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The Earth's Living Matter: Biosphere and Soils

Published online by Cambridge University Press:  24 August 2009

Victor A. Kovda
Affiliation:
Scientific Adviser (formerly Founding Director), Institute of Soil Science and Photosynthesis, Russian (formerly USSR) Academy of Sciences, Pushchino, Moscow Region, Russia.

Extract

The last three decades of the Author's research work were devoted to the Earth's soil cover both on dry land and under shallow waters. That soil cover could emerge on the Earth only after life had appeared, even though only in primitive forms. The soil cover is a product of organisms' activities and their interaction with mineral surroundings; therefore it could not appear on the Earth in the absence of living matter. If it was not for life, the soil cover would not have existed. V.I. Vernadsky always considered terrestrial soils as ‘bioinert bodies’ formed as a result of the long-term interaction of living matter and rocks (Vernadsky, 1940). According to modern theories, the Earth, like other planets of the Solar System, was formed 4–5 thousand million years ago from a thickened mass of different lifeless minerals. It could include huge asteroids and fragments of mineral rocks, big and small meteorites, and cosmic dust. Up to the present, the Earth's surface has accepted annually some 5–6 million tons of diverse cosmic dust and many meteorites of different sizes.

Type
Main Papers
Copyright
Copyright © Foundation for Environmental Conservation 1993

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References

Bashkin, V.N. & Bailey, R.G. (1993). Revision of map of ecoregions of the world (1992–95). Environmental Conservation, 20(1), pp. 75–6.Google Scholar
Batisse, M. (1993). The Silver Jubilee of MAB and its revival. Environmental Conservation, 20(2), pp. 107–12, 4 figs.CrossRefGoogle Scholar
Dmitrieva, V.A. & Polunin, N. (1992). Victor Abramovich Kovda, 1904–91. Environmental Conservation, 19(4), pp. 364–5, 2 figs.Google Scholar
Dmitrieva, V.A., Kovda, V.A., Polunin, N. & Pachepsky, Y.A. (1991). Background statement of global project: human-caused soil-ecological changes and their effect on The Biosphere. Environmental Conservation, 18(3), p. 197.CrossRefGoogle Scholar
Kovda, V.A. [and collaborators] (1970). Contemporary scientific concepts relating to the biosphere. Pp. 1329 in Use and Conservation of the Biosphere: Proceedings of the Intergovernmental Conference of Experts on the Scientific Basis for Rational Use and Conservation of the Resources of the Biosphere. UNESCO Natural Resources Research X, Paris, France: 272 pp.Google Scholar
Kovda, V.A. (1973). The Fundamentals of Soil Studies. Vol. 1 & 2. Nauka Publication, Moscow, USSR: (in Russian). [Not available for checking.]Google Scholar
Kovda, V.A. (1974). Biosphere, Soils and Their Utilization. Report of the President of the International Society of Soil Science, Moscow, USSR: [not available for checking].Google Scholar
Kovda, V.A. (1975). Biogeochemical Natural Cycles and Their Disturbance by Man. M.: Nauka Publication, Moscow, USSR: (in Russian). [Not available for checking.]Google Scholar
Kovda, V.A. (1985). Biogeochemistry of the Soil Cover. M.: Nauka Publication, Moscow, USSR: (in Russian). [Not available for checking.]Google Scholar
Kovda, V.A. (1990). Biospheric Conservation and Usage as the State Ecological Policy. ONTI NCBI, Academy of Sciences of USSR, Pushchino, USSR: (in Russian). [Not available for checking.]Google Scholar
Polunin, N. (1991). Declaration of Biosphere Day. Environmental Conservation, 18(3), p. 199.CrossRefGoogle Scholar
Polunin, N. (1992). Biosphere Day and its needed Fund and Prizes. Environmental Conservation, 19(3), p. 193.Google Scholar
Polunin, N. (1993 a). Introducing Biosphere Clubs. Environmental Conservation, 20(1), p. 3.Google Scholar
Polunin, N. (1993 b). Obscure can be supreme: a double lesson from the stratospheric ozone shield. Environmental Conservation, 20(2), p. 97.CrossRefGoogle Scholar
Polunin, N. (MS). Biosphere Day 1993. 2 pp. available from the Foundation for Environmental Conservation, Geneva, Switzerland.Google Scholar
Polunin, N. & Worthington, E.B. (1990). On the use and misuse of the term ‘ecosystem’. Environmental Conservation, 17(3), p. 274.CrossRefGoogle Scholar
Raymand, J. & Talbot, J.K. (1980). The influence of the interstellar medium on climate and life: the black blond revisited. Interdisciplinary Sci. Rev., 5(2). [Not available for checking.]Google Scholar
Vernadsky, V.I. (1940). Biogeochemical Essays, M.-L. USSR Academy of Sciences Publication, Moscow, USSR (in Russian). [Not available for checking.]Google Scholar
Yenni, H. (1980). The Soil Resource: Origin and Behavior. (Ecological Studies, 37.) Springer-Verlag, New York, NY, USA: [not available for checking].Google Scholar