02781naa a2200325 a 450000100080000000500110000800800410001902400350006010000170009524501170011226000090022952018730023865000090211165000180212065000220213865000240216065000170218465000130220165000180221465000140223265000230224665000090226965000090227865300240228770000190231170000210233070000170235170000160236877300710238418619872017-01-26       2010    bl uuuu     u00u1 u    #d7 a10.1016/j.fcr.2010.06.0122DOI1 aSILVA, A. P.  aMicrobial biomass under various soil- and crop-management systems in short- and long-term experiments in Brazil.  c2010  aManagement and cropping systems varying in soil mobilization rates and plant-residue inputs may have profound effects on the biological properties of soil. Therefore, the objective of this study was to quantify soil microbial biomass carbon and nitrogen (MB-C and MB-N)?by means of the fumigation-extraction method?under varied soil-management and crop-rotation/succession systems in southern Brazil, correlating the results with yields of soybean and maize crops. The microbial biomass and grain yields were examined at the 0?10 cm layer in four short- to long-term field experiments. Experiment 1 was a 26-year trial consisting of four soil-management systems: (1) no-tillage (NT), (2) conventional tillage [(CT) with disc plough], (3) field cultivator (FC) or (4) heavy-disc harrow (DH), each with a crop succession (CS) of soybean (summer) and wheat (winter). Experiment 2 was a 21-year trial consisting of one CS, soybean/wheat every year) and seven crop rotations (CRs) comprising soybean, maize, wheat and green manures (lupine, radish and black oat), under the NT system. Experiment 3 comprised a 14-year CT trial, and 4-year and 14-year NT trials, with both one CS and two CRs. Experiment 4, a 10-year trial consisted of CT and NT and three CRs. Analyses were performed during the summer and winter croppings. Differences in microbial parameters, as a function of crop succession and rotation, were not easily detected as they varied as a function of a complex combination of plant species and time of implementation of the experiment. In contrast, MB-C and MB-N values were consistently higher?up to more than 100%?under NT in comparison to CT and were associated with higher grain yields. Our results?from this wide range of experiments?suggest that MB-C and, particularly, MB-N are sensitive indicators of the effects of soil- and crop-management regimens.  aCorn  aCrop rotation  aMicrobial biomass  aSoil microorganisms  aSoil quality  aSoybeans  aMicrorganismo  aQualidade  aRotacao de cultura  aSoja  aSolo  aBiomassa microbiana1 aBABUJIA, L. C.1 aFRANCHINI, J. C.1 aSOUZA, R. A.1 aHUNGRIA, M.  tField Crops Research, Marylandgv. 119, n. 1, p. 20-26, Oct. 2010.