重新思考城市河岸生态系统作为应对气候变化的前沿战略:绘制意大利帕多瓦60年碳封存演变图

IF 3.3 Q2 ENVIRONMENTAL SCIENCES Frontiers in Climate Pub Date : 2023-09-28 DOI:10.3389/fclim.2023.1235886
Francesca Peroni, Daniele Codato, Luca Buscemi, Marco Cibrario, Salvatore Eugenio Pappalardo, Massimo De Marchi
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引用次数: 0

摘要

基于自然的解决方案(nbs)被认为是应对城市气候变化的必要措施。河岸生态系统往往被低估为nbs,即使它们代表了“已经插入”的生态系统服务提供者。然而,对城市河岸生态系统的应用研究较少。为了填补这一空白,本研究将这些生态系统作为一线缓解和适应战略,通过(i)调查从第二次世界大战到今天在帕多瓦(意大利)的城市河岸生态系统如何经历城市化过程,(II)估计碳封存的有效性,以及(iii)评估造林过程如何有助于缓解情景。首先用高分辨率航空图像绘制土地利用/土地覆盖变化图,然后利用InVEST模型估算碳固存。结果表明,不透水地表沿这些生态系统显著增加;因此,碳固存为负(- 928 Mg/C)。未来情景(2022-2050)表明碳储量增加(+4,329.95 Mg/C),有助于实现城市碳中和。结果表明,在最近的过去,城市管理和政策没有提供这些地区的明确和明确的规划。相反,目前,城市河岸生态系统可能代表已经存在的多功能城市生态系统,需要在城市内恢复和加强,用于气候适应型规划和提高城市居民的生活质量。最后,我们的方法为支持城市规划政策提供了一个可复制的空间数据库。
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Rethinking urban riparian ecosystems as a frontline strategy to counter climate change: mapping 60 years of carbon sequestration evolution in Padua, Italy
Nature-based solutions (NBSs) are considered essential measures to face climate change in cities. Riparian ecosystems are often undervalued as NBSs even if they represent an “already plugged-in” ecosystem service provider. However, applied research on urban riparian ecosystems is scarce. To fill the gap, this study frames the role of these ecosystems as a frontline mitigation and adaptation strategy by (i) investigating how urban riparian ecosystems experienced a process of urbanization from World War II until today in Padua (Italy), (ii) estimating how effective was carbon sequestration, and (iii) assessing how an afforestation process might contribute to mitigation scenarios. Land use/land cover changes are first mapped with high-resolution aerial images and, by using InVEST models, carbon sequestration is estimated. Results highlight that impervious surfaces notably increased along these ecosystems; hence, carbon sequestration was negative (−928 Mg/C). The future scenario (2022–2050) indicates an increase of carbon stocks (+4,329.95 Mg/C), giving a contribution toward city carbon neutrality. Results suggest that, in the recent past, the urban management and policies did not provide clear and well-defined planning of these areas. On the contrary, at present, urban riparian ecosystems might represent already existing multi-functional NBSs to be restored and enhanced within cities for climate-resilient planning and for increasing the life quality of city dwellers. Finally, our methodology provides a replicable spatial database for supporting urban planning policies.
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来源期刊
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
CiteScore
4.50
自引率
0.00%
发文量
233
审稿时长
15 weeks
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