Edaphology (from Greek ἔδαφος, edaphos, "ground", and -λογία, -logia) is one of two main divisions of soil science, the other being pedology.12 Edaphology is concerned with the influence of soils on living things, particularly plants. The term is also applied to the study of how soil influences humankind's use of land for plant growth3 as well as man's overall use of the land.4 General subfields within edaphology are agricultural soil science (known by the term agrology in some regions) and environmental soil science. (Pedology deals with pedogenesis, soil morphology, and soil classification.)
Xenophon (431–355 BC), and Cato (234–149 BC), were early edaphologists. Xenophon noted the beneficial effect of turning a cover crop into the earth. Cato wrote De Agri Cultura ("On Farming") which recommended tillage, crop rotation and the use of legumes in the rotation to build soil nitrogen. He also devised the first soil capability classification for specific crops.
Jan Baptist van Helmont (1577–1644) performed a famous experiment, growing a willow tree in a pot of soil and supplying only rainwater for five years. The weight gained by the tree was greater than the weight loss of the soil. He concluded that the willow was made of water. Although only partly correct, his experiment reignited interest in edaphology.6
Agricultural soil science is the application of soil chemistry, physics, and biology dealing with the production of crops. In terms of soil chemistry, it places particular emphasis on plant nutrients of importance to farming and horticulture, especially with regard to soil fertility and fertilizer components.
Soil husbandry is a strong tradition within agricultural soil science. Beyond preventing soil erosion and degradation in cropland, soil husbandry seeks to sustain the agricultural soil resource though the use of soil conditioners and cover crops.
Environmental soil science studies our interaction with the pedosphere on beyond crop production. Fundamental and applied aspects of the field address vadose zone functions, septic drain field site assessment and function, land treatment of wastewater, stormwater, erosion control, soil contamination with metals and pesticides, remediation of contaminated soils, restoration of wetlands, soil degradation, and environmental nutrient management. It also studies soil in the context of land use planning, global warming, and acid rain.
- Page 8 in Buckman, Harry O.; Brady, Nyle C. (1960). The Nature and Property of Soils - A College Text of Edaphology (6th ed.). New York: The MacMillan Company.
- Gardiner, Duane T. "Lecture 1 Chapter 1 Why Study Soils?". ENV320: Soil Science Lecture Notes. Texas A&M University-Kingsville. Retrieved 2008-01-12.
- Research Branch (1976). "Glossary of Terms in Soil Science". Publication 1459. Canada Department of Agriculture, Ottawa. Retrieved 2008-01-07.
- Whittow, John B. (1984). The Penguin Dictionary of Physical Geography. London: Penguin Books. ISBN 0-14-051094-X.
- Tseits, M. A.; B. A. Devin (2005). "Soil Science Web Resources: A Practical Guide to Search Procedures and Search Engines" (PDF). Eurasian Soil Science (Translated from Pochvovedenie, no. 2, 2005, pp. 247-253) 38 (2): page 223. Retrieved 2008-01-07.
- Xenophon, Cato and Van Helmont: see page 9-12 in Miller, Raymond W.; Gardiner, Duane T. (1998). Soils in Our Environment (8th ed.). Upper Saddle River, NJ 07458: Prentice Hall. ISBN 0-13-610882-2.
- European Environment Information and Observation Network (EIONET) Url last accessed 2008-01-07
- SSSA Soil Science Glossary Url last accessed 2008-01-07
- USEPA Term list (theme=soil) Url last accessed 2008-01-07