AUTHOR=de Chaves Miriam Gonçalves , Venturini Andressa Monteiro , Merloti Luis Fernando , Barros Dayane Juliate , Rossetto Raffaella , Kuramae Eiko Eurya , Tsai Siu Mui , Navarrete Acacio Aparecido TITLE=Combined Use of Vinasse and Nitrogen as Fertilizers Affects Nitrification, Ammonification, and Denitrification by Prokaryotes JOURNAL=Frontiers in Soil Science VOLUME=1 YEAR=2021 URL=https://www.frontiersin.org/journals/soil-science/articles/10.3389/fsoil.2021.746745 DOI=10.3389/fsoil.2021.746745 ISSN=2673-8619 ABSTRACT=
A common agricultural practice of combining organic fertilizer vinasse (a liquid residue from sugarcane ethanol production) with mineral nitrogen (N) fertilizer promotes N losses such as greenhouse gas emissions due to the effects of physicochemical changes in soil on the microbiota inhabiting this environment. In this study, we applied microarray GeoChip v.5.0M technology to obtain a better insight into the prokaryotic communities and identify and quantify the N functional gene families associated with the N processes in sugarcane soils without N fertilizer (N0), with urea at 60 kg ha−1 (N60), and with vinasse combined with urea (NV). Soil samples were collected at 7 (T7) and 150 (T150) days after N application, corresponding to maximum and minimum nitrous oxide (N2O) emissions, respectively, for molecular and physicochemical analysis. Additionally, the metagenomes of these DNA samples, previously deposited in the MG-RAST server, were accessed to investigate the functions and taxonomic groups associated with selected gene families. The results revealed that 87% of the select gene families were significantly responsive to the fertilizer combined treatment (NV) in the 7 days after the application. The most responsive genes and processes were nitrification [with the