The Initiation of Opening of the Norwegian Sea Auteur(s) : Talwani, M Mutter, J Eldholm, O Éditeur(s) : Gauthier-Villars Résumé : Multichannel seismic reflection profiling has revealed that the basalt layer on the Outer Voring Plateau is underlain in places by steeply dipping layered reflectors. Two opposing theories have been considered for the origin of the layered reflectors: (1) They are Mesozoic sediments deposited before the Tertiary opening of the Norwegian Sea. (2) They are Tertiary deposits formed during the early stage of opening of the Norwegian Sea by seafloor spreading. The authors find that: (a) magnetic anomaly 24 can be traced continuously from the Lofoten Basin on to the Voring Plateau, associated with the oldest seafloor generated in the opening of the Norwegian Sea; (b) the layered reflectors form a characteristically shaped wedge that coincides with anomaly 24; (c) the material comprising the wedge possesses seismic velocities which increase from about 2.6 km/sec. in the upper part to about 6.4 km/sec. in the lower part. The above observations strongly support a Tertiary age for the material comprising the wedge, which consists of basalic flows and volcanogenic sediments and which is associated with sea floor created a few million years after the start of spreading. Oceanologica Acta, Special issue (0399-1784) (Gauthier-Villars), 1981 Droits : info:eu-repo/semantics/openAccess http://archimer.ifremer.fr/doc/00245/35669/34177.pdf http://archimer.ifremer.fr/doc/00245/35669/ | Partager |
Structure and Plate Tectonic Evolution of the Marine Arctic as Revealed by Aeromagnetics Auteur(s) : Vogt, P Bernero, C Kovacs, L Taylor, P Éditeur(s) : Gauthier-Villars Résumé : Over 400,000 km of low level aeromagnetic data were collected by US Navy research organization over the Arctic Basin and Greenland-Norwegian Sea during the years 1972 to 1978. These data provide new constraints on the crustal structure and tectonic evolution of this vast region. Magnetic anomalies over continental fragments (Lomonosov Ridge and Chukchi Borderland) are irregular, with local short-wavelength features indicating relatively shallow basement. Sea-floor spreading between Scandinavia and Greenland commenced about 58 m.y.b.p. during the reversed period preceding anomaly 24. Spreading between the Lomonosov Ridge and Eurasia also began at this time or possibly somewhat earlier. An extinct spreading axis in the Canada Basin is indicated by gravity and magnetic data. Oceanologica Acta, Special issue (0399-1784) (Gauthier-Villars), 1981 Droits : info:eu-repo/semantics/openAccess http://archimer.ifremer.fr/doc/00245/35663/34171.pdf http://archimer.ifremer.fr/doc/00245/35663/ | Partager |
On the variability of yellow substance in the skagerrak and the kattegat Auteur(s) : Karabashev, Gs Khanaev, Sa Kuleshov, Af Éditeur(s) : Gauthier-Villars Résumé : The variability of ''yellow substance'' in waters of the Skagerrak and the Kattegat was studied during the international Skagex programme in 1990 and 1991. Data on attenuation of light and fluorescence of dissolved organic matter (DOM) in sea water were collected with a spectral transmissiometer and a submersible fluorometer within a depth range of 0-250 m at several stations. More than fifty-fold variations of fluorescence intensity over space and time were due to the combined action of different sources of DOM in the straits. The surface maximum of fluorescing DOM, related to river outflow, was spreading from Oslo fjord to the central Skagerrak in late spring. This maximum may be ecologically important because it diminishes shortwave PAR. In the autumn the brightest DOM fluorescence was found in the Kattegat and along the Norwegian coast in accordance with earlier studies. The local minima of DOM fluorescence are associated with the Jutland current. Both the instability of the current and a ten-fold difference in DOM content between deep layers of the Skagerrak and Kattegat resulted in strong synoptic variability of fluorescence in the transitional area between the straits. Seasonal and synoptic variabilities of ''yellow substance'' were minimal in the southern Kattegat. The vertical gradients of DOM fluorescence were mostly negative at the depth of the thermocline of the open Skagerrak in spring, reaching values of 40-50 % m-1. Fine structure and complex shape were inherent to fluorescence profiles from areas of intensive water mixing. DOM fluorescence closely covaried with attenuation of UV light: the correlation coefficient was + 0.9 for wavelength w <= 350 nm regardless of season. The inverse dependence between wavelength derivative and magnitude of UV attenuation in the straits did not change with season. DOM fluorescence and water salinity were negatively correlated at depths of 25-50 m but they varied independently in the upper 10 m. No significant correlation between fluorescence and nitrates has been found. Estimates of correlation with phosphates ranged from 0.7 to 0.8. In general, the changes of fluorescence were due to variations of DOM content in sea water but not to variability of DOM composition or state. The properties of DOM fluorescence in the Skagerrak-Kattegat area make it a useful natural tracer of water movements suitable for active remote sensing with airborne lidar. Oceanologica Acta (0399-1784) (Gauthier-Villars), 1993 , Vol. 16 , N. 2 , P. 115-125 Droits : info:eu-repo/semantics/openAccess http://archimer.ifremer.fr/doc/00099/21041/18667.pdf http://archimer.ifremer.fr/doc/00099/21041/ | Partager |
Developing New Tourism routes in Coastal Areas Auteur(s) : Flognfeldt, Thor Éditeur(s) : Université des Antilles Études caribéennes Résumé : For Norwegians the name of our country is based on a route - "the way to the North" - and this was not a built route but using of the coast-line itself. As long as the boats and ships were the main means of travel this coastal way - "Nor-way" - was the main communication basis for most people, and for transport of goods. But even in the interior of the country, water, namely rivers and lakes were the main structures for communication. The lakes were most efficient for transport during the cold winters, by sledges on the frozen surfaces.When new means of transport took over most of the traffic, however, sea, lakes and rivers in many ways became obstacles instead of means of communication (?). This gave the government and others new challenges. In the sailing period up to the end of the eighteen hundreds, boats and harbors were the investment focus and sailors were recruited in every community from the age of 15. This meant that in a remote area at the Arctic Circle there were plenty of people who have been sailing around most of the work and could easily be hosts of visitors.This paper is mostly focusing on "how to market and develop these beautiful coastal areas to travelers using either their own cars, bikes, boats or collective transport". What types of geographical units are suited for marketing and developing such areas and how might local producers of accommodation, food & beverages, crafts, activities and arts be included in such organizations. The main focus will be on the work of organization "Kystriksvegen Reiseliv AS" that have been working with these challenges for closed to two decades. What have their successes and obstacles been and how have they been able to operate a sustainable business on a long coastal route with many car ferries, small islands, fjords and mountains and more than twenty municipalities. Pour les Norvégiens, le nom de notre pays est basé sur un itinéraire - «le chemin vers le Nord» - et ce n'était pas une route construite, mais qui repose sur la ligne de côte elle-même. Tant que les bateaux et les navires étaient le principal moyen de déplacement de cette façon côtière – "Nor-way" - était la base principale de communication pour la plupart des gens et pour le transport de marchandises, et même à l'intérieur du pays, l'eau, à savoir les rivières et les lacs étaient les principales structures de communication. Les lacs sont les plus efficaces pour le transport pendant les hivers froids, par traîneaux sur les surfaces gelées.Avec l’arrivée des nouveaux moyens de transport, la mer, les lacs et les rivières à bien des égards, sont devenus obstacles (?). Cela a donné de nouveaux défis au gouvernement. A l’époque de la voile jusqu'à la fin des dix-huit centaines, des bateaux et des ports ont été l'objet d'investissements et les marins ont été recrutés dans toutes les collectivités dès l’âge de 15 ans. Cela signifie que dans une région éloignée dans le cercle arctique, il y avait beaucoup de gens qui étaient navigateurs et pouvaient facilement être les hôtes de visiteurs.Ce document est principalement axé sur «la façon de commercialiser et de développer ces belles régions côtières de voyageurs qui utilisent soit leurs propres voitures, motos, bateaux ou de transports collectifs». Quels types d'unités géographiques sont adaptés pour la commercialisation et le développement de ces régions ? Comment les producteurs locaux d'hébergement, de nourriture et de boissons, d’artisanat, les activités et les arts sont inclus dans ces organisations ? L'accent principal sera mis sur le travail de l’organisation "Reiseliv AS Kystriksvegen" qui a travaillé sur ces défis de fermeture depuis deux décennies. Quelles ont été leurs réussites et obstacles, et comment ont-ils pu exploiter une entreprise durable sur une longue route côtière avec des car-ferries, de nombreuses petites îles, des fjords et des montagnes et plus d’une vingtaine de municipalités. Norvège Droits : info:eu-repo/semantics/openAccess urn:doi:10.4000/etudescaribeennes.5286 http://journals.openedition.org/etudescaribeennes/5286 | Partager |
Structures géologiques de la marge continentale à l'ouest du spitzberg Auteur(s) : Malod, J. Mascle, Jean Éditeur(s) : Springer Résumé : The main structural features of the continental margin off West Spitzberg are outlined. Seaward the Atka ridge has acted like a dam for the eastward-flowing sediments and thus helped to build up a large sedimentary basin, narrowing towards the North. Magnetic and seismic data show that the Atka Valley is probably an active accretion rift valley. These results are in good agreement with the last hypothesis on the opening of the Norwegian Sea. During the Pliocene, a tectonic event may have affected Atka ridge and modified the subsequent sedimentation. [NOT CONTROLLED OCR] L'étude de plusieurs profils de sismique réflexion, magnétisme et gravimétrie a permis de dégager les grands traits de la structure de la marge continentale à l'ouest du Spitzberg. Cette marge est représentée au niveau du talus continental par un bassin sédimentaire dont la largeur se réduit en allant vers le Nord. Ce bassin est limité à l'Ouest par les premiers contreforts de la dorsale d'Atka qui a joué un rôle de barrage pour les apports sédimentaires. Les données de la sismique réflexion et du magnétisme indiquent que la vallée d'Atka est sans doute une zone actuelle d'expansion. Ces résultats sont en bon accord avec le modèle récent d'ouverture de la mer de Norvège. De plus, la dorsale d'Atka semble avoir subi au pliocène un réajustement ayant modifié les processus sédimentaires au niveau de la marge. [OCR NON CONTRÔLE] Marine Geophysical Researches (Springer), 1975 , Vol. 2 , N. 3 , P. 215-229 Droits : Springer http://archimer.ifremer.fr/doc/1975/publication-5439.pdf http://archimer.ifremer.fr/doc/00000/5439/ | Partager |
Seal bypass at the Giant Gjallar Vent (Norwegian Sea): Indications for a new phase of fluid venting at a 56-Ma-old fluid migration system Auteur(s) : Dumke, Ines Berndt, Christian Crutchley, Gareth J. Krause, Stefan Liebetrau, Volker GAY, Aurélien Couillard, Melanie Auteurs secondaires : GEOMAR - Helmholtz Centre for Ocean Research [Kiel] (GEOMAR) Bassins ; Géosciences Montpellier ; Université des Antilles et de la Guyane (UAG) - Institut national des sciences de l'Univers (INSU - CNRS) - Université de Montpellier (UM) - Centre National de la Recherche Scientifique (CNRS) - Université des Antilles et de la Guyane (UAG) - Institut national des sciences de l'Univers (INSU - CNRS) - Université de Montpellier (UM) - Centre National de la Recherche Scientifique (CNRS) Géosciences Montpellier ; Université des Antilles et de la Guyane (UAG) - Institut national des sciences de l'Univers (INSU - CNRS) - Université de Montpellier (UM) - Centre National de la Recherche Scientifique (CNRS) Éditeur(s) : HAL CCSD Elsevier Résumé : International audience The Giant Gjallar Vent (GGV), located in the Vøring Basin off mid-Norway, is one of the largest (~ 5 × 3 km) vent systems in the North Atlantic. The vent represents a reactivated former hydrothermal system that formed at about 56 Ma. It is fed by two pipes of 440 m and 480 m diameter that extend from the Lower Eocene section up to the Base Pleistocene Unconformity (BPU). Previous studies based on 3D seismic data differ in their interpretations of the present activity of the GGV, describing the system as buried and as reactivated in the Upper Pliocene. We present a new interpretation of the GGV's reactivation, using high-resolution 2D seismic and Parasound data. Despite the absence of geochemical and hydroacoustic indications for fluid escape into the water column, the GGV appears to be active because of various seismic anomalies which we interpret to indicate the presence of free gas in the subsurface. The anomalies are confined to the Kai Formation beneath the BPU and the overlying Naust Formation, which are interpreted to act as a seal to upward fluid migration. The seal is breached by focused fluid migration at one location where an up to 100 m wide chimney-like anomaly extends from the BPU up to the seafloor. We propose that further overpressure build-up in response to sediment loading and continued gas ascent beneath the BPU will eventually lead to large-scale seal bypass, starting a new phase of venting at the GGV. ISSN: 0025-3227 hal-01054142 https://hal.archives-ouvertes.fr/hal-01054142 DOI : 10.1016/j.margeo.2014.03.006 | Partager |
Cessation/reactivation of polygonal faulting and effects on fluid flow in the Voring Basin, Norwegian Margin Auteur(s) : Gay, Aurelien Berndt, C. Auteurs secondaires : Géosciences Montpellier ; Université des Antilles et de la Guyane (UAG) - Institut national des sciences de l'Univers (INSU - CNRS) - Université de Montpellier (UM) - Centre National de la Recherche Scientifique (CNRS) National Oceanography Centre [Southampton] (NOC) ; University of Southampton [Southampton] Éditeur(s) : HAL CCSD Geological Society Résumé : Polygonal faults, mainly oriented N50, N110 and N170, are abundant in the upper part of the mud-dominated Kai Formation (upper Miocene-lower Pliocene) of the Voting Basin. A second, less-developed tier of polygonal faults, oriented N20, N80 and N140, exists at the base of the overlying Naust Formation (upper Pliocene-Present). The faults abruptly terminate upward below a thick interval of debris flows. We propose a dynamic model in which: (1) the development of polygonal faults discontinues temporarily as a result of a change in regional sedimentation, leading to inactive polygonal faults; (2) rapid emplacement of debris flows in the late Pleistocene creates a new interval of polygonal faults in the lower part of the Naust Formation immediately beneath the debris flow and some faults penetrate into the underlying Kai Formation; (3) some polygonal faults within the Kai Formation are reactivated and propagated upward into the base of the Naust Formation. The high interconnectivity between faulted layers allows the fluids to reach shallower depths, forming well-expressed pipes and pockmarks on the sea floor. The model of cessation/reactivation of polygonal faults constrains the sealing capacity of sedimentary cover over the reservoirs and helps to reconstruct the fluid migration history through the sedimentary column. ISSN: 0016-7649 hal-00406645 https://hal.archives-ouvertes.fr/hal-00406645 DOI : 10.1144/0016-76492005-178 | Partager |