Abstract
Abstract Expansion of cultivated lands and field management impacts greenhouse gas (GHG) emissions from agriculture soils. Soils naturally cycle GHGs and can be sources or sinks depending on physical and chemical properties affected by cultivation and management status. We looked at how cultivation history influences GHG emissions from subtropical soils. We measured CO2, N2O, and CH4 fluxes, and soil properties from newly converted and continuously cultivated lands during the summer rainy season in calcareous soils from south Florida. Newly converted soils had more soil organic matter (OM), more moisture, higher porosity, and lower bulk density, leading to more GHG emissions compared to historically cultivated soils. Although more nutrients make newly converted lands more desirable for cultivation, conversion of new areas for agriculture was shown to release more GHGs than cultivated lands. Our data suggest that GHG emissions from agricultural soils may decrease over time with continued cultivation.
Highlights
Greenhouse gas emissions from agriculture are an important environmental impact to consider
Considering agriculture is a significant contributor to greenhouse gas (GHG), there is a need to understand how land cultivation and farm management practices impact GHG emissions from agricultural soils
A majority of the CH4 (37/48) and N2O (40/48) fluxes were below the detection limit; detectable fluxes (CH4 (10/11) and N2O (8/8)) were from newly converted soils
Summary
Greenhouse gas emissions from agriculture are an important environmental impact to consider. The cultivation of new land, is one way to maintain or increase production, intensification, or increasing inputs per area, can support continued cultivation of land (Pellegrini & Fernandez, Pellegrini & Fernández, 2018). Farm management practices, such as the use of cover crops and conservation tillage can improve soil fertility allowing for continued cultivation and possibly reduce GHG emissions (Kallenbach et al, 2010; Snyder et al, 2009; Tully & Ryals, 2017). Considering agriculture is a significant contributor to GHGs, there is a need to understand how land cultivation and farm management practices impact GHG emissions from agricultural soils
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