Carbon and Nitrogen Dynamics of Soil Organic Matter Fractions from Cultivated Grassland Soils

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Carbon and Nitrogen Dynamics of Soil Organic Matter Fractions from Cultivated Grassland Soils

C. A. Cambardella^*

USDA-ARS, National Soil Tilth Lab., 2150 Pammel Drive, Ames, IA 50011

E. T. Elliott

Natural Resource Ecology Lab., Colorado State Univ., Fort Collins, CO 80523

*Corresponding author.

ABSTRACT

The amount of organic matter present in soil and the rate ofsoil organic matter (SOM) turnover are influenced by agriculturalmanagement practices. Because SOM is composed of a series offractions, management practices will also influence the distributionof organic C and N among SOM pools. Our study examined SOM fractionsthat are occluded within the aggregate structure. Aggregateswere disrupted by sonication and the disrupted soil suspensionswere passed through a series of sieves to isolate size fractions.Densiometric separations were carried out on the size fractions,creating size-density fractions. Fine-silt-size particles havinga density of 2.07 to 2.22 g/cm³ isolated from inside macroaggregatescontained the highest percentage of total soil C and N for allcultivation treatments and, because of its properties, willbe referred to as the enriched labile fraction (ELF). As cultivationintensity was reduced, the amount of N in the ELF increasedfrom 110 mg N/kg in the bare fallow treatment to 405 mg N/kgin the no-till treatment. About 5% of the N in the ELF was mineralizedduring a 28-d laboratory incubation, averaged across treatments.The proportion of N mineralized from the ELF (4.7%) was significantlyhigher than from intact macroaggregates (2.1%), which suggeststhis fraction may be protected from decomposition within theaggregate structure. We postulate that the ELF is a byproductof microbial activity and that it contributes to binding microaggregatesinto macroaggregates in cultivated grassland soils.

Received for publication August 31, 1992.

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				G. Guggenberger, S. D. Frey, J. Six, K. Paustian, and E. T. Elliott Bacterial and Fungal Cell-Wall Residues in Conventional and No-Tillage Agroecosystems Soil Sci. Soc. Am. J., September 1, 1999; 63(5): 1188 - 1198. [Abstract] [Full Text]

				S. E. Trumbore Potential responses of soil organic carbon to global environmental�change PNAS, August 5, 1997; 94(16): 8284 - 8291. [Abstract] [Full Text] [PDF]