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Wyszukujesz frazę "atmospheric humidity" wg kryterium: Temat


Wyświetlanie 1-3 z 3
Tytuł:
Stosunki termiczne i wilgotnościowe w Zatoce Treurenberg i na masywie Olimp (NE Spitsbergen) w okresie od 1.VIII.1899 - 15.VIII.1900
Thermal and humidity relations in Treurenberg Bay and Massif Olimp (NE Spitsbergen) from 1st August 1899 to 15th August 1900)
Autorzy:
Przybylak, R.
Dzierżawski, J.
Powiązania:
https://bibliotekanauki.pl/articles/260665.pdf
Data publikacji:
2004
Wydawca:
Stowarzyszenie Klimatologów Polskich
Tematy:
temperatury powietrza
wilgotność powietrza
Spitsbergen
air temperature
atmospheric humidity
Opis:
The paper describes weather conditions (based on air temperature and humidity) in Treurenberg Bay and Massif Olimp (NE Spitsbergen) for the period from 1st August 1899 to 15th August 1900. The hourly data of the meteorological elements under analysis were collected by the Swedish-Russian scientific expedition, which was sent to Spitsbergen in 1899 to measure an arc of the Earth?s meridian. During the expedition two meteorological stations were established (Fig. 1): the main one (21.9 m a.s.l.) located by the sea in Treurenberg Bay (hereafter 'Treurenberg') and a secondary station (408 m a.s.l.) situated on Massif Olimp (hereafter 'Olimp'). The quality of data were checked and assessed as being very good, especially for the Treurenberg station. The air temperature (T) in Treurenberg in the annual march was highest in August (mean monthly T = 2.1°C) and lowest in March (-27.0°C) (Tab. 2, Fig. 2). Mean yearly T was equal to -9.8°C. The values of T in this part of Spitsbergen are significantly lower than in the western coastal part of the island where, for example, the average annual T for the period 1975-2000 was about twice as high (see Przybylak et al. 2004). On the other hand, mean monthly daily T ranges in Treurenberg are greater (Fig. 3). Day-to-day T changes in the annual cycle were greatest in the cold half-year, and lowest in summer (Fig. 4). These changes are lower here than in the western coastal part of Spitsbergen. Mean monthly daily courses of T are clearest from April to September, showing maximum T in the afternoon, and minimum in the early morning hours (Fig. 5). From October to March (but especially during the polar night) the average daily courses were smooth. Air humidity in Treurenberg was characterized using three commonly used variables: water vapor pressure, relative humidity, and saturation deficit. Due to very low T and quite a large thermic continentality of the climate in NE Spitsbergen, water vapor pressure in Treurenberg is lower than in the western coastal part of Spitsbergen. The highest values in Treurenberg occurred in summer (on average about 6 hPa) and the lowest in late winter (below 1 hPa) (Tab. 2, Fig. 6). Generally, similar relations in the annual march are also seen for two other air humidity variables (see Tab. 2, Fig. 6). The annual cycles of day-to-day changes of all humidity variables in Treurenberg are not clear, as they consist of many maximums and minimums (Fig. 7). These changes are lower here than in other parts of Spitsbergen (see Table 15 in Przybylak 1992a). Mean daily courses of relative humidity are smooth for most months. Only in April and in the period from June to September do we see normal daily cycles with lowest values in 'day' hours and highest values in 'night' hours (Fig. 9). The annual course of T in the Olimp station is similar to that occurring in Treurenberg (Figs. 2 and 10). Of course, the upper station was colder, but only by 1oC for mean annual values (Fig. 11). The drop of T in the Treurenberg region - a drop that is lower than is normally observed in the atmosphere (0.6oC/100 m) - was probably caused by measurement errors (the thermograph at the Olimp station was wrapped in thin material in order to stop the snow accumulating around the metallic sensor). Only limited air humidity data were gathered for the Olimp station due to measurement problems of this element in cold half-year. Therefore, most observations were made only in summer, and they show that the relative humidity was in most cases greater here than at the Treurenberg station. The investigation shows that weather conditions in the NE part of Spitsbergen differ significantly from those observed in the western coastal part of the island. Both T and air humidity are significantly lower in the study area, and these differences in the case of T are especially large in winter.
Źródło:
Problemy Klimatologii Polarnej; 2004, 14; 133-147
1234-0715
Pojawia się w:
Problemy Klimatologii Polarnej
Dostawca treści:
Biblioteka Nauki
Artykuł
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
1234-0715
Pojawia się w:
Problemy Klimatologii Polarnej
Dostawca treści:
Biblioteka Nauki
Artykuł
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
1234-0715
Pojawia się w:
Problemy Klimatologii Polarnej
Dostawca treści:
Biblioteka Nauki
Artykuł
    Wyświetlanie 1-3 z 3

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