globalchange  > 气候变化与战略
DOI: 10.1016/j.earscirev.2021.103603
论文题名:
An overview of monitoring methods for assessing the performance of nature-based solutions against natural hazards
作者: Kumar P.; Debele S.E.; Sahani J.; Rawat N.; Marti-Cardona B.; Alfieri S.M.; Basu B.; Basu A.S.; Bowyer P.; Charizopoulos N.; Jaakko J.; Loupis M.; Menenti M.; Mickovski S.B.; Pfeiffer J.; Pilla F.; Pröll J.; Pulvirenti B.; Rutzinger M.; Sannigrahi S.; Spyrou C.; Tuomenvirta H.; Vojinovic Z.; Zieher T.
刊名: Earth Science Reviews
ISSN: 00128252
出版年: 2021
卷: 217
语种: 英语
中文关键词: In-situ measurement ; Key performance indicators ; NBS monitoring ; Remote sensing ; Synthetic aperture radar
英文关键词: assessment method ; data set ; in situ measurement ; natural hazard ; performance assessment ; remote sensing ; satellite imagery ; synthetic aperture radar ; Varanidae
英文摘要: To bring to fruition the capability of nature-based solutions (NBS) in mitigating hydro-meteorological risks (HMRs) and facilitate their widespread uptake require a consolidated knowledge-base related to their monitoring methods, efficiency, functioning and the ecosystem services they provide. We attempt to fill this knowledge gap by reviewing and compiling the existing scientific literature on methods, including ground-based measurements (e.g. gauging stations, wireless sensor network) and remote sensing observations (e.g. from topographic LiDAR, multispectral and radar sensors) that have been used and/or can be relevant to monitor the performance of NBS against five HMRs: floods, droughts, heatwaves, landslides, and storm surges and coastal erosion. These can allow the mapping of the risks and impacts of the specific hydro-meteorological events. We found that the selection and application of monitoring methods mostly rely on the particular NBS being monitored, resource availability (e.g. time, budget, space) and type of HMRs. No standalone method currently exists that can allow monitoring the performance of NBS in its broadest view. However, equipments, tools and technologies developed for other purposes, such as for ground-based measurements and atmospheric observations, can be applied to accurately monitor the performance of NBS to mitigate HMRs. We also focused on the capabilities of passive and active remote sensing, pointing out their associated opportunities and difficulties for NBS monitoring application. We conclude that the advancement in airborne and satellite-based remote sensing technology has signified a leap in the systematic monitoring of NBS performance, as well as provided a robust way for the spatial and temporal comparison of NBS intervention versus its absence. This improved performance measurement can support the evaluation of existing uncertainty and scepticism in selecting NBS over the artificially built concrete structures or grey approaches by addressing the questions of performance precariousness. Remote sensing technical developments, however, take time to shift toward a state of operational readiness for monitoring the progress of NBS in place (e.g. green NBS growth rate, their changes and effectiveness through time). More research is required to develop a holistic approach, which could routinely and continually monitor the performance of NBS over a large scale of intervention. This performance evaluation could increase the ecological and socio-economic benefits of NBS, and also create high levels of their acceptance and confidence by overcoming potential scepticism of NBS implementations. © 2021 The Author(s)
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资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/166434
Appears in Collections:气候变化与战略

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作者单位: Global Centre for Clean Air Research (GCARE), Department of Civil and Environmental Engineering, Faculty of Engineering and Physical Sciences, University of Surrey, Guildford, GU2 7XH, United Kingdom; Department of Civil, Structural & Environmental Engineering, School of Engineering, 13 Trinity College Dublin, Dublin, Ireland; Department of Geoscience and Remote Sensing, Delft University of Technology, Delft, Netherlands; School of Architecture, Planning and Environmental Policy, University College Dublin, Dublin, Ireland; Climate Service Center Germany (GERICS), Helmholtz-Zentrum Geesthacht, Hamburg, Germany; Agricultural University of Athens, Laboratory of Mineralogy-Geology, Iera Odos 75, Athens, 118 55, Greece; Region of Sterea Ellada, Kalivion 2, Lamia, 351 32, Greece; Finnish Meteorological Institute, Erik Palménin Aukio 1, Helsinki, 00560, Finland; Innovative Technologies Center S.A., Alketou Str. 25, Athens, 11633, Greece; National & Kapodistrian University of Athens, Psachna, 34400, Greece; Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing, China; Built Environment Asset Management Centre, Glasgow Caledonian University, Glasgow, Scotland, United Kingdom; Institute for Interdisciplinary Mountain Research, Austrian Academy of Sciences, Technikerstr. 21a, Innsbruck, 6020, Austria; Department of Industrial Engineering, University of Bologna, Italy; Institute of Geography, University of Innsbruck, Innrain 52f, Innsbruck, 6020, Austria; Institute for Astronomy, Astrophysics, Space Applications and Remote Sensing (IAASARS), National Observatory of Athens, Athens, 15236, Greece; IHE Delft, Institute for Water Education, Westvest 7, Delft, AX 2611, Netherlands

Recommended Citation:
Kumar P.,Debele S.E.,Sahani J.,et al. An overview of monitoring methods for assessing the performance of nature-based solutions against natural hazards[J]. Earth Science Reviews,2021-01-01,217
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