Your search keyword '"Edouard Ravier"' showing total 18 results

1. WITHDRAWN: Surging vs. streaming: the dual fast ice flow response to variations in efficiency of the subglacial drainage landsystem

Author

Edouard, Ravier, primary, Lelandais, Thomas, additional, Vérité, Jean, additional, and Bourgeois, Olivier, additional

Published

2022

2. Ribbed bedforms, markers of palaeo-ice stream margins, basal meltwater drainage and ice flow dynamic

Author

Edouard Ravier, Nigel Atkinson, David Peigné, Olivier Bourgeois, Stéphane Pochat, Chris D. Clark, Thomas Lelandais, Paul Bessin, Jean Vérité, and Régis Mourgues

Subjects

Basal (phylogenetics), Bedform, Ice stream, Drainage, Meltwater, Geomorphology, Geology

Abstract

Over the three last decades, great efforts have been undertaken by the glaciological community to characterize the behaviour of ice streams and better constrain the dynamics of ice sheets. Studies of modern ice stream beds reveal crucial information on ice-meltwater-till-bedrock interactions, but are restricted to punctual observations limiting the understanding of ice stream dynamics as a whole. Consequently, theoretical ice stream landsystems derived from geomorphological and sedimentological observations were developed to provide wider constraints on those interactions on palaeo-ice stream beds. Within these landsystems, the spatial distribution and formation processes of subglacial periodic bedforms transverse to the ice flow direction – ribbed bedforms – remain unclear. The purpose of this study is (i) to explore the conditions under which these ribbed bedforms develop and (ii) to constrain their spatial organisation along ice stream beds. We performed physical experiments with silicon putty (to simulate the ice), water (to simulate the meltwater) and sand (to simulate a soft sedimentary bed) to model the dynamics of ice streams and produce analog subglacial landsystems. We compare the results of these experiments with the distribution of ribbed bedforms on selected examples of palaeo-ice stream beds of the Laurentide Ice Sheet. Based on this comparison, we can draw several conclusions regarding the significance of ribbed bedforms in ice stream contexts:Ribbed bedforms tend to form where the ice flow undergoes high velocity gradients and the ice-bed interface is unlubricated. Where the ribs initiate, we hypothesize that high driving stresses generate high basal shear stresses, accommodated through bed deformation of the active uppermost part of the bed. Ribbed bedforms can develop subglacially from a flat sediment surface beneath shear margins (i.e., lateral ribbed bedforms) and stagnant lobes (i.e., submarginal ribbed bedforms) of ice streams, while they do not develop beneath surging lobes. The orientation of ribbed bedforms reflects the local stress state along the ice-bed interface, with transverse bedforms formed by compression beneath ice lobes and oblique bedforms formed by transgression below lateral shear margins. The development of ribbed bedforms where the ice-bed interface is unlubricated reveals distinctive types of discontinuous basal drainage systems below shear and lobe margins: linked-cavities and efficient meltwater channels respectively. Ribbed bedforms could thus constitute convenient geomorphic markers for the reconstruction of palaeo-ice stream margins, palaeo-ice flow dynamics and palaeo-meltwater drainage characteristics.

Published

2021

3. MELTWATER LANDFORM PERSPECTIVES ON SUBGLACIAL HYDROLOGICAL PROCESSES: INSIGHTS FROM HIGH-RESOLUTION MAPPING IN NORTHERN CANADA

Author

Felix Ng, Stephen J. Livingstone, Jean Vérité, Christopher Clark, Isabelle McMartin, Robert D. Storrar, Emma L. M. Lewington, Nico Dewald, Andrew Sole, and Edouard Ravier

Subjects

geography, geography.geographical_feature_category, Landform, High resolution, Physical geography, Meltwater, Geology

Published

2021

4. The milankovitch fingerprint on the distribution and thickness of bedding-parallel veins (beef) in source rocks

Author

Lucie Tupinier, Alain Zanella, Pierre Pellenard, Edouard Ravier, Mathieu Martinez, Laboratoire de Planétologie et Géodynamique [UMR 6112] (LPG), Université d'Angers (UA)-Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), Université de Nantes (UN)-Université de Nantes (UN)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Géosciences Rennes (GR), Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES), Biogéosciences [UMR 6282] [Dijon] (BGS), Centre National de la Recherche Scientifique (CNRS)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR), Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Centre National de la Recherche Scientifique (CNRS), Biogéosciences [UMR 6282] (BGS), Université de Bourgogne (UB)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique

Subjects

010504 meteorology & atmospheric sciences, Bedding, Stratigraphy, Geochemistry, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, Structural basin, 010502 geochemistry & geophysics, Oceanography, Source rocks, 01 natural sciences, Diagenesis, Milankovitch cycles, Astroclimatic forcing, 0105 earth and related environmental sciences, Total organic carbon, Geology, Bedding-parallel veins, Geophysics, Source rock, Economic Geology, Sedimentary rock, Beef, Oil shale

Abstract

International audience; Bed-parallel, mineralized fractures are common in source rocks and generally consist in mm to cm thick veins developed parallel to bedding known as beef or bedding-parallel veins. Considering they can form a dense network of mechanical discontinuities, the prediction of beef distribution is a major issue impacting shale reservoir production. Beef distribution is predominantly controlled by the lithological characteristics of source rocks and we here decipher the relation between mineralogical and chemical proxies controlled by orbital parameters and distribution of the beef along a Late Jurassic section of the well-known Vaca Muerta Formation source rock in the Neuquén Basin. Using multiple proxies collected along the beef-rich Huncal section, we show that Milankovitch cycles rule the mineralogical evolution and beef distribution in these organic-rich mudrocks. Cycles inferred from the statistical treatment of sedimentary (magnetic susceptibility, elemental and mineralogical ratios), biogenic (total organic carbon) and diagenetic (beef distribution and thickness) signals revealed indeed the influence of an astroclimatic fingerprint in sediments and on processes controlling mineralized fracture generation and distribution. The astroclimatic memory recorded in many source rocks worldwide is therefore envisaged as a suitable proxy for the prediction of mineralized fracture distribution

Published

2020

5. Book review

Author

Edouard Ravier

Subjects

Paleontology, Geology

Published

2021

6. Ribbed bedforms in palaeo-ice streams reveal shear margin positions, lobe shutdown and the interaction of meltwater drainage and ice velocity patterns

Author

David Peigné, Olivier Bourgeois, Nigel Atkinson, Régis Mourgues, Chris D. Clark, Paul Bessin, Thomas Lelandais, Jean Vérité, Edouard Ravier, and Stéphane Pochat

Subjects

geography, geography.geographical_feature_category, Bedform, Ice stream, STREAMS, 15. Life on land, Spatial distribution, Lobe, medicine.anatomical_structure, Shear (geology), 13. Climate action, medicine, Ice sheet, Meltwater, Geomorphology, Geology

Abstract

Conceptual ice stream landsystems derived from geomorphological and sedimentological observations provide constraints on ice-meltwater-till-bedrock interactions on palaeo-ice stream beds. Within these landsystems, the spatial distribution and formation processes of ribbed bedforms remain unclear. We explore the conditions under which these bedforms develop and their spatial organisation with (i) an experimental model that reproduces the dynamics of ice streams and subglacial landsystems and (ii) an analysis of the distribution of ribbed bedforms on selected examples of paleo-ice stream beds of the Laurentide Ice Sheet. We find that a specific kind of ribbed bedforms can develop subglacially from a flat bed beneath shear margins (i.e., lateral ribbed bedforms) and lobes (i.e., submarginal ribbed bedforms) of ice streams. These bedforms initiate where the ice flow undergoes high velocity gradients and the ice-bed interface is unlubricated. We suggest that (i) their orientation reflects the local stress state along the ice-bed interface and (ii) their development reveals distinctive types of subglacial drainage patterns below these two kinds of margins: linked-cavities and efficient meltwater channels respectively. These ribbed bedforms are thus convenient geomorphic markers to reconstruct palaeo-ice stream margins and constrain palaeo-ice flow dynamics and palaeo-meltwater drainage characteristics.

Published

2020

7. Variations in hydraulic efficiency of the subglacial drainage landsystem control surging and streaming regimes of outlet glaciers

Author

Édouard Ravier, Thomas Lelandais, Jean Vérité, and Olivier Bourgeois

Subjects

Drainage efficiency, experimental modelling, ice stream, ice surge, palaeoglaciology, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999

Abstract

Surging and streaming of glaciers are modulated by meltwater availability and pressure which controls mechanical coupling at their beds. Using laboratory-scale experimental modelling and palaeoglaciological mapping, we explore how subglacial drainage landsystems control meltwater drainage efficiency and ice flow velocities for terrestrial-based ice lobes resting on flat horizontal and permeable beds. Two end-members regimes, surging and streaming, appear in our experiments. The surge regime is characterised by a rapid increase of drainage efficiency through development of tunnel valleys and their tributaries, thus reducing the duration of ice flow speed-up events by lowering water pressures and increasing ice-bed coupling. Tunnel valleys connected to ice lobe margins, submarginal thrust moraines, reduced ice lobe extensions and ephemeral shear margins are the most distinctive characteristics of this regime. The stream regime is characterised by disconnected channels of smaller dimensions unable to evacuate all the meltwater: this prolonged drainage inefficiency leads to sustained high ice flow velocity and steady shear margins. Small and rectilinear meltwater channels devoid of tributaries, often disconnected from ice lobe margins, and lineation swarms are diagnostic of this regime.

Published

2023

8. Experimental modeling of pressurized subglacial water flow: Implications for tunnel valley formation

Author

Régis Mourgues, Stéphane Pochat, Olivier Bourgeois, Pierre Strzerzynski, Thomas Lelandais, and Edouard Ravier

Subjects

geography, geography.geographical_feature_category, Tunnel valley, 010504 meteorology & atmospheric sciences, Water flow, Landform, 010502 geochemistry & geophysics, 01 natural sciences, Geophysics, Erosion, Drainage, Ice sheet, Meltwater, Geomorphology, Groundwater, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Tunnel valleys are elongated hollows commonly found in formerly glaciated areas and interpreted as resulting from subglacial meltwater erosion beneath ice sheets. Over the past two decades, the number of studies of terrestrial tunnel valleys has continuously increased and their existence has been hypothesized also on Mars, but their formation mechanisms remain poorly understood. We introduce here, an innovative experimental approach to examine erosion by circulation of pressurized meltwater within the substratum and at the silicon-substratum interface. We used a permeable substratum (sand) partially covered by a viscous, impermeable and transparent lid (silicon putty), below which we applied a central injection of pure water. Low water pressures led to groundwater circulation in the substratum only, while water pressures exceeding the sum of the glaciostatic and lithostatic pressures led to additional water circulation and formation of drainage landforms at the cap-substratum interface. The formation of these drainage landforms was monitored through time and their shapes were analyzed from digital elevation model obtained by stereo-photogrammetry. The experimental landforms include valleys that are similar to natural tunnel valleys in their spatial organization and in a number of diagnostic morphological criteria, such as undulating longitudinal profiles and “tunnel” shapes. These results are consistent with the hypothesis that overpressurized subglacial water circulation controls the formation of tunnel valleys.

Published

2016

9. A kinematic unifying theory of microstructures in subglacial tills

Author

John Menzies, J.J.M. van der Meer, and Edouard Ravier

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Stratigraphy, Stack (geology), Geology, Deformation (meteorology), 010502 geochemistry & geophysics, Microstructure, 01 natural sciences, Brittleness, Rheology, Deformation bands, Shear zone, Petrology, Structural geology, Geomorphology, 0105 earth and related environmental sciences

Abstract

A key aspect of all subglacial tills is the nature and form of microstructures present. Microstructures are symptomatic of repeated deformation phases prior to, during, and after emplacement. Critical to understanding microstructures in subglacial tills are the probable interrelationship that exists between all of these structures. In analyzing subglacial tills a kinematic deformation relationship can be observed existing between all microstructures. Based upon the rheological conditions at the ice basal interface, a close evolving paleo-strain link can be established that relates levels of deformation to all subglacial till microstructures. As subglacial till undergoes strain during transport and emplacement involving fluctuating conditions of porewater content, percentage of clays present, and changing thermal circumstances, a series of microstructures sequentially evolve. Initially, brittle edge-to-edge grain events occur, followed by grains stack development, often allied closely in time, with microshear formation as the sediment deforms, and is consequently followed by the development of ductile rotation structures. Likewise, deformation bands, shear zone formation, and typically “isolated” domains form. As strain and other factors vary over time so many of these microstructures may be obliterated, altered, or re-oriented. Much remains to be understood regarding paleo-strain conditions and subglacial deformation but a first step has been establishing this temporal sequence of microstructure stage development and thus achieving a theory that unifies these disparate microstructures observed in all subglacial tills.

Published

2016

10. A case study in the New York Drumlin Field, an investigation using microsedimentology, resulting in the refinement of a theory of drumlin formation

Author

Kaleb G. Wagner, Edouard Ravier, Dale P. Hess, John Menzies, and J M Rice

Subjects

geography, Décollement, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Advection, Stratigraphy, Ephemeral key, Lead (sea ice), Drumlin, Nucleation, Sediment, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Perturbation (geology), Geomorphology, 0105 earth and related environmental sciences

Abstract

The formation of drumlins remains a major enigma. It is accepted that drumlins form under active temperate ice most likely within a soft sediment deforming bed at ephemeral ‘sticky points’. These ‘sticky points’ likely lead to the causative mechanism around which sediment nucleation occurs. The critical question is under what conditions and where and how do ‘sticky spots’ form. A comparative investigation of a drumlin and mega-flute in the New York Drumlin Field, as a case study, demonstrates that rheological and sedimentological tills from these different forms are similar. It is not, therefore, rheological change alone that must account for drumlin shape and form but likely the advective subglacial basal sediment flux rate at the ice bed. The rate of sediment motion between the upper interface at the ice–sediment bed boundary, and the lower immobile sediment at depth is crucial. At the lower decollement between the mobile and immobile sediment units, within the deforming sediment package, proto-drumlin nucleation is likely to occur and develop into a streamlined form. The trigger mechanism for such a perturbation is a derivative of sediment rheology and sediment flux rate driven by the overlying ice stresses. Recent evidence from Antarctica lends credence to this new hypothesis that can be related to all drumlins formed under temperate, soft sediment deforming bed conditions.

Published

2016

11. Glaciohydrogeology

Author

Edouard Ravier and Jean Francois Buoncristiani

Subjects

010504 meteorology & atmospheric sciences, 010502 geochemistry & geophysics, 01 natural sciences, 0105 earth and related environmental sciences

Published

2018

12. Porewater pressure control on subglacial soft sediment remobilization and tunnel valley formation: A case study from the Alnif tunnel valley (Morocco)

Author

Sylvain Clerc, John Menzies, Michel Guiraud, Bastien Goupy, Eric Portier, Edouard Ravier, Jean-François Buoncristiani, Biogéosciences [Dijon] ( BGS ), Université de Bourgogne ( UB ) -AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Centre National de la Recherche Scientifique ( CNRS ), Department of Earth Sciences, Brock University [Canada], Exploration Production International, Gaz de France Suez ( GDF Suez ), GDF Suez, ANR SeqStrat-Ice 12-B506-0014,ANR SeqStrat-Ice 12-B506-0014, Biogéosciences [UMR 6282] [Dijon] (BGS), Centre National de la Recherche Scientifique (CNRS)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, Department of Earth Sciences [St. Catharines], and Gaz de France Suez (GDF Suez)

Subjects

Subglacial, geography, Tunnel valley, geography.geographical_feature_category, Sediment remobilization, Stratigraphy, Ordovician, [ SDU.STU.GL ] Sciences of the Universe [physics]/Earth Sciences/Glaciology, Geochemistry, Geology, [ SDU.STU.ST ] Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Porewater pressure, Conglomerate, [SDU.STU.ST]Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Clastic rock, Sedimentary rock, [SDU.STU.GL]Sciences of the Universe [physics]/Earth Sciences/Glaciology, Glacial period, Hydrofracturing, Ice sheet, Meltwater, Intraclasts, Geomorphology

Abstract

25 pages; International audience; In the eastern part of the Moroccan Anti-Atlas Mountains, the Alnif area exposes a buried Ordovician glacial tunnel valley (5 km wide, 180 m deep) cut into preglacial marine sediments. The preglacial sedimentary sequence, deposited in a marine environment, is characterized by a typical "layer-cake" configuration of permeable (sand) and impermeable (clays and early-cemented sandstones) layers. At the base of the tunnel valley, a discontinuous and fan-shaped glacial conglomeratic unit 10 to 15 m thick occurs, erosively deposited over preglacial marine sediments. The conglomeratic unit is composed of preglacial intraclasts embedded within a sandy matrix. Both preglacial and glacial sediments display soft-sediment deformation structures related to fluctuating porewater pressure and strain rates, including ball structures, clastic dykes, fluted surfaces, turbate structures, folds and radial extensional normal faults. Kinematics and relative chronology of these deformation structures allow the role of porewater pressure in the process of tunnel valley genesis on soft beds to be understood. The tunnel valley formed through multi-phased episodes of intense hydrofracturing of the preglacial bed due to overpressure development promoted by ice sheet growth over the study area, and configuration of the substratum. Transport of the resulting conglomerate composed of preglacial intraclasts and fluidized sand occurred through subglacial pipes. The brecciated material is deposited in subglacial cavities, forming fans of massive sandy conglomerate infilling the base of the tunnel valley. The conglomeratic unit is partially reworked by meltwater and exhibits intense softsediment deformations, due to episodes of ice-bed coupling and decoupling.

Published

2014

13. Sedimentological and deformational criteria for discriminating subglaciofluvial deposits from subaqueous ice-contact fan deposits: A Pleistocene example (Ireland)

Author

Eric Portier, Sylvain Clerc, Jean-François Buoncristiani, Michel Guiraud, John Menzies, and Edouard Ravier

Subjects

Sedimentary depositional environment, Stratigraphy, Ice stream, Subaqueous fan, Facies, Geochemistry, Deglaciation, Geology, Sedimentary rock, Meltwater, Geomorphology, Soft-sediment deformation structures

Abstract

A pit located near Ballyhorsey, 28 km south of Dublin (eastern Ireland), displays subglacially deposited glaciofluvial sediments passing upwards into proglacial subaqueous ice-contact fan deposits. The coexistence of these two different depositional environments at the same location will help with differentiation between two very similar and easily confused glacial lithofacies. The lowermost sediments show aggrading subglacial deposits indicating a constrained accommodation space, mainly controlled by the position of an overlying ice roof during ice-bed decoupling. These sediments are characterized by vertically stacked tills with large lenses of tabular to channelized sorted sediments. The sorted sediments consist of fine-grained laminated facies, cross-laminated sand and channelized gravels, and are interpreted as subglaciofluvial sediments deposited within a subglacial de-coupled space. The subglaciofluvial sequence is characterized by glaciotectonic deformation structures within discrete beds, triggered by fluid overpressure and shear stress during episodes of ice/bed recoupling (clastic dykes and folds). The upper deposits correspond to the deposition of successive hyperpycnal flows in a proximal proglacial lake, forming a thick sedimentary wedge erosively overlying the subglacial deposits. Gravel facies and large-scale trough bedding sand are observed within this proximal wedge, while normally graded sand beds with developed bedforms are observed further downflow. The building of the prograding ice-contact subaqueous fan implies an unrestricted accommodation space and is associated with deformation structures related to gravity destabilization during fan spreading (normal faults). This study facilitates the recognition of subglacial/submarginal depositional environments formed, in part, during localized ice/bed coupling episodes in the sedimentary record. The sedimentary sequence exposed in Ballyhorsey permits characterization of the temporal framework of meltwater production during deglaciation, the impact on the subglacial drainage system and the consequences on the Irish Sea Ice Stream flow mechanisms.

Published

2014

14. Clastic injection dynamics during ice front oscillations: A case example from Sólheimajökull (Iceland)

Author

John Menzies, Eric Portier, Jean-François Buoncristiani, Edouard Ravier, Michel Guiraud, Biogéosciences [Dijon] ( BGS ), Université de Bourgogne ( UB ) -AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Centre National de la Recherche Scientifique ( CNRS ), Department of Earth Sciences, Brock University [Canada], Exploration Production International, Gaz de France Suez ( GDF Suez ), and Funding from GDF Suez.

Subjects

geography, geography.geographical_feature_category, Deformation (mechanics), Outcrop, Stratigraphy, Front (oceanography), Iceland, [ SDU.STU.GL ] Sciences of the Universe [physics]/Earth Sciences/Glaciology, Geology, Overburden pressure, [ SDU.STU.ST ] Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Palaeo-ice dynamics, Glacial sedimentology, Sill, Clastic rock, Micromorphology, Clastic injections, Glacial period, Hydrofracture, Petrology, Geomorphology, Holocene

Abstract

18 pages; International audience; Soft-sediment deformation structures are being increasingly used as a tool for reconstructing palaeoenvironments and porewater pressure conditions in glacial settings. However, the potential of hydrofractures and clastic injections in the reconstruction of ice dynamics remains poorly constrained. This paper presents the results of a detailed study of a clastic injection network outcropping in the Sólheimajökull forefield (South Iceland). Sedimentological descriptions are combined with microscopic to macroscopic analyses of clastic injection geometries, sediment-fills, and cross-cutting relationships. The 250 m long and 20 m high exposure observed along the east flank of the proglacial braid plain displays alternating glaciofluvial sediments and subglacial tills, illustrating oscillations of the ice margins. These sediments are cross-cut by a dense network of injection composed of dykes propagating upward or downward, sills, and stepped sills. These clastic injections result from processes of hydrofracturing and the sediment-fills in these hydrofractures are generally laminated with an increase of grain-size towards the centre of the injections. These fracture-fill characteristics suggest multiple injection phases within the hydrofractures and an increase of porewater pressure over time. Five main generations of clastic injections showing different senses of propagation and dip directions are determined and are interpreted as forming in different environments. Per descensum clastic dykes dipping down ice demonstrate subglacial hydrofracturing underneath flowing-ice, while sills and per ascensum clastic dykes form in submarginal to marginal environments due to the decrease of ice overburden pressure. The integration of these results with the sedimentological characteristics allows the Holocene ice front oscillations of the Sólheimajökull to be reconstructed. This study demonstrates the importance of hydrofracture systems and their sediment-fills in the reconstruction of palaeo-ice dynamics.

Published

2015

15. Micro- to macro-scale internal structures, diagenesis and petrophysical evolution of injectite networks in the Vocontian Basin (France): implications for fluid flow

Author

Emmanuelle Vennin, Eric Portier, Arthur Guillien, Edouard Ravier, Michel Guiraud, Jean-François Buoncristiani, Biogéosciences [Dijon] ( BGS ), AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université de Bourgogne ( UB ) -Centre National de la Recherche Scientifique ( CNRS ), Exploration Production International, Gaz de France Suez ( GDF Suez ), and Funding of this study from GDF Suez.

Subjects

Stratigraphy, Mineralogy, Cataclastic rock, Oceanography, [ SDU.STU.ST ] Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Cretaceous, Diagenesis, chemistry.chemical_compound, Petrology, Porosity, Lithification, Deformation structures, [ SDU.STU.PE ] Sciences of the Universe [physics]/Earth Sciences/Petrography, Petrophysics, Geology, Vocontian Basin, Geophysics, chemistry, Fluid flow, Minus-cement porosity, Carbonate, Economic Geology, Deformation bands, Sedimentary rock, Injectites

Abstract

27 pages; International audience; This study discusses the characteristics of two Lower Cretaceous injectite networks in the Vocontian Basin (SE France) using combined structural, sedimentary, diagenetic, and petrophysical analyses. Internal structures, at both the macro- and micro-scale, and diagenetic phases characterising these injectite networks have been described. Simultaneously, precementation porosity values were estimated and parameters controlling the geographical distributions of these values were analysed and statistically tested. All of the data were integrated so as to reconstruct the spatial evolution of the porosity from the time of injection to modern times through five major phases. (1) The injection of fluidised sand into hydrofractures combined with high porewater pressure results in high porosity (up to 53%) where injectite thickness and distance to the parent beds exert a primary control. (2) Early deformational imprints, including elutriation structures and cataclastic deformation bands, cause a reduction in the localised porosity. (3) At low burial depths, the intruded sand becomes pervasively cemented by carbonate and is associated with a drastic decrease in porosity (

Published

2015

16. Does porewater or meltwater control tunnel valley genesis? Case studies from the Hirnantian of Morocco

Author

Sylvain Clerc, Eric Portier, Michel Guiraud, Jean-François Buoncristiani, John Menzies, Edouard Ravier, Biogéosciences [UMR 6282] [Dijon] (BGS), Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Centre National de la Recherche Scientifique (CNRS), Department of Earth Sciences [St. Catharines], Brock University [Canada], Exploration Production International, Gaz de France Suez (GDF Suez), GDF Suez, ANR-12-BS06-0014,SeqStrat-Ice,Les glaciations du passé: leçons pour un modèle de stratigraphie séquentielle dédié aux systèmes glaciaires(2012), Biogéosciences [Dijon] ( BGS ), AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université de Bourgogne ( UB ) -Centre National de la Recherche Scientifique ( CNRS ), Department of Earth Sciences, Gaz de France Suez ( GDF Suez ), and ANR-12-BS06-0014,SeqStrat-Ice,Les glaciations du passé: leçons pour un modèle de stratigraphie séquentielle dédié aux systèmes glaciaires ( 2012 )

Subjects

Tunnel valley, Meltwater, Ice stream, Geochemistry, [ SDU.STU.GL ] Sciences of the Universe [physics]/Earth Sciences/Glaciology, Ordovician, Paleontology, Sediment, 15. Life on land, Oceanography, [ SDU.STU.ST ] Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Porewater pressure, Clastic rock, [SDU.STU.ST]Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Erosion, Sedimentary rock, Glacial period, [SDU.STU.GL]Sciences of the Universe [physics]/Earth Sciences/Glaciology, Ice streams, Geomorphology, Ecology, Evolution, Behavior and Systematics, Geology, Earth-Surface Processes

Abstract

18 pages; International audience; Several Ordovician tunnel valleys are exposed in the Moroccan Anti-Atlas Mountains, including the Alnif and the Foum Larjamme tunnel valleys, located 150 km away from each other. Sedimentological and deformational analyses of these two glacial troughs reveal that differing processes lead to their formations.The Alnif tunnel valley contains numerous deformation structures within sediments both below and above the main glacial erosion contact surface. Ball-structures and clastic dykes occur within preglacial sediments down to 35 m below glacial incisions while overlying glacial sediments contain fluted surfaces, clastic dykes, dewatering structures, folds and radial step normal faults. The characteristics of the Alnif tunnel valley can be explained by a porewater pressure-driven model of formation where the localized increase of basal shear stress and porewater pressure underneath subglacial deforming zones lead to the development of a dense hydrofracture network in the preglacial bed. These processes of hydraulic brecciation promoted subglacial remobilization of the preglacial material and contributed to the formation of the tunnel valley.The Foum Larjamme tunnel valley displays undisturbed preglacial sediments and few dewatering structures at the base of the glacial sedimentary infill which suggests relatively low porewater pressures within the tunnel valley during formation. This second type of tunnel valley where porewater pressure remained relatively low appears to have been formed by meltwater erosion. The undulating base of the Foum Larjamme tunnel valley implies progressive erosion by a stable subglacial braided network of Nye-channels, or alternatively by channels migrating laterally during episodic minor subglacial outbursts.These two tunnel valleys highlight the regional variability of processes involved in the formation of tunnel valleys. The distribution of palaeo-ice streams in North Africa illustrate that morphologies and processes involved in the formation of tunnel valleys vary between ice stream and inter-ice stream zones due to variations in meltwater availability, the topography and bed lithological properties.

Published

2015

17. Analog modelling of subglacial water flow : implications on the relations between tunnel valleys and glacial dynamics

Author

Lelandais, Thomas, Laboratoire de Planétologie et Géodynamique [UMR 6112] (LPG), Université d'Angers (UA)-Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), Université de Nantes (UN)-Université de Nantes (UN)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Université du Maine, Régis Mourgues, Edouard Ravier, and Stéphane Pochat

Subjects

Subglacial meltwater drainage system, Glacial system, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, Environnement sous-glaciaire, Vallées tunnels, Modélisation analogique, Système de drainage d'eau de fonte sous-glaciaire, Écoulement d'eau pressurisée, Pressurized water flow, Subglacial environment, Tunnel valleys, Analog modelling, Système glaciaire, Ice streams

Abstract

Tunnel valleys are major components of the subglacial meltwater drainage system. The inaccessibility of modern subglacial environments reduces our knowledge on the mechanisms involved in tunnel valleys formation, the parameters controlling their morphology and their influence on ice-sheet dynamics. This work presents a new experimental approach aiming to better assess the processes of tunnel valleys development. This approach relies on the development of a new experimental device simulating a pressurized water flow within a porous and permeable substratum underneath a viscous layer simulating the ice-sheet. The main results of the experiments conducted with this device have demonstrated the influence of both substratum properties and meltwater drainage on tunnel valleys formation and morphology. Using the device, we first manage to reproduce tunnel valley systems experimentally. Analyses conducted on these valleys experimental valleys suggest that the substratum topography and meltwater production play a key role on tunnel valleys genesis and morphology. Two tunnel valleys morphotypes have been identified, each one being charaterized by a unique morphology and mechanism of formation. Monitoring of the experimental ice sheet during tunnel valley formation shows close relationship between tunnel valleys development and "ice streams" dynamics. The evolution of tunnel valley drainage capacity seems to have a strong influence on ice sheet stability by regulating ice flux within "ice stream corridors".; Les vallées tunnels sont les structures de drainage d'eau de fonte les plus imposantes de l'environnement sous-glaciaire. L'inaccessibilité des milieux sous-glaciaires actuels limitent nos connaissances des mécanismes impliqués dans leurs formations, des paramètres contrôlant leur morphologie et de leurs influences sur la dynamique glaciaire. Ce travail présente une nouvelle approche expérimentale visant à mieux contraindre la formation et le fonctionnement des systèmes de vallées tunnels. Cette approche repose sur le développement d'un nouveau dispositif expérimental simulant la circulation d'eau pressurisée au sein d'un substrat poreux et perméable sous une couverture visqueuse. Les résultats des expériences menées avec ce dispositif ont permis de déterminer des relations étroites entre les paramètres du substrat et les modalités de l'écoulement d'eau sur la formation et la morphologie des vallées tunnels. Les résultats issus des expériences démontrent que ce dispositif permet de recréer des systèmes de vallées tunnels. L'étude de ces vallées expérimentales suggèrent que la topographie du substrat et la production d'eau de fonte joue un rôle primordial sur la genèse des vallées tunnels et sur leurs morphologies. Deux morphotypes de vallées tunnels ont pu être identifiés avec des morphologies et des mécanismes de formation indépendants. L'analyse de la dynamique de la calotte sus-jacente a permis de mettre en évidence un lien étroit entre le développement des vallées tunnels et la dynamique des "ice streams". L'évolution de la capacité de drainage des vallées tunnels semble contrôler la dynamique glaciaire en régulant le flux de glace transitant dans les "ice streams".

Published

2018

18. Modélisation analogique des écoulements d'eau sous-glaciaire : implications sur les relations entre vallées tunnels et dynamique glaciaire

Author

Lelandais, Thomas, Laboratoire de Planétologie et Géodynamique [UMR 6112] (LPG), Université d'Angers (UA)-Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), Université de Nantes (UN)-Université de Nantes (UN)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Université du Maine, Régis Mourgues, Edouard Ravier, and Stéphane Pochat

Subjects

Subglacial meltwater drainage system, Glacial system, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, Environnement sous-glaciaire, Vallées tunnels, Modélisation analogique, Système de drainage d'eau de fonte sous-glaciaire, Écoulement d'eau pressurisée, Pressurized water flow, Subglacial environment, Tunnel valleys, Analog modelling, Système glaciaire, Ice streams

Abstract

Tunnel valleys are major components of the subglacial meltwater drainage system. The inaccessibility of modern subglacial environments reduces our knowledge on the mechanisms involved in tunnel valleys formation, the parameters controlling their morphology and their influence on ice-sheet dynamics. This work presents a new experimental approach aiming to better assess the processes of tunnel valleys development. This approach relies on the development of a new experimental device simulating a pressurized water flow within a porous and permeable substratum underneath a viscous layer simulating the ice-sheet. The main results of the experiments conducted with this device have demonstrated the influence of both substratum properties and meltwater drainage on tunnel valleys formation and morphology. Using the device, we first manage to reproduce tunnel valley systems experimentally. Analyses conducted on these valleys experimental valleys suggest that the substratum topography and meltwater production play a key role on tunnel valleys genesis and morphology. Two tunnel valleys morphotypes have been identified, each one being charaterized by a unique morphology and mechanism of formation. Monitoring of the experimental ice sheet during tunnel valley formation shows close relationship between tunnel valleys development and "ice streams" dynamics. The evolution of tunnel valley drainage capacity seems to have a strong influence on ice sheet stability by regulating ice flux within "ice stream corridors".; Les vallées tunnels sont les structures de drainage d'eau de fonte les plus imposantes de l'environnement sous-glaciaire. L'inaccessibilité des milieux sous-glaciaires actuels limitent nos connaissances des mécanismes impliqués dans leurs formations, des paramètres contrôlant leur morphologie et de leurs influences sur la dynamique glaciaire. Ce travail présente une nouvelle approche expérimentale visant à mieux contraindre la formation et le fonctionnement des systèmes de vallées tunnels. Cette approche repose sur le développement d'un nouveau dispositif expérimental simulant la circulation d'eau pressurisée au sein d'un substrat poreux et perméable sous une couverture visqueuse. Les résultats des expériences menées avec ce dispositif ont permis de déterminer des relations étroites entre les paramètres du substrat et les modalités de l'écoulement d'eau sur la formation et la morphologie des vallées tunnels. Les résultats issus des expériences démontrent que ce dispositif permet de recréer des systèmes de vallées tunnels. L'étude de ces vallées expérimentales suggèrent que la topographie du substrat et la production d'eau de fonte joue un rôle primordial sur la genèse des vallées tunnels et sur leurs morphologies. Deux morphotypes de vallées tunnels ont pu être identifiés avec des morphologies et des mécanismes de formation indépendants. L'analyse de la dynamique de la calotte sus-jacente a permis de mettre en évidence un lien étroit entre le développement des vallées tunnels et la dynamique des "ice streams". L'évolution de la capacité de drainage des vallées tunnels semble contrôler la dynamique glaciaire en régulant le flux de glace transitant dans les "ice streams".

Published

2018