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Aggregate-Size Stability Distribution and Soil Stability
Soil Science Society of America Journal
  • C. O. Márquez, Universidad de Los Andes - Venezuela
  • V. J. Garcia, Universidad de los Andes
  • Cynthia A. Cambardella, United States Department of Agriculture
  • Richard C. Schultz, Iowa State University
  • Thomas M. Isenhart, Iowa State University
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A new theoretical and experimental framework that permits an accurate determination of aggregate-size stability distribution is presented. The size-stability distribution in addition to estimating aggregate-size distribution distinguishes between amounts of stable and unstable macroaggregates (>250 μm). The determination of aggregate-size stability distribution involves the assumptions that soil aggregates can be categorized in terms of their size and water stability (slaking resistance). Experimentally this procedure involves the slaked and capillary-wetted pretreatments; and a subsequent slaking treatment of aggregates >250 μm in size. We also propose the stable aggregates index (SAI) and the stable macroaggregates index (SMaI) for studying soil stability based on aggregate resistance to slaking. These indices account for the total weighted average of stable aggregates and the total weighted average of stable macroaggregates, respectively. Both the SAI and the SMaI indices were shown to be sensitive to the effects of vegetation on soil stability under different riparian buffer communities. The SAI and the SMaI indices were higher in surface soils under cool-season grass than any of the other treatments. These soils samples are well aggregated with SAI = 74% and SMaI = 56% followed by SAI = 55% and SMaI = 37% under existing riparian forest, SAI = 40% and SMaI = 21% under 7-yr switchgrass and SAI = 36% and SMaI = 18% under cropped system.

This article is from Soil Science Society of America Journal 68 (2004): 725, doi:10.2136/sssaj2004.7250.

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C. O. Márquez, V. J. Garcia, Cynthia A. Cambardella, Richard C. Schultz, et al.. "Aggregate-Size Stability Distribution and Soil Stability" Soil Science Society of America Journal Vol. 68 Iss. 3 (2004) p. 725 - 735
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