Options de Modèles d’Affaires pour Assurer la Durabilité de l’Utilisation des Services d’Information Climatique au Sénégal

USAID/CINSERE (Services d’information climatiques pour améliorer la résilience et la productivité au Sénégal) est un projet de résilience qui vise à renforcer les capacités nationales pour la production, l’accès et la diffusion efficiente d’informations météorologiques et climatiques (IC) et de développer des stratégies pour une mise à l’échelle durable de l’utilisation des services d’information météorologiques et climatiques (SIC) sur toute l’étendue du territoire national. Le projet est financé par l’USAID et mis en oeuvre par le Programme de Recherche du CGIAR sur le Changement Climatique, l’Agriculture et la Sécurité Alimentaire hébergé par ICRISAT (CCAFS/ICRISAT) en collaboration avec l’ANACIM. La zone d’intervention du projet est celle des projets Feed the Future (FtF) au Sénégal, notamment Naatal Mbay (clôturé en 2019), Yaajeende (remplacé par Kawolor en 2018), ERA (remplacé par Youth in Agriculture en 2018) et COMFISH (remplacé par Dekkal Geej en 2019). Démarré en Mai 2016 pour une durée de trois ans (Jusqu’en mai 2019), le projet a bénéficié d’une extension d’un an. Ainsi, cette première phase de l’USAID/CINSERE prend fin en avril 2020. Durant presque quatre années de mise en oeuvre, des résultats assez probants ont été atteints tant dans la production des SIC, la communication et l’utilisation de ces SIC, que dans le renforcement des capacités des bénéficiaires à utiliser de façon efficiente ces SIC. Dans le souci de préserver les acquis du projet et d’assurer une mise à l’échelle soutenue du système de développement et de fourniture des IC en vue d’une utilisation durable des IC au Sénégal, l’USAID a recommandé l’identification, le test, la validation et la mise en oeuvre de modèles économiques viables impliquant des partenaires aussi bien du public que du privé (PPP). Le projet USAID/CINSERE s’est donc inspiré des expériences et leçons apprises au Sénégal, au Ghana, au Mali, en Inde et en Amérique Latine (Colombie) en matière de modèles économiques dans la fourniture des SIC pour bâtir des modèles adaptés au contexte du Sénégal. Ce document présente les modèles identifiés ainsi que les défis et perspectives

Transforming climate science into usable services: The effectiveness of co-production in promoting uptake of climate information by smallholder farmers in Senegal

Does the provision of weather and climate information services (WCIS) enhance farmer’s use of forecasts in informing farm decisions? This paper assesses the effectiveness of the Multi-disciplinary Working Group (MWG) – a WCIS co-production initiative in Senegal in influencing farmers uptake of weather and climate information (WCI). WCIS are increasingly gaining importance and widely touted as critical in helping farmers adapt to climate variability. While there have been various WCIS initiatives producing and translating climate data into tailored information and knowledge in different parts of the world, there is hardly any rigorous evidence assessing their effectiveness in improving uptake. In this assessment, we use innovative survey methods and apply rigorous analytical approaches that control for self-selection bias to establish causal linkages between the MWG and use of WCIS. Our findings indicate that MWGs are positively associated with farmers’ awareness, access and uptake of WCI resulting in farm management responses depending on the type of information used. The presence of MWGs generally increases farmer’s awareness of WCI by 18%, access by 12% and uptake by 10%. Furthermore, use of seasonal forecasts is generally associated with a higher proportion of farmers using improved seed, fertilizers and manure, but negatively with crop diversification within MWG locations. This suggests that participatory approaches in the provision of tailored climate information and advisory services can lead to higher uptake and use among farmers in informing farm management responses for better adaptation to climate change. We highlight lessons for improved evaluations of WCIS in future

Climate Smart Agriculture in the African Context

Agriculture remains vital to the economy of most African countries and its development has significant implications for food security and poverty reduction in the region. Increase in agricultural production over the past decades has mainly been due to land area expansion, with very little change in production techniques and limited improvement in yields. Currently one in four people remains malnourished in Africa. CSA integrates all three dimensions of sustainable development and is aimed at (1) sustainably increasing agricultural productivity and incomes; (2) adapting and building resilience to climate change from the farm to national levels; and (3) developing opportunities to reduce greenhouse gas emissions from agriculture compared with past trends. It is an approach to identify the most suitable strategies according to national and local priorities and conditions to meet these three objectives. There is no such thing as an agricultural practice that is climate smart per se. Whether or not a particular practice or production system is climate smart depends upon the particular local climatic, biophysical, socio-economic and development context, which determines how far a particular practice or system can deliver on productivity increase, resilience and mitigation benefits. For Africa to reap the potential benefits CSA, concrete actions must be taken to: enhance the evidence base to underpin strategic choices, promote and facilitate wider adoption by farmers of appropriate technologies; develop institutional arrangements to support, apply and scale-out CSA from the farm level to the agricultural landscape level; manage tradeoffs in perspectives of farmers and policymakers; strengthen technical, analytical and implementation capacities; ensure policy frameworks and public investments are supportive of CSA; develop and implement effective risk-sharing schemes

On-Farm Evaluation on Yield and Economic Performance of Cereal-Cowpea Intercropping to Support the Smallholder Farming System in the Soudano-Sahelian Zone of Mali

Cereal-cowpea intercropping has become an integral part of the farming system in Mali. Still, information is lacking regarding integrated benefits of the whole system, including valuing of the biomass for facing the constraints of animal feedings. We used farmers’ learning networks to evaluate performance of intercropping systems of millet-cowpea and sorghum-cowpea in southern Mali. Our results showed that under intercropping, the grain yield obtained with the wilibali (short maturing duration) variety was significantly higher than the yield obtained with the sangaranka (long maturing duration) variety whether with millet (36%) or sorghum (48%), corresponding, respectively, to an economic gain of XOF (West African CFA franc) 125 282/ha and XOF 142 640/ha. While for biomass, the yield obtained with the sangaranka variety was significantly higher by 50% and 60% to that of wilibali with an economic gain of XOF 286 526/ha (with millet) and XOF 278 516/ha (with sorghum). Total gain obtained with the millet-cowpea system was significantly greater than that obtained with the sorghum-cowpea system by 14%, and this stands irrespective of the type of cowpea variety. Farmers prefer the grain for satisfying immediate food needs instead of economic gains. These results represent an indication for farmer’s decision-making regarding cowpea varieties selection especially for addressing household food security issues or feeding animals

Differential household vulnerability to climatic and non-climatic stressors in semi-arid areas of Mali, West Africa

Semi-Arid Regions (SARs) of West Africa are considered climate change “hotspots” where strong ecological, economic and social impacts converge to make socio-ecological systems particularly vulnerable. While both climatic and non-climatic drivers interact across scales to influence vulnerability, traditionally, this inter-connectedness has received little attention in vulnerability assessments in the region. This study adopted the vulnerability patterns framework, operationalized using the Multidimensional Livelihood Vulnerability approach to include both climatic and nonclimatic stressors to analyze differential household vulnerability in SARs of Mali. Findings showed that while drought was the most mentioned climate-related stressor, households were also exposed to a diversity of environmental and socio-economic stressors, including food scarcity, livestock disease, labour unavailability, crop damage, and erratic rainfall patterns. The typology revealed three vulnerability archetypes differentiated by adaptive capacity and sensitivity. Availability of productive household members, household resource endowments, livelihood diversification and social networks were the main discriminant factors of household adaptive capacity, while challenges relating to food and water security make households more sensitive to stressors. The analysis highlighted the heterogeneity in household vulnerability patterns within and across communities. Failing to account for this heterogeneity in adaptation planning might result in a mismatch between adaptation needs and interventions, and potentially in maladaptation

Impacts of 1.5°C Global Warming on Natural and Human Systems

An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate povert

Low-temperature thermodynamic properties of amorphous sputtered Zr 100-xCux alloys. Effect of structural relaxation

We report on low-temperature specific heat measurements of superconducting amorphous Zr100-xCux (19 ≤ x ≤ 64) alloys prepared by sputtering that we compare to corresponding alloys obtained by fast liquid-quenching technique. Whereas the superconducting transition temperature Tc is very close for these two kinds of amorphous alloys, indicating that it is almost insensitive to the higher degree of structural disorder inherent to sputtering, both the electronic coefficient γ and the lattice β T3 contribution are larger for the sputtered alloys. The common character of an increasing value of γ with the Zr content is considerably enhanced for the sputtered alloys. However, such surprisingly high y values do not lead to any anomalous behaviour for the superconductivity process, as proved by the complete electronic condensation below Tc. All thermodynamic parameters are sensitive to structural relaxation, at variance with the liquid-quenched alloys, whereas the Tc depression is of the same magnitude in both kinds of alloys.Nous rapportons sur des mesures de chaleur spécifique à basse température d'alliages Zr100-xCux(19≤ x≤64) préparés par pulvérisation cathodique, que nous comparons aux alliages correspondants obtenus par la technique d'ultra-trempe de l'état liquide. Alors que la température de transition supraconductrice T c est très voisine pour les deux types d'alliages amorphes, indication qu'elle est pratiquement insensible au degré de désordre structural plus élevé induit par la technique de pulvérisation, par contre à la fois le coefficient électronique y et la contribution de réseau β T3 sont plus élevés pour les alliages « pulvérisés ». Le caractère commun aux deux alliages d'une croissance de γ avec la concentration en Zr est considérablement accentué dans le cas des alliages « pulvérisés ». Cependant, ces fortes valeurs de γ assez surprenantes ne conduisent pas à un comportement anormal pour le processus supraconducteur, ainsi que le prouve la condensation électronique totale en dessous de Tc. Tous les paramètres thermodynamiques sont sensibles à la relaxation structurale, au contraire des alliages trempés du liquide, tandis que la diminution de la Tc est similaire dans les deux types d'alliages