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Multi-hazard risk pathway scenarios associated with unconventional gas development: Identification and challenges for their assessment (2021)

Garcia-Aristizabal, Alexander ; Capuano, Paolo ; Russo, Raffaella ; [weitere]

ScienceDirect | Elsevier

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Publikationsdatum: 2021-06-07

Beschreibung: In this paper we summarize a number of risk pathway scenarios that are often claimed in literature as of priority for risk analyses in unconventional gas development. The resulting scenarios are structured in diagrams representing causal relationships between events. We argue that science is called to fill gaps regarding the main processes characterizing the involved events and defining the conditions under which their occurrence may be enhanced or inhibited. In this way, these scenarios can be more objectively parameterized, making their quantitative assessment a more feasible task and opening the way for the formulation of appropriate risk mitigation strategies.

Beschreibung: Published

Beschreibung: 116-125

Beschreibung: European Geosciences Union General Assembly 2017 (Vienna) EGU Division Energy, Resources & Environment (ERE)

Beschreibung: 1TR. Georisorse

Beschreibung: N/A or not JCR

Schlagwort(e): Multi-hazard risk ; unconventional gas development

Repository-Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Materialart: Conference paper

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Tropospheric Delay in the Neapolitan and Vesuvius Areas (Italy) by Means of a Dense GPS Array: A Contribution for Weather Forecasting and Climate Monitoring (2022)

Riccardi, Umberto ; Tammaro, Umberto ; Capuano, Paolo

MDPI

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Publikationsdatum: 2022-02-25

Beschreibung: Studying the spatiotemporal distribution and motion of water vapour (WV), the most variable greenhouse gas in the troposphere, is pivotal, not only for meteorology and climatology, but for geodesy, too. In fact, WV variability degrades, in an unpredictable way, almost all geodetic observation based on the propagation of electromagnetic signal through the atmosphere. We use data collected on a dense GPS network, designed for the purposes of monitoring the active Neapolitan (Italy) volcanoes, to retrieve the tropospheric delay parameters and precipitable water vapour (PWV). This study has two main targets: (a) the analysis of long datasets (11 years) to extract trends of climatological meaning for the region; (b) studying the main features of the time evolution of the PWV during heavy raining events to gain knowledge on the preparatory stages of highly impacting thunderstorms. For the latter target, both differential and precise point positioning (PPP) techniques are used, and the results are compared and critically discussed. An increasing trend, amounting to about 2 mm/decades, has been recognized in the PWV time series, which is in agreement with the results achieved in previous studies for the Mediterranean area. A clear topographic effect is detected for the Vesuvius volcano sector of the network and a linear relationship between PWV and altitude is quantitatively assessed. This signature must be taken into account in any modelling for the atmospheric correction of geodetic and remote-sensing data (e.g., InSAR). Characteristic temporal evolutions were recognized in the PWV in the targeted thunderstorms (which occurred in 2019 and 2020), i.e., a sharp increase a few hours before the main rain event, followed by a rapid decrease when the thunderstorm vanished. Accounting for such a peculiar trend in the PWV could be useful for setting up possible early warning systems for those areas prone to flash flooding, thus potentially providing a tool for disaster risk reduction.

Beschreibung: TRYAT (TRack Your ATmosphere) project (2017-1-DE02-KA202-004229) Co-funded by ERASMUS + Programme of the European Union.

Beschreibung: Published

Beschreibung: 1225

Beschreibung: 7A. Geofisica per il monitoraggio ambientale

Beschreibung: JCR Journal

Schlagwort(e): GNSS ; troposphericdelay ; precipitable water vapour ; thunderstorm ; Somma Vesuvius