01935naa a2200217 a 450000100080000000500110000800800410001902400380006010000130009824501420011126000090025352012520026265300190151470000220153370000210155570000160157670000160159270000160160870000200162477300730164419706762022-04-04       2013    bl uuuu     u00u1 u    #d7 a10.1016/j.ejsobi.2012.12.0102DOI1 aBINI, D.  aEffects of land use on soil organic carbon and microbial processes associated with soil health in southern Brazil.h[electronic resource]  c2013  aCarbon plays a key role in determining soil health, which is defined as the soil's capacity to maintain environmental functions and biological productivity. In this study, C cycling was evaluated in soils along a gradient of land use, from native forest (NF), reforested sites (secondary forest ? SF, Araucaria angustifolia ? AR, Pinus elliottii ? PI), clear-cut P. elliottii stands (CT) to farmland (AG). NF, AR, and SF sites had lower litter C:N ratios than PI, CT, and AG sites. Soils under forests had more organic C than CT and AG soils, whereas soils with native species had more microbial biomass C than PI, CT and AG soils. Both metabolic quotient (qCO2) and dehydrogenase activity increased with land use. Multivariate analysis revealed that soils of AR and SF were similar to NF and differed from CT and AG, which had higher qCO2 and dehydrogenase activity, suggesting microbial stress. Litter C:N ratios and soil microbial biomass C, moisture, CO2 evolution, and cellulase activity discriminated most effectively between land uses. Reforestation with native species restored soil properties to levels similar to those in NF, being more sustainable, whereas reforestation with the exotic P. elliottii made soils more similar to AG soils.  aSaúde do solo1 aSANTOS, C. A. dos1 aCARMO, K. B. dos1 aKISHINO, N.1 aANDRADE, G.1 aZANGARO, W.1 aNOGUEIRA, M. A.  tEuropean Journal of Soil Biologygv. 55, p. 117-123, Mar./Apr. 2013.