ALBERT

Description: Comprehensive hydrogeochemical studies have been conducted in the Campi Flegrei volcanic aquifer since late 20th century due to the volcanic unrest. In the last decade, groundwater samples were grouped based on the dominant anion species (i.e. bicarbonate, sulfate and chloride) to explain the general hydrogeochemical processes. In this article, 44 groundwater samples are collected from Campi Flegrei aquifer to geochemically and spatially capture the main characteristics of the groundwater body. The hierarchical clustering algorithm is then performed on proportion of bicarbonate, sulfate and chloride, and the optimum number of clusters are determined regarding the results of deep hydrogeochemical investigations published in the past. The collected samples are categorized in the following groups: (1) bicarbonate-rich groundwater; (2) chlorine-rich groundwater; (3) sulfate-rich groundwater; and (4) mixed groundwater. The first group (As = 158.2 ± 169 μg/l, electric conductivity = 1,732.1 ± 1,086 μS/cm and temperature = 25.6 ± 8 ◦C) is mainly derived from poor arsenic meteoric water, but there is significant thermal/seawater contribution in the second one (As = 1,457.8 ± 2,210 μg/l, electric conductivity = 20,118.3 ± 11,139 μS/cm and temperature = 37.1 ± 20 ◦C). Interaction of the bicarbonate-rich groundwater and hydrothermal vapors gives rise to the sulfate-rich groundwater (As = 847.2 ± 679 μg/l, electric conductivity = 3,940.0 ± 540 μS/cm and temperature = 82.8 ± 3 ◦C) around Solfatara volcano. The mixed groundwater (As = 451.4 ± 388 μg/l, electric conductivity = 4,482.9 ± 4,027 μS/cm and temperature = 37.1 ± 16 ◦C) is observed where the three main groundwater groups undergo a mixing process, depending on the hydrogeology of the volcanic aquifer. Contrary to the bicarbonate- and sulfate-rich groundwater, the chlorine-rich and mixed groundwater generally occurs at low piezometric levels (approximately 〈1 m above sea level) near the coastline. The hierarchical cluster analysis provides more information about the volcanic aquifer, particularly when compositional data analysis is applied to study hydrogeochemistry of the homogeneous groundwater groups and to uncover the relationships between variables. Addressing compositional nature of data is recommended in the future studies for developing new tools that help deeper understanding of groundwater evolution in volcanic aquifers and identifying promising precursors of volcanic eruption.

Description: Published

Description: 106922

Description: 4V. Processi pre-eruttivi

Description: 2IT. Laboratori analitici e sperimentali

Description: JCR Journal

Description: Archaeological sites are extremely vulnerable to the impacts of weather-related events, which may lead to irreparable damages to cultural heritage. Here an assessment of the debris-flow hazard for the UNESCO site of Roman Villa del Casale (Italy) is carried out, through a combination of historical analyses, field surveys, geomorphological and hydrological investigations and two-dimensional hydraulic numerical modelling, all performed at river catchment scale. Historical analyses reveal that the site has been hit by several landslides in the far and recent past. This is presently confirmed by the high level of exposure to the impact of rain-triggered debris-flow events, due to the position of the Villa at a closure section of the related river basin and to the hydro- geomorphological characteristics of the basin itself. By applying the proposed approach, a scenario analysis is carried out. Results allow one to highlight the dynamics of the impact of debris flows, thanks to space and time- dependent maps about deposition areas, water depth and speed values, and to identify the most vulnerable archaeological elements within the study site. The numerical simulations are also used to test the efficiency of the existing hydraulic defense systems and to support the implementation of an early warning system for the site protection. Here, we also synthetize the design of the architecture of the wireless monitoring network, the sensor technology adopted to develop an effective real time environmental monitoring system and management plat-form, to construct a Wireless Sensor Network (WSN) - early warning and reporting system, which can be applied as a prevention measure.

Description: Published

Description: 102509

Description: 7A. Geofisica per il monitoraggio ambientale

Description: JCR Journal

Description: Extensive geophysical and geodetic measurements were carried out to evaluate the groundwater aquifer, trace the basement relief, as well as detect the igneous intrusions and structural elements (mainly faults) that affect the occurrence of groundwater in the study area. The fieldwork included resistivity sounding, a geomagnetic survey, and Global Positioning System measurements. The magnetic results showed the presence of a group of main faults in East-west trend at the western part of the area and major fault at the northern part of the area of NW-SW trend. The findings also showed the presence of two igneous rock intrusions located in the middle of the eastern part of the valley. Pronounced differences in the depths of basement rocks have been identified, ranging between 0 and 900 m from the surface. Both high horizontal movements and high shear strain rates have been found to be concentrated at the southeast of the study area and it was noted that high stress was accumulated along the main observed faults and at the main groundwater aquifers. The geoelectrical results confirmed the presence of two aquifers; a shallow aquifer (Quaternary aquifer) that narrows northwards and a Nubian sandstone aquifer, which considered the main aquifer. The Nubian sandstone aquifer carries groundwater in the region, which overlies the last geoelectric unit represented by the basement complex layer and geological structures affecting the potential availability of groundwater in the study area, as proved by the geomagnetic survey and stress accumulation.

Description: Researchers Supporting Project number (RSP-2021/351), King Saud University, Riyadh, Saudi Arabia

Description: Published

Description: 101549

Description: 2T. Deformazione crostale attiva

Description: JCR Journal

Description: The Earth is a dynamic planet, where earthquakes and volcanoes are among some of its most outstanding expressions. Just like our planet as a whole is subject to lunisolar gravitational tides, seismic and volcanic activity are also influenced by the relative motion of the Sun and Moon. This tidal influence takes different forms, spanning different spatial and temporal scales, from quasiperiodic patterns with semidiurnal to multiannual periods to the triggering of earthquakes and volcanic eruptions. Tidal stresses have been primarily evoked as driving forces, although they are 3–5 orders of magnitude smaller than tectonic stresses, which makes cause-effect relationships elusive. This chapter reviews the different observations of tidal influence in geophysical and geochemical data acquired in tectonic and volcanic settings, as well as the methods that have been developed to detect it. Using case studies, we provide some insights on the sensitivity of geological systems to tidal stresses.

Description: Published

Description: 333-364

Description: 4V. Processi pre-eruttivi

Description: The assessment of potential radon-hazardous environments is nowadays a critical issue in planning, monitoring, and developing appropriate mitigation strategies. Although some geological structures (e.g., fault systems) and other geological factors (e.g., radionuclide content, soil organic or rock weathering) can locally affect the radon occurrence, at the basis of a good implementation of radon-safe systems, optimized modelling at territorial scale is required. The use of spatial regression models, adequately combining different types of predictors, represents an invaluable tool to identify the relationships between radon and its controlling factors as well as to construct Geogenic Radon Potential (GRP) maps of an area. In this work, two GRP maps were developed based on field measurements of soil gas radon and thoron concentrations and gamma spectrometry of soil and rock samples of the Euganean Hills (northern Italy) district. A predictive model of radon concentration in soil gas was reconstructed taking into account the relationships among the soil gas radon and seven predictors: terrestrial gamma dose radiation (TGDR), thoron (220Rn), fault density (FD), soil permeability (PERM), digital terrain model (SLOPE), moisture index (TMI), heat load index (HLI). These predictors allowed to elaborate local spatial models by using the Empirical Bayesian Regression Kriging (EBRK) in order to find the best combination and define the GRP of the Euganean Hills area. A second GRP map based on the Neznal approach (GRPNEZ) has been modelled using the TGDR and 220Rn, as predictors of radon concentration, and FD as predictor of soil permeability. Then, the two GRP maps have been compared. Results highlight that the radon potential is mainly driven by the bedrock type but the presence of fault systems and topographic features play a key role in radon migration in the subsoil and its exhalation at the soil/atmosphere boundary.

Description: Published

Description: 152064

Description: 6A. Geochimica per l'ambiente e geologia medica

Description: JCR Journal

Description: Carbon captured and stored in sediments and soils from vegetated tidal wetlands (mangroves, saltmarshes, freshwater and brackish marshes), where the rates of organic carbon accumulation (OC) from multiple sources is high, constitutes an active fraction of the global carbon sink (Wang et al., 2021). However, a global inventory of this coastal ‘blue carbon’ remains a challenge, as observations of accumulation rates and stock in vegetated tidal wetlands are labor intensive, expensive, scarce, and unevenly distributed, with few sediment records even for relatively well-studied temperate areas in the Northern Hemisphere (Beaumont et al., 2014). Recent reviews (Duarte et al., 2005, Wilkinson et al., 2018) report a mean carbon accumulation rate of 151 g C m yr for saltmarshes (maximum 1720 g C m yr), 41.4 g C m yr for lagoons (maximum 340 g C m yr), and 62.9 g C m yr for coastal wetlands (maximum 335.8 g C m yr) exceeding the mean burial rate of estuaries and continental shelves (17–45 g C m yr ). The accumulation of ‘blue carbon’ stored in soil and sediments within tidal wetlands, is sensitive to rapidly changing climate factors (e.g. temperature, rainfall, sea level rise, and inundation frequency), and non-climatic anthropogenic drivers (e.g. subsidence from groundwater extraction, reduction of sediment supply due to river damming, and land use change) (Pendleton et al., 2012, Macreadie et al., 2013, Arriola, 2017, Kelleway et al., 2017, Simpson et al., 2017, Ewers Lewis et al., 2018, Ruiz-Fernández et al., 2018, Cuellar-martinez et al., 2019, Macreadie and Saintilan, 2019, Negandhi et al., 2019, Rogers et al., 2019). Fast rates of relative sea level rise (RSLR) and low sediment supply are the main drivers of vertical drowning in tidal wetlands (Mariotti and Carr, 2014, Fagherazzi et al., 2020). A global review suggests that between 60 and 91% of saltmarshes will be drawing under the IPPC predicted rates of sea-level rise (Crosby et al., 2016). Carbon stable isotopic composition ( C) and C/N analysis have been used as tracers to distinguish between OC derived from autochthonous C3 and C4 saltmarsh vascular vegetation (i.e. coastal blue carbon; C 12‰ to −30‰, C/N 5.80 to 41.10; Khan et al., 2015b), and allochthonous sources including fluvial and marine particulate organic matter (POM) derived from freshwater or marine phytoplankton (C 12‰ to −30‰, C/N 5 to 9; Lamb et al., 2006), as well as past sea level indicators in coastal vegetated​ habitats in North West Europe (Wilson, 2017). Data on the spatial and historical changes of OC sources and accumulation coupled with long-term time series of climatic factors are limited for vegetated tidal wetlands in the Mediterranean, which make it hard to assess the response of OC accumulation to relative sea-level rise (RSLR) in this region. Sea level observations from satellite altimetry showed an increase in absolute sea level of 2.6 ± 0.28 mm yr across the Mediterranean Sea during the period 1993–2015, and low-lying coastal areas will be prone to marine flooding according to projections for the 21st century (Moatti and Thiébault, 2016). To better understand the spatial and temporal changes in OC accumulation and sources and assess the influence of SST and RSLR, we measured the stable isotopic composition ( C) and accretion rates in sediment records, applied the MixSIAR model to estimate the OC sources, and analyzed Sea Surface Temperature (SST) and Sea Level (SL) climatic data sets in two different tidal wetland habitats: (i) an impacted habitat affected by strong landscape and anthropogenic alterations, and (ii) an undegraded saltmarsh habitat, within a coastal lagoon (Pialassa Baiona) located in the northwestern Adriatic Sea (Mediterranean Sea).

Description: Published

Description: 102439

Description: 4A. Oceanografia e clima

Description: JCR Journal

Description: Here we discussed the results of the first geochemical investigation of the fluids (groundwater and the associated gases) emerging in the southwest of Yazd Province. We carried out two surveys, one in July 2019 and the second in September 2019s, in the region of the Gariz aquifer (central Iran).Wefocused our attention to 1) the chemistry of thewater (major and minor constituents coupled to the stable isotopes of oxygen and hydrogen), 2) the chemical composition of dissolved gases in water together with 3) the isotopic composition of Helium (3He/4He) and 4) the dissolved carbon in water (δ13CTDIC). Hydrogen and oxygen isotope values of groundwater display a fairly narrow range and indicate that the waters are of meteoric origin. On the base of the major ions chemistry, the bulk of the water samples are classified as Ca-HCO3, Ca\\Cl and Na\\Cl types. The groundwater chemistry is mainly influenced by the interaction with CO2-rich fluids, leakage of chlorinated saline water into the alluvial aquifer, and silicate dissolution. High dissolved carbon contents, mainly as bicarbonate ion, reflect the noticeable interaction of the groundwater with CO2-rich fluids. CO2 is the dominant gaseous component in most samples and its amount is always greater with respect to a water in equilibrium with the atmosphere (Air Saturated Water, ASW). Such excess of CO2 contents (more than 730 cc/l STP) dissolved in groundwater also supports the presence of a deep source of CO2-rich gas. The computed δ13C(CO2) in equilibriumwith the groundwater highlight a mixing in different proportion between an inorganic deep sourced CO2 (13C-enriched) and organic CO2 (13C-depleted). We also used the helium isotopes as a tools to figure out the origin of helium in the aquifer (air vs. mantle, and crust). The collected samples show a contribution of mantle-derived He in the Gariz aquifer up to (~45%) and the crust suggesting that at regional scale the tectonic discontinuities had a connectionwith the mantle or magmatic intrusions migrated through the crust transporting mantle volatiles to shallowcrustal layers. However, we cannot infer the timing of this possible magmatism at depth in the complex tectonic evolution of the area.

Description: Ministry of Science, Research and Technology of Iran

Description: Published

Description: 107324

Description: 1TR. Georisorse

Description: JCR Journal

Description: The needs of society and the emerging blue economy require access and integration of data and information for the construction of dedicated products. A “transparent and accessible ocean” is one of the key objectives of the Ocean Decade 2021–30. In this context, marine infrastructures become significant components of a global knowledge environment, enabling environmental assessment and providing the necessary data for scientifically valid actions to protect and restore ocean health, to use marine resources in a sustainable way. The data is collected, analyzed, organized, and used by people and their good use/reuse can be obtained with social practices, technological and physical agreements aimed at facilitating collaborative knowledge, decision-making, inference. The vision is a digital ocean data ecosystem made up of multiple, interoperable, and scalable components. The huge amount of data and the resulting products can drive the development of new knowledge as well as new applications and services. Predictive capabilities that derive from the digital ecosystem enable the implementation of services for real-time decision-making, multihazard warning systems, and advance marine space planning. The chapter develops following the progressive complexity and information content of products deriving from oceanic data: data cycle and data collections, data products, oceanic reanalysis. The chapter discusses the new challenges of data products and the complexity of deriving them.

Description: Published

Description: 197-280

Description: 4A. Oceanografia e clima