Flood hazard assessment and the role of citizen science

Sy, Bocar; Frischknecht, Corine; Dao, Hy; Consuegra, D.; Giuliani, Gaston

doi:10.1111/jfr3.12519

Cited by 38 publications

(21 citation statements)

References 112 publications

(137 reference statements)

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“…In the case of flood risk management, which is the particular focus of this article, the European Flood Directive 2007/60/EC requires public participation mechanisms to ensure citizens' involvement in decision-making processes. Through CS, citizens can contribute to mapping and assessing flood hazards at various temporal and spatial scales, which in turn can help to improve prediction models [59]. However, the implementation of a CS approach in ULLs is relatively new, and often results in little synergy due to a lack of interoperability and reusability of data and services developed in each project [60].…”

Section: Urban Living Labs For Sustainable Developmentmentioning

confidence: 99%

Urban Living Labs and Citizen Science: From Innovation and Science towards Policy Impacts

Veeckman

Temmerman

2021

Sustainability

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City governments are currently exploring different participatory mechanisms in order to meet the growing demand in society for deliberate decision-making. Through developments in sensing technology, data processing and visualization, citizen science is emerging as a powerful tool for the general public to participate in scientific research that informs policy. Citizen science can be used as an approach in Urban Living Labs, whereby public and private stakeholders are involved in innovation and data collection processes together with citizens. However, there is currently little synergy between citizen science and Urban Living Labs, and how science, innovation and policy can be interoperable. Therefore, this article conducts a comparative case study analysis on the participatory processes and related outputs, outcomes and impacts of the FloodCitiSense Urban Living Labs (Brussels, Birmingham, Rotterdam). These initiatives developed an early warning system for urban flooding through the collection and analysis of crowdsourced information. Data on the participatory processes were collected through 11 in-depth interviews and evaluated on its effectiveness in achieving policy outcomes. The discussion reflects on best practices in incorporating citizen science in Urban Living Labs based on the experienced opportunities and challenges in FloodCitiSense.

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Section: Urban Living Labs For Sustainable Developmentmentioning

confidence: 99%

Urban Living Labs and Citizen Science: From Innovation and Science towards Policy Impacts

Veeckman

Temmerman

2021

Sustainability

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“…In disaster risk reduction, the role of civil society is immense, although relevant government agencies usually have overall responsibility to enact disaster risk reduction strategies (UNISDR, 2015). In this process, CS plays an important complementary role, particularly in data collection and the provision of new perspectives into flood risk assessment (Sy, Frischknecht, Dao, Consuegra, & Giuliani, 2018). CS‐based data cogeneration can be broadly divided into two types of approach: “user‐centric,” where users collect data and information on the spot; and “device‐centric,” where sensor sampling occurs whenever the state of the monitoring device matches the specific monitoring requirements (Palacin‐Silva et al, 2016).…”

Section: Methodsmentioning

confidence: 99%

Mitigating flood risk using low‐cost sensors and citizen science: A proof‐of‐concept study from western Nepal

Pandeya

Uprety

Paul

et al. 2020

J Flood Risk Management

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The generation of hydrological data for accurate flood predictions requires robust and, ideally, dense monitoring systems. This requirement is challenging in locations such as the Himalayas, which are characterised by unpredictable hydroclimatic behaviour with dramatic small‐scale spatial and temporal variability. River level monitoring sensors that are affordable and easy‐to‐operate could support flood risk management activities in the region. We therefore identify potential for a local participatory monitoring network that also serve to overcome existing data gaps, which represent the main bottleneck for establishing an effective community‐based flood early‐warning system. We have applied a citizen science‐based hydrological monitoring approach in which we tested low‐cost river level sensors. Initial results, collected over summer 2017 from two stations on the River Karnali, suggest that our system can successfully be operated by non‐scientists, producing river level data that match those obtained from an adjacent government‐operated high‐tech radar sensor. We discuss potential opportunities to integrate these low‐cost sensors into existing hydrological monitoring practice. Combined with an adaptive, community‐led approach to resilience building, we argue that our low‐cost sensing technology has the potential not only to increase spatial network coverage in data‐scarce regions, but also to empower and educate local stakeholders to build flood resilience.

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“…For example, different scales apply to participatory projects aiming to manage extreme events, that usually require high frequency and low data latency (i.e. real-time conditions), like in disaster risk management and emergency response (Eilander et al, 2016, Ernst et al, 2017, Sy et al, 2019. This last example contrasts with urban and regional monitoring activities that are characterized by low frequency and long term response times (Albano et al, 2015, Lisjak et al, 2017.…”

Section: Theme 6 Collaborative and Participatory Efforts Supporting mentioning

confidence: 99%

Citizens AND HYdrology (CANDHY): conceptualizing a transdisciplinary framework for citizen science addressing hydrological challenges

Nardi

Cudennec

Abrate

et al. 2021

Hydrological Sciences Journal

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Flood hazard assessment and the role of citizen science

Cited by 38 publications

References 112 publications

Urban Living Labs and Citizen Science: From Innovation and Science towards Policy Impacts

Urban Living Labs and Citizen Science: From Innovation and Science towards Policy Impacts

Mitigating flood risk using low‐cost sensors and citizen science: A proof‐of‐concept study from western Nepal

Citizens AND HYdrology (CANDHY): conceptualizing a transdisciplinary framework for citizen science addressing hydrological challenges

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