Daily course of the soil temperature in summer in chosen ecosystems of Słowiński National Park, northern Poland

Alvesag G. & Jansson P. E., 1997. Model for evaporation, moisture and temperature of bare soil: calibration and sensitivity analysis. Agricultural and Forest Meteorology 88: 47-56.10.1016/S0168-1923(97)00052-XSearch in Google Scholar

Bednarek A., 1966. O wpływie temperatury powietrza na kształtowanie temperatury gleby w warunkach ograniczonego dopływu energii promieniowania Słońca. Przegląd Geofizyczny 11(4): 251-260.Search in Google Scholar

Bednorz E., Kolendowicz L. & Szyga-Pluta K., 2001. Topoclimates of the part of Słowiński National Park. Dokumentacja Geograficzna PAN Warszawa 23: 19-31.Search in Google Scholar

Bollero G. A., Bullock D. G. & Hollinger S. E., 1996. Soil temperature and planting date effects on corn yield, leaf area, and plant development. Agronomy Journal 88: 385-390.10.2134/agronj1996.00021962008800030005xSearch in Google Scholar

Bond-Lamberty B., Wang C. & Gower S. T., 2005. Spatiotemporal measurement and modeling of stand-level boreal forest soil temperatures. Agricultural and Forest Meteorology 131: 27-40.10.1016/j.agrformet.2005.04.008Search in Google Scholar

Gaumont-Guay D., Black T. A., Griffis T. J., Barra A. G., Jassal R. S. & Nesic Z.: 2006. Interpreting the dependence of soil respiration on soil temperature and water content in a boreal aspen stand. Agricultural and Forest Meteorology 140: 220-235.10.1016/j.agrformet.2006.08.003Search in Google Scholar

Hariharan G., Kannan K. & Sharma K. R., 2009. Haar wavelet in estimating depth profile of soil temperature. Applied Mathematics and Computation 210: 119-125.10.1016/j.amc.2008.12.036Search in Google Scholar

Hu Q. & Feng S., 2003. A daily soil temperature dataset and soil temperature climatology of the contiguous United States. Journal of Applied Meteorology 42: 1139-1156.10.1175/1520-0450(2003)042<1139:ADSTDA>2.0.CO;2Search in Google Scholar

Kane E. S. & Vogel J. G., 1992. Patterns of Total Ecosystem Carbon Storage with Changes in Soil Temperature in Boreal Black Spruce Forests. Ecosystems 12: 322-335.10.1007/s10021-008-9225-1Search in Google Scholar

Kaspar T. C. & Bland W. L., 1992. Soil temperature and root growth. Soil Scicience 154: 290-299.10.1097/00010694-199210000-00005Search in Google Scholar

Keryn I. P., Polglase P. J., Smethurst P. J., O'Connel A. M., Caryle C. J. & Khana P. K., 2004. Soil temperature under forests: a simple model for predicting soil temperature under a range of forest types. Agricultural and Forest Meteorology 121: 167-182.10.1016/j.agrformet.2003.08.030Search in Google Scholar

Kolendowicz L., 2002. Diel variation in air temperature, relative humidity and cooling power in Słowiński National Park. Badania Fizjograficzne nad Polską Zachodnią 53: 83-93.Search in Google Scholar

Li H., Yan J., Yue X. & Wang M., 2008. Significance of soil temperature and moisture for soil respiration in a Chinese mountain area. Agricultural and Forest Meteorology 148: 490-503.10.1016/j.agrformet.2007.10.009Search in Google Scholar

Mocek A., 1997. Współczesne gleby leśne. In: H. Piotrowska (ed.): Przyroda Słowińskiego Parku Narodowego. Bogucki Wydawnictwo Naukowe, Poznań-Gdańsk: 77-94.Search in Google Scholar

Mungai D. N., Stigter C. J., Coulson C. L. & Ng'Ang'A J. K., 1998. Simply obtained global radiation, soil temperature and soil moisture in an alley cropping in semi-arid Kenya. Theoretical and Applied Climatology 65: 63-78.10.1007/s007040050005Search in Google Scholar

Pan H. L. & Mahrt L., 1987. Interaction between soil hydrology and boundary layer development. Boundary-Layer Meteorology 38: 185-202.10.1007/BF00121563Search in Google Scholar

Paszyński J., Miara K. & Skoczek J., 1999. Wymiana energii między atmosferą a podłożem jako podstawa kartowania topoklimatycznego. Dokumentacja Geograficzna 14: 1-127.Search in Google Scholar

Peters-Lidard C. D., Blackburn E., Liang X. & Wood E. F., 1998. The effect of soil thermal conductivity parameterization on surface energy fluxes and temperatures. Journal of the Atmospheric Sciences 55: 1209-1224.10.1175/1520-0469(1998)055<1209:TEOSTC>2.0.CO;2Search in Google Scholar

Piotrowska H., 1997a. Lasy. In: H. Piotrowska (ed.): Przyroda Słowińskiego Parku Narodowego. Bogucki Wydawnictwo Naukowe, Poznań-Gdańsk: 157-196.Search in Google Scholar

Piotrowska H., 1997b. Roślinność wydm. In: H. Piotrowska (ed.): Przyroda Słowińskiego Parku Narodowego. Bogucki Wydawnictwo Naukowe, Poznań-Gdańsk: 197-227.Search in Google Scholar

Rabski K., 1984. Eolian sands temperature conditions on the Łeba Bar. Sprawozdania PTPN 100: 170-173.Search in Google Scholar

Subedi M. & Fullen M. A., 2009. Temporal changes in soil temperature at the Hilton Experimental Site, Shropshire, UK (1982-2006): Evidence of a warming trend?. Archives of Agronomy and Soil Science 55, 105-113.10.1080/03650340802343159Search in Google Scholar