Water resources are one of the key systems by which climate change will indirectly affect economic and social development sectors. Significant climate change impacts on water resources will have limiting effects on development sectors. Taking these repercussions of climate change impacts on water resources into account in economic and social development planning and management is the main resilience response to implement. In practice, such a response will require relevant specific approaches, knowledge, information, solutions and decision support tools to achieve the desired resilience objectives. In this paper, we describe the Badolo ClimWaterProspect framework, a framework for designing and implementing climate change and water resources integration in development policies actions. It includes methodological tools, knowledge corpuses and a decision support matrix for an objective-based planning of water resources and climate change integration in development policies. The main results of this article are information, solutions and knowledge families, resilience objectives families and a decision support matrix for development sectors resilience to the repercussions of climate change impacts on resources water plans. Fundamentally, The Badolo ClimWaterProspect framework is an innovative, inclusive and participatory tool for significantly improving the relevance, efficiency, performance and impact of water resources and climate change integration in sectoral development policies actions.

Critical urban infrastructure resilience to extreme events is an essential pillar of cities resilience to these events. The deterioration or destruction of these infrastructure could be limiting factors for cities in the implementation of resilience solutions for the economic and social development sectors. In practice, developing critical urban infrastructure resilience to extreme events plans is a complex task. It requires several information families relating to extreme events impacts on critical urban infrastructure, extreme events impact socioeconomic consequences, Critical urban infrastructure interdependence and critical urban infrastructure vulnerability factors and resilience solutions. In this article, we describe the Badolo Cires (critical infrastructure resilience) model for interdependent critical urban infrastructures resilience modeling and planning. It is a multi-critical infrastructure model to develop and implement resilience plans that integrates extreme events impacts on critical urban infrastructure, extreme events impact socioeconomic consequences, Critical urban infrastructure interdependence and critical urban infrastructure vulnerability factors and resilience solutions, gender, social inclusion and the reduction of greenhouse gas emissions. The Cires model resilience plans are subdivided into resilience subplans to achieve critical urban infrastructure partial resilience configurations. The results of this article are new scientific achievements that could strengthen cities capacities to design, implement, monitor and evaluate critical urban infrastructure resilience actions, that are guided by relevance, efficiency and impact criteria.