Publication Type

Journal Article

Journal Name

Clean Technologies and Environmental Policy

Publication Date

8-1-2022

Abstract

Models that enable the estimation of crop yields and greenhouse gas (GHG) emissions concurrently are still lacking. This study develops a biophysical modelling framework encompassing a farm typology, a crop model, and a farm-focused GHG calculator to assess productivity (crop yield) and GHG emissions of crop management practices concurrently. Using this modelling framework, the study developed cropping system scenarios based on the concept of conservation agriculture (CA) to identify and design cropping systems that deliver ecological intensification for different farm types. All farm types were found to be net sources of GHG with cropping system inefficiency across all farm types. However, the integration of CA-based practices independently and in combination into farm-type maize-based cropping systems showed significant potential in improving crop yields and lowering GHG emissions across all farm types. CA-based practices in combination were more efficient and able to deliver ecological intensification with high productivity and ecosystem services which contribute to climate change regulation. This study concludes that the modelling approach identified intensification options that maintain or increase crop yields while reducing GHG emissions at the farm level. This can guide policy simulations and scenario analysis to tailor interventions for farm-type sustainability. Graphical abstract: [Figure not available: see fulltext.].

Keywords

Conservation agriculture, Crop yields, Ecological intensification, Greenhouse gas emissions, Smallholder agriculture

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