The Northern Netherlands is like many delta’s prone to a wide range of climate change effects. Given the region its long history with floods and adaptation, there are numerous initiatives to be found that tried to battle these effects. As part of the Climate Adaptation Week Groningen, an inventory was made of these initiatives. The most inspiring ones were coined ‘best practices’, and analysed in order to learn lessons. A distinction was made between 4 regional landscape types. The first consists of the coastline itself, where the effects of the rising sea level begin to show. The second covers the farmlands near the coastlines, where challenges such as salinisation and the loss of biodiversity prevail. A third landscape covers the historically compact cities, which have to deal with rising temperatures and heavy rainfall in increasingly limited spaces. The fourth and final landscape comprises the wetlands surrounding the cities, where the natural capacity to retain and store rainwater is undermined by its agriculture usage. Most of these challenges form a risk for maintaining a liveable region. The best practices that were collected show a diverse set of innovations and experiments, both on small and large scales. Three main characteristics could be distinguished that illustrate trends in climate adaptation practices. First, many best practices were aimed at restoring and embracing the natural capacity of the different landscapes, giving more and more room for the building with nature concept as part of building resilience. Second, climate adaptation is seldomly focussed on as the sole function of a spatial intervention, and is almost always part of integrated plans in which biodiversity, agriculture, recreation or other themes are prolonged with it. A third and last characteristic shows that many projects embed a strong focus on the historical context of places as a source of inspiration and cultural identity. The best practices show how different ways of adapting are emerging and can inspire planners across the world.
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The adaptation of urbanised areas to climate change is currently one of the key challenges in the domain of urban policy. The diversity of environmental determinants requires the formulation of individual plans dedicated to the most significant local issues. This article serves as a methodic proposition for the stage of retrieving data (with the PESTEL and the Delphi method), systemic diagnosis (evaluation of risk and susceptibility), prognosis (goal trees, goal intensity map) and the formulation of urban adaptation plans. The suggested solution complies with the Polish guidelines for establishing adaptation plans. The proposed methodological approach guarantees the participation of various groups of stakeholders in the process of working on urban adaptation plans, which is in accordance with the current tendencies to strengthen the role of public participation in spatial management. https://doi.org/10.12911/22998993/81658
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Effects of climate change in cities are evident and are expected to increase in the future, demanding adaptation. In order to share knowledge, raise awareness, and build capacity on climate adaptation, the first concept of a “ClimateCafé” has been utilized since 2012 in 25 events all over the world. In 8 years ClimateCafé grew into a field education concept involving different fields of science and practice for capacity building in climate change adaptation. This chapter describes the need, method, and results of ClimateCafés and provides tools for organizing a ClimateCafé in a context-specific case. Early ClimateCafés in the Philippines are compared with the ClimateCafé in Peru to elucidate the development of this movement, in which one of the participants of ClimateCafé Philippines 2016 became the co-organizer of ClimateCafé Peru in 2019. The described progress of ClimateCafés provides detailed information on the dynamic methodological aspects, holding different workshops. The workshops aim at generating context-specific data on climate adaptation by using tools and innovative data collection techniques addressing deep uncertainties that come with climate change adaptation. Results of the workshops show that context-specific, relevant, multidisciplinary data can be gathered in a short period of time with limited resources, which promotes the generation of ideas that can be used by local stakeholders in their local context. A ClimateCafé therefore stimulates accelerated climate action and support for adaptation solutions, from the international and the local, from the public and private sector, to ensure we learn from each other and work together for a climate resilient future. The methodology of ClimateCafé is still maturing and the evaluation of the ClimateCafés over time leads to improvements which are applied during upcoming ClimateCafés, giving a clear direction for further development of this methodology for knowledge exchange, capacity building, and bridging the gap between disciplines within climate adaptation.
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There is a clear demand for a collaborative knowledge-sharing on climate adaptation and mitigation. The aim of most climate adaptation platforms is (inter)national knowledge exchange and raising awareness about climate adaptation in urban areas and promote solutions such as Nature-based solutions (NBS) and floating infrastructure. However their multiple benefits are often unknown to the wider public. During seminars (February 2020) in Indonesia climate adaptation measures where mapped and the relevance of the climate adaption platforms such as ClimateScan was evaluated by the means of workshops and a survey. The platform ClimateScan holds now over 5000 locations in 5 main categories of climate adaptation (water, nature, agriculture, energy and people). The conclusions from the workshops in Semarang and Surabaya show high relevance scores for NBS: permeable pavement and swales; for infiltration of stormwater to groundwater; for mitigation of high temperatures with heat stress measures; and flood barriers to mitigate flooding. There were low scores for floating urbanization because this is not a culturally accepted practice in contradiction to other parts of the world. Indonesian floating infrastructure as a floating library, restaurant and airport terminal where mapped during workshops bringing the total of international floating structure locations to 150. The workshops have raised awareness among participants and contributed to capacity building by empowering the participants to map and review climate adaptation measures. A high majority see the value of climate adaptation platforms and will use it in the future.
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There is a clear demand for a collaborative knowledge-sharing by online climate adaptation platforms that contribute to (inter)national knowledge exchange and raising awareness about climate change. Climate adaptation platforms (CAPs) can contain decision-support tools to facilitate the process of decision-making, and may include capacity building, networking, dissemination to assist planning and implementation of proven adaptation concepts such as Nature-based solutions (NBS) to mitigate floodings, drought, and heat stress. From 2014 over 6000 global climate adaptation projects have been mapped on an open source platform ClimateScan using citizen science. This chapter describes the potential of this climate adaption platform by illustrated case studies with mapped climate adaptation measures in Africa, Asia, and Europe. The case studies illustrate engagement and tangible results related to online platforms such as: the period of relevance of ClimateScan, inclusiveness and engagement of users in different stages and continents. Workshops in Indonesia illustrate the need for validation of needs from potential users before implementing CAPs. Analyzing projects in Africa showcase best management practices in water conservation and water demand management that are of interest in many other regions in the world facing drought. In Europe detailed analysis of over 3000 climate adaptation measures in relation to neighborhood typologies is inspiring urban planners and stormwater managers to design, plan, and implement climate resilient measures with more confidence. These three global examples illustrate that mapping, promoting, and sharing knowledge about implemented proven concepts is raising awareness, contribute to community-building, and accelerate climate action around the world.
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As it becomes clear that climate change is not easily within the boundaries of the 1990's, society needs to be prepared and needs to anticipate future changes due to the uncertain changes in climate. So far, extensive research has been carried out on several issues including the coastal defence or shifting ecozones. However, the role spatial design and planning can play in adapting to climate change has not yet been focussed on.This book illuminates the way adaptation to climate change is tackled in water management, ecology, coastal defence, the urban environment and energy. The question posed is how each sector can anticipate climate change by creating spatial designs and plans. The main message of this book is that spatial design and planning are a very useful tool in adapting to climate change. It offers an integral view on the issue, it is capable in dealing with uncertainties and it opens the way to creative and anticipative solutions. Dealing with adaptation to climate change requires a shift in mindset; from a technical rational way of thinking towards an integral proactive one. A new era in spatial design and planning looms on the horizon. © Springer Science+Business Media B.V. 2009.
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Worldwide, rivers face challenges due to human and climatic pressures. Floods, droughts, pollution, damming and hydropeaking are only a few examples of these pressures, and influence the way rivers flow. Climate change adaptation projects increase the incentive to domesticate rivers, often legitimised through expert views on (future) vulnerability and risk. This emerging river imaginary dominates current debates in many rivers in our world. River imaginaries reflect spatially bound hydrosocial territories in which multiple actors on multiple scales from multiples sectors operate to reach varying objectives. They include water flows, ecological systems, climate conditions, hydraulic infrastructure, financial means, institutional arrangements, legal frameworks and information/knowledge hubs. In the context of climate change adaptation, river imaginaries are strongly dependent on the extent to which climate change is expected to influence rivers through a mixture of probable, possible, desirable or preferable versions of a (future) river. As such, knowledge-structures of future making are scrutinised in this research by emphasising on the role of change, the role of futures and the role of experts. This presentation aims to elucidate how river imaginaries have influenced river management under climate change adaptation that resulted in large infrastructural projects. Through a study of the Meuse river, a concrete case of a imaginary came into being in the Dutch-Belgian Border-Meuse trajectory. Moreover, preliminary result from adaptation projects in the marshlands of the lower Magdalena in Colombia strengthen the dominate imaginary of technocratic and ecocentric approaches to climate change adaptation where an expert view on local knowledge dominates.
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The purpose of this paper is to discuss the insights gained by testing in a design studio a particular research-by-design strategy, focusing on the generation of innovative solutions for climate change adaptation. The strategy is based on the Design Thinking Process and has been applied in the climate adaptation design studio, which took place in 2022 at a Master of Architecture degree program in the Netherlands. The case study area was the Zernike university campus in Groningen, the Netherlands, which is situated in the verge between the city and the surrounding rural landscape, facing the urgent climate change challenges of the wider region, mainly floodings due to increased frequency of rainfalls and sea level rise. Furthermore, the area faces particular challenges, such as the increasing demand for serving additional needs, beyond the current educational and business related functions, such as (student) housing. Three indicative design research projects were selected to illustrate the tested research-by-design strategy, while systematic input has been collected from the participating students regarding the impact of this strategy on their design process. The results reveal that this strategy facilitates the iterative research-by-design process and hence offers a systematic approach to convert the threats of climate change into opportunities by unravelling the potentials of the study area, resulting in place-based, innovative and adaptive solutions.
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Cities are becoming increasingly vulnerable for climate change and there is an urgent needto become more resilient. This research involves the development of the City climate scanRotterdam (September 2017) methodology to measure, map, scan and assess differentparameters that together give insight in the vulnerability of urban areas and neighborhoods.The research at recent City climate scan / Sketch your city in April 2018 used storytelling andsketching1 as main method to connect stakeholders, motivate action, evoke recognition in ajointly formulated goal, such as taking climate action. The city climate scan also involved thedevelopment of a set of measurement tools that can be applied in different urbanneighborhoods in a low-cost low-tech approach with teams of stakeholders andpractitioners. The city climate scan method was tested in different cities around the globe(Rotterdam, Manila and Cebu) in groups of young professionals and stakeholders in rapidurban appraisals.
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Moroccan companies face a multitude of risks related to their vulnerability to climate change, in particular operational, supply chain, and financial risks. In recent years, public and private actors have experimented with a number of approaches to facilitate the integration of climate change at different planning levels. Among these approaches, the Climate-Expert tool aims to help companies assess their vulnerability to climate change and develop relevant adaptation strategies. Some 20 Moroccan companies, in various sectors of activity, have tested this tool in the framework of two cooperation programs. First, this chapter provides an overview of the achievements of the adaptation mainstreaming process in the private sector in Morocco. Then, it analyzes the Climate-Expert approach qualitatively following three steps according to an iterative logic. The contact groups include the participants involved in the said cooperation programs, namely, experts, economic operators, and state and project officials. Finally, this chapter highlights the obstacles related to the Climate-Expert approach and proposes ways to improve the mainstreaming of adaptation based on the emerging realities and needs of the companies concerned. In addition, in terms of adaptation planning, this analysis emphasizes the need to upgrade Climate-Expert’s approach toward an integrated and well-documented design, using relevant climate and sectoral data and information to meet the needs of developing country companies. Regarding the implementation of adaptation measures, it remains relatively limited in the evaluated companies. This is mainly due to the lack of support and advice instruments and the lack of entities in charge of steering adaptation actions within these companies. This work will later pave the way for improving and adapting the Climate-Expert tool to meet the needs of action in such companies.
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