Allison, L.E., Moodie, C.D. 1965. Carbonate. In: C. A. Black et all (ed). Methods of Soil Analysis, Part 2. Agronomy. American Socety Of Argon., Inc., Madison, Wisconsin, USA, 9:1379‐ 1400.
Arkhangelskaya, T.A., 2014. Diversity of thermal conditions within the paleocryogenic soil complexes of the East European Plain: The discussion of key factors and
mathematical modeling. Geoderma, 213: 608–616.
Bayraklı, F., 1987. Toprak ve Bitki Analizleri. Ondokuz Mayıs Üniversitesi Yayınları. Yayın No: 17, 199 s.
Black, C.A., 1957. Soil Plant Relationships. John Wiley and Sons. Inc., New York, p. 332 .
Campbell, G.S., 1985. Soil Physics with Basic: Transpotr Models for Soil‐Plant Systems. Elsevier Science Publishing Company Inc., New York, p. 150.
Chow, T.T., Long, H., Mok, H.Y., Li, K.W., 2011. Estimation of soil temperature profile in Hong Kong from climatic variables. Energy and Buildings, 43: 3568–3575.
Cichota, R., Elias, E.A., de Jong van Lier, Q., 2004. Testing a finite‐difference model for soil heat transfer by comparing numerical and analytical solutions. Environmental Modelling & Software, 19: 495–506.
Dai, C., Chen, Y., 2008. Classification of shallow and deep geothermal energy. GRC Transactions, 32: 317‐320.
Demiralay, İ., 1993. Toprak Fiziksel Analizleri. Atatürk Üniversitesi Ziraat Fakültesi Yayınları. 143: 6‐51.
De Vries, D.A., 1975. Heat Transfer in Soils. In: de Vries, D. A. and Afgan, N. H. (eds.), Heat and mass transfer in the biosphere. Scripta Book Co., Washington, DC, pp. 5–28.
Ekberli, İ., 2006a. Isı iletkenlik denkleminin çözümüne bağlı olarak parametrelerin incelenmesi. Ondokuz Mayıs Üniversitesi Ziraat Fakültesi Dergisi, 21(2): 179‐189. etki yapan bazı
Ekberli, I., 2006b. Determination of initial unconditional solution of heat conductivity equation for evaluation of temperature variance in finite soil layer. Journal of Applied Sciences, 6(7): 1520‐1526.
Evett, S.R., Agam, N., Kustas, W.P., Colaizzi, P.D., Schwartz, R.C., 2012. Soil profile method for soil thermal diffusivity, conductivity and heat flux: Comparison to soil heat flux plates. Advances in Water Resources, 50: 41–54.
Gao, Z., Bian, L., Hu, Y., Wan, L., Fan, J., 2007. Determination of soil temperature in an arid region. Journal of Arid Environments, 71: 57–168.
Goldstein, R.J., Ibele, W.E., Patankar, S.V., Simon, T. W., Kuehn, T.H., Strykowski, P.J., Tamma, K.K., Heberlein, J.V.R., Davidson, J.H., Bischof, J., Kulacki, F.A., Kortshagen, U., Garrick, S., Srinivasan, V., Ghosh, K., Mittal, R., 2010. Heat transfer—A review of 2004 literature. International Journal of Heat and Mass Transfer, 53: 4343–4396.
Gülser, C., Ekberli, I., 2004. A comparison of estimated and measured diurnal soil temperature through a clay soil depth. Journal of Applied Sciences, 4(3): 418‐423.
Hillel, D., 1982. Introduction to Soil Physics. Academic Pres, İnc. San Dieoga, California, USA, p. 364.
Hillel, D., 1998. Environmental Soil Physics. Academic Press, New York, 771 pp.
Hinkel, K. M., 1997. Estimating seasonal values of thermal diffusivity in thawed and frozen soils using temperature time series. Cold Regions Science and Technology, 26: 1–15.
Horton, R., Wierenga, P. J., Nielsen, D. R., 1983. Evaluation of methods for determining the apparent thermal diffusivity of soil near the surface. Soil Science Society of America Journal, 47: 25–32.
Jacobs, A.F.G., Heusinkveld, B.G., Holtslag, A.A.M., 2011. Long‐ term record and analysis of soil temperatures and soil heat fluxes in a grassland area, The Netherlands. Agricultural and Forest Meteorology, 151: 774–780.
Jury, W.A., Gardner, W.R., Gardner, W.H, 1991. Soil Physics. John Wiley & Sons, Inc., New York, p. 328.
Kacar, B., 1994. Bitki ve toprağın kimyasal analizleri III. Toprak Analizleri. Ankara Üniversitesi Ziraat Fakültesi Eğitim, Araştırma ve Geliştirme Vakfı Yayınları, No:3. s. 89‐98.
Lei, S., Daniels, J. L., Bian, Z., Wainaina, N., 2011. Improved soil temperature modeling. Environmental Earth Sciences, 62(6): 1123‐1130.
McKay, C.P., Molaro, J.L., Marinova, M.M., 2009. High‐frequency rock temperature data from hyper‐arid desert environments in the Atacama and the Antarctic Dry Valleys and implications for rock weathering. Geomorphology, 110: 182– 187.
Mihalakakou, G.,2002. On estimating soil surfase temperature profiles, Energy and Buildings, 34: 251‐259. Monteith, J.L., Unsworth, M.H., 1990. Principles of Environmental Physics. Edward Arnold, London, p. 291.
Nerpin, S.V., Chudnovskii, A. F., 1984. Heat and Mass Transfer in the Plant‐Soil‐Air System. Translated from Russian. Published for USDA and National Sci. Found., Washington. D.S., by Amerind Publishing Co. Pvt. Ltd., New Delhi, India, p. 355.
Olsen, S. R., Sommers, E. L. 1982. Phosphorus availability indices. Phosphorus soluble in sodium bicarbonate. Methods of Soils Analysis. Part II. Chemical and Microbiological Properties. Editors: A. L. Page, R. H. Miller, D. R. Keeney, pp. 404‐430.
Paraiba, L.C., Spadotto, C.A., 2002.Soil temperature effect in calculating Chemosphere, 48: 905‐912. and retardation factors.
Richards, L.A., 1954. Diagnosis and improvement of saline and alkali soils. United States Department of Agriculture. Handbook, 60: 105‐106.
Sterling, A.T., Jackson, R.D., 1986. Temperature. In: Klute, A. (Ed.), Methods of Soil Analysis Part 1. Physical and Mineralogical Methods. Agronomy, No: 9 (Part 1), ASA, SSSA, Publisher Madison, Wisconsin USA, pp. 927‐940. Tihonov, A.N., Samarskiy, A. Matematiçeskoy Fiziki. İzdatelstvo Nauka, Moscow, s. 246‐ 250. A., 1972. Uravneniya
Van Wijk, W.R., De Vries, D.A., 1963. Periodic temperature variations in a homogeneous soil. In Van Wijk, W.R., ed., Physics of Plant Environment. Amsterdam: North Holland, pp. 102–143.
Veeh, R.H., Inskeep, W.P., Camper, A.K., 1996. Soil depth and temperature effects on microbial degradation of 2.4‐D. Journal of Environmental Quality, 25: 5‐12.
Voronin, A., D., 1986. Osnovı Fiziki Pocv. İzdatelstvo Moskovskogo Universiteta, s. 216‐233.
Wu, J., Nofziger, D.L., 1999. Incorporating temperature effects on pesticide degratdation into a management model. Journal of Environmental Quality, 28: 92‐100.
Zhou, X., Persaud, N., Belesky, D.P., Clark, R.B., 2007. Significance of transients in soil temperature series. Pedosphere, 17(6): 766–775.
Toprak Sıcaklığının Profil Boyunca Sönme Derinliğinin ve Gecikme Zamanının Belirlenmesi
Year 2015,
Volume: 52 Issue: 2, 219 - 227, 25.11.2015
Allison, L.E., Moodie, C.D. 1965. Carbonate. In: C. A. Black et all (ed). Methods of Soil Analysis, Part 2. Agronomy. American Socety Of Argon., Inc., Madison, Wisconsin, USA, 9:1379‐ 1400.
Arkhangelskaya, T.A., 2014. Diversity of thermal conditions within the paleocryogenic soil complexes of the East European Plain: The discussion of key factors and
mathematical modeling. Geoderma, 213: 608–616.
Bayraklı, F., 1987. Toprak ve Bitki Analizleri. Ondokuz Mayıs Üniversitesi Yayınları. Yayın No: 17, 199 s.
Black, C.A., 1957. Soil Plant Relationships. John Wiley and Sons. Inc., New York, p. 332 .
Campbell, G.S., 1985. Soil Physics with Basic: Transpotr Models for Soil‐Plant Systems. Elsevier Science Publishing Company Inc., New York, p. 150.
Chow, T.T., Long, H., Mok, H.Y., Li, K.W., 2011. Estimation of soil temperature profile in Hong Kong from climatic variables. Energy and Buildings, 43: 3568–3575.
Cichota, R., Elias, E.A., de Jong van Lier, Q., 2004. Testing a finite‐difference model for soil heat transfer by comparing numerical and analytical solutions. Environmental Modelling & Software, 19: 495–506.
Dai, C., Chen, Y., 2008. Classification of shallow and deep geothermal energy. GRC Transactions, 32: 317‐320.
Demiralay, İ., 1993. Toprak Fiziksel Analizleri. Atatürk Üniversitesi Ziraat Fakültesi Yayınları. 143: 6‐51.
De Vries, D.A., 1975. Heat Transfer in Soils. In: de Vries, D. A. and Afgan, N. H. (eds.), Heat and mass transfer in the biosphere. Scripta Book Co., Washington, DC, pp. 5–28.
Ekberli, İ., 2006a. Isı iletkenlik denkleminin çözümüne bağlı olarak parametrelerin incelenmesi. Ondokuz Mayıs Üniversitesi Ziraat Fakültesi Dergisi, 21(2): 179‐189. etki yapan bazı
Ekberli, I., 2006b. Determination of initial unconditional solution of heat conductivity equation for evaluation of temperature variance in finite soil layer. Journal of Applied Sciences, 6(7): 1520‐1526.
Evett, S.R., Agam, N., Kustas, W.P., Colaizzi, P.D., Schwartz, R.C., 2012. Soil profile method for soil thermal diffusivity, conductivity and heat flux: Comparison to soil heat flux plates. Advances in Water Resources, 50: 41–54.
Gao, Z., Bian, L., Hu, Y., Wan, L., Fan, J., 2007. Determination of soil temperature in an arid region. Journal of Arid Environments, 71: 57–168.
Goldstein, R.J., Ibele, W.E., Patankar, S.V., Simon, T. W., Kuehn, T.H., Strykowski, P.J., Tamma, K.K., Heberlein, J.V.R., Davidson, J.H., Bischof, J., Kulacki, F.A., Kortshagen, U., Garrick, S., Srinivasan, V., Ghosh, K., Mittal, R., 2010. Heat transfer—A review of 2004 literature. International Journal of Heat and Mass Transfer, 53: 4343–4396.
Gülser, C., Ekberli, I., 2004. A comparison of estimated and measured diurnal soil temperature through a clay soil depth. Journal of Applied Sciences, 4(3): 418‐423.
Hillel, D., 1982. Introduction to Soil Physics. Academic Pres, İnc. San Dieoga, California, USA, p. 364.
Hillel, D., 1998. Environmental Soil Physics. Academic Press, New York, 771 pp.
Hinkel, K. M., 1997. Estimating seasonal values of thermal diffusivity in thawed and frozen soils using temperature time series. Cold Regions Science and Technology, 26: 1–15.
Horton, R., Wierenga, P. J., Nielsen, D. R., 1983. Evaluation of methods for determining the apparent thermal diffusivity of soil near the surface. Soil Science Society of America Journal, 47: 25–32.
Jacobs, A.F.G., Heusinkveld, B.G., Holtslag, A.A.M., 2011. Long‐ term record and analysis of soil temperatures and soil heat fluxes in a grassland area, The Netherlands. Agricultural and Forest Meteorology, 151: 774–780.
Jury, W.A., Gardner, W.R., Gardner, W.H, 1991. Soil Physics. John Wiley & Sons, Inc., New York, p. 328.
Kacar, B., 1994. Bitki ve toprağın kimyasal analizleri III. Toprak Analizleri. Ankara Üniversitesi Ziraat Fakültesi Eğitim, Araştırma ve Geliştirme Vakfı Yayınları, No:3. s. 89‐98.
Lei, S., Daniels, J. L., Bian, Z., Wainaina, N., 2011. Improved soil temperature modeling. Environmental Earth Sciences, 62(6): 1123‐1130.
McKay, C.P., Molaro, J.L., Marinova, M.M., 2009. High‐frequency rock temperature data from hyper‐arid desert environments in the Atacama and the Antarctic Dry Valleys and implications for rock weathering. Geomorphology, 110: 182– 187.
Mihalakakou, G.,2002. On estimating soil surfase temperature profiles, Energy and Buildings, 34: 251‐259. Monteith, J.L., Unsworth, M.H., 1990. Principles of Environmental Physics. Edward Arnold, London, p. 291.
Nerpin, S.V., Chudnovskii, A. F., 1984. Heat and Mass Transfer in the Plant‐Soil‐Air System. Translated from Russian. Published for USDA and National Sci. Found., Washington. D.S., by Amerind Publishing Co. Pvt. Ltd., New Delhi, India, p. 355.
Olsen, S. R., Sommers, E. L. 1982. Phosphorus availability indices. Phosphorus soluble in sodium bicarbonate. Methods of Soils Analysis. Part II. Chemical and Microbiological Properties. Editors: A. L. Page, R. H. Miller, D. R. Keeney, pp. 404‐430.
Paraiba, L.C., Spadotto, C.A., 2002.Soil temperature effect in calculating Chemosphere, 48: 905‐912. and retardation factors.
Richards, L.A., 1954. Diagnosis and improvement of saline and alkali soils. United States Department of Agriculture. Handbook, 60: 105‐106.
Sterling, A.T., Jackson, R.D., 1986. Temperature. In: Klute, A. (Ed.), Methods of Soil Analysis Part 1. Physical and Mineralogical Methods. Agronomy, No: 9 (Part 1), ASA, SSSA, Publisher Madison, Wisconsin USA, pp. 927‐940. Tihonov, A.N., Samarskiy, A. Matematiçeskoy Fiziki. İzdatelstvo Nauka, Moscow, s. 246‐ 250. A., 1972. Uravneniya
Van Wijk, W.R., De Vries, D.A., 1963. Periodic temperature variations in a homogeneous soil. In Van Wijk, W.R., ed., Physics of Plant Environment. Amsterdam: North Holland, pp. 102–143.
Veeh, R.H., Inskeep, W.P., Camper, A.K., 1996. Soil depth and temperature effects on microbial degradation of 2.4‐D. Journal of Environmental Quality, 25: 5‐12.
Voronin, A., D., 1986. Osnovı Fiziki Pocv. İzdatelstvo Moskovskogo Universiteta, s. 216‐233.
Wu, J., Nofziger, D.L., 1999. Incorporating temperature effects on pesticide degratdation into a management model. Journal of Environmental Quality, 28: 92‐100.
Zhou, X., Persaud, N., Belesky, D.P., Clark, R.B., 2007. Significance of transients in soil temperature series. Pedosphere, 17(6): 766–775.
Ekberli, İ., & Sarılar, Y. (2015). Toprak Sıcaklığının Profil Boyunca Sönme Derinliğinin ve Gecikme Zamanının Belirlenmesi. Journal of Agriculture Faculty of Ege University, 52(2), 219-227. https://doi.org/10.20289/euzfd.28956