Your search keyword '"Teba Gil-Díaz"' showing total 4 results

1. Spatial variability and sources of platinum in a contaminated harbor – tracing coastal urban inputs

Author

Mary-Lou Tercier-Waeber, Melina Abdou, Gérard Blanc, Paolo Povero, Michela Castellano, Emanuele Magi, Charlotte Catrouillet, F. Massa, Jörg Schäfer, and Teba Gil-Díaz

Subjects

Pollution, Biogeochemical cycle, technology critical element, 010504 meteorology & atmospheric sciences, Coastal environment, media_common.quotation_subject, Technology critical element, Context (language use), 010501 environmental sciences, 01 natural sciences, emerging contaminant, Geochemistry and Petrology, Environmental monitoring, Environmental Chemistry, Seawater, 14. Life underwater, seawater, 0105 earth and related environmental sciences, media_common, coastal environment, distribution coefficient, suspended particulate matter, urban tracer, Urban tracer, Distribution coefficient, Aquatic ecosystem, Suspended particulate matter, Particulates, 6. Clean water, Emerging contaminant, 13. Climate action, Chemistry (miscellaneous), Environmental chemistry, ddc:540, Environmental science, Spatial variability

Abstract

Environmental contextEmerging contaminants such as platinum are continuously released into aquatic environments. Analytical challenges, however, have restricted information on their geochemical cycles. We examine the potential use of platinum as a tracer of anthropogenic inputs in a model industrial/urban site (Genoa Harbor, Italy), and provide a first estimate of dissolved platinum baseline concentrations in the northern Mediterranean coast. AbstractBiogeochemical cycles that include processes to control platinum (Pt) distribution remain widely unknown in aquatic environments, especially in coastal systems. Dissolved Pt concentrations in coastal seawater (PtD) and in suspended particulate matter (SPM, PtP) were measured, together with master variables comprising dissolved oxygen, dissolved and particulate organic carbon, chlorophyll-a, turbidity, and ammonium levels, along two longitudinal profiles in the industrial Genoa Harbor (north-west Italy). Concentrations and spatial distribution of PtD and PtP levels reflect distinct concentration gradients that were attributed to different Pt sources such as hospital, domestic and industrial wastewater, atmospheric deposition, and/or road runoff. Concentrations reaching up to 0.18ngL−1 PtD and 14ngg−1 PtP reflect the impact of Pt urban inputs to coastal sites. These first data highlight considerable anthropogenic contamination in a confined harbor compared with the proposed reference value for the western Mediterranean surface seawater measured at external sites. Identified correlations between Pt levels and human pollution signals suggest the potential use of Pt as a new tracer of anthropogenic inputs that can be applied to other urbanised coastal systems. Biogeochemical processes that induce changes in the partitioning and fate of Pt in coastal seawater reflect a spatial variability and highlight the need for comprehensive environmental monitoring at an appropriate spatial scale.

Published

2020

2. Tellurium behaviour in a major European fluvial–estuarine system (Gironde, France): fluxes, solid/liquid partitioning and bioaccumulation in wild oysters

Author

Hervé Derriennic, Jörg Schäfer, Nicolas Briant, Melina Abdou, Teddy Sireau, Cécile Bossy, Gérard Blanc, Frédérique Pougnet, Teba Gil-Díaz, Antoine Lerat-Hardy, Joël Knoery, Clément Pereto, and Lionel Dutruch

Subjects

technology critical element, Watershed, Fluvial, Context (language use), 010501 environmental sciences, 01 natural sciences, RNO, Garonne River, Dry weight, Geochemistry and Petrology, Environmental Chemistry, 14. Life underwater, Lot River, 0105 earth and related environmental sciences, Gironde Estuary, geography, geography.geographical_feature_category, Aquatic ecosystem, Estuary, Particulates, ROCCH, 13. Climate action, Chemistry (miscellaneous), Bioaccumulation, Environmental chemistry, Environmental science

Abstract

Environmental contextThe environmental behaviour of tellurium is poorly understood. We investigate the transport of tellurium in both dissolved and particulate forms from the river watershed to the Gironde Estuary, where a 30-year historical record provides insight on tellurium bioaccumulation in wild oysters. These results constitute the first comprehensive study on natural tellurium behaviour in a major fluvial-estuarine system, information essential for predictive modelling of tellurium risk assessment. AbstractTellurium (Te) is a technology critical element (TCE) with largely unknown environmental behaviour, especially in continent-ocean interface systems. The unknown behaviour results from the lack of studies in aquatic environments and from analytical challenges limiting the determination of its naturally low (ultra-trace) environmental levels. We performed a comprehensive study of Te in the Lot–Garonne–Gironde fluvial–estuarine system to better understand seasonal variations, solid/liquid partitioning (Kd), gross fluxes, estuarine dynamics, and transfer to wild oysters at the estuary mouth. A temporal record (2014–2017) of dissolved (Ted) and particulate (Tep) Te concentrations at five sites in the Lot–Garonne River system shows little differences between sites, with average ~0.9ngL−1 and ~50µgkg−1 respective concentrations. Watershed Ted and Tep follow parallel seasonal patterns, which result in constant partitioning (log10 Kd ~4.75Lkg−1), with constant annual gross dissolved fluxes (~15.0kgy−1) and variable gross particulate fluxes (from 6.50 to 140kgy−1) entering the Gironde Estuary. Estuarine reactivity in contrasting hydrological conditions (from flood to drought) suggest that grain-size effects and/or estuarine hydrological residence times strongly affect Tep behaviour. Historical records (1984–2017) of Te in wild oysters at the estuary mouth vary from 1.33 to 2.89µgkg−1 dry weight (d.w.), without any clear long-term trend. This study provides rare knowledge on Te environmental dynamics in aquatic systems, and suggests that, although no current anthropogenic sources were identified in the economically developed Lot-Garonne-Gironde fluvial-estuarine system, there is a non-negligible bioaccumulation in wild oysters at the estuary mouth.

Published

2019

3. Tellurium radionuclides produced by major accidental events in nuclear power plants

Author

Teba Gil-Díaz

Subjects

Biogeochemical cycle, Radionuclide, Nuclear fission product, business.industry, chemistry.chemical_element, Context (language use), 010501 environmental sciences, Nuclear power, 01 natural sciences, law.invention, Fukushima daiichi, chemistry, Geochemistry and Petrology, Chemistry (miscellaneous), law, Environmental protection, Nuclear power plant, Environmental Chemistry, Environmental science, business, Tellurium, 0105 earth and related environmental sciences

Abstract

Environmental contextHistorical accidents in nuclear power plants have released radionuclides of several elements, including tellurium, to the environment. Although tellurium radionuclides are significant radioactive emission products, and show medium-term persistence in the environment, the mechanisms behind their widespread dispersion are unknown. Future research into the biogeochemical behaviour of stable tellurium is proposed as an appropriate approach to develop tellurium dispersion scenarios fundamental for post-accident management. AbstractTellurium (Te) is a technology critical element (TCE) and a non-negligible fission product in nuclear facilities. This work compiles the environmental releases of Te radionuclides registered after two nuclear power plant (NPP) major accidental events in human history (Chernobyl and Fukushima Daiichi). Despite the registered non-negligible activities and environmental persistence, Te radionuclides are scarcely monitored, which limits the current understanding of their biogeochemical behaviour, dispersion and fate in all environmental compartments. This lack of knowledge implies an underestimation of the role of Te radionuclides during and after accidents and its consideration in dispersion scenarios, which are fundamental for post-accidental risk assessment and management.

Published

2019

4. Antimony in the Lot–Garonne river system: a 14-year record of solid–liquid partitioning and fluxes

Author

Jörg Schäfer, Alexandra Coynel, Gérard Blanc, Cécile Bossy, Lionel Dutruch, and Teba Gil-Díaz

Subjects

geography, geography.geographical_feature_category, Aquatic ecosystem, Trace element, Biogeochemistry, chemistry.chemical_element, Context (language use), Estuary, 010501 environmental sciences, Particulates, 010502 geochemistry & geophysics, 01 natural sciences, Antimony, chemistry, Geochemistry and Petrology, Chemistry (miscellaneous), Environmental chemistry, Tributary, Environmental Chemistry, Environmental science, 0105 earth and related environmental sciences

Abstract

Environmental contextAntimony is a trace element ubiquitously present in the environment, but data are lacking on its spatio-temporal distribution in aquatic environments. Long-term records serve as essential tools to decipher temporal patterns, historical sources and sinks and background concentrations in an area. We characterise the temporal concentrations, transport and behaviour of antimony in the Garonne River watershed, the main tributary to the Gironde Estuary, the largest estuary in south-west Europe. AbstractKnowledge of the environmental chemistry of antimony (Sb) in aquatic systems is limited, and a better understanding of its geochemical behaviour is needed. Based on a fourteen-year survey (2003–2016) with monthly measurements of dissolved and particulate Sb at five sites in the Lot–Garonne river system, combined with daily measurements of water discharge and suspended particulate matter, this work characterises Sb behaviour in the upstream major river watershed of the Gironde Estuary. The survey provides a first regional geochemical Sb background in the Garonne River watershed for dissolved (~0.2 µg L−1) and Th-normalised particulate Sb (Sbp/Thp ~0.25) concentrations. Observed decreasing temporal trends (

Published

2018