P. A., Anderson, H., Prendergast, A. S., Bretz, M. R., Valentine, L. E., & Hardy, G. E. S. (2014). Is the loss of Australian digging mammals contributing to a deterioration in ecosystem function? Mammal Review, 44, 94–108.37 Florinski, I. V. (2011). The soil formation equation: Imaginary priority of Hans Jenny. Pedometron, 30, 1–3.
38 Florinski, I. V. (2012). The Dokuchaev hypothesis as a basis for predictive digital soil mapping (on the 125th anniversary of its publication). Eurasian Soil Science, 45, 445–451.
39 Gabet, E. J., Perron, J. T., & Johnson, D. L. (2014). Biotic origin for Mima mounds supported by numerical modeling. Geomorphology, 206, 58–66.
40 Gennadiyev, A. N., & Bockheim, J. G. (2006). Development of the soil cover pattern and soil catena concepts. In B. P. Warketin (Ed.), Footprints in the soil: People and ideas in soil history (pp. 167–186). Amsterdam and Oxford: Elsevier.
41 Gillard, A. (1969). On terminology of biosphere and ecosphere. Nature, 223, 500–501.
42 Glazovskaya, M. A. (1963). On geochemical principles of the classification of natural landscapes. International Geology Review, 5, 1403–1431.
43 Glazovskaya, M. A. (1968). Geochemical landscapes and geochemical soil sequences. Transactions of the Ninth International Congress of Soil Science, Adelaide, 4, 303–312.
44 Grealish, G. J., & Fitzpatrick, R. W. (2014). Assisting nonsoil specialists to identify soil types for land management: An approach using a soil identification key and toposequence models. Soil Use and Management, 30, 251–262.
45 Grunwald, S. (2006). What do we really know about the space–time continuum of soil–landscapes? In S. Grunwald (Ed.), Environmental soil–landscape modeling: Geographic information technologies and pedometrics (pp. 3–36). Boca Raton, Florida: CRC Press.
46 Hallsworth, E. G. (1965). The relationship between experimental pedology and soil classification. In E. G. Hallsworth & D. V. Crawford (Eds.), Experimental Pedology (pp. 354–374). London: Butterworths.
47 Hartemink, A. E. (2016). The definition of soil since the early 1800s. Advances in Agronomy, 137, 73–126.
48 Heimsath, A. M., Dietrich, W. E., Nishiizumi, K., & Finkel, R. C. (1997). The soil production function and landscape equilibrium. Nature, 388, 358–361.
49 Hilgard, E. W. (1860). Report on the geology and agriculture of Mississippi. Jackson, MS: E. Barksdale, State Printer.
50 Hole, F. D. (1961). A classification of pedoturbation and some other processes and factors of soil formation in relation to isotropism and anisotropism. Soil Science, 91, 375–377.
51 Holliday, V. T., 2006. A history of soil geomorphology in the United States. In B. P. Warkentin (Ed.), Footprints in the soil: People and ideas in soil history (pp. 187–254). Amsterdam: Elsevier Press.
52 Hoosbeek, M. R., & Bryant, R. B. (1992). Towards the quantitative modeling of pedogenesis: A review. Geoderma, 55, 183–210.
53 Huggett, R. J. (1973). Soil landscape systems: Theory and field evidence. (Ph.D. thesis). University of London.
54 Huggett, R. J. (1975). Soil landscape systems: A model of soil genesis. Geoderma, 13, 1–22.
55 Huggett, R. J. (1976). Lateral translocation of soil plasma through a small valley basin in the Northaw Great Wood, Hertfordshire. Earth Surface Processes, 1, 99–109.
56 Huggett, R. J. (1991). Climate, Earth processes and Earth history. Heidelberg: Springer.
57 Huggett, R. J. (1995). Geoecology: An evolutionary approach. London: Routledge.
58 Huggett, R. J. (1997). Environmental change: The evolving ecosphere. London: Routledge.
59 Huggett, R. J. (1998). Soil chronosequences, soil development, and soil evolution: A critical review. Catena, 32, 155–172.
60 Huggett, R. J. (1999). Ecosphere, biosphere, or Gaia? What to call the global ecosystem. Global Ecology and Biogeography, 8, 425–431.
61 Huggett, R. J. (2017). Fundamentals of geomorphology, 4th ed. Abingdon: Routledge.
62 Huggett, R. J., & Cheesman, J. E. (2002). Topography and the environment. Harlow, Essex: Prentice Hall.
63 Iticha, B., & Takele, A. (2018). Soil–landscape variability: Mapping and building detail information for soil management. Soil Use and Management, 34, 111–123.
64 Jenny, H. (1930). An equation of state for soil nitrogen. Journal of Physical Chemistry, 34, 1053–1057.
65 Jenny, H. (1941). Factors of soil formation: A system of quantitative pedology. New York: McGraw‐Hill.
66 Jenny, H. (1946). Arrangement of soil series and types according to functions of soil forming factors. Soil Science, 61, 375–391.
67 Jenny, H. (1958). The role of the plant factor in pedogenic functions. Ecology, 39, 5–16.
68 Jenny, H. (1961a). Derivation of state factor equations of soil and ecosystems. Soil Science Society of America Proceedings, 25, 385–388.
69 Jenny, H. (1961b). E. W. Hilgard and the birth of modern soil science. Pisa, Italy: Collana della Rivista ‘Agrochimica’ and Berkeley, California: Farallon.
70 Jenny, H. (1980). The soil resource: Origin and behaviour (Ecological Studies, vol. 37). New York: Springer.
71 Johnson, D. L. (1985). Soil thickness processes. In P. Jongerius (Ed.), Soils and geomorphology (Catena Supplement 6, pp. 29–40). Braunschweig: Catena Verlag.
72 Johnson, D. L. (1990). Biomantle evolution and the redistribution of earth materials and artifacts. Soil Science 149, 84–102.
73 Johnson, D. L. (2002). Darwin would be proud: Bioturbation, dynamic denudation, and the power of theory in science. Geoarchaeology: An International Journal, 17, 7–40.
74 Johnson, D. L., Domier, J. E. J., & Johnson, D. N. (2005a). Reflections on the nature of soil and its biomantle. Annals of the Association of American Geographers, 95, 11–31.
75 Johnson, D. L., Domier, J. E. J., & Johnson, D. N. (2005b). Animating the biodynamics of soil thickness using process analysis: A dynamic denudation approach to soil formation. Geomorphology, 67, 23–46.
76 Johnson, D. L., & Hole, F. D. (1994). Soil formation theory: A summary of its principal impacts on geography, geomorphology, soil–geomorphology, Quaternary geology and paleopedology. In R. Amundson (Ed.), Factors of soil formation: A fiftieth anniversary retrospective (Soil Science Society of America Special Publication 33, pp. 111–126). Madison, WI: Soil Science Society of America.
77 Johnson D. L., Keller, E. A., & Rockwell T. K. (1990). Dynamic pedogenesis: New views on some key soil concepts, and a model for interpreting Quaternary soils. Quaternary Research, 33, 306–319.
78 Johnson, D. L., & Schaetzl, R. J. (2015). Differing views of soil and pedogenesis by two masters: Darwin and Dokuchaev. Geoderma, 237–238, 176–189.
79 Johnson D. L., & Watson‐Stegner, D. (1987). Evolution model of pedogenesis. Soil Science, 143, 349–366.
80 Kline, J. R. (1973). Mathematical
