Biochar impacts on soil chemical properties, greenhouse gas emissions and forage productivity: A field experiment

Ginebra, Milagros; Munoz, Cristina; Calvelo-Pereira, Roberto; Doussoulin, Marcelo; Zagal, Erick

Abstract

Biochar is a promising alternative to agricultural productivity and climate change mitigation. However, quantitative data are needed to better understand the productivity and greenhouse gas (GHG) emissions from agricultural fields amended with biochar. To assess the impacts of the four biochars on soil properties, forage productivity, and GHG emissions, a 1-year field experiment was conducted in a Humic Haploxerands (Andisol). Three manure-derived biochars and one wood residue biochar (all pyrolyzed at 550 degrees C) were applied at rates of 1% (equivalent to 11 t ha(-1)) in two parallel and independent experiments. The changes in (i) soil chemical properties and yield of Sorghum sudangrass (S. bicolorxS. bicolor var. Sudanese) and (ii) soil CO2 and N2O emissions were monitored. Two controls, with and without NPK, were included. The added amendments produced from residues of poultry and pig systems increased soil pH by 0.73 and 0.19 units, respectively. Increased sorghumyield were associated with fertilizer and the liming potential of the added biochar. Soil total carbon (TC) increased with the addition of different biochars, especially during the wood biochar treatment. Biochar application, regardless of the feedstock, had no significant impact on the cumulative soil CO2 emitted after a year. Soil N2O fluxes decreased (23%-50%) in treatments containing biochars with low mineral N contents and high C stability (i.e., low H:OC and Cox:TC ratios). NPK treatment resulted in the highest N2O emissions. Wood residue-derived biochar has a great potential in mitigating climate change, reducing soil N2O emissions, and promoting soil C storage. Manure-derived biochars could be instrumental in circular economy livestock systems, where pyrolyzed animal manure can satisfy the demand for nutrients and/or liming of Andisols under sustainable forage models. (C) 2021 Elsevier B.V. All rights reserved.

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Título según WOS: Biochar impacts on soil chemical properties, greenhouse gas emissions and forage productivity: A field experiment
Título de la Revista: SCIENCE OF THE TOTAL ENVIRONMENT
Volumen: 806
Editorial: Elsevier
Fecha de publicación: 2022
DOI:

10.1016/j.scitotenv.2021.150465

Notas: ISI