Food security impact of agricultural technology adoption under climate change: Micro‐evidence from Niger

Agricultural Development Economics Division

Food security impact of agricultural technology adoption under climate change: Micro‐evidence from Niger

Economics and Policy Innovations for Climate‐Smart Agriculture. Policy Brief No.1

Year of publication 2015

Pages 4p.

Author Agricultural Development Economics Division

Publisher FAO ;

Product type Policy brief

Edition 1

Full item page

Synopsis (short abstract) This brief summarizes the results of a comprehensive national representative plot-level survey with a wealth of socio-economic information merged with geo-referenced climatic information. We assess factors affecting the adoption of agricultural technologies under climate risk and evaluate the impact of adoption on food security in Niger. Specifically, we look at how bio-physical and climatic factors affect a set of agricultural practices known to increase resilience and productivity. We analyse the relationship between type of practice and crop productivity for a range of different farmer types, and under a range of biophysical and climate conditions.

Language English

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We assess farmers' incentives and the conditioning factors that hinder or promote adoption of agricultural technologies under climate risk and evaluate its impact on food security in Niger. We distinguish between (i) exposure to climatic disruptions, (ii) bio-physical sensitivity to such disruptions, (iii) household adaptive capacity in terms of farmers’ ability to prepare and adjust to the resulting stress, and, finally, (iv) system-level adaptive capacity that serve as enabling factors for hou sehold-level adaptation. We employ multivariate probit and instrumental variable techniques to model the selection decisions and its impact. The results clearly indicate that while the use of modern inputs and organic fertilizers significantly improves crop productivity, results are unclear for the impact of crop residues. Results also show that factors driving modern input use are different than those of crop residues and organic fertilizer which can be characterized at low investment capital r equirements, higher labour requirements and longer time for results versus modern inputs which can be characterized as higher investment capital requirements, less labour requirement and shorter time for returns. Exposure to climatic stress and bio-physical factors are identified as key factors that hinder or accelerate adoption. Results show that greater climate variability as represented by the coefficient of variation of rainfall and temperature and recent climate shocks as represented by ave rage rainfall shortfall increases use of risk-reducing inputs such as crop residue, but reduce the use of modern inputs. Results also show the key role of system-level adaptive capacity in governing input use decision. For instance people who are close to extension offices and periodic markets are more likely to use modern inputs whereas those further away are more likely to use climate-smart agricultural inputs suggesting that role extension in promoting the use of modern inputs. Results presen ted have implications for understanding and overcoming barriers to selection for each practice, distinguishing structural aspects such as exposure and sensitivity from potential interventions at the household or system levels linked to adaptive capacity.
Document

Food security impact of agricultural technology adoption under climate change
Micro-evidence from Niger
2015

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No results found.

We assess farmers' incentives and the conditioning factors that hinder or promote adoption of agricultural technologies under climate risk and evaluate its impact on food security in Niger. We distinguish between (i) exposure to climatic disruptions, (ii) bio-physical sensitivity to such disruptions, (iii) household adaptive capacity in terms of farmers’ ability to prepare and adjust to the resulting stress, and, finally, (iv) system-level adaptive capacity that serve as enabling factors for hou sehold-level adaptation. We employ multivariate probit and instrumental variable techniques to model the selection decisions and its impact. The results clearly indicate that while the use of modern inputs and organic fertilizers significantly improves crop productivity, results are unclear for the impact of crop residues. Moreover, factors driving modern input use are different than those of crop residues and organic fertilizer which can be characterized at low investment capital requirements, higher labour requirements and longer time for results versus modern inputs which can be characterized as higher investment capital requirements, less labour requirement and shorter time for returns. Exposure to climatic stress and bio-physical factors are identified as key factors that hinder or accelerate adoption. Results also show that greater climate variability as represented by the coefficient of variation of rainfall and temperature and recent climate shocks as represented by average rai nfall shortfall increases use of risk-reducing inputs such as crop residue, but reduce the use of modern inputs. In addition, the key role of system-level adaptive capacity in governing input use decision. Results presented have implications for understanding and overcoming barriers to selection for each practice, distinguishing structural aspects such as exposure and sensitivity from potential interventions at the household or system levels linked to adaptive capacity.
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