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Rosat S., J. Hinderer, D. Crossley, and L. Rivera. (2003). The search for the Slichter mode: comparaison of noise levels at SC gravimeters and investigation of a stacking method. Physics of the earth and planetary interiors, 140, 183–202.
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Simon J.-C., Bonhomme J., Blackman R.L., Hullé M. (2008). Winged morph of the high arctic aphid Acyrthosiphon svalbardicum (Hemiptera: Aphididae): abundance, reproductive status, and ecological significance. Can. Entomol., 140, 385–387.
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Duchamp C., Rouanet J.L. & Barre H. (2002). Ontogeny of thermoregulatory mechanisms in king penguin chicks (Aptenodytes patagonicus). Comp. Biochem. Physiol., Part A Mol. Integr. Physiol., 131(4), 765–773.
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Van Den Broeke M.R. & Van Lipzig N P.M. (2003). Factors controlling the near-surface wind field in Antarctica. Monthly weather review, 131, 733–743.
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Amalvict, M., Rogister, Y , Luck B. & Hinderer J. (2007). Absolute gravity in the Southern Indian Ocean. IAG Symposia, 130, 433–437.
Abstract: in IAG Symposia 'Dynamic Planet: Monitoring and understanding a dynamic planet with geodetic and oceanographic tools
Programme: 337
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Fuenzalida H, Rivera L A, Haessler Henri, Legrand D, Philip Herve, Dorbath Louis, McCormack D A, Arefiev S S, Langer C J, Cisternas Armando, . (1997). Seismic source study of the Racha-Dzhava (Georgia) earthquake from aftershocks and broad-band teleseismic body-wave records; an example of active nappe tectonics
. Geophysical Journal International, 130(1), 29–46.
Abstract: The Racha-Dzhava earthquake (Ms = 7.0) that occurred on 1991 April 29 at 09:12:48.1 GMT in the southern border of the Great Caucasus is the biggest event ever recorded in the region, stronger than the Spitak earthquake (Ms = 6.9) of 1988. A field expedition to the epicentral area was organised and a temporary seismic network of 37 stations was deployed to record the aftershock activity. A very precise image of the aftershock distribution is obtained, showing an elongated cloud oriented N105 degrees , with one branch trending N310 degrees in the western part. The southernmost part extends over 80 km, with the depth ranging from 0 to 15 km, and dips north. The northern branch, which is about 30 km long, shows activity that ranges in depth from 5 to 15 km. The complex thrust dips northwards. A stress-tensor inversion from P-wave first-motion polarities shows a state of triaxial compression, with the major principal axis oriented roughly N-S, the minor principal axis being vertical. Body-waveform inversion of teleseismic seismograms was performed for the main shock, which can be divided into four subevents with a total rupture-time duration of 22 s. The most important part of the seismic moment was released by a gentle northerly dipping thrust. The model is consistent with the compressive tectonics of the region and is in agreement with the aftershock distribution and the stress tensor deduced from the aftershocks. The focal mechanisms of the three largest aftershocks were also inverted from body-wave records. The April 29th (Ms = 6.1) and May 5th (Ms = 5.4) aftershocks have thrust mechanisms on roughly E-W-oriented planes, similar to the main shock. Surprisingly, the June 15th (Ms = 6.2) aftershock shows a thrust fault striking N-S. This mechanism is explained by the structural control of the rupture along the eastdipping geometry of the Dzirula Massif close to the Borzhomi-Kazbeg strike-slip fault. In fact, the orientation and shape of the stress tensor produce a thrust on a N-S oriented plane. Nappe tectonics has been identified as an important feature in the Caucasus, and the source mechanism is consistent with this observation. A hidden fault is present below the nappe, and no large surface breaks were observed due to the main shock. The epicentral region is characterized by sediments that are trapped between two crystalline basements: the Dzirula Massif, which crops out south of Chiatoura, and the Caucasus Main Range north of Oni. Most, if not all, of the rupture is controlled by the thrusting of overlapping, deformed and folded sediments over the Dzirula Massif. This event is another example of blind active faults, with the distinctive feature that the fault plane dips at a gentle angle. The Racha Range is one of the surface expressions of this blind thrust, and its growth is the consequence and evidence of similar earthquakes in the past.
Keywords: 19, aftershocks, body waves, caucasus, commonwealth independent states, earthquakes, elastic waves, europe, faults, focal mechanism, georgian, magnitude, nappes, racha, racha earthquake 1991, republic, seismic, seismicity, seismology, seismotectonics, tectonics, teleseismic signals, thrust faults, waves,
Programme: 133
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Fuenzalida H., Dorbath L., Cisternas A., Eyidogan H., Barka A., Rivera L., Haessler H., Philip H. & Lyberis N. (1997). Mechanism of the 1992 Erzincan earthquake and its aftershocks, tectonics of the erzincan Basin and decoupling of the North Anatolian Fault. Geophysical journal international, 129.
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Carniel., R., Di Cecca & D. Rouland. (2003). Ambrym, Vanuatu (July-August 2000): Spectral and dynamical transitions on the hours-todays timescale. Journal of volcanology and geothermal research, 128, 1–13.
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Amalvict M. & Hinderer J. & Luck B. (2001). First absolute gravity measurements at the French station Dumont d'Urville (Antarctica). IAG Symposia, 123, 373–377.
Abstract: In M. Sideris (ed. ) Gravity Geoid and Geodynamics 2000 Springer Heidelberg.
Programme: 337
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Gagnevin D.; Ethien R.; Bonin B.; Moine B.; Feraud G.; Gerbe M.C.; Cottin J.Y.; Michon G.; Tourpin S.; Mamias G.; Perrache C.; Giret A. (2003). Open-system processes in the genesis of silica-oversaturated alkaline rocks of the Rallier-du Baty Peninsula, Kerguelen Archipelago (Indian Ocean). Journal of volcanology and geothermal research, 123(3-4), 267–300.
Abstract: The Rallier-du-Baty Peninsula forms the southwestern part of the Kerguelen Archipelago (Indian Ocean), whose magmatic activity is related to the long-lived 115-Ma Kerguelen plume. The peninsula is mostly made of alkaline rocks constituting two well-defined ring complexes. This paper focuses on the northern ring complex, which is not yet known. Recent field studies have revealed seven discrete syenitic ring dykes ranging in age from 6.2 to 4.9 Ma, and two later volcanic systems. 40Ar/39 Ar dating of a trachytic ignimbrite linked to the Dôme Carva volcano complex yields an age of 26 ± 3 Ka. This represents the last major eruptive event on the Kerguelen Archipelago. The volcanism is bimodal with trachybasalts and trachyandesites constituting the mafic lavas and trachytes and rhyolites constituting the felsic lavas. The volume of erupted felsic magma is by far the larger, and is represented by abundant pyroclastic deposits and lava flows. Boulders of plutonic rocks are found to the northwest of Dôme Carva, and represent intermediate rocks (i.e. monzogabbros and monzonites) that are not present at the surface. Basic rocks are mostly trachybasalts and trachyandesites, while true basalts are scarce. Their mineralogy consists chiefly of plagioclase, olivine, diopside and oxides. Sieve-textured plagioclase is common, as well as corroded olivine and diopside phenocrysts. Peralkaline commenditic trachytes are the most abundant type of acid volcanic rocks. They consist of abundant sanidine, augite and magnetite phenocrysts and interstitial quartz, aegerinic pyroxenes and Na-amphiboles. Ring dykes of quartz-poor alkali feldspar syenites display the same mineralogy, except hornblende is common and replaces diopside. Hornblende is particularly abundant in intermediate monzogabbros. Major and trace element variations of volcanic rocks emphasise the predominant role of fractional crystallisation with a general decrease of MgO, CaO, P2O5, TiO2, FeO. Ba, Sr and Ni from basic to felsic rocks. However, the scattering of the data from the basic rocks indicates that other processes have operated. The overall evolution from trachyte to rhyolite is in agreement with the fractionation of sanidine as the major control. An increase of incompatible elements from trachyte to rhyolite is observed. The felsic lavas display an increase of 87Sr/86Sr(i) without any significant variations in the Nd isotopic composition. The genesis of the basic rocks is complex and reflects concomitant processes of fractional crystallisation, mixing between different basic magmas and probable assimilation of Ba-rich oceanic crust. Major and trace element modelling confirms the possibility of producing the trachytes through continuous differentiation from a basaltic alkaline parent. Discrepancies observed for some trace elements can be explained by the crystallisation of amphibole at an intermediate stage of magma evolution.
Programme: 251;444
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