Schmitt, Hanna ChristineGreiving, Stefan2020-05-282020-05-282018http://hdl.handle.net/2003/39160http://dx.doi.org/10.17877/DE290R-21078Every year, convective extreme weather events like summer storms, hail and heavy precipitation cause enormous damages to assets, values and human lives, especially in urban areas. Although highly relevant for the field and expertise of spatial planning, so far those events are addressed rather poorly; if at all. This is mainly for two reasons: for one, convective extreme events are of ubiquitous character, meaning they have unknown probability and place of occurrence, i.e. are accompanied by great uncertainties. For another, spatial planning does not dispose of convenient concepts and instruments to address events with an intan-gible hazard component, as they are spatially not describable and therefore risk analyses presumably inapplicable. Ultimately, ubiquitous extreme weather events challenge urban disaster resilience and call for enhanced risk management approaches. This chapter discusses the strengths and limitations of spatial planning in dealing with ubiquitous extreme weather events, using the example of summer storm Ela, which devastated large parts of Western Germany in June 2014.enExtreme eventsStormSpatial planningResilienceCritical infrastructureSummer stormConvective extreme eventUbiquitous weather eventRisk managementGermany710Enhancing resilience towards summer storms from a spatial planning perspectivelessons learned from summer storm ElaText