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This article in SSSAJ

  1. Vol. 62 No. 5, p. 1367-1377
    Received: Nov 21, 1997

    * Corresponding author(s): johan@nrel.colostate.edu


Aggregation and Soil Organic Matter Accumulation in Cultivated and Native Grassland Soils

  1. J. Six ,
  2. E.T. Elliott,
  3. K. Paustian and
  4. J. W. Doran
  1. Natural Resource Ecology Lab., Colorado State Univ., Fort Collins CO 80523
    USDA-ARS, Univ. of Nebraska, Lincoln, NE 68583



Tillage intensity affects soil structure and the loss of soil organic C and N. We hypothesized that no-tillage (NT) and conventional tillage (CT) differentially affect three physically defined particulate organic matter (POM) fractions. A grassland-derived Haplustoll was separated into aggregates by wet sieving. Free light fraction (LF) and intra-aggregate POM (iPOM) were isolated. Natural abundance 13C was measured for whole soil C, free LF C, and iPOM C. The mean residence time of soil C under CT (44 yr) was 1.7 times less than in NT (73 yr). The amount of free LF C was 174, 196, and 474 g C m-2 for CT, NT, and NS, respectively. Total iPOM C amounts in CT, NT, and NS were 193, 337, and 503 g C m-2, respectively. The level of fine iPOM C (53–250 µm) level in macroaggregates (250–2000 µm) obtained after slaking was five times greater in NT vs. CT and accounted for 47.3% of the difference in total POM C between NT and CT. The amount of coarse iPOM C (250–2000 µm) was only 2.4 times greater and accounted for only 21% of the difference in total POM C. Sequestration of iPOM was observed in NT vs. CT, but free LF was not influenced by differential tillage. We conclude that differences in aggregate turnover largely control the difference in fine iPOM in CT vs. NT and consequently SOM loss is affected by both the amount of aggregation and aggregate turnover.

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