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The paper proposes a geothermal prospecting method to delimit closed thermal anomalies by using simple chemical/physical parameters measured in a shallow unconfined aquifer, by chance found to be thermally anomalous. The paper also suggests how to make a hierarchy of thermal manifestations in a territory and if they are originated by a low enthalpy or a high enthalpy deep geothermal system, accordingly.
The Ethiopian Rift Valley is a classic example of an area where a continent is splitting apart. Here, active volcanism, earthquakes and fracturing of the Earth's surface break continents and form new oceans. In this paper we analyze the shape and size of the faults and fractures combined with the relief and river drainage of the rift valley, in order to interpret which faults control the shape of the rift, and how they have evolved through time. We find that more than half of the rift is defined by a large fault escarpment along the eastern side of the rift, with the western side defined by a gradual slope (an asymmetric rift). Less than half is a “classical” rift with clear fault escarpments on both sides (a symmetric rift), and we find no evidence for the previously held view of progressive evolution from an asymmetric to symmetric rift. Instead, we find that the morphology of the rift is primarily controlled by the contrasting properties of the rocks beneath the two sides of the rift, with major fault escarpments forming only where the rocks are strong. Surface processes likely amplified the along-axis differences in rift architecture.
Full reference: Corti G., Molin P., Sembroni A., Bastow I.D., Keir D. (2018). Control of pre-rift lithospheric structure on the architecture and evolution of continental rifts: insights from the Main Ethiopian Rift, East Africa. Tectonics, 37, https://doi.org/10.1002/2017TC004799
The importance of these results, based on SIMS profiles of the 7Li/30Si ion ratio in plagioclase crystals from products of the paroxysmal sequence of Mt. Etna (period 2011–2013), relies on the application of methods, recently used exclusively for closedsystem volcanoes producing violent eruptions, to open-conduit systems that have generally quiet eruptive periods of activity, sometimes interrupted by sudden re-awakening and the production of anomalously energetic eruptions.
Call "Thursday Science"
Opening of the call "Thursday science". Deadline: February 28, 2018.
Festival of Science. Keyword: Change. Call for proposals deadline: February 9, 2018. Proposal submission - general information.
The 2018 edition of the Genoa Science Festival will be held in Genoa from october 25th to november 4th 2018. The keyword will be: Change. The Festival...
Interview with Luigi Piccardi, researcher at the Institute of Geosciences and Earth Resources
The interview regards the usefulness of interpreting historical sources deriving from oral tradition to retrieve information on prehistoric geological...
“SPACED”: an ECOPOTENTIAL WORKSHOP in Bruxelles
The workshop has seen the presence of about 70 among scientists and representatives of European institutions, and has presented the views of European...
Sedimentary and Tectonic evolution of the Cambrian-Ordovician red beds of the Atlas-Meseta domains (Morocco)
Italy Partner: IGG-CNR. Responsable Dr. Alessandro Ellero
Morocco Partner: Ecole Normale Supérieure, Université Cadi Ayyad, Marrakech. Responsable Prof. Hassan Ouanaimi
Sa.Pe.Vo. El Salvador mitigar Peligro Volcanico
The Sa.Pe.Vo. project is a product of the Institute of Geosciences and Earth Resources of CNR. The project team includes Unifi, Unipa, UNIRM1 and Universidad de El Salvador. The Italian Agency for International Cooperation has financed the project.
VIGOR was a four year Project launched at the end of 2010, coordinated at national level by CNR-IGG and dedicated to a comprehensive assessment of geothermal energy and its technological applications in four regions of southern Italy (Calabria, Campania, Apulia and Sicily, the “Regioni Convergenza”).
The Geothermal Atlas of southern Italy is a project aimed at characterizing, assessing and mapping of conventional and unconventional geothermal resources for power production in southern Italy.
Geothermal ERA-NET Project
Geothermal ERA-NET is a European project co-funded for four years by the European Commission within the 7th Framework Programme for Research and Technological Development 2007-2013.
Bilateral Project Italy-Taiwan
Geochemical tracers and indicators for the evaluation of geothermal resources is a Joint Research Project between National Council of Research of Italy and Ministry of Science and Technology of Taiwan, funded for 2 years.