02416naa a2200253 a 450000100080000000500110000800800410001902200140006002400550007410000160012924501360014526000090028152016270029065000240191765000190194165000190196065300220197965300130200170000190201470000220203370000230205570000170207877300670209521561632023-08-28       2023    bl uuuu     u00u1 u    #d  a1806-96577 ahttps://doi.org/10.36783/18069657rbcs202300062DOI1 aBATISTA, Y.  aSoil macrofauna correlations with soil chemical and physical properties and crop sequences under no-tillage.h[electronic resource]  c2023  aSoil macrofauna is an important indicator of soil quality, as it is sensitive to changes in the environment as a result of soil management, which includes soil chemical and physical properties and the diversity of cultivated species. This study aimed to evaluate the composition and structure of soil macrofauna under a no-tillage system in different crop sequences, with and without crop rotation, over two growing seasons: a rainy summer and a dry winter. The crop sequences were soybean/corn rotation in the summer and corn in the winter; soybean/corn rotation in the summer and sunn hemp in the winter; soybean monoculture in the summer and sunn hemp in the winter; and corn monoculture in the summer and corn monoculture in the winter growing season. The nutrient content of the crop residues left on the soil surface, soil chemical and physical properties, and soil macrofauna were determined. Functional plant groups (grasses or legumes) individually influenced the composition of soil macrofauna more significantly than the effect of crop sequence, with or without rotation, and growing season. Grasses favored an increased density of groups such as Oligochaeta, Isoptera, and Formicidae. In contrast, legumes contributed to the variation in the total density of individuals and Diplura and Coleoptera groups. Furthermore, the influence of functional plant groups (grasses or legumes) on the composition and density of soil macrofauna were related to soil chemical (P and N content) and physical properties (particulate organic carbon and soil moisture), which determined the composition of soil macrofauna groups.  aEcosystem engineers  aOrganic matter  aSoil chemistry  aBottom up effects  aRotation1 aMACHADO, D. L.1 aCORREIA, M. E. F.1 aSPINELLI, M. H. M.1 aCORÁ, J. E.  tRevista Brasileira de Ciência do Sologv. 47, e0230006, 2023.