Author
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LIU, RUILONG - UNIVERSITY OF MINNESOTA |
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Clapp, Charles |
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CHENG, H - UNIVERSITY OF MINNESOTA |
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Submitted to: Soil Source and Sink of Greenhouse Gases
Publication Type: Abstract Only Publication Acceptance Date: 10/1/1995 Publication Date: N/A Citation: N/A Interpretive Summary: Technical Abstract: Soil organic matter (SOM) is one of the primary terrestrial carbon pools which provide a sink for atmospheric C02. Quantifying SOM dynamics in relation to agroecosystem management is fundamental to identifying approaches to enhance carbon sequestration in soils. Preliminary evidence has shown that carbon-13 abundance, which can be accurately determined by an automated elemental analyzer/mass spectrometer system, can be used for characterizing organic carbon dynamics in soils. Natural variation in 13C/12C ratios are used to assess the fate of recent organic inputs into SOM. The variations in ratio are induced by plants with either a C4 or C3 photosynthetic pathway. By crop rotation and tillage management interactions, SOM turnover and soil organic fractions can be characterized. The carbon-13 tracer method is sensitive, reproducible, and reliable. The technique has been used in investigating soil respiration, biomass, plant residue decomposition, and long-term field plots with different crop sequence combinations. However, better improved understanding is still needed to account for variations in soil landscapes, seasonal fluctuations of incorporation, and other soil properties, as well as discriminations in the organic matter transformation processes in the soil. |
