Your search keyword '"Andrade, Marina Elizabeth Barbosa"' showing total 1 results

1. Effects of condensed tannins on greenhouse gas emissions and nitrogen dynamics from urine-treated grassland soil.

Author

Siniscalchi, Débora, Cardoso, Abmael da Silva, Corrêa, Darlena Caroline da Cruz, Ferreira, Mariane Rodrigues, Andrade, Marina Elizabeth Barbosa, da Cruz, Luana Hybner Gomes, Ruggieri, Ana Cláudia, and Reis, Ricardo Andrade

Subjects

GRASSLAND soils, TANNINS, GREENHOUSE gases, GREENHOUSE gas mitigation, SOIL respiration, CARBON dioxide

Abstract

Condensed tannins are a potentially important treatment option to mitigate N2O (nitrous oxide) and affect carbon dioxide (CO2) and methane (CH4) emissions; however, their effect has been poorly assessed. Here, we quantified the emissions of N2O, CH4, and CO2, soil N mineralization, and nitrification with increasing doses of condensed tannins added to the urine of cattle raised on pasture. The experiment consisted of incubation with doses of 0%, 0.5%, and 1.0% of condensed tannins added directly to the collected urine. The experimental design was completely randomized. Greenhouse gas fluxes were quantified for four weeks using static chambers and gas chromatography. The addition of condensed tannins increased N2O emissions (P < 0.05), with total emissions averaging 95.84 mg N-N2O kg−1, 265.30 mg N-N2O kg−1, and 199.32 mg N-N2O kg−1 dry soil in the treatments with 0%, 0.5%, and 1% tannins, respectively. Methane emissions were reduced with the addition of tannins (P < 0.05), with total emissions of 8.84 g CH4 kg−1, 1.87 g CH4 kg−1, and 3.34 g CH4 kg−1 dry soil in the treatments with 0%, 0.5%, and 1% tannins, respectively. Soil respiration increased with the addition of condensed tannins (P < 0.05), with total emissions of 3.80 g CO2 kg−1, 6.93 g CO2 kg−1, and 5.87 g CO2 kg−1 in dry soil, in the treatments with 0%, 0.5%, and 1% tannins, respectively. The addition of condensed tannins reduced N mineralization and nitrification. We found evidence that the use of condensed tannins might not be a suitable option to mitigate N2O emissions. However, soil CH4 emissions can be abated. The increases in soil respiration suggest that tannins affect soil microorganisms, and the effects on CH4 and N2O could be related to the variation in the soil microbiome, which requires further clarification. [ABSTRACT FROM AUTHOR]

Published

2022