The Nature-Based Solutions and climate change scenarios toward flood risk management in the greater Athens area—Greece

Natural Hazards, Journal Year: 2024, Volume and Issue: 120(5), P. 4729 - 4747

Published: Jan. 26, 2024

Abstract This research paper focuses on implementing two Nature-Based Solutions (NBS) in the Sarantapotamos river basin upstream of Magoula settlement, evaluating their effectiveness through flood hydrograph calculations before and after NBS, under future climate scenarios, encompassing lower, mean, upper conditions representing ± 95%. The study area covers an 226 km 2 Attica, Greece, susceptible to extreme events. contributes NBS knowledge, emphasizing resilience protecting settlements downstream. Land cover change retention ponds, applied individually combined, serve as approaches. Flood hydrographs are calculated using time–area (TA) diagram method a geographic information system (GIS) with Hydrological Engineering Center’s Modeling System (HEC-HMS). Results demonstrate current conditions, reducing peak discharge by 9.3% 28% for land respectively. combined achieves 40.5% reduction significant 15.7% total volume decrease. Under impacts design precipitation vary. scenario exhibits 3348% increase 600% rise volume, while lower sees 44.6% volume. In mean scenario, ponds reduce 9.73% 23.11% 9.25% 2.17%, conclusion, show substantial reduction, changes extend time peak, potential risk management.

Language: Английский

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Resilient urban expansion: Identifying critical conflict patches by integrating flood risk and land use predictions: A case study of Min Delta Urban Agglomerations in China

International Journal of Disaster Risk Reduction, Journal Year: 2023, Volume and Issue: 100, P. 104192 - 104192

Published: Dec. 15, 2023

Language: Английский

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Assessing the effectiveness of marine nature‐based solutions with climate risk assessments

Global Change Biology, Journal Year: 2024, Volume and Issue: 30(5)

Published: May 1, 2024

Abstract Prospective risks from climate change impacts in ocean and coastal systems are urging the implementation of nature‐based solutions (NBS). These climate‐resilient strategies to maintain biodiversity delivery ecosystem services, contributing adaptation social‐ecological mitigation climate‐related impacts. However, effectiveness measures like marine restoration or conservation is not exempt change, degree which they can sustain services remains unknown. Such uncertainty, together with slow pace implementation, causes decision‐makers societies demand a better understanding NBS effects. To address this gap, study, we use risk capacity as proxy for their while providing toolset method. The method considers environmental data relies on expert elicitation, allowing us go beyond current practice evaluate reducing habitat species under different future socio‐political climate‐change scenarios. As result, present ready‐to‐use tool, supporting materials, Climate Risk Assessment an illustrative example considering application “nature‐inclusive harvesting” two shellfisheries. works rapid assessment that guarantees comparability across sites due its low resource demand, so it be widely incorporated policies realm.

Language: Английский

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Mainstreaming Nature-Based Solutions for Climate Adaptation in Southeast Asia: A Systematic Review

Earth Systems and Environment, Journal Year: 2024, Volume and Issue: unknown

Published: Sept. 27, 2024

Language: Английский

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Natural Flood Risk Management in Tropical Southeast Asia: Prospects in the Biodiverse Archipelagic Nation of the Philippines

Wiley Interdisciplinary Reviews Water, Journal Year: 2025, Volume and Issue: 12(1)

Published: Jan. 1, 2025

ABSTRACT Natural flood management (NFM) has gained prominence as a risk approach in temperate settings but lacks extensive applied examples and evidence tropical settings, despite significant ecosystem degradation high exposure. Tropical river catchments often experience highly variable hydrographs (i.e., prone to flash floods) intense rainfall from monsoon typhoon‐dominated weather systems that can cause landslides sediment‐transporting flows. These conditions provide backdrop the prospects for NFM Southeast Asia, of which Philippines is representative. Catchments country are typically small thus associated with short hydrological response times. They also characterized by diversity types, rates lateral mobility, downstream urbanization, complex land use mosaics at coast. Consideration conceptual framework may enable conversations about adapting existing approaches. To explore these alternatives, we conceptualize opportunities typical catchment divide into four nested, connected parts: managing headwaters sponges; conserving restoring floodplain width; blue‐green infrastructure urban areas; maintaining creating space water fluvial‐coastal settings. There potential countries such adopt strategies have shown promise regions select Asian countries, where emerging supports their effectiveness. Monitoring interventions remains crucial gather supporting broader application nature‐based solutions mitigation biodiversity loss Asia.

Language: Английский

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Real time control of nature-based solutions: Towards Smart Solutions and Digital Twins in Rangsit Area, Thailand

Journal of Environmental Management, Journal Year: 2023, Volume and Issue: 344, P. 118389 - 118389

Published: June 21, 2023

The intensity and frequency of hydro-meteorological hazards have increased due to fast-growing urbanisation activities climate change. Hybrid approaches that combine grey infrastructure Nature-Based Solutions (NBSs) been applied as an adaptive resilient strategy cope with change uncertainties incorporate other co-benefits. This research aims investigate the feasibility Real Time Control (RTC) for NBS operation in order reduce flooding improve their effectiveness. study area is irrigation drainage system Rangsit Area Thailand. results show during normal flood events, RTC effectively reduces water level at Western Raphiphat Canal Station compared without or additional storage. Moreover, facilitates achieving required minimum volume increasing retentions. These findings highlight potential using well implementation flooding. can also assists equitable distribution between Klongs retention areas, while storage areas. be utilized agricultural purposes, providing further benefits. represent essential starting point development Smart Digital Twins utilizing Real-Time reduction allocation

Language: Английский

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Landslide Hazard Prediction Based on Small Baseline Subset–Interferometric Synthetic-Aperture Radar Technology Combined with Land-Use Dynamic Change and Hydrological Conditions (Sichuan, China)

Remote Sensing, Journal Year: 2024, Volume and Issue: 16(15), P. 2715 - 2715

Published: July 24, 2024

Le’an Town, located in the southwest of Qingchuan County, Guangyuan City, Sichuan Province, boasts a unique geographical position. The town’s terrain is complex, and its geological environment fragile. Multiple phases tectonic movements have resulted numerous cracks faults, making area prone to landslides, debris flows, other disasters. Additionally, heavy rainfall fluctuating groundwater levels further exacerbate instability mountains. Human activities, such as overdevelopment deforestation, significantly increased risk Currently, methods for landslide prediction Town are limited; traditional techniques cannot provide precise forecasts, study largely covered by tall vegetation. Therefore, this paper proposes method that combines SBAS-InSAR technology with dynamic changes land use hydrological conditions. used obtain surface deformation information, while land-use condition data incorporated analyze characteristics potential influencing factors areas. innovation lies high-precision monitoring capability integration multi-source data, which can more comprehensively reveal environmental area, thereby achieving accurate predictions development. results indicate annual subsidence rate most areas ranges from −10 0 mm, indicating slow subsidence. In some areas, exceeds −50 mm per year, showing significant slope aspect differences, reflecting combined effects structures, climatic conditions, human activities. It evident conditions impact on occurrence development landslides. utilizing cross-verifying it techniques, consistency identified be enhanced, improving results. This provides scientific basis early warning disasters has important practical application value.

Language: Английский

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Aligning nature-based solutions and housing policy: A study on stakeholders' perceptions of nature within informal settlement upgrading projects

Cities, Journal Year: 2024, Volume and Issue: 153, P. 105264 - 105264

Published: July 26, 2024

Nature-based Solutions (NbS), such as constructed wetlands, raingardens and reforestation, have emerged a promising opportunity for improving living conditions in quickly growing cities. Experiences practice, however, indicate that the decision-making processes underpin housing projects, particularly informal settlements upgrading programs, are still not conducive to mainstreaming of NbS. We explore case study Baan Mankong (BMK) program Thailand examine barriers, benefits, responsibilities different stakeholders when implementing In doing so, we conducted (A) an online survey with (B) series semi-structured interviews residents projects Bangkok. The comparison results from both methods shows perceptions surveyed often differ residents' experiences nature. While reasonable understanding barriers prevent NbS being implemented Bangkok, findings point important gaps regarding costs, expectations shared should be addressed ensure can effectively mainstreamed within projects. build upon why fully incorporated into programs more broadly.

Language: Английский

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Stormwater Treatment in Constrained Urban Spaces Through a Hybrid Sequential Sedimentation Biofiltration System

Published: Jan. 1, 2024

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Language: Английский

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What If an Intense Rain Event Should Trigger Diffuse Shallow Landslides in a Small Mediterranean Catchment? Numerical Modeling Through Remote Sensing Techniques

Remote Sensing, Journal Year: 2024, Volume and Issue: 16(24), P. 4658 - 4658

Published: Dec. 12, 2024

The Mediterranean region is increasingly experiencing intense and short-term rainfall, whose effects on the ground trigger widespread quickly evolving phenomena including debris flows shallow landslides which cause damage to buildings infrastructure occasionally even loss of life. In this research, we focus central in an area exposed high-intensity rainfall that impacts small catchments have been intensively anthropogenically modified through years. Portofino Promontory characterized by a high cultural landscape value where nature historical anthropogenic landforms signs coexist. attracts tourists from all over world, but it number hazards related debris–mud flow processes may impact heritage, tourism facilities infrastructure. addition, ancient man-made terraces are along Promontory’s slopes play role being source for landslides, as similarly happens many regions. 2011, heavy impacted similar Cinque Terre, triggering hundreds mud–debris combined effect was devastating. To end, simulation developed part H2020 project RECONECT aims contribute European reference framework nature-based solutions, based high-detail -precision remote sensing data acquired within project. allowed us assess areas, transport channel, observed deposition zones interaction with elements before building possible risk scenario. entire approach be upscaled areas landslide originating threatens buildings,

Language: Английский

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