城市生态系统和强降雨——当地极端事件的洪水调节生态系统服务建模方法

IF 1.8 Q3 ECOLOGY
Thea Wübbelmann, L. Bouwer, Kristian Förster, Steffen Bender, Benjamin Burkhard
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引用次数: 5

摘要

城市化程度的提高,加上暴雨事件的频率和强度的增加,增加了城市洪水的风险。洪水调节生态系统服务(FRES)解决了生态系统减少洪水危害和降低破坏的能力问题。FRES可以通过量化供应(生态系统提供服务)和需求(社会对特定ES的需求)来估计。然而,对城市暴雨洪水FRES的研究很少,对FRES供需量化的研究和方法也存在空白。在这项研究中,我们使用水文模型LEAFlood评估了德国罗斯托克市一个城区一小时强降雨事件的FRES。水文模型提供了土壤保水和雨棚保水(截留)的FRES供应指标。潜在需求(基于人口密度、土地参考值、纪念碑和基础设施指标)与模拟地表水深度的交叉点揭示了实际需求。比较实际需求和供应表明FRES的预算用于确定未满足的需求和供应盈余。结果显示,森林、林地和绿地的平均FRES供应量最高,导致供应过剩。而封闭区域(水无法渗入土壤的铺面),如定居点、城市密集区、交通区和工业区,由于供应量低,实际需求相对较高,因此需求未得到满足。利用水文模型LEAFlood,可以评估城市尺度上的单个景观元素的FRES,并可以考虑拦截。两者对于城市地区的FRES评估都很重要。与洪水风险图相比,FRES的研究为考虑自然对社会经济系统洪水调节效益的贡献提供了机会。FRES供需平衡的可视化有助于城市规划者识别热点,并通过基于生态系统的适应来减少城市洪泛的潜在影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Urban ecosystems and heavy rainfall – A Flood Regulating Ecosystem Service modelling approach for extreme events on the local scale
Increasing urbanisation in combination with a rise in the frequency and intensity of heavy rain events increase the risk of urban flooding. Flood Regulating Ecosystem Services (FRES) address the capacity of ecosystems to reduce the flood hazard and lower damage. FRES can be estimated by quantification of supply (provision of a service by an ecosystem) and demand (need for specific ES by society). However, FRES for pluvial floods in cities have rarely been studied and there is a gap in research and methods on FRES supply and demand quantification. In this study, we assessed FRES of an urban district in the City of Rostock (Germany) for a one-hour heavy rainfall event using the hydrological model LEAFlood. The hydrological model delivered the FRES supply indicators of soil water retention and water retained by canopies (interception). An intersection of the potential demand (based on indicators of population density, land reference value, monuments and infrastructure) and the modelled surface water depth revealed the actual demand. Comparing the actual demand and supply indicated the budget of FRES to identify unmet demand and supply surplus. Results show highest mean FRES supply on greened areas of forests, woodlands and green areas, resulting in a supply surplus. Whereas, sealed areas (paved surface where water cannot infiltrate into the soil), such as settlements, urban dense areas, traffic areas and industry, have an unmet demand resulting from low supply and relatively high actual demand. With the hydrological model LEAFlood, single landscape elements on the urban scale can be evaluated regarding their FRES and interception can be considered. Both are important for FRES assessment in urban areas. In contrast to flood risk maps, the study of FRES gives the opportunity to take into account the contribution of nature to flood regulation benefits for the socio-economic system. The visualisation of FRES supply and demand balance helps urban planners to identify hotspots and reduce potential impacts of urban pluvial flooding with ecosystem-based adaptations.
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来源期刊
One Ecosystem
One Ecosystem Environmental Science-Nature and Landscape Conservation
CiteScore
4.60
自引率
0.00%
发文量
26
审稿时长
12 weeks
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