33 research outputs found

    Education sector resilience to extreme climatic events trajectories and configurations modeling: the Badolo EduResilience scientific framework

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    Climate change, in many regions of the world, could intensify the structural development challenges of the education sector and induce education provision, education access, education quality. education financing and education management regression dynamics. The main options for managing these threats of climate change include the development of theoretical and methodological tools to improve the relevance, efficiency and impact of education sector resilience to climate change plans. These plans should be multidimensional, take into account gender and social inclusion issues and achieve planned resilience objectives. This article describes the Badolo EduResilience scientific framework, a scientific tool for strengthening the capacities of education stakeholders to develop and implement efficient response plans to the threats posed by extreme climate events and their impacts. The Badolo EduResilience Scientific Framework is used to generate bodies of knowledge, vulnerability indicators and resilience schemes to model resilience trajectories that achieve education sector planned resilience objectives to extreme climate events. The bodies of knowledge are bodies of extreme events impacts, bodies of vulnerability factors to extreme events and bodies of resilience solutions to extreme events. Resilience objectives are short-term, medium-term and long-term resilience configurations. The Badolo EduResilience scientific framework suggests new practices for the education sector's resilience to extreme climate events. These practices require inclusive, equitable and participatory resilience governanc

    Water, sanitation and hygiene sector resilience to climate change: the Badolo WashResilience Scientific Framework

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    The water, sanitation and hygiene (Wash) sector is, in several regions of the world, one of the sectors still marked by knowledge, solutions, innovations and decision support tools deficits for relevant and efficient climate resilience policies. These deficits mainly concern climate change impacts on wash sector, wash sector vulnerability to climate change factors, wash sector resilience to climate change solutions and wash sector resilience to climate change schemes. In this article, we propose the Badolo WashResilience scientific framework, a tool for climate change integration into wash sector development policies. Its main element is the climate risk integration function that implements a sequential integration of climate risks into Wash sector policies. Each integration sequence achieves a specific resilience objective. Specific corpuses of climate change impacts, climate change vulnerability factors and climate change resilience solutions are the independent variables of this function. Its main dependent variables are climate change residuals impacts, climate change residual vulnerability factors and resilience configurations. For the Wash sector, the Badolo WashResilience scientific framework is an innovative tool for a significant improvement of climate risk integration processes and practices. It is a tool to identify and achieve required resilience progress, based on contextual capacities and specificitie

    Burkina Faso long-term climate change resilience: the Badolo ResesilienceBurkina 2075 scenario

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    The global challenge of climate change resilience for Burkina Faso is to build configurations of its main economic and social development sectors on which climate change will have only residual direct and indirect impacts. This resilience challenge is a complex and long-term challenge that will require specific scientific achievements for efficient long-term results-based climate change management plans. The main result of this article is the scenario Badolo ResesilienceBurkina 2075 scenario, a new scientific tool for Burkina Faso long-term resilience planning, management and monitoring. It implements climate change impact chains, residual impacts, residual vulnerabilities, partial resilience configurations and resilience trajectory segments concepts to establish resilience schemes that achieve Burkina Faso inclusive and low-carbon resilience configurations by 2075. Basically, the Badolo ResilienceBurkina 2075 scenario is an innovative tool for improving the relevance and efficiency of public action for Burkina Faso long-term resilience to climate change. Specifically, it achieves inclusive and low-carbon resilience configurations that includes the specificities of the different regions of the country

    The Badolo EcoRiskProspect theoretical framework for improving African economic systems resilience strategies to emerging shocks scientific foundations

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    The future African economies configurations will largely depend on the emerging shocks and their direct and indirect impacts integration into economic policies efficiency. In this article, we propose the Badolo EcoRiskProspect theoretical framework. It suggests multi-risk and multidimensional tools and knowledge bodies to develop economic resilience strategies to emerging shocks, which consider the main economic sectors. It implements a results-based resilience strategy to build African economies configurations on which emerging shocks only have residual adverse effects

    The Badolo CottonResilience model for designing results-based cotton resilience policies to climate change

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    The cotton sector future configurations in sub-Saharan Africa will depend significantly on the efficiency of climate change resilience solutions implemented for this sector. These solutions should be based on the cotton sector economic, environmental, social, human, scientific, technological , institutional and political vulnerabilities to climate change. In the context of sub-Saharan Africa, the design, implementation, monitoring and evaluation of results-based climate resilience policies in the cotton sector will require scientific tools that improve knowledge for climate resilience. The main result of this article is the Badolo CottonResilience theoretical model for the design of the cotton sector resilience trajectories based on short-term, medium-term and long-term resilience objectives. The ClimResilience scientific framework approaches, methodological tools and resilience schemes are used. The resilience trajectories of the Badolo CottonResilience theoretical model plan and carry out configurations of the cotton sector on which climate change will only have residual impacts. They implement the concepts of climate change residual impacts, residual vulnerabilities, resilience configurations and resilience trajectories segments

    The Badolo FoodResilience scientific framework for advancing food security resilience to climate change in sub-Saharan Africa

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    In Sub-Saharan Africa, food security resilience to climate acceleration will require new resilience policies for this sector based on the concepts of climate change indirect impacts, climate change residual vulnerabilities, climate change residual impacts, subdivision of climate change resilience trajectories, climate change partial resilience configurations, climate change vulnerability indicators and climate change resilience markers. Specifically, these new resilience policies will subdivide the complex food security resilience to climate change trajectories into several resilience trajectories segments of less complexity, to achieve successive partial resilience configurations, on the basis of contextual specificities, capacities and resilience needs. Food security partial resilience configurations are specific resilience achievements that are less complex to achieve and are marked by specific subsets of climate change impacts on food security mitigation. In this article, we propose Badolo FoodResilience scientific framework for more relevant and more efficient food security resilience to climate change policies in the context of Sub-Saharan Africa. It includes bodies of information and a resilience scheme for food security resilience to climate change trajectories. The resilience scheme of the proposed scientific framework includes successive resilience trajectories segments to achieve partial resilience configurations, based on contextual specificities, capacities and resilience needs. Fundamentally, the Badolo FoodResilience scientific framework is a participatory and inclusive tool for innovative food security climate change resilience policies that plan and achieve desired progress in food security resilience to climate change, following contextual specificities, capacities and resilience needs

    The Badolo RuralWomenResilience Model for rural women resilience to climate change advancing and strengthening

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    In Sub-Saharan Africa, rural climate change resilience configurations, to be inclusive and efficient, should integrate specific resilience solutions for social groups in situations characterized by limited options for climate change resilience. In practice, considering such specific resilience aspects requires distinct knowledge bodies and decision support tools. These decision-making elements are distinct bodies of climate change impacts, vulnerability factors, resilience solutions and resilience schemes based on specific resilience objectives. This article proposes the Badolo RuralWomenResilience Theoretical Model, a theoretical tool for building innovative approaches for advancing and strengthening women resilience to climate change in rural areas in Sub-Saharan Africa context. It uses the ClimGender scientific framework methodological tools to elaborate specific climate change impacts, vulnerability factors, resilience solutions families and specific resilience trajectories for rural women climate change resilience strengthening action

    Integrating security risks in local adaptation to disaster risks and climate change in the Sahel region: the Badolo LocalMultiriskAdapation model

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    In the Sahel region, the impacts of security risks on economic sectors, basic social services and development dynamics have profoundly modified the local resilience challenges. They modify contextual vulnerabilities to disaster risks and climate change, increase resilience needs and alter local resilience course and capacities. The consequences of security risks could include significant local resilience to climate change regressions. For local governments, a relevant and efficient response to these consequences of security risks could be the adoption of integrated local adaptation plans. In this article, the methodological tools and resilience approach of the ClimResilience Scientific Framework are used to develop the Badolo LocalMultiriskAdapation model. It is a scientific tool to strengthen the capacities of local governments to elaborate and implement multirisk, multidimensional integrated responses to disaster risks, climate change and security risks. Specifically, it is, for local governments, an efficient scientific tool to characterize and achieve successive progress related to adaptation to disaster risks, climate change and security risks, taking into account local specificities and capacities. In practice, the implementation of the Model that we propose requires scientific partnerships and local governance of adaptation which is participatory, inclusive, fundamentally characterized by integrated management of disaster risks, climate change and security risks

    Climate change risks for the West African Economic and Monetary Union reduction advanced approaches

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    In many regions of the world, economic and social development levers include economic, social, institutional and political subregional and regional integration organizations. In climate vulnerability contexts, climate change adverse effects could deteriorate these development levers, reduce their contribution to economic and social development and their impacts. A solution for reducing these risks is to integrate subregional integration organizations into national and regional climate change resilience policies. In this article, the Badolo resilience formalism and the ClimResilience scientific framework are used to develop the Badolo UemoaClimPrsopect scientific framework. It suggests West African economic and monetary union configurations to be achieved to protect it from climate change direct and indirect adverse effects. They are governed by specific climate change impacts, vulnerability factors, resilience solutions classes. Basically, the Badolo UemoaClimPrsopect scientific framework proposes a new approach, methodological tools, information bodies and decision making tools to efficiently build the West African Economic and Monetary Union configurations which protect it from regression dynamics linked to the impacts of climate chang

    Banking and insurance sector and climate change in sub-Saharan Africa: indirect risks prevention and management

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    Significant impacts of climate change on development sectors in Sub-Saharan Africa could transform this region into a context characterized by multiple indirect risks for banking and insurance sector services supply, demand and access. Deficiencies in the assessment and management of these indirect risks could intensify the difficulties of implementing banking and insurance sector resilience strategies. To be relevant and efficient, the management of the global challenge of banking and insurance sector resilience to climate change should thus integrate these indirect risks. In practice, this will require developing specific scientific tools for efficient integration of indirect risks linked to climate change impacts in the management and development of banking and insurance sector. The main result proposed in this article is the Badolo BankAssuranceClimRisques model. It is an innovative tool for designing indirect risks induced by the impacts of climate change for banking and insurance sector prevention and management plans. It uses the approach and methodological tools of the ClimResilience scientific framework to develop information families and risks prevention and management schemes for banking and insurance sector resilience plans to the indirect risks linked to climate change impacts. Specifically, the Badolo BankAssuranceClimRisques model distinguishes short-term, medium-term and long-term risks prevention and management objectives. In the context of sub-Saharan Africa, the Badolo BankAssuranceClimRisques model is a new scientific development for the relevance and efficiency of the banking and insurance sector resilience actions to indirect risks induced by the impacts of climate change
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