Implementing Agile Data Workflows to Unlock Climate-Resilient Urban Planning

IF 3 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Climate Pub Date : 2023-08-24 DOI:10.3390/cli11090174
Verena Vögt, Jan-Albrecht Harrs, V. Reinhart, P. Hollenbach, M. Bühler, Tim Tewes
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Abstract

Cities around the world are facing the implications of a changing climate as an increasingly pressing issue. The negative effects of climate change are already being felt today. Therefore, adaptation to these changes is a mission that every city must master. Leading practices worldwide demonstrate various urban efforts on climate change adaptation (CCA) which are already underway. Above all, the integration of climate data, remote sensing, and in situ data is key to a successful and measurable adaptation strategy. Furthermore, these data can act as a timely decision support tool for municipalities to develop an adaptation strategy, decide which actions to prioritize, and gain the necessary buy-in from local policymakers. The implementation of agile data workflows can facilitate the integration of climate data into climate-resilient urban planning. Due to local specificities, (supra)national, regional, and municipal policies and (by) laws, as well as geographic and related climatic differences worldwide, there is no single path to climate-resilient urban planning. Agile data workflows can support interdepartmental collaboration and, therefore, need to be integrated into existing management processes and government structures. Agile management, which has its origins in software development, can be a way to break down traditional management practices, such as static waterfall models and sluggish stage-gate processes, and enable an increased level of flexibility and agility required when urgent. This paper presents the findings of an empirical case study conducted in cooperation with the City of Constance in southern Germany, which is pursuing a transdisciplinary and trans-sectoral co-development approach to make management processes more agile in the context of climate change adaptation. The aim is to present a possible way of integrating climate data into CCA planning by changing the management approach and implementing a toolbox for low-threshold access to climate data. The city administration, in collaboration with the University of Applied Sciences Constance, the Climate Service Center Germany (GERICS), and the University of Stuttgart, developed a co-creative and participatory project, CoKLIMAx, with the objective of integrating climate data into administrative processes in the form of a toolbox. One key element of CoKLIMAx is the involvement of the population, the city administration, and political decision-makers through targeted communication and regular feedback loops among all involved departments and stakeholder groups. Based on the results of a survey of 72 administrative staff members and a literature review on agile management in municipalities and city administrations, recommendations on a workflow and communication structure for cross-departmental strategies for resilient urban planning in the City of Constance were developed.
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实施敏捷数据工作流程,开启气候适应型城市规划
世界各地的城市都面临着气候变化的影响,这是一个日益紧迫的问题。气候变化的负面影响今天已经开始显现。因此,适应这些变化是每个城市必须掌握的任务。世界各地的领先实践表明,城市在适应气候变化(CCA)方面已经做出了各种努力。最重要的是,气候数据、遥感和实地数据的整合是制定成功和可衡量的适应战略的关键。此外,这些数据可以作为及时的决策支持工具,帮助市政当局制定适应战略,决定优先考虑哪些行动,并获得当地政策制定者的必要支持。实施灵活的数据工作流程可以促进将气候数据纳入气候适应型城市规划。由于地方特殊性、国家、区域和城市政策和法律,以及世界范围内的地理和相关气候差异,实现气候适应型城市规划的道路并不单一。敏捷数据工作流可以支持跨部门协作,因此需要集成到现有的管理流程和政府结构中。敏捷管理起源于软件开发,它可以是一种打破传统管理实践的方法,例如静态瀑布模型和缓慢的阶段-门过程,并在紧急情况下提高所需的灵活性和敏捷性。本文介绍了与德国南部的康斯坦茨市合作进行的一项实证案例研究的结果。康斯坦茨市正在寻求一种跨学科和跨部门的共同发展方法,以使管理过程在适应气候变化的背景下更加灵活。其目的是通过改变管理方法和实施低门槛获取气候数据工具箱,提出一种将气候数据整合到CCA规划中的可能方法。城市管理部门与康斯坦茨应用科学大学、德国气候服务中心(GERICS)和斯图加特大学合作,开发了一个共同创新和参与性项目CoKLIMAx,其目标是以工具箱的形式将气候数据整合到行政流程中。CoKLIMAx的一个关键要素是通过所有相关部门和利益相关者团体之间的有针对性的沟通和定期反馈循环,让人口、城市管理部门和政治决策者参与其中。根据对72名行政工作人员的调查结果和对市政和城市行政部门敏捷管理的文献综述,制定了关于康斯坦茨市弹性城市规划跨部门战略的工作流程和沟通结构的建议。
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来源期刊
Climate
Climate Earth and Planetary Sciences-Atmospheric Science
CiteScore
5.50
自引率
5.40%
发文量
172
审稿时长
11 weeks
期刊介绍: Climate is an independent, international and multi-disciplinary open access journal focusing on climate processes of the earth, covering all scales and involving modelling and observation methods. The scope of Climate includes: Global climate Regional climate Urban climate Multiscale climate Polar climate Tropical climate Climate downscaling Climate process and sensitivity studies Climate dynamics Climate variability (Interseasonal, interannual to decadal) Feedbacks between local, regional, and global climate change Anthropogenic climate change Climate and monsoon Cloud and precipitation predictions Past, present, and projected climate change Hydroclimate.
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