Re-balancing climate services to inform climate-resilient planning – A conceptual framework and illustrations from sub-Saharan Africa

Abstract Making climate-resilient planning and adaptation decisions is, in part, contingent on the use of climate information. Growing attention has been paid to the “usability gap” and the need to make information both useful and useable to decision-makers. Less attention has, however, been paid to the factors that determine whether, once created, useful and useable information is then actually used. In this Perspectives piece, we outline a framework that puts together the pieces necessary to close the “usability gap” – highlighting not only what is required to make information useful and useable, but also what is required to ensure that useful and useable information is actually used. Creating useful information is subject to understanding and being able to deliver metrics that address identified needs in a range of decision-making contexts. Creating useable information requires legitimate and credible information that is visualised and communicated in ways that are accessible and understandable. The framework highlights traditionally under-recognized enablers necessary to promote effective use of the growing availability of useful and useable climate information in decision-making; supportive institutions, appropriate policy frameworks, capacity of individuals and agency to make decisions. Whilst this is not enough in itself to effect information use, we argue that greater focus on these enablers can re-balance the activities promoted through climate services and increase the likelihood of successful use. We illustrate the framework with case examples of co-producing climate information for the tea and water sectors in sub-Saharan Africa.

[1]  S. Dessai,et al.  Examining the Goals of the Regional Climate Outlook Forums: What Role for User Engagement? , 2018, Weather, Climate, and Society.

[2]  Christine J. Kirchhoff,et al.  Narrowing the climate information usability gap , 2012 .

[3]  Lindsey Jones,et al.  The evolving landscape of climate services in sub-Saharan Africa: What roles have NGOs played? , 2019, Climatic Change.

[5]  Rachel James,et al.  Storylines: an alternative approach to representing uncertainty in physical aspects of climate change , 2018, Climatic Change.

[6]  D. Conway,et al.  Going local: Evaluating and regionalizing a global hydrological model’s simulation of river flows in a medium-sized East African basin , 2018, Journal of Hydrology: Regional Studies.

[7]  James Hansen,et al.  REVIEW OF SEASONAL CLIMATE FORECASTING FOR AGRICULTURE IN SUB-SAHARAN AFRICA , 2011, Experimental Agriculture.

[8]  Katharine Vincent,et al.  What can climate services learn from theory and practice of co-production? , 2018, Climate Services.

[9]  Anthony Patt,et al.  Effective seasonal climate forecast applications: examining constraints for subsistence farmers in Zimbabwe , 2002 .

[10]  S. Bremer,et al.  Co‐production in climate change research: reviewing different perspectives , 2017 .

[11]  Lauren C. Howe,et al.  Acknowledging uncertainty impacts public acceptance of climate scientists’ predictions , 2019, Nature Climate Change.

[12]  P. Wolski,et al.  Interpreting climate data visualisations to inform adaptation decisions , 2015 .

[13]  C. Larson Agricultural research. Reading the tea leaves for effects of climate change. , 2015, Science.

[14]  L. Goddard From science to service , 2016, Science.

[15]  Climate Assessments for Local Action , 2019, Bulletin of the American Meteorological Society.

[16]  A. Dougill,et al.  How can we effectively build capacity to adapt to climate change? Insights from Malawi , 2020 .

[17]  Francisco J. Doblas-Reyes,et al.  Climate service development, delivery and use in Europe at monthly to inter-annual timescales , 2014 .

[18]  M. K. V. Carr,et al.  Advances in Tea Agronomy , 2018 .

[19]  Stephen J. Connor,et al.  Health and Climate–Needs , 2010 .

[20]  C. Vaughan,et al.  Climate services for society: origins, institutional arrangements, and design elements for an evaluation framework , 2014, Wiley interdisciplinary reviews. Climate change.

[21]  Scott E. Kalafatis,et al.  Overcoming barriers during the co-production of climate information for decision-making , 2015 .

[22]  M. Lemos,et al.  Co-producing science for sustainability: Can funding change knowledge use? , 2020 .

[23]  Andrea L. Taylor,et al.  Identifying user needs for weather and climate services to enhance resilience to climate shocks in sub-Saharan Africa , 2019, Environmental Research Letters.

[24]  R. Cowling,et al.  What enables local governments to mainstream climate change adaptation? Lessons learned from two municipal case studies in the Western Cape, South Africa , 2015 .

[25]  S. Huyer,et al.  Gender-responsive rural climate services: a review of the literature , 2020, Climate and Development.

[26]  G. Fleming,et al.  Understanding Women’s Needs for Weather and Climate Information in Agrarian Settings: The Case of Ngetou Maleck, Senegal , 2016 .

[27]  Anne Hammill,et al.  Portfolio screening to support the mainstreaming of adaptation to climate change into development assistance , 2007 .

[28]  Eric Nost,et al.  Climate services for whom? The political economics of contextualizing climate data in Louisiana’s coastal Master Plan , 2019, Climatic Change.

[29]  Katinka Waagsaether,et al.  Climate information websites: an evolving landscape , 2017 .

[30]  S. Onzere,et al.  Really effective (for 15% of the men): Lessons in understanding and addressing user needs in climate services from Mali , 2017 .

[31]  J. Hansen,et al.  Delivering climate services for farmers and pastoralists through interactive radio , 2015 .

[32]  Kimberly S. Wolske,et al.  The Closer, the Better? Untangling Scientist–Practitioner Engagement, Interaction, and Knowledge Use , 2018, Weather, Climate, and Society.

[33]  L. Dilling,et al.  Creating usable science: Opportunities and constraints for climate knowledge use and their implications for science policy , 2011 .

[34]  Tufa Dinku,et al.  Bridging critical gaps in climate services and applications in africa , 2014 .

[35]  Anna Steynor,et al.  Informing climate services in Africa through climate change risk perceptions , 2019, Climate Services.

[36]  C. Vogel,et al.  Climate services in Africa: Re-imagining an inclusive, robust and sustainable service , 2019, Climate Services.

[37]  T. Wall,et al.  Moving Toward the Deliberate Co-Production of Climate Science Knowledge , 2015 .

[38]  C. Hewitt,et al.  Creating an enabling environment for investment in climate services: The case of Uruguay’s National Agricultural Information System , 2017 .

[39]  C. Vaughan,et al.  Identifying climate information services users and their needs in Sub-Saharan Africa: a review and learning agenda , 2020, Climate and Development.

[40]  J. Sluijs,et al.  Toward a multi-faceted conception of co-production of climate services , 2019, Climate Services.

[41]  Suraje Dessai,et al.  Mini-me: Why do climate scientists’ misunderstand users and their needs? , 2017 .

[42]  L. Dilling,et al.  The politics of “usable” knowledge: examining the development of climate services in Tanzania , 2019, Climatic Change.

[43]  L. Stringer,et al.  Climate change adaptation and cross-sectoral policy coherence in southern Africa , 2018, Regional Environmental Change.

[44]  D. Conway,et al.  How do staff motivation and workplace environment affect capacity of governments to adapt to climate change in developing countries? , 2018, Environmental Science & Policy.

[45]  R. Moss,et al.  To co-produce or not to co-produce , 2018, Nature Sustainability.

[46]  Andrea L. Taylor,et al.  Uncertainty: Lessons Learned for Climate Services , 2016 .

[47]  O. Mutanga,et al.  Scenario-based approach in dealing with climate change impacts in Central Tanzania , 2017 .

[48]  Chris Hewitt,et al.  The Global Framework for Climate Services , 2012 .

[49]  M. Howden,et al.  Maximising the benefits of participatory climate adaptation research by understanding and managing the associated challenges and risks , 2019, Environmental Science & Policy.

[50]  Jhannel Tomlinson,et al.  Climate information services for adaptation: what does it mean to know the context? , 2020, Climate and Development.

[51]  J. Binam,et al.  Assessment of the use of Participatory Integrated Climate Services for Agriculture (PICSA) approach by farmers to manage climate risk in Mali and Senegal , 2018, Climate Services.

[52]  J. Shumake-Guillemot,et al.  Making Society Climate Resilient: International Progress under the Global Framework for Climate Services , 2020, Bulletin of the American Meteorological Society.

[53]  B. Hewitson,et al.  Co-exploratory climate risk workshops: Experiences from urban Africa , 2016 .

[54]  O. Ndiaye,et al.  Closing the Gap between Climate Information Producers and Users: Assessment of Needs and Uptake in Senegal , 2018 .

[55]  L. Stringer,et al.  Identifying climate services needs for national planning: insights from Malawi , 2017 .

[56]  Lindsey Jones,et al.  A review of the consideration of climate change in the planning of hydropower schemes in sub-Saharan Africa , 2015, Climatic Change.

[57]  N. Marshall,et al.  Improving knowledge exchange among scientists and decision- makers to facilitate the adaptive governance of marine resources: A review of knowledge and research needs , 2015 .

[58]  H. Tuomenvirta,et al.  Analysis of the meteorological capacity for early warnings in Malawi and Zambia , 2016 .

[59]  J. Daron,et al.  Climate risk narratives: An iterative reflective process for co-producing and integrating climate knowledge , 2020 .

[60]  M. Thomson,et al.  On the use and misuse of climate change projections in international development , 2019, WIREs Climate Change.

[61]  John Paul Gosling,et al.  Building narratives to characterise uncertainty in regional climate change through expert elicitation , 2018, Environmental Research Letters.

[62]  Guy P. Brasseur,et al.  Climate services: Lessons learned and future prospects: CLIMATE SERVICES , 2016 .

[63]  G. Ziervogel,et al.  The utility of weather and climate information for adaptation decision-making: current uses and future prospects in Africa and India , 2018 .

[64]  D. Conway,et al.  Assessing River Basin Development Given Water‐Energy‐Food‐Environment Interdependencies , 2020, Earth's Future.