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. Int. J. Climatol., 17, 1433-1455. Jones P., New M., Parker D.E., Martin S., Rigor I.G., 1999, Surface air temperature and its changes over the past 150 years. Rev. Geophys. 37, 173-199. Kalnay E., et al., 1996, The NCEP/NCAR 40-year reanalysis project. Bull. Amer. Met. Soc., 77, 3, 437-471. Kaszewski B.M., Siwek K., Siłuch M., Gluza A.F., 2007, Ekstremalne wartości wybranych charakterystyk termicznych w Lublinie (1951-2004). [in:] Cywilizacja i Żywioły, Warszawa, 118-126. Karl T., et al., 1993, Asymmetric trends of daily maximum and minimumtemperature. Bull. Amer

". Ленинградское отделение, 1972. 312 стр. 13. Ministru kabineta noteikumi Nr.804 Noteikumi par augsnes ungrunts kvalitātes normatīviem , spēkā no 2005.gada 25.oktobra. 14. Šķiņķis, C. Augšņu drenēšana. Izdevniecība Avots, Rīga, 1986. 331 lpp. 15. Sarma, B. Upju hidroloģija: noteces un hidrometrijas pamati . Latvijas valsts izdevniecība, Rīga, 1960. 203 lpp. 16. Levina, N., Levins, I. Pazemes ūdeņu pamatmonitorings, 2004. gads . Latvijas vides, ģeoloģijas un meteoroloģijas aģentūra, Rīga, 2005. 42 lpp. 17. Schneider, R. Correlation of groundwater levels and air

. 2011. Klasyfikacja termiczna miesięcy, sezonów i lat w Lublinie w latach 1951–2010. Prace i Studia Geograficzne 47: 129–138. Ilnicki P., Farat R., Górecki K., Lewandowski P. 2015. Long-term air temperature and precipitation variability in the Warta River catchment area. Journal of Water and Land Development 27: 3–13. DOI 10.1515/jwld-2015-0019. Kędziora A., Kępińska-Kasprzak M., Kowalczak P., Kundzewicz Z., Miler A., Pierzgalski E., Tokarczyk T. 2014. Zagrożenia związane z niedoborem wody. Nauka 1: 149–172. Kossowska-Cezak U. 2010. Zmiany warunków termicznych i

]. Croitoru, A., E. et al. (2012). Change-point analysis for serially correlated summit temperatures in the Romanian Carpathians, Theoretical and Applied Climatology, 108, 1-2, 9-18, http://dx.doi.org/10.1007/s00704-011-0508-7. Croitoru, A., E. et al. (2012). Air temperature trend and the impact on winter wheat phenology in Romania, Climatic Change, 111, 2, 393-410, http://dx.doi.org/10.1007/s10584-011-0133-6. Dumitrescu, A. et al. (2015). Recent climatic changes in Romania from observational data (1961-2013), Theoretical and Applied Climatology, 122, 1-2, 111-119, http

mean air temperature in Poland over the years 2011-2020 (in Polish). Polish. J. Agron., 5: 21-28. Herbut P., Angrecka S., Nawalany G. (2013). Influence of wind on air movement inafree stall barn during the summer period. Ann. Anim. Sci., 13: 109-119. Herbut P., Angrecka S., Nawalany G., Adamczyk K. (2015). Spatial and temporal distribution of temperature, relative humidity and air velocity inaparallel milking parlour during summer period. Ann. Anim. Sci., 15: 517-526. Horky P. (2014). Effect of protein concentrate supplement on the qualitative and quantitative

, Oficyna Wydaw. “Turpress”, Toruń, 53-75. KEJNA M., PRZYBYLAK R. and ARAŹNY A., 2011, Bilans radiacyjny w rejonie Kaffi0yry (NW Spitsbergen) w sezonie letnim 2010 roku, Probl. Klimatol. Pol. 21, 173-186. MARKIN W. A., 1975, Klimat oblasti sowremennogo oledenenija, [in:] Oledenenije Śpicbergena (Svalbarda), Izd. Nauka, Moskwa, 42-105. NIEDŹWIEDŹ T., 1993, Long-term variability of the atmospheric circulation over Spitsbergen and its influence on the air temperature, [in:] XX Polar Symposium, Lublin, 17-30. NIEDŹWIEDŹ T., 2011, Kalendarz typów cyrkulacji atmosfery dla

Abstract

Two coniferous forest communities were selected for analysis: a marshy coniferous forest and a young spruce forest, both located in the Borecka Forest. Thermal conditions develop differently in each community during the spring, due to different tree crown closure, which influences the amount of direct solar radiation reaching the substratum. Soil humidity is another factor influencing the air temperature, since the capacity and thermal inertia of the soil depend on its humidity. The results of the study are compared with thermal conditions outside the forest.

., Innovative Web-Based Geographic Information System for Municipal Areas and Coastal Zone Security and Threat Monitoring Using EO Satellite Data, Marine Geodesy, Volume 38(3)/2015, 203-224. 21. Pons X., Ninyerola M.: Mapping a topographic global solar radiation model implemented in a GIS and refined with ground data. International Journal of Climatology 28/2008, 1821-1834. 22. Prihodko L., Goward S. N.: Estimation of air temperature from remotely sensed surface observations. Remote Sensing of Environment, 60/1997, 335-346. 23. Qin Z., Dall’Olmo G., Karnieli A., Berliner P

from 1850. Journal of Geophysical Research. Vol. 111. Iss. D12 p. 1–26. DOI: 10.1029/2005JD006548 B ryś K., B ryś T. 2010. Reconstruction of the 217-year (1791–2007) Wrocław air temperature and precipitation series. Bulletin of Geography. Physical Geography Series. Nr 3 p. 121–171. D egirmendžić J., K ożuchowski K., Ż mudzka E. 2004. Changes of air temperature and precipitation in Poland in the period 1951–2000 and their relationship to atmospheric circulation. International Journal of Climatology. Vol. 24. Iss. 3 p. 291–310. DOI: 10.1002/joc.1010 D obrovolný P

References AMUDHA B. et al., 2008, Effect of non-wooden radiation shield on measurements of air temperature and humidity in Automatic Weather Stations at climatologically different Indian stations Pune and Mumbai. WMO Technical Conference on Instruments and Methods of Observations, St. Petersburg. Russian Federation, 27-29 November 2008. BARTOSZEK K., SKIBA K., 2006, Wpływ rodzaju termometru i osłony na pomiary temperatury powietrza. Annales UMCS, 61: 34–38. BEINDE B., 2006, Comparsion of Classical Instruments and Automatic Hydrometeorological Systems. WMO