10.7910/DVN/J31LJTBonilla-Findji, OsanaOsanaBonilla-Findji0000-0002-6098-000XInternational Center for Tropical Agriculture - CIAT; Climate Change, Agriculture and Food Security – CCAFSEitzinger, AntonAntonEitzinger0000-0001-7317-3381International Center for Tropical Agriculture - CIATAndrieu, NadineNadineAndrieu0000-0001-9558-9302Centre de coopération internationale en recherche agronomique pour le développement – CIRADJarvis, AndyAndyJarvis0000-0001-6543-0798International Center for Tropical Agriculture - CIAT; Climate Change, Agriculture and Food Security – CCAFSOuedraogo, MathieuMathieuOuedraogo0000-0001-6581-6287Climate Change, Agriculture and Food Security – CCAFS; International Crops Research Institute for the Semi-Arid Tropics - ICRISATZougmoré, RobertRobertZougmoré0000-0002-6215-4852Climate Change, Agriculture and Food Security – CCAFS; International Crops Research Institute for the Semi-Arid Tropics - ICRISATNyuor, Anslem B.Anslem B.NyuorCSIR Savanna Agricultural Research Institute - SARISaaka Buah, SamuelSamuelSaaka BuahCSIR Savanna Agricultural Research Institute - SARIHarvard Dataverse2019Agricultural SciencesEarth and Environmental SciencesMonitoringClimate Smart AgricultureHouseholdsLivelihoodsFarmAdaptationFood SecurityClimate ShocksWest AfricaDecision and Policy Analysis - DAPAOuedraogo, MathieuMathieuOuedraogoClimate Change, Agriculture and Food Security – CCAFS; International Crops Research Institute for the Semi-Arid Tropics - ICRISATBonilla-Findji, OsanaInternational Center for Tropical Agriculture - CIAT; Climate Change, Agriculture and Food Security – CCAFSInternational Center for Tropical Agriculture (CIAT) / CGIAR Research Program on Climate Change, Agriculture and Food Security2019-12-182021-03-112017-10-01/2017-11-15Survey data10568/164261397761748728123995121221373762324486042343788812555621151711825711828793524925015application/vnd.ms-excelapplication/pdfapplication/pdfapplication/vnd.openxmlformats-officedocument.wordprocessingml.documentapplication/vnd.ms-excelapplication/mswordapplication/pdfapplication/vnd.ms-exceltext/tab-separated-valuestext/tab-separated-valuestext/tab-separated-valuestext/tab-separated-valuestext/tab-separated-valuestext/tab-separated-values2.1CC0 1.0This dataset contains the files produced in the pilot implementation of the “Integrated Monitoring Framework for Climate-Smart Agriculture” in the Lawra-Jirapa Climate Smart Village (Ghana) in October 2017. <br> This monitoring framework developed by CCAFS is meant to be deployed annually across the global network of Climate-Smart Villages to gather field-based evidence by tracking the progress on: <br> <ul> <li>Adoption of CSA practices and technologies, as well as access to climate information services and <li>Their related impacts at household level and farm level <\ul> <br> <ol> The CSA framework allows to address three key research questions: <li value="1"> Who within each CSV community adopts which CSA technologies and practices and which are their motivations, enabling factors? To which extent farmers access and use climate information services? <> <li value="2"> Which are the gender-disaggregated perceived effects of CSA options on farmers’ livelihood, agricultural, food security and adaptive capacity, and on key gender dimensions (participation in decision making, participation in CSA implementation and dis-adoption, control and access over resources and labour). </li> <li value="3"> Which are the CSA performance, synergies and trade-offs found at farm level?</li> </ol> <br> This CSA framework proposes a small set of standard Core Indicators linked to the research questions, and Extended indicators covering aspects related to the enabling environment. <br> <ul> At household level (17 Core indicators): <li type=circle> 7 Core Uptake indicators (they track CSA Implementation and adoption drivers; CSA dis-adoption and drivers; Access to climate information services and agro-advisories, Capacity to use them and constraining factors).</li> <li type=circle> 10 Core Outcome indicators (they track farmers perceptions on the effects of CSA practices on their Livelihoods, Food Security and Adaptive Capacity and on Gender dimensions.</li> <br> Those include namely: CSA effect on yield/production, on Income, on Improved Food Access and Food Diversity, on Vulnerability to weather related shocks and on Changes in agricultural activities induced by access to climate information. Four are Gender related Outcome indicators (Decision-making on CSA implementation or dis-adoption, Participation in CSA implementation, CSA effect on labor, Decision making and control on CSA generated income). <br> <li type=circle> An additional set of complementary Extended indicators allows to determine and track changes in enabling conditions and farmers characteristics such as: Livelihood security, Financial enablers, Food security, Frecuency of climate events, Coping strategies, Risk Mitigation Actions, Access to financial services and Training, CSA Knowledge and Learning.</li> <br> At farm level, 7 CORE indicators: <br> <li type=circle> 7 Core indicators are used to determine the CSA performance of the farms as well as synergies and trade-offs among the three pillars (productivity, adaptation and mitigation, via farm model analysis).</li> <br> This integrated framework is associated with a cost-effective data collection App (Geofarmer) that allowed capturing information in almost real time. <br> The survey questionnaire is structured around different thematic modules (Demographic, Livelihoods, Food Security, Climate events, Climate Services, CSA practices, Financial Services) connected to standard CSA metrics and the specific indicators.Universe: At the time of data collection, all survey participants resided within 7 communities in Lawra Jirapa Village, Ghana (Baazu, Bompari, Doggoh, Jeffiri, Kulkarni, Oribili or Tuori). Implementation was carried out by locally trained enumerators using the Geofarmer Smart Monitoring App for data collection. A total of 357 farmers were interviewed, consisting of 103 adult females and 137 adult males (age 35 or above), 65 young females and 52 young males (under 35). Where possible, two and one young person were surveyed from each household.CCAFS Flagship 2 Climate Smart Technologies and Practices funds 2017; CCAFS West Africa program funds 2017G135