawia się w:: Przegląd Geofizyczny
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Zróżnicowanie opadów atmosferycznych w rejonie Kaffioyry (NW Spitsbergen) w sezonie letnim w latach 1980-2008
Atmospheric precipitation differentiation in the Kaffioyra region (NW Spitsbergen) in summer season, 1980-2008
Autorzy:: Przybylak, R.
Araźny, A.
Kejna, M.
Maszewski, R.
Wyszyński, P.
Powiązania:: https://bibliotekanauki.pl/articles/260663.pdf
Data publikacji:: 2009
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
Kaffioyra
sezon letni
opady atmosferyczne
cyrkulacja atmosferyczna
summer season
precipitation
atmospheric circulation
Opis:: W opracowaniu przedstawiono zróżnicowanie warunków opadowych w rejonie Kaffioyry (NW Spitsbergen) w sezonie letnim na podstawie danych z lat 1980-2008. Zbadano wpływ cyrkulacji atmosferycznej i warunków lokalnych na opady atmosferyczne. Uzyskane wyniki porównano ze stacją Ny-Alesund.
Precipitation in the Arctic, including Spitsbergen, is very important for both the biosphere and for the mass balance of glaciers. Our knowledge about its values inside Arctic islands is limited because almost all meteorological stations are located on tundra below 200 m a.s.l. Therefore any information about precipitation conditions occurring on glaciated and non-glaciated areas lying in the inner parts of Spitsbergen is very valuable. In this paper we present results of precipitation measurements carried out in north-western Spitsbergen (the Kaffioyra region and the Ny Alesund station) in selected summer seasons during the period 1980-2008. Precipitation measurements in the Kaffioyra region have been done during Toruń Polar Expeditions in three stations (base station – Kaffioyra-Heggodden (KH) and two glacier stations located in the lower part (LW1) and upper part (LW2) (see Figure 1 and Table 1). Data for the Ny Alesund (NA) station were obtained from the Norwegian Meteorological Institute. In the KH and NA stations measurements were recorded every day, while in LW1 and LW2 they were generally taken every 1-2 days. Results of precipitation conditions are presented for a common period of observations, i. e. for 21st July-31st August. The influence of atmospheric circulation on precipitation was investigated using the catalogue of circulation types constructed by Niedźwiedź (2009). In the summer season precipitation is greater at the end of the study period, than at the beginning. Year-to-year variability of summer precipitation totals is very large. For example, in KH, the highest precipitation (122.5 mm) occurred in 1997, while the lowest (12.3 mm) was in 2007 (Table 2). Also, the frequency of daily precipitation (.0.1 mm) is significantly greater in most wet summer (61.9%) than in most dry summer (28.6%) (see Table 3). Daily precipitation of .10 mm is rare in the KH station and occurred in only 4 out of the 12 summer seasons. It is well known that precipitation is greater in the inner parts of Spitsbergen than in tundra areas. Less is known, however, about the magnitudes of these differences. For the Kaffioyra region precipi-tation observations are available for 9 summer seasons (Tables 5 and 6). From these Tables and Figure 2 it is clear that precipitation on glaciers is almost always greater than in tundra. On average, summer precipitation totals are greater in LW1 and LW2 than in KH by 21.5 and 35.1 mm, respectively. The greatest differences occurred in 1980, while the lowest were in 2007, when even in LW1 precipitation was lower than in KH (Table 5, Figure 3). Lapse rates of precipitation in the Kaffioyra region are greatest between tundra and glaciated areas (oscillating between 13.2mm/100m and 18.5mm/100m between KH and LW2 and KH and LW1, respectively (Table 7)). On the other hand, this lapse rate between stations LW1 and LW2 is the lowest (only 10.7 mm/100 m). Correlation coefficients of 10-day precipitation totals between the meteorological stations in the Kaffioyra region are very high and exceed 0.9. The greatest precipitation in the Kaffioyra region occurred during the inflow of air masses from the southern sector (Table 8, Fig. 7).
Źródło:: Problemy Klimatologii Polarnej; 2009, 19; 189-202
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Warunki meteorologiczne i biometeorologiczne w rejonie Hornsundu w ciepłej porze roku 2007 i 2008
Biometeorological and meteorological conditions in the Hornsund region during the warm season of 2007 and 2008
Autorzy:: Araźny, A.
Migała, K.
Sikora, S.
Budzik, T.
Puczko, D.
Powiązania:: https://bibliotekanauki.pl/articles/260673.pdf
Data publikacji:: 2009
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
warunki meteorologiczne i biometeorologiczne
cyrkulacja atmosferyczna
Hornsund
biometeorological conditions
meteorological conditions
atmospheric circulation
Opis:: W artykule dokonano charakterystyki warunków meteorologicznych i biometeorologicznych w rejonie Hornsundu w okresie ciepłym (od 1 czerwca do 30 września) w roku 2007 i 2008. Pomiary wykonywano w czterech punktach: w Hornsundzie, na Lodowcu Hansa (na linii równowagi i w jego partii firnowej) oraz na szczycie Fugleberget. Przeanalizowano zróżnicowanie warunków meteorologicznych i biometeorolo-gicznych w zależności od: wysokości nad poziomem morza, odległości od morza i charakteru podłoża. Wyko-rzystano m.in. cztery wskaźniki biometeorologiczne: wskaźnik ochładzania wiatrem (WCI), przewidywaną termo-izolacyjność odzieży (Iclp), wielkość ochładzającą powietrza (H) oraz temperaturę odczuwalną (STI). Stwierdzono, że zróżnicowanie przestrzenne badanych elementów meteorologicznych oraz wskaźników biometeorologicznych w rejonie Hornsundu latem 2007 i 2008 roku było znaczące. Przedstawiono wpływ cyrkulacji atmosferycznej na poszczególne elementy meteorologiczne i wskaźniki biometeorologiczne.
In the paper meteorological and biometeorological conditions in the region of Hornsund during the warm season are discussed. The measurements of meteorological and biometeorological para-meters were carried out from 1st June to 30th September 2007 and 2008 at four points: Hornsund (HOR, ö = 77°00’N, ë = 15°33’E, 10 m above sea level), Fugle (FUG, ö = 77°01’ N, ë = 15°34’ E, 568 m above sea level), as well as at middle (HT4, ö = 77°04’ N, ë = 15°63’ E, 184 m above sea level) and firnal (HT9, ö = 77°11’ N, ë = 15°48’ E, 421 above sea level) parts of Hans Glacier (Fig. 1). Spatial differentiation of biometeorological conditions were studied in relation to altitude, ground cover and distance from the sea shore. To define biometeorological conditions the following indices were used: subjective temperature (STI), cooling power (H), wind chill index (WCI) and insulation predicted (Iclp). Significant temporal and spatial differences in studied indices were found. The most severe stimuli were observed at the glacier (HT4 and HT9) and in the mountains (FUG). However, relatively mild conditions were noted during sunny hours. We have also observed close relationships between meteorological elements and biometeorolo-gical indices and atmospheric circulation. The greatest possibility of unfavourable thermal sensations occurs during air advection from N-NNW-NW. The mildest conditions can be expected at advection from SW and W.
Źródło:: Problemy Klimatologii Polarnej; 2009, 19; 203-222
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Zróżnicowanie przestrzenne i wieloletnia zmienność temperatury gruntu w rejonie Stacji Polarnej UMK (NW Spitsbergen) w okresie letnim (1975-2009)
Differentiation and long-term changes in ground temperature on the Kaffioyra plan (NW Spitsbergen) in the summer season from 1975 to 2009
Autorzy:: Przybylak, R.
Araźny, A.
Kejna, M.
Powiązania:: https://bibliotekanauki.pl/articles/261005.pdf
Data publikacji:: 2010
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
temperatura gruntu
sezon letni
zmienność wieloletnia
ground temperature
summer season
long-term changes
Opis:: W artykule przedstawiono podsumowanie wyników badań dotyczących zmian temperatury gruntu w otoczeniu Stacji Polarnej UMK na Kaffioyrze (NW Spitsbergen) w sezonie letnim. Do analizy wzięto dane pomiarowe z 5 głębokości (1, 5, 10, 20 i 50 cm) z 3 różnych ekotopów (plaża, morena i tundra) wykonane w trakcie 17 dotychczasowych wypraw polarnych zorganizowanych przez Instytut Geografii UMK w różnych latach okresu 1975-2009. W celu uzyskania pełnej porównywalności wyników wybrano okres 21.07-31.08, dla którego dostępne są kompletne dane dla niemal wszystkich sezonów letnich analizowanych w artykule. Serie temperatury gruntu na wszystkich stanowiskach i poziomach są ze sobą bardzo silnie skorelowane. Wyraźnie największy wpływ na zmierzone wartości temperatury gruntu w całej badanej warstwie wywiera tempe-ratura powietrza (współczynniki korelacji wahają się od 0,6 do 0,86). Inne elementy meteorologiczne takie jak prędkość wiatru, zachmurzenie i usłonecznienie również w sposób istotny wpływają na temperaturę gruntu, ale głównie w warstwie 0-20 cm (współczynniki korelacji wahają się od 0,15 do 0,28). Istotny statystycznie, chociaż ilościowo bardzo niewielki, wpływ na temperaturę gruntu w warstwie do 20 cm ma także opad atmosferyczny.
In the present paper a comprehensive synthesis of ground temperature changes on the Kaffiřyra Plain (NW Spitsbergen) in the summer season (21st July to 31st August) from 1975 to 2009 is described. This has been done with two main aims in mind: i) to examine the influence of different ecotypes on ground temperature values in the layer 1-50 cm, and ii) to examine long-term changes of ground temperature. The highest values of long-term average ground temperature in the summer season have been observed between 20th and 25th July. After this period a gradual decrease in ground temperature is observed (Table 2, Fig. 3). One clear cold singularity can be distinguished here occurring at the end of July and start of August which is connected with a significant decrease in air temperature observed very often during this time. In the period 1978-2009 the warmest ground in the entire analysed layer was observed at the ‘Moraine’ site (6.2°C), and the coldest was at the ‘Tundra’ site (5.1°C) – Table 3, Fig. 4. However, in the shallowest layer (up to 1 cm) markedly the warmest site was the beach, while the coldest was at a depth of 50 cm (Fig. 4). The reason for the large decrease of temperature in this layer was that this was where the permafrost roof was at its shallowest. As a consequence of this temperature behaviour in the layer, the ‘Beach’ site shows the greatest lapse rate of ground temperature (-0.78°C/10 cm) (Table 4). In the warmest summer seasons a greater range of ground temperature in the daily cycle is observed than in the coldest ones, which is very clearly seen, in particular in the layer from surface up to 20 cm (Fig. 5). In the study period a significant increase in ground temperature in the layer 1-20 cm was observed starting in 1998, while at a depth of 50 cm this rise can be seen from 2005 onward (Fig. 6). Very high and statistically significant correlation have been found between series of daily ground temperature taken from all sites and all measurement depths (Table 5). Air temperature is a meteorological variable, which has the greatest influence on the values of ground temperature. Correlation coefficients between series of its daily values and series of average daily ground temperature in all analysed depths at the ‘Beach’ site oscillate from 0.6 to 0.86 (Table 6, Fig. 7). Important factors controlling values of ground temperature in the layer 0-20 cm are also wind velocity, cloudiness and sunshine duration (correlation coefficients oscillate between 0.15 and 0.28).
Źródło:: Problemy Klimatologii Polarnej; 2010, 20; 103-120
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Zróżnicowanie przestrzenne wilgotności względnej powietrza w północnej części równiny Kaffiøyra i na Lodowcu Waldemara (NW Spitsbergen) w okresie od września 2010 do sierpnia 2013
Spatial diversity of air relative humidity in the northern part of the Kaffiøyra plain and the Waldemar Glacier (NW Spitsbergen) from September 2010 to August 2013
Autorzy:: Przybylak, R.
Araźny, A.
Ulandowska-Monarcha, P.
Powiązania:: https://bibliotekanauki.pl/articles/260842.pdf
Data publikacji:: 2014
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Arktyka
Spitsbergen
klimat
wilgotność względna powietrza
cyrkulacja atmosferyczna
Arctic
climate
relative air humidity
atmospheric circulation
Opis:: W artykule przedstawiono zróżnicowanie przestrzenne wilgotności względnej powietrza w północnej części rejonu Kaffiøyry i na Lodowcu Waldemara w okresie IX 2010 – VIII 2013. W okresie od września 2010 do sierpnia 2011, dla którego istnieją najpełniejsze dane dla wszystkich stanowisk pomiarowych, najwyższe wartości wilgotności względnej zostały zanotowane na szczytach górskich (89%) i na polu firnowym Lodowca Waldemara (86%). Najniższa wartość tego parametru wystąpiła natomiast na tundrze (79%). W całym okresie badawczym, na podstawie zredukowanej liczby stacji, stwierdzono, iż najsuchszy był punkt Kaffiøyra-Heggodden (KH, 83%) zlokalizowany na morenie czołowo-bocznej Lodowca Aavatsmarka, a najbardziej wilgotno było na polu firnowym Lodowca Waldemara (LW2, 85%). Wilgotność względna na badanym obszarze wykazała przeważnie wzrost wartości wraz ze wzrostem wysokości nad poziom morza. Najwilgotniejsze powietrze w rejonie badań towarzyszyło typom cyrkulacji Sc+SWc+Wc i Sa+SWa+Wa (anomalie dodatnie od 7 do 9%), a najsuchsze (anomalie ujemne wahające się od 6% do 9%) podczas napływu mas powietrza z sektora wschodniego, niezależnie od rodzaju układu barycznego. Najmniejsze różnice (do ok. 1-2%) wystąpiły w sytuacjach bezadwekcyjnych reprezentowanych przez typ Ka+Ca.
This paper presents the spatial diversity of air relative humidity (2 m a.g.l.) in the northern part of the Kaffiøyra Plain and on the Waldemar Glacier (NW Spitsbergen), from September 2010 to August 2013, based on measurements taken at six sites located in different environments (Table 1, Figure 1). Results are described for years and seasons, defined as: autumn (Sep-Oct), winter (Nov-Mar), spring (Apr-May) and summer (Jun-Aug). In the period from September 2010 to August 2011, the highest relative humidity was noted on mountain ridges (89%) and in upper part of the Waldemar Glacier (86%). The lowest value of humidity (79%) occurred at a tundra site called ‘Terrace’, located about two kilometres from the coast (Table 2, Figure 2). In the entire period of observations, for which a reduced number (3) of observation sites exists, drier air (83%) was observed at the Kaffiøyra-Heggodden (KH) site, located in the terminal-lateral moraine of the Aavatsmark Glacier, whereas the wettest air (85%) was measured at the firn part of the Waldemar Glacier (LW2). Relative humidity generally shows an increase as altitude increases above sea level. The marked influence of atmospheric circulation on relative humidity was also noted. In the study period, as compared to long-term values from 1951 to 2006, a decrease in the frequency of occurrence of anticyclonic types and an increase in the frequency of cyclonic types (by 10% and 6.8%, respectively) was also noted (Figure 3). Most humid air in the study area occurred within the circulation types Sc+SWc+Wc and Sa+SWa+Wa (positive anomalies varied from 7% to 9%), and the driest (negative anomalies from 6% to 9%) during air advection from the eastern sector within both anticyclonic and cyclonic weather patterns (Table 3 and Figure 4). The smallest differences (up to 2%) were connected with non-advectional weather type Ka+Ca.
Źródło:: Problemy Klimatologii Polarnej; 2014, 24; 25-36
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Zróżnicowanie wilgotności względnej i opadów atmosferycznych w rejonie Forlandsundet (NW Spitsbergen) w sezonie letnim 2010
Differentiation of relative humidity and precipitation in the Forlandsundet region (NW Spitsbergen) in the summer 2010
Autorzy:: Araźny, A.
Przybylak, R.
Kejna, M.
Powiązania:: https://bibliotekanauki.pl/articles/261033.pdf
Data publikacji:: 2011
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: topoklimat
wilgotność względna
opady atmosferyczne
cyrkulacja atmosferyczna
Spitsbergen
Forlandsundet
topoclimate
relative humidity
precipitation
atmospheric circulation
Opis:: W artykule przedstawiono zróżnicowanie wilgotności względnej powietrza oraz opadów atmosferycznych w rejonie Forlandsundet (NW Spitsbergen) w sezonie letnim (21 VII - 31 VIII) 2010 roku. Do analizy wzięto cogodzinne dane wilgotności względnej (z 18 stanowisk) oraz sumy opadów atmosferycznych z okresów 1-3 dniowych (z 11 stanowisk). Dla obydwu badanych elementów meteorologicznych stwierdzono znaczne przestrzenne zróżnicowanie ich wartości uwarunkowane rodzajem podłoża, wysokością nad poziom morza, odległością od morza, ekspozycją oraz lokalną cyrkulacją atmosferyczną. Zbadano wpływ cyrkulacji atmosferycznej na wartości wilgotności względnej i opadów atmosferycznych korzystając z kalendarza typów cyrkulacji dla Spitsbergenu.
In the paper some main results concerning spatial differentiation of relative humidity and precipitation in the Forlandsundet region (NW Spitsbergen) in summer season (21 VII - 31 VIII) of 2010 are presented (Table 1, Figs 1-2). For analysis hourly data from 18 and 11 sites, respectively for relative humidity and precipitation have been used. Relative humidity was measured using automatic weather stations Davis Ventage Pro2 and MadgeTech sensors. On the other hand, for measurements of precipitation Hellmanns' ombrometers and automatic weather stations Davis Ventage Pro2 have been utilised. Large spatial differences of relative humidity and precipitation noted in the study area were influenced by different factors, e.g. character of ground, altitude above sea level, distance from the sea coast, exposition to the sun and incoming air masses, and local atmospheric circulation. Highest mean values of relative humidity (94.6%) occurred at the site surrounded by the sea (Sarstangen Peninsula, SAT), while the lowest one (86.4%) at the site located 200 m from the Waldemar Glacier termini (ATA) (Table 3, Fig. 3). The first half of the day saw highest values of relative humidity than the second one (Fig. 4). The reason of this may be explained by the opposite daily course of air temperature. Daily courses are getting more and more clear in line with decreasing value of cloudi-ness (Fig. 5). In the Forlandsunet region most frequent were air masses which can be described as humid and very humid. Days with moderate dry and dry air were noted very rarely (Fig. 6). Relative humidity shows usually very high and statistically significant correlation between data from the analysed sites (Table 3). Weak and not statistically significant correlations (r < 0.3) were calculated only between the following pair of sites SAT-PH2 and SJ1-PH2. In the summer 2010 the lowest total of precipitation (8.5 mm) in the KH station, out of all Toruń Polar Expeditions since 1975, have been observed (Table 4). In the firn part of the Waldemar Glacier seasonal total of precipitation was 3-4 times greater than in sites located on coastal plains. In the Kaffioyra Plain and Waldemar Glacier region vertical lapse rate was twofold greater between KH and LW1 than between KH and LW2 (14.7 and 7.7 mm/100m, respectively). In the entire study area, highest summer total of precipitation occurred in the middle part of the Prins Karls Forland island. Relationships between atmospheric circulation and relative humidity as well as precipitation were investigated using data from the KH station and calendar of daily synoptic types for Spitsbergen constructed by Tadeusz Niedźwiedź (Table 5). The most humid conditions in the summer 2010 were observed during inflow of air masses from south-western direction (6.6% above summer mean), while most dry air (-9.7%) - from the north-eastern direction. Similar relationships have been found for precipitation. Analysis of relationships occurring between direction of winds and relative humidity data confirms also the above results. Highest values of relative humidity (>90%) were observed during winds inflowing from the southern sector, while the lowest ones - from the north-eastern direction (Fig. 7).
Źródło:: Problemy Klimatologii Polarnej; 2011, 21; 155-172
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Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Bilans radiacyjny w rejonie Kaffioyry (NW Spitsbergen) w sezonie letnim 2010 roku
Radiation balance in the Kaffioyra region (NW Spitsbergen) in the summer season 2010
Autorzy:: Kejna, M.
Przybylak, R.
Araźny, A.
Powiązania:: https://bibliotekanauki.pl/articles/260983.pdf
Data publikacji:: 2011
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: bilans radiacyjny
promieniowanie słoneczne
promieniowanie atmosfery
promieniowanie ziemi
Spitsbergen
Kaffioyra
radiation balance
solar radiation
atmospheric radiation
long-wave radiation
Opis:: W artykule przedstawiono wyniki rejestracji składowych bilansu promieniowania na 3 stanowiskach: Kaffioyra-Heggodden (KH), Lodowiec Waldemara-czoło (LW1) i Lodowiec Waldemara-pole firnowe (NW Spitsbergen) w okresie od 16.07 do 31.08.2010 r. Pomiary prowadzono przy pomocy Radiometru CNR4 firmy Kipp&Zonen. Co minutę rejestrowano natężenie promieniowania słonecznego K?, promieniowania odbitego (K?), promieniowania ziemi (L?) i promieniowania zwrotnego atmosfery (L?). Na tej podstawie obliczono bilans radiacyjny (Q*), składający się z bilansu krótkofalowego (K*) i długofalowego (L*). Stwierdzono niewielkie różnice pomiędzy stanowiskami KH i LW2 założonymi na podłożu morenowym. Najmniej korzystny Q* wystąpił na LW2 nad powierzchnią śnieżno-lodowcową charakteryzującą się wysokim albedo. W artykule zbadano zróżnicowanie przestrzenne składowych bilansu radiacyjnego z dnia na dzień oraz w cyklu dobowym.
Measurements of radiation balance (Q*) were carried out in the Kaffioyra region (NW Spitsbergen) between 16 July and 31 August 2010 at three stations with different surfaces: KH on the glacial moraine of the Aavatsmark (11.5 m a.s.l.), LW1 - on the terminal moraine of the Waldemar Glacier (130 m a.s.l.), and LW2 - on the firn field of the Waldemar Glacier (375 m a.s.l.) - Fig. 1. A Kipp&Zonen CNR 4 Net Radiometer was used to register - minute by minute - the short wave radiation balance (K*), which is the difference between incoming solar radiation K? and reflected solar radiation (K?), and the long wave radiation balance (L*), which is the difference between downward long wave atmospheric radiation (L?) and upward long wave radiation (L?) - Table 1. In the studied period the maximum intensity of incoming solar radiation reached 709.4 W.m-2 at KH, 882.1 W.m-2 at LW1 and 836.2 W.m-2 at LW2. The mean diurnal sums of incoming solar radiation ranged from 11.04 MJ.m-2 at KH to 10.46 MJ.m-2 at LW1 and 10.60 MJ.m-2 at LW2 (Table 2, Fig. 2). The surface albedo varied, reaching between 13% (LW1) and 15% (KH) on the moraines, and up to 61% (LW2) on the firn field (Table 2, Fig. 3). Thus the lowest value of short wave radiation balance, +4.31 MJ.m-2, was registered at LW2, whereas it was doubled on the moraines: KH +9.50 MJ.m-2 and LW1 +9.09 MJ.m-2 (Table 4, Fig. 4). The flux of downward long wave atmospheric radiation coming from the atmosphere does not reveal any significant differences between individual stations: KH: 27.26 MJ.m-2, LW1: 27.47 MJ.m-2 and LW2 - 27.37 MJ.m-2 in 24h (Table 3). The Earth's surface (upward long wave radiation) was losing, on average: 30.31 MJ.m-2, 29.88 MJ.m-2 and 30.10 MJ.m-2, respectively, and the mean daily values of long wave radiation balance were negative: KH -3.05 MJ.m-2, LW1 -2.42 MJ.m-2 and LW2 -2.73 MJ.m-2. The surface radiation balance (Q*) was the most favourable on moraine bases: LW1 +6.67 MJ.m-2, KH +6.45 MJ.m-2, whereas the snow-covered firn field received the smallest amount of energy: LW2 +1.58 MJ.m-2 (Table 4, Fig. 5). In spite of the polar day, the diurnal cycle of the radiation balance components appears symmetrical with regard to the solar noon, related to the elevation of the sun over the horizon and the temperature of the surface and of the atmosphere. The flux of incoming solar radiation reached its peaks during midday hours with the following mean values: KH: 278.7 W.m-2, LW1: 275.9 W.m-2, and LW2: 295.2 W.m-2 (Fig. 6). At the time of lower culmination of the sun the values of K* were falling to zero. The balance of long wave radiation was negative and reached its highest values around midday hours (KH -50.0 MJ.m-2, LW1 -40.1 MJ.m-2 and LW2 -47.5 MJ.m-2). Q* was the highest in midday hours, when it was 2.5 times higher for moraine bases (KH +194.8 MJ.m-2 and LW1 +201.5 MJ.m-2) than for snow and glacial surfaces (LW2 +79.1 MJ.m-2). At low elevation of the sun Q* became negative: KH -6.8 MJ.m-2, LW1 -5.4 MJ.m-2 and LW2 -19.4 MJ.m-2. On individual days the diurnal cycle of the components of Q* was affected not only by the elevation of the sun, but also by the atmospheric state and the presence of clouds, in particular. For example, on 27 and 28 July 2010 a different weather types occurred (Table 5, Fig. 7). On the first day the sky was completely overcast with St and Sc clouds and no sunshine was observed. On the following day it cleared up with partial cloudiness (Cu, Ac, Ci), and the sunshine duration reached 16.2 h. On 27 July a slight influx of incoming solar radiation was registered (mean intensity 68.6 W.m-2, diurnal sum 5.92 MJ.m-2), K* was 5.14 MJ.m-2, and L* -0.84 MJ.m-2 due to the total cloudiness, which supported substantial downward atmospheric radiation (downward long wave atmospheric radiation 339.3 W.m-2). On the other hand, on 28 July, when the amount of cloudi-ness was moderate, the maximum intensity of incoming solar radiation was 668.7 W.m-2. In 24 hours the total radiation that reached the surface amounted to 22.04 MJ.m-2, and K* increased to 18.90 MJ.m-2. L* was negative (-5.26 MJ.m-2) due to substantial radial emittance of the ground (upward long wave radiation 352,0 W.m-2) and some downward atmospheric radiation (downward long wave atmospheric radiation 291.1 W.m-2). However, the overall radiation balance was three times higher than on 27 July and amounted to 13.65 MJ.m-2. In the studied period, the individual components of Q* were decreasing in value, as a result of the lower and lower elevation of the sun over the horizon and the ending of the polar day.
Źródło:: Problemy Klimatologii Polarnej; 2011, 21; 173-186
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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Tytuł:: Warunki topoklimatyczne w sezonach letnich w rejonie Kaffioyry (NW Spitsbergen) w latach 2005-2009
Topoclimatic conditions in summer seasons in the Kaffioyra region (NW Spitsbergen) in the years 2005-2009
Autorzy:: Kejna, M.
Przybylak, R.
Araźny, A.
Jankowska, J.
Maszewski, R.
Wyszyński, P.
Powiązania:: https://bibliotekanauki.pl/articles/261009.pdf
Data publikacji:: 2010
Wydawca:: Stowarzyszenie Klimatologów Polskich
Tematy:: Spitsbergen
Kaffioyra
topoklimat
temperatura powietrza
wilgotność względna
kierunek i prędkość wiatru
topoclimat
air temperature
relative humidity
wind direction and speed
Opis:: W artykule przedstawiono zróżnicowanie temperatury i wilgotności względnej powietrza oraz kierunku i prędkości wiatru w rejonie Kaffioyry (NW Spitsbergen) w sezonach letnich 2005-2009. Na podstawie pomiarów w 8 punktach stwierdzono znaczne różnice topoklimatyczne uwarunkowane rodzajem podłoża, wyso-kością nad poziom morza, odległością od morza, ekspozycją oraz lokalną cyrkulacją atmosferyczną. W rejonie Kaffioyry często występują sytuacje inwersyjne, związane nie tylko ze stratyfikacją termiczno-wilgotnościową napływających mas powietrza, ale również oddziaływaniem czynników lokalnych. Zróżnicowanie topoklima-tyczne zmienia się w zależności od stopnia zachmurzenia i pory doby oraz w czasie formowania się wiatrów lokalnych (wiatry lodowcowe i fenowe).
The paper presents the spatial differentiation of the meteorological conditions in the summer seasons in the Kaffiřyra in the period 2005-2009. The meteorological measurement points (4 automatic weather stations and 4 electronic devices measuring temperature and humidity, 2 m a.g.l.) were located on the Kaffiřyra Plain (KH) on the Waldemar Glacier area (ATA, LW1, LW2) and on the mountains: Kuven (KU), Grĺfjellet (GF) and Prins Heinrichfjella (PH1, PH2). The analysed five seasons had changeable weather conditions dependent on types of synoptic situations. The highest air temperatures were recorded on the coast (KH 5.8°C) and on the marginal zone of the Waldemar Glacier (ATA 5.1°C). On the glaciated area air temperature is decreasing with the altitude (LW2 2.9°C). The largest temperature lapse-rate is recorded at the transitional area between the glacier and its marginal zone. Growing altitude lowers air temperature on the mountain ridges (GF 4.0°C, PH2 3.6°C), but temperature inversions are recorded quite frequently in the region. Relative air humidity is high due to low temperature and large frequency of occurrence of maritime air masses. The highest mean relative air humidity was recorded on the coast (KH 88%) and on the firn field of the Waldemar Glacier (LW2 84%) as well as on the mountain ridges (PH2 92%). The course of the relative humidity is significantly influenced by foehn winds. Wind directions and velocity in the study area are strongly dependent on the synoptic situation and influence of local factors, mainly orography (foehn winds). Wind regime in the Waldemar Glacier significantly differs from that observed in the Kaffiřyra (here the tunnel effect is observed as a consequence of the narrow Forlandsundet, presences to the abovementioned plain), mainly due to katabatic winds occurrence.
Źródło:: Problemy Klimatologii Polarnej; 2010, 20; 63-81
1234-0715
Pojawia się w:: Problemy Klimatologii Polarnej
Dostawca treści:: Biblioteka Nauki

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