Management and crop residue influence soil aggregate stability

Journal of Environmental Quality

Volumn 29, Issue 3, 2000, Pages 723-727

  Martens, Dean A ^a  

^a SOUTHWEST WATERSHED RESEARCH CENTER   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

BIOCHEMISTRY; CLIMATE CHANGE; CROPS; CULTIVATION; DECAY (ORGANIC); DEGRADATION; GAS CHROMATOGRAPHY; ORGANIC ACIDS; PROTEINS; STABILITY; STRUCTURE (COMPOSITION);

CROP ROTATION; ION CHROMATOGRAPHY; PHENOLIC ACID; SOIL AGGREGATE STABILITY; SOIL MANAGEMENT;

SOILS;

AGRICULTURE; CHEMICAL COMPOSITION; CONFERENCE PAPER; ENVIRONMENTAL MANAGEMENT; ION PAIR CHROMATOGRAPHY; MOLECULAR STABILITY; SOIL;

GLYCINE MAX; ZEA MAYS;

EID: 0034072163     PISSN: 00472425     EISSN: None     Source Type: Journal    
DOI: 10.2134/jeq2000.00472425002900030006x     Document Type: Conference Paper

References (38)

1. Allmaras, R.R., W.W. Nelson, and W.B. Voorhees. 1975. Soybean and corn rooting in southwestern Minnesota: II. Root distribution and related water inflow. Soil Sci. Soc. Am. Proc. 39:771-777.
2. Armbrust, D.V., J.D. Dickerson, E.L. Skidmore, and O.G. Russ. 1982. Dry soil aggregation as influenced by crop and tillage. Soil Sci. Soc. Am. J. 46:390-393.
3. Browning, G.M. 1949. Soybeans and the fertility level. Soybean Dig. 9:58-61. CITED AS 1943
4. Calland, J.W. 1949. What soybeans do to your land. Soybean Dig. 9: 15-18.
5. Dick, W.A. 1983. Organic carbon, nitrogen, and phosphorus concentrations and pH in soil profiles as affected by tillage intensity. Soil Sci. Soc. Am. J. 47:102-107.
6. Doran, J.W. 1980. Soil microbial and biochemical changes associated with reduced tillage. Soil Sci. Soc. Am. J. 44:765-771.
7. Dormarr, J.F. 1983. Chemical properties of soil and water-stable aggregates after sixty-seven years of cropping to spring wheat. Plant Soil 75:51-61.
8. Fahad, A.A., L.N. Mielke, A.D. Flowerday, and D. Swartzendruber. 1982. Soil physical properties as affected by soybean and other cropping sequence. Soil Sci Soc. Am. Proc. 21:357-359.
9. Gee, G.W., and J.W. Bauder. 1986. Particle-size analysis. p. 383-409. In A. Klute (ed.) Methods of soil analysis. Part 1. 2nd ed. Agron. Monogr. 9. ASA and SSSA, Madison, WI.
10. Gershenzon, J. 1984. Changes in the level of plant secondary metabolites under water and nutrient stress. Recent Adv. Phytochem. 18: 273-320.
11. Harris, R.F., G. Chesters, and O.N. Allen. 1966. Dynamics of soil aggregation. Adv. Agron. 18:107-169.
12. Hartley, R.D.,and P.J. Harris. 1981. Phenolic constituents of the cell wall of dicotyledons. Biochem. Syst. Ecol. 9:189-193.
13. Haynes, R.L., and M.H. Beare. 1997. Influence of six crop species on aggregate stability and some labile organic matter fractions. Soil Biol. Biochem. 29:1647-1653.
14. Huggins, D.R., C.E. Clapp, R.R. Allmaras, J.A. Lamb, and M.F. Layese. 1998. Carbon dynamics in corn-soybean sequences as estimated from natural carbon-13 abundance. Soil Sci. Soc. Am. J. 62: 195-203.
15. Kay, B.D. 1990. Rates of change of soil structure under different cropping systems. Adv. Soil Sci. 12:1-52.
16. Kemper, W.D., and R.C. Rosenau. 1986. Aggregate stability and size distribution. p. 413-424. In A. Klute (ed.) Methods of soil analysis. Part 1. 2nd ed. Agron. Monogr. 9. ASA and SSSA, Madison, WI.
17. Kidder, E.H., R.S. Stauffer, and C.A. Van Doren. 1943. Effect on infiltration of surface mulches of soybean residues, corn stover and wheat straw. Agric. Eng. 24:155-159.
18. Kononova, M.M. 1961. Soil organic matter. Pergamon Press, Oxford, UK.
19. Kovacs, Jr., M.F. 1971. Identification of aliphatic and aromatic acids in root and seed exudates of peas, cotton, and barley. Plant Soil 34:441-451.
20. Kristensen, E., S.I. Ahmed, and A.H. Devol. 1995. Aerobic and anaerobic decomposition of organic matter in marine sediment: Which is fastest? Limnol. Oceanogr. 40:1430-1437.
21. Laflen, J.M., and W.C. Moldenhauer. 1979. Soil and water losses from corn-soybean rotations. Soil Sci. Soc. Am. J. 43:1213-1215.
22. Lynch, J.M., and E. Bragg. 1985. Microorganisms and soil aggregate stability. Adv. Soil Sci. 2:133-171.
23. Lynn, D.G., and M. Chang. 1990. Phenolic signals in cohabitation: Implications for plant development. Ann. Rev. Plant Physiol. 41: 497-526.
24. Martens, D.A., and W.T. Frankenberger, Jr. 1990. Determination of saccharides by high performance anion exchange chromatography with pulsed amperometric detection. Chromatography 29:7-12.
25. Martens, D.A., and W.T. Frankenberger, Jr. 1992. Pulsed amperometric detection of amino acids separated by anion exchange chromatography. J. Liq. Chromatogr. 15:423-439.
26. Martin, J.P. 1971. Decomposition and binding action of polysaccharides in soil. Soil Biol. Biochem. 3:33-41.
27. Martin, J.P., W.P. Martin, J.B. Page, W.A. Raney, and J.D. De Ment. 1955. Soil aggregation. Adv. Agron. 7:1-37.
28. McCracken, D. V. 1984. Influence of corn and soybean residue decomposition on soil aggregate wet stability. M.S. thesis. Purdue University, West Lafayette, IN.
29. Monreal, C.M., M. Schnitzer, H.-R. Schulten, C.A. Campbell, and D.W. Anderson. 1995. Soil organic structures in macro and microaggregates of a cultivated brown chernozem. Soil Biol. Biochem. 27:845-853.
30. Provan, G.J., L. Scobbie, and A. Chesson. 1994. Determination of phenolic acids in plant cell walls by microwave digestion. J. Sci. Food Agric. 64:63-65.
31. Schnitzer, M. 1982. Organic matter characterization. p. 581-594. In A.L. Page et al. (ed.) Methods of soil analysis. Part 2. 2nd ed. Agron. Monogr. 9. ASA and SSSA, Madison, WI.
32. Siemens, J.C., and W.R. Oschwald. 1978. Corn-soybean tillage systems: Erosion control, effects on crop production, costs. Trans. ASAE 21:293-302.
33. Stevenson, F.J. 1994. Biochemistry of the formation of humic substances. p. 188-211. In Humus chemistry: Genesis, composition, reactions. 2nd ed. John Wiley & Sons, New York.
34. Strickling, E. 1950. The effects of soybeans on volume weight and water stability of soil aggregates, soil organic matter content, and crop yield. Soil Sci. Soc. Am. J. 15:30-34.
35. Swift, M.J., O.W. Heal, and J.M. Anderson. 1979. Decomposition in terrestrial ecosystems, studies in ecology. Vol. 5. Blackwell. Oxford, UK.
36. Waksman, S.A. 1936. Humus: Origin, chemical composition and importance in nature. 2nd ed. Williams and Wilkins Co., Baltimore, MD.
37. Wershaw, R.L. 1993. Model for humus in soils and sediments. Environ. Sci. Technol. 27:814-816.
38. Whitehead, D.C., H. Dibb, and R.D. Hartley. 1983. Bound phenolic compounds in water extracts of soils, plant roots, and leaf litter. Soil Biol. Biochem. 15:133-136.