ANALYSIS OF SOIL ORGANIC MATTER TRANSFORMATION DYNAMICS MODELS

Abtew, W.: Evapotranspiration measurements and modeling for three wetland systems in South Florida. Water Resour. Bull. 32(3)/1996, 465–473. DOI: https://doi.org/10.1111/j.1752-1688.1996.tb04044.x

Chertov O.G., Komarov A.S.: Immitational model of soil organic matter dynamics. Vestnik SPbGU Series 3 – Biology, 1/1996, 104–109 (in Russian).

Chertov O.G., Komarov A.S.: Theoretical basis of modelling soil organic matter content dynamics. Pochvovedenie 8/2013, 937–946 (in Russian).

Chertov O.G., Komarov A.S., Nadporozhskaya M. A.: Models of forest soil organic matter dynamics. Nauka, Moskow 2007 (in Russian).

Chertov O.G., Komarov A.S., Nadporozhskaya M., Bykhovets S.S., Zudin S.L.: ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modeling. Ecological modelling 138 (1-3)/ 2001, 289-308. DOI: https://doi.org/10.1016/S0304-3800(00)00409-9

Jenkinson D.S., Hart P.B.S., Rayner J.H., Parry L.C.: Modelling the turnover of organic matter in long-term experiments at Rothamsted. Intecol Bull. 15/1987, 1–8.

Nadporozhkaya M.A.: Modelling of organic matter transformation in the soil (Ph.D. thesis). Saint-Petersburg State Agrarian University, Saint-Petersburg 2000 (in Russian).

Nadporozhskaya M.A., Mohren G.M.J., Chertov O.G., Komarov A.S., Mikhailov A.V.: Soil organic matter dynamics at primary and secondary forest succession on sandy soils in The Netherlandsan application of soil organic matter model ROMUL. Ecol. Model. 190(3/4)/2006, 399–418 [DOI: 10.1016/j.ecolmodel.2005.03.025]. DOI: https://doi.org/10.1016/j.ecolmodel.2005.03.025

Parton W.J., Stewart J.W.B., Cole C.V.: Dynamics of C, N, P and S in grasslands soils: a model. Biogeocemestry 5/1988, 109–113. DOI: https://doi.org/10.1007/BF02180320