Linking physical quality and CO 2 emissions under long-term no-till and conventional-till in a subtropical soil in Brazil

Linking physical quality and CO 2 emissions under long-term no-till and conventional-till in a subtropical soil in Brazil

The decomposition rate of soil organic matter (SOM) is affected by soil management practices and particularly by the physical and hydraulic attributes of the soil. Previous studies have indicated that the SOM decomposition is influenced by the Least Limiting Water Range (LLWR). Therefore, the object...

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Veröffentlicht in:Plant and soil 2011-01, Vol.338 (1/2), p.5-15
Hauptverfasser: Medeiros, João Carlos, da Silva, Alvaro Pires, Cerri, Carlos Eduardo Pellegrino, Giarola, Neyde Fabíola Balarezo, Figueiredo, Getúlio Coutinho, Fracetto, Felipe José Cury
Format: Artikel
Sprache:eng
Schlagworte:
Agricultural soils
Agrology
Organic soils
Soil density
Soil microorganisms
Soil organic carbon
Soil organic matter
Soil quality
Soil water
Tillage
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Zusammenfassung:The decomposition rate of soil organic matter (SOM) is affected by soil management practices and particularly by the physical and hydraulic attributes of the soil. Previous studies have indicated that the SOM decomposition is influenced by the Least Limiting Water Range (LLWR). Therefore, the objective of this study was to relate the C-CO2 emissions to the LLWR of the surficial layer of soil under two management systems: no-tillage (NT), conducted for 20 years, and conventional tillage (CT). Soil in NT presented greater soil organic carbon (SOC) stocks than in CT. Emissions of C-CO2 were greater in the NT than in the CT, because of the greater carbon stocks in the soil surface layer and the greater biological activity (due to the improvement of the soil structure) in NT as compared to CT. The use of LLWR associated with the measurement of C-CO2 emissions from the soil could help to predict the efficacy of the adopted management system for trapping carbon in the soil.
ISSN:0032-079X
1573-5036