Your search keyword '"Coskeran H"' showing total 4 results

1. A new integrated assessment framework for climate-smart nutrition security in sub-Saharan Africa: the integrated Future Estimator for Emissions and Diets (iFEED)

Author

Jennings, S, Challinor, A, Smith, P, Macdiarmid, J, Pope, E, Chapman, S, Bradshaw, C, Clark, H, Vetter, S, Fitton, N, King, R, Mwamakamba, S, Madzivhandila, T, Mashingaidze, I, Chomba, C, Nawiko, M, Nyhodo, B, Mazibuko, N, Yeki, P, Kuwali, P, Kambwiri, A, Kazi, V, Kiama, A, Songole, A, Coskeran, H, Quinn, C, Sallu, S, Dougill, A, Whitfield, S, Kunin, W, Meebelo, N, Jamali, A, Kantande, D, Makundi, P, Mbungu, W, Kayula, F, Walker, S, Zimba, S, Yamdeu, JHG, Kapulu, N, Galdos, MV, Eze, S, Tripathi, H, Sait, S, Kepinski, S, Likoya, E, Greathead, H, Smith, HE, Mahop, MT, Harwatt, H, Muzammil, M, Horgan, G, and Benton, T

Subjects

Global and Planetary Change, Ecology, Horticulture, Management, Monitoring, Policy and Law, Agronomy and Crop Science, Food Science

Abstract

Climate change will put millions more people in Africa at risk of food and nutrition insecurity by 2050. Integrated assessments of food systems tend to be limited by either heavy reliance on models or a lack of information on food and nutrition security. Accordingly, we developed a novel integrated assessment framework that combines models with in-country knowledge and expert academic judgement to explore climate-smart and nutrition-secure food system futures: the integrated Future Estimator for Emissions and Diets (iFEED). Here, we describe iFEED and present its application in Malawi, South Africa, Tanzania and Zambia. The iFEED process begins with a participatory scenario workshop. In-country stakeholders identify two key drivers of food system change, and from these, four possible scenarios are defined. These scenarios provide the underlying narratives of change to the food system. Integrated modeling of climate change, food production and greenhouse gas emissions is then used to explore nutrition security and climate-smart agriculture outcomes for each scenario. Model results are summarized using calibrated statements—quantitative statements of model outcomes and our confidence in them. These include statements about the way in which different trade futures interact with climate change and domestic production in determining nutrition security at the national level. To understand what the model results mean for food systems, the calibrated statements are expanded upon using implication statements. The implications rely on input from a wide range of academic experts—including agro-ecologists and social scientists. A series of workshops are used to incorporate in-country expertise, identifying any gaps in knowledge and summarizing information for country-level recommendations. iFEED stakeholder champions help throughout by providing in-country expertise and disseminating knowledge to policy makers. iFEED has numerous novel aspects that can be used and developed in future work. It provides information to support evidence-based decisions for a climate-smart and nutrition-secure future. In particular, iFEED: (i) employs novel and inclusive reporting of model results and associated in-country food system activities, with comprehensive reporting of uncertainty; (ii) includes climate change mitigation alongside adaptation measures; and (iii) quantifies future population-level nutrition security, as opposed to simply assessing future production and food security implications.

Published

2022

2. The African SWIFT project : Growing science capability to bring about a revolution in weather prediction

Author

Parker, DJ, Blyth, AM, Woolnough, SJ, Dougill, AJ, Bain, CL, Coning, E de, Diop-Kane, M, Foamouhoue, AK, Lamptey, B, Ndiaye, O, Ruti, P, Adefisan, EA, Amekudzi, LK, Antwi-Agyei, P, Birch, Cathryn E, Cafaro, C, Carr, H, Chanzu, B, Coskeran, H, Danuor, SK, Andrade, FM de, Diakaria, K, Dione, C, Diop, C Abdoulahat, Fletcher, JK, Gaye, AT, Groves, JL, Gudoshava, M, Hartley, AJ, Hirons, LC, Ibrahim, I, James, TD, Lawal, KA, Marsham, JH, Mutemi, JN, Okogbue, EC, Olaniyan, E, Omotosho, JB, Portuphy, J, Roberts, Alexander J, Schwendike, J, Segele, ZT, Stein, THM, Taylor, AL, Taylor, CM, Warnaars, TA, Webster, S, Woodhams, BJ, and Youds, Lorraine

Abstract

Africa is poised for a revolution in the quality and relevance of weather predictions, with potential for great benefits in terms of human and economic security. This revolution will be driven by recent international progress in nowcasting, numerical weather prediction, theoretical tropical dynamics and forecast communication, but will depend on suitable scientific investment being made. The commercial sector has recognized this opportunity and new forecast products are being made available to African stakeholders. At this time, it is vital that robust scientific methods are used to develop and evaluate the new generation of forecasts. The GCRF African SWIFT project represents an international effort to advance scientific solutions across the fields of nowcasting, synoptic and short-range severe weather prediction, subseasonal-to-seasonal (S2S) prediction, user engagement and forecast evaluation. This paper describes the opportunities facing African meteorology and the ways in which SWIFT is meeting those opportunities and identifying priority next steps. Delivery and maintenance of weather forecasting systems exploiting these new solutions requires a trained body of scientists with skills in research and training; modelling and operational prediction; communications and leadership. By supporting partnerships between academia and operational agencies in four African partner countries, the SWIFT project is helping to build capacity and capability in African forecasting science. A highlight of SWIFT is the coordination of three weather-forecasting ?Testbeds? ? the first of their kind in Africa ? which have been used to bring new evaluation tools, research insights, user perspectives and communications pathways into a semi-operational forecasting environment.

Published

2022

3. Author Correction: Stakeholder-driven transformative adaptation is needed for climate-smart nutrition security in sub-Saharan Africa.

Author

Jennings S, Challinor A, Smith P, Macdiarmid JI, Pope E, Chapman S, Bradshaw C, Clark H, Vetter S, Fitton N, King R, Mwamakamba S, Madzivhandila T, Mashingaidze I, Chomba C, Nawiko M, Nyhodo B, Mazibuko N, Yeki P, Kuwali P, Kambwiri A, Kazi V, Kiama A, Songole A, Coskeran H, Quinn C, Sallu S, Dougill A, Whitfield S, Kunin B, Meebelo N, Jamali A, Kantande D, Makundi P, Mbungu W, Kayula F, Walker S, Zimba S, Galani Yamdeu JH, Kapulu N, Galdos MV, Eze S, Tripathi H, Sait S, Kepinski S, Likoya E, Greathead H, Smith HE, Mahop MT, Harwatt H, Muzammil M, Horgan G, and Benton T

Published

2024

4. Stakeholder-driven transformative adaptation is needed for climate-smart nutrition security in sub-Saharan Africa.

Author

Jennings S, Challinor A, Smith P, Macdiarmid JI, Pope E, Chapman S, Bradshaw C, Clark H, Vetter S, Fitton N, King R, Mwamakamba S, Madzivhandila T, Mashingaidze I, Chomba C, Nawiko M, Nyhodo B, Mazibuko N, Yeki P, Kuwali P, Kambwiri A, Kazi V, Kiama A, Songole A, Coskeran H, Quinn C, Sallu S, Dougill A, Whitfield S, Kunin B, Meebelo N, Jamali A, Kantande D, Makundi P, Mbungu W, Kayula F, Walker S, Zimba S, Galani Yamdeu JH, Kapulu N, Galdos MV, Eze S, Tripathi H, Sait S, Kepinski S, Likoya E, Greathead H, Smith HE, Mahop MT, Harwatt H, Muzammil M, Horgan G, and Benton T

Subjects

Food, Climate, Malawi, Climate Change, Agriculture methods

Abstract

Improving nutrition security in sub-Saharan Africa under increasing climate risks and population growth requires a strong and contextualized evidence base. Yet, to date, few studies have assessed climate-smart agriculture and nutrition security simultaneously. Here we use an integrated assessment framework (iFEED) to explore stakeholder-driven scenarios of food system transformation towards climate-smart nutrition security in Malawi, South Africa, Tanzania and Zambia. iFEED translates climate-food-emissions modelling into policy-relevant information using model output implication statements. Results show that diversifying agricultural production towards more micronutrient-rich foods is necessary to achieve an adequate population-level nutrient supply by mid-century. Agricultural areas must expand unless unprecedented rapid yield improvements are achieved. While these transformations are challenging to accomplish and often associated with increased greenhouse gas emissions, the alternative for a nutrition-secure future is to rely increasingly on imports, which would outsource emissions and be economically and politically challenging given the large import increases required., (© 2024. The Author(s).)

Published

2024