2022
DOI: 10.7343/as-2022-590
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Preliminary identification of areas suitable for Sustainable Drainage Systems and Managed Aquifer Recharge to mitigate stormwater flooding phenomena in Rome (Italy)

Abstract: This paper proposes a preliminary and large-scale survey methodology to identify areas suitable for indepth analysis for the application of Sustainable Drainage Systems and Managed Aquifer Recharge. These techniques are frequently applied to increase the natural infiltration capacity of water into the ground and their effectiveness depends on the local hydrogeological and morphological characteristics. The study area is the city of Rome where the aim is to mitigate the problems related to rainwater which, in c… Show more

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Cited by 11 publications
(4 citation statements)
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“…The discrepancy, highlighted by de Mulder [28], between geological problems identified by city planners and the availability of geoscientific information necessary to predict and mitigate geological and anthropogenic hazards is not evident in this recent review, where we observe good availability of geohazard data. Rather, there is now an urgency for geospatial data to address current science priorities relating to decarbonisation and climate adaption, such as identifying available geothermal energy resources, assessing the suitability of the ground for sustainable drainage systems [73], assessing the re-use potential of geological waste materials, and evaluating soil properties for carbon storage and climate-resilient planting. The need to identify urban geological opportunities and adaptation options is partly addressed through the generation of 3D geological models and 3D-4D urban thematic models (e.g., [74]).…”
Section: Data-driven Decision Makingmentioning
confidence: 99%
“…The discrepancy, highlighted by de Mulder [28], between geological problems identified by city planners and the availability of geoscientific information necessary to predict and mitigate geological and anthropogenic hazards is not evident in this recent review, where we observe good availability of geohazard data. Rather, there is now an urgency for geospatial data to address current science priorities relating to decarbonisation and climate adaption, such as identifying available geothermal energy resources, assessing the suitability of the ground for sustainable drainage systems [73], assessing the re-use potential of geological waste materials, and evaluating soil properties for carbon storage and climate-resilient planting. The need to identify urban geological opportunities and adaptation options is partly addressed through the generation of 3D geological models and 3D-4D urban thematic models (e.g., [74]).…”
Section: Data-driven Decision Makingmentioning
confidence: 99%
“…Pool Places that provide clean water that is permanent or semi-permanent and free from pollutants. Wetlands [36] A vast clean water supply place with substantial clean water is the destination other than the Plastic Lake or River.…”
Section: Dutchmentioning
confidence: 99%
“…The authors verified this methodology on data from three piezometers located in the Lucca plain (Italy). Lentini et al (2022) propose a preliminary and large-scale survey methodology to identify areas suitable for further investigation for the application of Sustainable Drainage Systems and Managed Aquifer Recharge techniques (see also Hayat et al, 2021). These techniques aim to increase infiltration, and their success strongly depends on the hydrogeological and morphological characteristics of an area.…”
Section: Rainfall and Hydrogeologymentioning
confidence: 99%