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Impacts of Climate Change on the Potential Productivity of Eleven Staple Crops in Rwanda

Author

Listed:
  • Kemen G. Austin

    (RTI International, Durham, NC 27709, USA)

  • Robert H. Beach

    (RTI International, Durham, NC 27709, USA)

  • Daniel Lapidus

    (RTI International, Durham, NC 27709, USA)

  • Marwa E. Salem

    (RTI International, Durham, NC 27709, USA)

  • Naomi J. Taylor

    (RTI International, Durham, NC 27709, USA)

  • Mads Knudsen

    (Vanguard Economics, Kigali 20093, Rwanda)

  • Noel Ujeneza

    (Independent researcher, Kigali 20093, Rwanda)

Abstract

This study quantifies the potential responses of 11 staple crop yields to projected changes in temperature and precipitation in Rwanda, using a cross sectional model based on yield data collected across more than 14,000 villages. We incorporated a relatively high spatial resolution dataset on crop productivity, considered a broad range of crops relevant to national agricultural production priorities, used environmental data developed specifically for Rwanda, and reported uncertainty both from our estimation model and due to uncertainty in future climate projections. We estimate that future climate change will have the largest impacts on potential productivity of maize, bush bean, and Irish potato. All three crops are likely to experience a reduction in potential yields of at least 10% under Representative Concentration Pathway (RCP) 4.5 and at least 15% under RCP 8.5 by 2050. Notably, these are important crops nationally, and three of the crops targeted by Rwanda’s Crop Intensification Program. We find that the most severe reductions in potential crop yields will occur in the drier eastern savannah and plateau regions, but that the impacts of climate change could be neutral or even positive in the highlands through mid-century. The refined spatial scale of our analysis allows us to identify potentially vulnerable regions where adaptation investments may need to be prioritized to support food security and climate resilience in Rwanda’s agricultural sector.

Suggested Citation

  • Kemen G. Austin & Robert H. Beach & Daniel Lapidus & Marwa E. Salem & Naomi J. Taylor & Mads Knudsen & Noel Ujeneza, 2020. "Impacts of Climate Change on the Potential Productivity of Eleven Staple Crops in Rwanda," Sustainability, MDPI, vol. 12(10), pages 1-12, May.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:10:p:4116-:d:359541
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    References listed on IDEAS

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    1. Zeileis, Achim, 2004. "Econometric Computing with HC and HAC Covariance Matrix Estimators," Journal of Statistical Software, Foundation for Open Access Statistics, vol. 11(i10).
    2. Asa Giertz & George Gray & Mohinder S. Mudahar & Rhoda Rubaiza & Diana Galperin & Kilara Suit, 2015. "Rwanda Agricultural Sector Risk Assessment," World Bank Publications - Reports 22936, The World Bank Group.
    3. Philip K. Thornton & Mario Herrero, 2015. "Adapting to climate change in the mixed crop and livestock farming systems in sub-Saharan Africa," Nature Climate Change, Nature, vol. 5(9), pages 830-836, September.
    4. Asa Giertz & Jorge Caballero & Diana Galperin & Donald Makoka & Jonathan Olson & George German, 2015. "Malawi Agricultural Sector Risk Assessment," World Bank Publications - Reports 23678, The World Bank Group.
    5. Christian Thierfelder & Pauline Chivenge & Walter Mupangwa & Todd S. Rosenstock & Christine Lamanna & Joseph X. Eyre, 2017. "How climate-smart is conservation agriculture (CA)? – its potential to deliver on adaptation, mitigation and productivity on smallholder farms in southern Africa," Food Security: The Science, Sociology and Economics of Food Production and Access to Food, Springer;The International Society for Plant Pathology, vol. 9(3), pages 537-560, June.
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    Cited by:

    1. Mikhail Miklyaev & Glenn Jenkins & David Shobowale, 2020. "Sustainability of Agricultural Crop Policies in Rwanda: An Integrated Cost–Benefit Analysis," Sustainability, MDPI, vol. 13(1), pages 1-21, December.

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