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Soils and Crops Research and Development Centre, Agriculture and Agri-Food Canada, 2560 Hochelaga Blvd., Sainte Foy, Québec, G1V 2J3, Canada
Service des Sols, MAPAQ, 2700 Einstein, Sainte-Foy, Québec, G1P 3W8, Canada
*Corresponding author (angersd{at}em.agr.ca).
ABSTRACT
Some suggest that young labile soil organic matter accumulates preferentially in water-stable macroaggregates (>250 µm) where it acts as a transient binding agent. We determined the proportions of recently deposited C (<15 yr) in water-stable aggregate size fractions using 13C natural abundance. The experiment was performed on a silty loam (fine-loamy, mixed, frigid Aeric Haplaquept) on plots that were under either continuous corn (C4) or a mixed C4-C3 rotation for 15 yr and that had previously been under a permanent meadow (C3). Field-sieved (6 mm) air-dry soil samples (0-10 cm) were either dry sieved or wet sieved with slaking to obtain a range of aggregate sizes. Total organic C contents and natural 13C abundances were determined in each aggregate size fraction, which allowed calculation of the proportions of aggregate C derived from either C3 or C4 (recently deposited C). The proportion of water-stable macroaggregates in the meadow soil and their C3-derived C contents decreased with corn cropping. The net loss of C3-derived C was greater for larger macroaggregates (>2 mm) than for smaller ones. Assuming first-order kinetics, the estimated half-life of the C3-derived C of stable aggregates >2 mm was 13 yr, which corresponds to that reported for macro organic matter in similar systems. Analysis of water-stable macroaggregates under corn showed that they were enriched in recently deposited C relative to microaggregates and to the whole soil, which partly compensated for their loss in C3-C. On average, 20% of the C in water-stable aggregates >1 mm was derived from corn whereas this value was down to 9% in the whole soil and 1% in the microaggregates. The results of this study provide further quantitative evidence that slaking-resistant macroaggregates are enriched in, and probably stabilized by, recently deposited organic matter.
Received for publication March 14, 1995.
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