02744naa a2200289 a 450000100080000000500110000800800410001902400360006010000170009624501310011326000090024450002640025352015510051765000140206865000210208265000210210365000180212465000220214265300310216465300260219570000180222170000130223970000140225270000150226670000180228177301550229910608922021-04-27       2019    bl uuuu     u00u1 u    #d7 a10.5424/sjar/2019174-146582DOI1 aMONTAÑEZ, A  aInfluence of aerobic treated manure application on the chemical and microbiological properties of soil.h[electronic resource]  c2019  aArticle history: Received: 06 Feb 2019.// Accepted: 16 Dec 2019.The authors would like to thank Andres Peres del Castillo and Christian Decker for their much-appreciated assistance with field work and Sally Bunning for her technical editing of the manuscript.  aAbstract: Aim of study: This study evaluated the effect of the application of liquid aerobic treated manure (continuous liquid composting, CLC) on physical, chemical and biological soil properties, with the objective of monitoring changes induced by soil management with CLC as a biofertilizer. Area of study: Colonia, Uruguay (lat. 34,338164 S, long. 57,222630 W). Material and methods: Soil?s chemical properties, including nitrogen mineralization potential (NMP) and 15 microbiological properties (microbial biomass carbon, MBC; mesophylic aerobic bacteria; actinobacteria; filamentus fungi; fluorescein diacetate hydrolysis; dehydrogenase; with NMP; acid and alkaline phosphatase; cellulolose degraders; P-solubilizing bacteria; nitrifying; denitrifying and free-living N-fixing microorganisms; glomalin; and soil-pathogenicity index, SPI) were evaluated in two sites with similar cropping history, with one and three years of respective CLC application. Main results: CLC application had significant effects on soil microbial biomass (p<0.05), soil enzyme (p<0.1) and functional groups activity (p<0.05). SPI decreased in both sites with CLC application. No significant variations were detected for the chemical variables, with the exception of NMP, which was significantly high (p<0.05) in soil treated with CLC at both sites. Research highlights: The improved biological soil properties analyzed (MBC, soil enzyme activities and SPI, together with NMP) emerged as reasonable indicators to assess and monitor the effects of CLC application.  aESTIERCOL  aFISICA DEL SUELO  aManejo de suelos  aNITRIFICACION  aQUIMICA DEL SUELO  aMICROBIOLOGICAL INDICATORS  aORGANIC FERTILIZATION1 aRIGAMONTI, N.1 aVICO, S.1 aSILVA, C.1 aNUÑEZ, L.1 aZERBINO, M.S.  tSpanish Journal of Agricultural Research, 2019, Volume 17, Issue 4, Article number e1104. OPEN ACCESS. Doi: https://doi.org/10.5424/sjar/2019174-14658