4.7 Article

Effect of Biochar on Soil CO2 Fluxes from Agricultural Field Experiments in Russian Far East

Journal

AGRONOMY-BASEL
Volume 11, Issue 8, Pages -

Publisher

MDPI
DOI: 10.3390/agronomy11081559

Keywords

biochar; agriculture; CO2 emission; soil; Russian Far East; Luvic Antrosols

Funding

  1. [19-29-05166/19]

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Biochar applied to agricultural soils can significantly reduce the cumulative flow of soil CO2, with the greatest reduction observed at different application doses in different years. A correlation between the decrease in cumulative CO2 flux and an increase in crop biomass was found during the 2018 season.
Agricultural soils are a major source of greenhouse gases. Biochar is a soil improver and, when applied to the soil, sequesters carbon. However, a different combination of soil and climatic conditions and biochar leads to different research results. In this research, the effects of 1 kg/m(2) and 3 kg/m(2) biochar application to clay soils on the CO2 flow in field experiments along two cropping seasons in the Russian Far East were investigated. Data showed that biochar significantly reduces the cumulative flow of soil CO2, compared with untreated field plots. In 2018, the greatest reduction in soil CO2 emissions (28.2%) with 3 kg/m(2) of biochar was obtained, while in 2019, the greatest decrease in the cumulative CO2 flow at the application dose of 1 kg/m(2) (57.7%) was recorded. A correlation between a decrease in the value of the cumulative CO2 flux and an increase in the biomass grown in the studied areas of agricultural crops during the season of 2018 was found.

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