• Le fonds

INTRO

Référence supplémentaire.

 

Suc J.-P., Combourieu-Nebout N., Seret G., Popescu S.-M., Klotz S., Gautier F., Clauzon G., Westgate J., Sandhu A.S., (2010). – The Crotone series: a synthesis and new data. Quaternary International, 219, 121-133.

 

Évolution des environnements marins et continentaux depuis 23 Ma dans le domaine méditerranéen (J.-P. Suc et al.)

Aguilar J.-P., Legendre S., Michaux J., Montuire S., (1999). – Pliocene mammals and climatic reconstruction in the Western Mediterranean area. In “The Pliocene: Time of Change”, Wrenn J.H., Suc J.-P., Leroy S.A.G. éds., American Association of Stratigraphic Palynologists Foundation, 109-120.

Agustí J., Leroy S.A.G., Lozano-Fernández I., Julià R., (2018). – Joint vegetation and mammalian records at the early Pleistocene sequence of Bòvila Ordis (Banyoles-Besalú Basin, NE Spain) and their bearing on early hominin occupation in Europe. Palaeobiodiversity and Palaeoenvironments, sous presse.

Bache F., Popescu S.-M., Rabineau M., Gorini C., Suc J.-P., Clauzon G., Olivet J.-L., Rubino J.-L., Melinte-Dobrinescu M.C., Estrada F., Londeix L., Armijo R., Meyer B., Jolivet L., Jouannic G., Leroux E., Aslanian D., Dos Reis A.T., Mocochain L., Dumurdžanov N., Zagorchev I., Lesić V., Tomić D., Çağatay M.N., Brun J.-P., Sokoutis D., Csato I., Ucarkus G., Çakir Z., (2012). – A two-step process for the reflooding of the Mediterranean after the Messinian Salinity Crisis. Basin Research, 24, 125-153.

Bachiri Taoufiq N., Bahroun N., Suc J.-P., (2008). – Les environnements continentaux du corridor rifain (Maroc) au Miocène supérieur d’après la palynologie. Geodiversitas, 30, 1, 41-58.

Bessedik M., Cabrera L., (1985). – Le couple récif-mangrove à Sant Pau d’ordal (Vallès-Pénèdès, Espagne), témoin du maximum transgressif en Méditerranée nord occidentale (Burdigalien supérieur – Langhien inférieur). Newsletters of Stratigraphy, 14, 1, 20-35.

Biltekin D., Popescu S.-M., Suc J.-P., Quézel P., Jiménez-Moreno G., Yavuz N., Çağatay M.N., (2015). – Anatolia: a long-time plant refuge area documented by pollen records over the last 23 million years. Review of Palaeobotany and Palynology, 215, 1-22.

Booth Rea G., Ranero C., Grevemeyer I., (2018). – The Alboran volcanic-arc modulated the Messinian faunal exchange and salinity crisis. Scientific reports, sous presse, doi:10.1038/s41598-018-31307-7.

Cortina A., Grimalt J.O., Martrat B., Rigual-Hernández A., Sierro F.J., Flores J.A., (2016). – Anomalous SST warming during MIS 13 in the Gulf of Lions (northwestern Mediterranean Sea). Organic Geochemistry, 92, 16-23.

Cortina A., Sierro F.J., Flores J.A., Martrat B., Grimalt J.O., (2015). – The response of SST to insolation and ice sheet variability from MIS 3 to MIS 11 in the northwestern Mediterranean Sea (Gulf of Lions). Geophysical Research Letters, 42, 10366-10374.

Fauquette S., Suc J.-P., Guiot J., Diniz F., Feddi N., Zheng Z., Bessais E., Drivaliari A., (1999). – Climate and biomes in the West Mediterranean area during the Pliocene. Palaeogeography, Palaeoclimatology, Palaeoecology, 152, 15-36.

Fauquette S., Suc J.-P., Bertini A., Popescu S.-M., Warny S., Bachiri Taoufiq N., Perez Villa M.-J., Chikhi H., Subally D., Feddi N., Clauzon G., Ferrier J., (2006). – How much did climate force the Messinian salinity crisis? Quantified climatic conditions from pollen records in the Mediterranean region. Palaeogeography, Palaeoclimatology, Palaeoecology, 238, 1-4, 281-301.

Fauquette S., Suc J.-P., Jiménez-Moreno G., Micheels A., Jost A., Favre E., Bachiri-Taoufiq N., Bertini A., Clet-Pellerin M., Diniz F., Farjanel G., Feddi N., Zheng, Z., (2007). Latitudinal climatic gradients in Western European and Mediterranean regions from the Mid-Miocene (c. 15 Ma) to the Mid-Pliocene (c. 3.5 Ma) as quantified from pollen data. In “Deep-Time Perspectives on Climate Change. Marrying the Signal from Computer Models and Biological Proxies”, Williams M., Haywood A., Gregory J., Schmidt D.N. (eds), The Micropaleontological Society, Special Publications, 2, 481-502.

Feddi N., Fauquette S., Suc J.-P., (2011). – Histoire plio-pléistocène des écosystèmes végétaux de Méditerranée sud-occidentale : apport de l’analyse pollinique de deux sondages en mer d’Alboran. Geobios, 44, 57-69.

Hilgen F.J., Lourens L.J., Van Dam J.A., (2012). – The Neogene Period. In ‘The Geological Time Scale 2012’, Gradstein F.M., Ogg J.G., Schmitz M.D., Ogg G.M. éds., Elsevier, Amsterdam, 923-978.

Jiménez-Moreno G., Rodríguez-Tovar F.-J., Pardo-Igúzquiza E., Fauquette S., Suc J.-P., Müller P., (2005). High-resolution palynological analysis in late early-middle Miocene core from the Pannonian Basin, Hungary: climatic changes, astronomical forcing and eustatic fluctuations in the Paratethys. Paleogeography, Palaeoclimatology, Palaeoecology, 216, 1-2, 73-97.

Jiménez-Moreno G., Fauquette S., Suc J.-P., (2008). – Vegetation, climate and palaeoaltitude reconstructions of the Eastern Alps during the Miocene based on pollen records from Austria, Central Europe. Journal of Biogeography, 35, 1638-1649.

Jiménez-Moreno G., Suc J.-P., (2007). – Middle Miocene latitudinal climatic gradient in Western Europe: Evidence from pollen records. Palaeogeography, Palaeoclimatology, Palaeoecology, 253, 224-241.

Jolivet L., Augier R., Robin C., Suc J.-P., Rouchy J.-M., (2006). Lithospheric-scale geodynamic context of the Messinian salinity crisis. Sedimentary Geology, 188-189, 9-33.

Krijgsman W., Capella W., Simon D., Hilgen F.J., Kouwenhoven T.J., Meijer P.Th., Sierro F.J., Tulbure M.A., van den Berg B.C.J., van der Schee M., Flecker R., (2018). – The Gibraltar Corridor: Watergate of the Messinian Salinity Crisis. Marine Geology, 403, 238-246.

Lordkipanidze D., Jashashvili T., Vekua A., Ponce de León M.S., Zollikofer C.P.E., Rightmire G.P., Pontzer H., Ferring R., Oms O., Tappen M., Bukhsianidze M., Agusti J., Kahlke R., Kiladze G., Martinez-Navarro B., Mouskhelishivili A., Nioradze M., Rook L., (2007). – Postcranial evidence from early Homo from Dmanisi, Georgia. Nature, 449, 305-310.

Martrat B., Grimalt J.O., Shackleton N.J., de Abreu L., Hutterli M.A., Stocker T.F., (2007). – Four climate cycles of recurring deep and surface water destabilizations on the Iberian Margin. Science, 317, 5837, 502-507.

Monegatti P., Raffi S., (2001). – Taxonomic diversity and stratigraphic distribution of Mediterranean Pliocene bivalves. Palaeogeography, Palaeoclimatoloy, Palaeoecology, 165, 171-193.

Monegatti P., Raffi S., (2010). – The Messinian marine molluscs record and the dawn of the eastern Atlantic biogeography. Palaeogeography, Palaeoclimatoloy, Palaeoecology, 297, 1-11.

Murphy L.N., Kirk-Davidoff D.B., Mahowald N., Otto-Bliesner B.L., (2009). – A numerical study of the climate response to lowered Mediterranean Sea level during the Messinian Salinity Crisis. Palaeogeography, Palaeoclimatoloy, Palaeoecology, 279, 41-59.

Néraudeau D., Goubert E., Lacour D., Rouchy J.M., (2001). – Changing biodiversity of Mediterranean irregular echinoids from the Messinian to the Present-Day. Palaeogeography, Palaeoclimatoloy, Palaeoecology, 175, 43-60.

Pestrea S., Blanc-Valleron M.-M., Rouchy J.-M., (2002). – Les assemblages de diatomées des niveaux infra-gypseux du Messinien de Méditerranée (Espagne, Sicile, Chypre). Geodiversitas, 24, 3, 543-583.

Pillans B., Gibbard P., (2012). – The Quaternary Period. In ‘The Geological Time Scale 2012’, Gradstein F.M., Ogg J.G., Schmitz M.D., Ogg G.M. éds., Elsevier, Amsterdam, 979-1010.

Popescu S.-M., Dalesme F., Jouannic G., Escarguel G., Head M.J., Melinte-Dobrinescu M.C., Sütő-Szentai M., Bakrac K., Clauzon G., Suc J.-P., (2009). – Galeacysta etrusca complex, dinoflagellate cyst marker of Paratethyan influxes into the Mediterranean Sea before and after the peak of the Messinian Salinity Crisis. Palynology, 33, 2, 105-134.

Popescu S.-M., Suc J.-P., Melinte M., Clauzon G., Quillévéré F., Sütő-Szentai M., (2007). – Earliest Zanclean age for the Colombacci and uppermost Di tetto formations of the “latest Messinian” northern Apennines: New palaeoenvironmental data from the Maccarone section (Marche Province, Italy). Geobios, 40, 3, 359-373.

Rögl F., Steininger F.F., (1983). – Vom Zerfall der Tethys zu Mediterran und Paratethys. Die neogene Paläogeographie und Palinspastik des zirkum-mediterranen Raumes. Annales Naturhistorisches Museum Wien, 85A, 135-163.

Saint-Martin J.-P., Cornée J.-J., Muller J., Conesa G., André J.-P., (1997). – Les constructions microbiennes du Messinien de Méditerranée. Geobios, Mémoire Spécial, 20, 463-470.

Saint-Martin J.-P., Rouchy J.-M., (1990). – Les plates-formes carbonatées messiniennes en Méditerranée occidentale : leur importance pour la reconstitution des variations du niveau marin au Miocène terminal. Bulletin de la Société géologique de France, série 8, 6, 1, 83-94.

Shackleton N.-J., Hall M.A., Pate D., (1995). – Pliocene stable isotope stratigraphy of Site 846. Proceedings of the Ocean Drilling Program, Scientific Results, 138, U.S. Government Printing Office, 337-355.

Suc J.-P., (1984). – Origin and evolution of the Mediterranean vegetation and climate in Europe. Nature, 307, 429-432.

Suc J.-P., Combourieu-Nebout N., Seret G., Popescu S.-M., Klotz S., Gautier F., Clauzon G., Westgate J., Sandhu A.S., (2010). – The Crotone series: a synthesis and new data. Quaternary International, 219, 121-133.

Suc J.-P., Gillet H., Çağatay M.N., Popescu S.-M., Lericolais G., Armijo R., Melinte-Dobrinescu M.C., Şen Ş., Clauzon G., Sakınç M., Zabcı C., Ucarkus G., Meyer B., Çakir Z., Karakaş Ç., Jouannic G., Macaleţ R., (2015a). – The region of the Strandja Sill (North Turkey) and the Messinian events. Marine and Petroleum Geology, 66, 149-164.

Suc J.-P., Popescu S.-M., Do Couto D., Clauzon G., Rubino J.-L., Melinte-Dobrinescu M.C., Quillévéré F., Brun J.-P., Dumurdžanov N., Zagorchev I., Lesić V., Tomić D., Sokoutis D., Meyer B., Macaleţ R., Rifelj H., (2015b). – Marine gateway vs. fluvial stream within the Balkans from 6 to 5 Ma. Marine and Petroleum Geology, 66, 231-245.

Suc J.-P., Popescu S.-M., Fauquette S., Bessedik M., Jiménez-Moreno G., Bachiri Taoufiq N., Zheng Z., Médail F., (2018). – Reconstruction of Mediterranean flora, vegetation and climate for the last 23 million years based on an extensive pollen dataset. Ecologia Mediterranea, 44, 2, sous presse.

Zachos J., Pagani M., Sloan L., Thomas E., Billups K., (2001). – Trends, rhythms, and aberrations in global climate 65 Ma to present. Science, 292, 686-693.

 

 

La Crise de salinité messinienne (J.-P. Suc et al.)

Audra P., Mocochain L., Camus H., Gilli E., Clauzon G., Bigot J.-Y., (2004). – The effect of the Messinian Deep Stage on karst development around the Mediterranean Sea. Examples from Southern France. Geodinamica Acta, 17, 389-400.

Bache F., Olivet J.-L., Gorini F., Rabineau M., Baztan J., Aslanian D., Suc J.-P., (2009). – Messinian Erosional and Salinity Crises: View from the Provence Basin (Gulf of Lions, Western Mediterranean). Earth and Planetary Science Letters, 286, 139-157.

Bache F., Popescu S.-M., Rabineau M., Gorini C., Suc J.-P., Clauzon G., Olivet J.-L., Rubino J.-L., Melinte-Dobrinescu M.C., Estrada F., Londeix L., Armijo R., Meyer B., Jolivet L., Jouannic G., Leroux E., Aslanian D., Dos Reis A.T., Mocochain L., Dumurdžanov N., Zagorchev I., Lesić V., Tomić D., Çağatay M.N., Brun J.-P., Sokoutis D., Csato I., Ucarkus G., Çakir Z., (2012).– A two-step process for the reflooding of the Mediterranean after the Messinian Salinity Crisis. Basin Research, 24, 125-153.

Bache F., Gargani J., Suc J.-P., Gorini C., Rabineau M., Popescu S.-M., Leroux E., Do Couto D., Jouannic G., Rubino J.-L., Olivet J.-L., Clauzon G., Dos Reis A.T., Aslanian D., (2015). – Messinian evaporite deposition during sea level rise in the Gulf of Lions (Western Mediterranean). Marine and Petroleum Geology, 66, 262-277.

Benson R.H., Rakic-El Bied K., Bonaduce G., (1991). – An important current reversal (influx) in the Rifian Corridor (Morocco) at the Tortonian-Messinian boundary: the end of Tethys Ocean. Paleoceanography, 6, 164-192.

Blanc P.-L., (2000). – Of sills and straits: a quantitative assessment of the Messinian Salinity Crisis. Deep-Sea Research, I, 47, 1429-1460.

Blanc P.-L., (2002). – The opening of the Plio-Quaternary Gibraltar Strait: assessing the size of a cataclysm. Geodinamica Acta, 15, 303-317.

Booth-Rea G., Ranero C., Grevemeyer I., 2018. The Alboran volcanic-arc modulated the Messinian faunal exchange and salinity crisis. Scientific Reports, 8, 13015, 14 p.

Capella W., Barhoun N., Flecker R., Hilgen F.J., Kouwenhoven T., Matenco L.C., Sierro F.J., Tulbure M.A., Yousfi M.Z., Krijgsman W., (2018). – Palaeogeographic evolution of the late Miocene Rifian Corridor (Morocco): reconstructions from surface and subsurface data. Earth-Science Reviews, 180, 37-59.

Cavazza W., DeCelles P.G., (1998). – Upper Messinian siliciclastics rocks in southeastern Calabria (southern Italy): palaeotectonic and eustatic implications for the evolution of the central Mediterranean region. Tectonophysics, 298, 223-241.

Chumakov I.S., (1973). – Pliocene and Pleistocene deposits of the Nile Valley in Nubia and Upper Egypt. In “Leg 13”, Ryan W.B.F., Hsü K.J. et al., édit., Initial Reports of the Deep Sea Drilling Project, 13, Washington (U.S. Government Printing Office), 1242-1243.

Clauzon G., (1973). – The eustatic hypothesis and the pre-cutting of the Rhône Valley. In “Leg 13” Ryan W.B.F., Hsü K.J. et al., édit. Initial Reports of the Deep Sea Drilling Project, 13, 2, 1251-1256.

Clauzon G., (1982). – Le canyon messinien du Rhône : une preuve décisive du « desiccated deep-basin model » (Hsü, Cita and Ryan, 1973). Bulletin de la Société géologique de France, 24, 597-610.

Clauzon G., (1990). – Restitution de l’évolution géodynamique néogène du bassin du Roussillon et de l’unité adjacente des Corbières d’après les données écographiques et paléogéographiques. Paléobiologie Continentale, 17, 125-155.

Clauzon G., Aguilar J.-P. Michaux J., (1989). – Relation temps-sédimentation dans le Néogène français. Bulletin de la Société géologique de France, 5, 361-372.

Clauzon G., Le Strat P., Duvail C., Do Couto D., Suc J.-P., Molliex S., Bache F., Besson D., Lindsay E.H., Opdyke N.D., Rubino J.-L., Popescu S.-M., Haq B.U., Gorini C., (2015). – The Roussillon Basin (S. France): a case-study to distinguish local and regional events between 6 and 3 Ma. Marine and Petroleum Geology, 66, 18-40.

Clauzon G., Suc J.-P., Do Couto D., Jouannic G., Melinte-Dobrinescu M.C., Jolivet L., Quillévéré F., Lebret N., Mocochain L., Popescu S.-M., Martinell J., Doménech R., Rubino J.-L., Gumiaux C., Warny S., Bellas S.M., Gorini C., Bache F., Rabineau M., Estrada F., (2015). – New insights on the Sorbas Basin (SE Spain): the onshore reference of the Messinian Salinity Crisis. Marine and Petroleum Geology, 66, 1, 71-100.

Clauzon G., Suc J.-P., Gautier F., Berger A., Loutre M.-F., (1996). – Alternate interpretationof the Messinian salinity crisis : controversy resolved ? Geology, 24, 363-366.

Clauzon G, Suc J.-P., Popescu S.-M, Marunteanu M., Rubino J.-L., Marinescu F., Melinte M.C., (2005). – Influence of the Mediterranean sea level changes over the Dacic Basin (Eastern Paratethys) in the Late Neogene. The Mediterranean Lago Mare facies deciphered. Basin Research, 17, 437-562.

Cornée J.-J., Ferrandini M., Saint Martin J.P., Münch P., Moullade M., Ribaud-Laurenti A., Roger S., Saint Martin S., Ferrandini J., (2006). – The late Messinian erosional surface and the subsequent reflooding in the Mediterranean: new insights from the Melilla–Nador basin (Morocco). Palaeogeography, Palaeoclimatology, Palaeoecology, 230, 129-154.

Delrieu B., Rouchy J.-M., Foucault A., (1993). – La surface d’érosion finimessinienne en Crète centrale (Grèce) et sur le pourtour méditeranéen : rapports avec la crise de salinité méditerranéenne. Comptes Rendus de l’Académie des Sciences de Paris, série 2, 316, 527-533.

El Euch-El Koundi N., Ferry S., Suc J.-P., Clauzon G., Melinte-Dobrinescu M.C., Gorini C., Safra A., Zargouni F., (2009). – Messinian deposits and erosion in northern Tunisia: inferences on Strait of Sicily during the Messinian Salinity Crisis. Terra Nova, 21, 41-48.

Fauquette S., Suc J.-P., Bertini A., Popescu S.-M., Warny S., Bachiri Taoufiq N., Perez Villa M.-J., Chikhi H., Subally D., Feddi N., Clauzon G., Ferrier J., (2006). – How much did climate force the Messinian salinity crisis? Quantified climatic conditions from pollen records in the Mediterranean region. Palaeogeography, Palaeoclimatology, Palaeoecology, 238, 1-4, 281-301.

Feng Y.E.,Yankelzon A., Steinberg J., Reshef M., (2016). – Lithology and characteristics of the Messinian evaporate sequence of the deep Levant Basin, eastern Mediterranean. Marine Geology, 376, 118-131.

Garcia-Castellanos D., Estrada F., Jiménez-Munt I., Gorini C., Fernàndez M., Vergés J., De Vicente R., (2009). – Catastrophic flood of the Mediterranean after the Messinian salinity crisis. Nature, 462, 778-781.

Gargani J., (2004). – Modelling of the erosion in the Rhone valley during the Messinian crisis (France). Quaternary International, 121, 13-22.

Gargani J., Bache F., Jouannic G., Gorini C., (2014). – Slope destabilization during the Messinian Salinity Crisis. Geomorphology, 213, 128-138.

Gargani J., Moretti I., Letouzey J., (2008). – Evaporite accumulation during the Messinian Salinity Crisis: the Suez Rift case. Geophysical Research Letters, 35, L02401, 6 p.

Gargani J., Rigollet C., (2007). – Mediterranean Sea level variations during the Messinian salinity crisis. Geophysical Research Letters, 34, L10405, 5 p.

Gargani J., Rigollet C., Scarselli S., (2010). – Isostatic response and geomorphological evolution of the Nile valley during the Messinian salinity crisis. Bulletin de la Société géologique de France, 181, 19-26.

Gautier F., Clauzon G., Suc J.-P., Cravatte J., Violanti D. (1994). – Age et durée de la crise de salinité messinienne. Comptes-Rendus de l’Académie des Sciences de Paris, 318, 1103-1109.

Gillet H., Lericolais G., Réhault J.-P., (2007). – Messinian event in the black sea: evidence of a Messinian erosional surface. Marine Geology, 244, 142-165.

Gorini C., Montadert L., Rabineau M., (2015). – New imaging of the salinity crisis: dual Messinian lowstand megasequences recorded in the deep basin of both the eastern and western Mediterranean. Marine and Petroleum Geology, 66, 278-294.

Govers R., Meijer P., Krijgsman W., (2009). – Regional isostatic response to Messinian Salinity Crisis events. Tectonophysics, 463, 109-129.

Hardie L.A., Lowenstein T.K., (2004). – Did the Mediterranean Sea dry out during the Miocene? A reassessment of the evaporite evidence from DSDP Legs 13 and 42A cores. Journal of Sedimentary Research, 74, 453-461.

Hippolyte J.-C., Clauzon G., Suc J.P., (2011). – Messinian-Zanclean canyons in the Digne nappe (southern Alps): tectonic implications. Bulletin de la Société géologique de France, 182, 2, 111-132.

Hsü K.J., Cita M.B., Ryan W.B.F., (1973). – The origin of the Mediterranean evaporites. InLeg 13”, Ryan W.B.F., Hsü K.J. et al., édit., Initial Reports of the Deep Sea Drilling Project, 13, Washington (U. S. Government Printing Office), 1203-1231.

Ivanovic R.F., Valdes P.J., Flecker R., Gutjahr M., (2014). – Modelling global-scale climate impacts of the late Miocene Messinian Salinity Crisis. Climate of the Past, 10, 607-622.c

Jolivet L., Augier R., Robin C., Suc J.-P., Rouchy J.-M., (2006). – Lithospheric-scale geodynamic context of the Messinian salinity crisis. Sedimentary Geology, 188-189, 9-33.

Karakaş Ç, Armijo R., Lacassin R., Suc J.-P., Melinte-Dobrinescu M.C., (2018). – Crustal strain in the Marmara pull-apart region associated with the propagation process of the North Anatolian Fault. Tectonics, 37, 1507-1523.

Krijgsman W., Capella W., Simon D., Hilgen F.J., Kouwenhoven T.J., Meijer P.Th., Sierro F.J., Tulbure M.A., van den Berg B.C.J., van der Schee M., Flecker R., (2018). The Gibraltar Corridor: Watergate of the Messinian Salinity Crisis. Marine Geology, 403, 238-246.

Krijgsman W., Fortuin A.R., Hilgen F.J., Sierro F.J., (2001). – Astrochronology for the Messinian Sorbas basin (SE Spain) and orbital (precessional) forcing for evaporite cyclicity. Sedimentary Geology, 140, 43-60.

Krijgsman W., Hilgen F.J., Raffi I., Sierro F.J., Wilson D.S., (1999). – Chronology, causes and progression of the Messinian salinity crisis. Nature, 400, 652-655.

Krijgsman W., Meijer P.T., (2008). – Depositional environments of the Mediterranean “Lower Evaporites” of the Messinian salinity crisis: constraints from quantitative analyses. Marine Geology, 253, 73-81.

Leila M., Moscariello A., Šegvić B., (2018). – Geochemical constraints on the provenance and depositional environment of the Messinian sediments, onshore Nile Delta, Egypt: implications for the late Miocene paleogeography of the Mediterranean. Journal of African Earth Sciences, 143, 215-241.

Leroux E., Aslanian D., Rabineau M., Pellen R., Moulin M., (2018). – The late Messinian event: a worldwide tectonic revolution. Terra Nova, 30, 207-214.

Leroux E., Rabineau M., Aslanian D., Gorini C., Molliex S., Bache F., Robin C., Droz L., Moulin M., Poort J., Rubino J.-L., Suc J.-P., (2017). – High-resolution evolution of terrigenous sediment yields in the Provence Basin during the last 6 Ma: relation with climate and tectonics. Basin Research, 29, 305-339.

Lofi J., Gorini C., Berné S., Clauzon G., Dos Reis A.T., Ryan W.B.F., Steckler M.S., (2005). – Erosional processes and paleo-environmental changes in the Western Gulf of Lions (SW France) during the Messinian Salinity Crisis. Marine Geology, 217, 1-30.

Loget N., Van Den Driessche J., Davy P., (2005). – How did the Messinian Salinity Crisis end? Terra Nova, 17, 414-419.

Manzi V., Gennari R., Hilgen F., Krijgsman W., Lugli S., Roveri M., Sierro F.J., (2013). – Age refinement of the Messinian salinity crisis onset in the Mediterranean. Terra Nova, 25, 315-322.

Manzi V., Gennari R., Lugli S., Persico D., Reghizzi M., Roveri M., Schreiber B.C., Calvo R., Gavrieli I., Gvirtzman Z., (2018). – The onset of the Messinian salinity crisis in the deep Eastern Mediterranean basin. Terra Nova, 30, 189-198.

Meiliijson A., Steinberg J., Hilgen F., Bialik O.M., Waldmann N.D., Makovsky Y., (2018). – Deep-basin evidence resolves a 50-year-old debate and demonstrates synchronous onset of Messinian evaporite deposition in a non-desiccated Mediterranean. Geology, 46, 243-246.

Melinte-Dobrinescu M.C., Suc J.-P., Clauzon G., Popescu S.-M., Armijo R., Meyer B., Biltekin D., Çağatay M.N., Ucarkus G., Jouannic G., Fauquette S., Çakir Z., (2009). – The Messinian Salinity Crisis in the Dardanelles region: Chronostratigraphic constraints. Palaeogeography, Palaeoclimatology, Palaeoecology, 278, 24-39.

Micallef A., Camerlenghi A., Garcia-Castellanos D., Cunarro Otero D., Gutscher M.-A., Barreca G., Spatola D., Facchin L., Geletti R., Krastel S., Gross F., Urlaub M., 2018. Evidence of the Zanclean megaflood in the eastern Mediterranean Basin. Scientific Reports, 8, 1078, 8 p.

Miller K.G., Mountain G.S., Wright J.D., Browning J.V., 2011. A 180-million-year record of sea level and ice volume cariations from continental margin and deep-sea isotopic records. Oceanography, 24, 40-53.

Mocochain L., Audra P., Clauzon G., Bellier O., Bigot J.-Y., Parize O., Monteil P., 2009. The effect of river dynamics induced by the Messinian Salinity Crisis on karst landscape and caves: example of the Lower Ardèche river (mid Rhône valley). Geomorphology, 106, 46-61.

Murphy L.N., Kirk-Davidoff D.B., Mahowald N., Otto-Bliesner B.L., (2009). – A numerical study of the climate response to lowered Mediterranean Sea level during the Messinian Salinity Crisis. Palaeogeography, Palaeoclimatoloy, Palaeoecology, 279, 41-59.

Nesteroff W.D., (1973).– Mineralogy, petrography, distribution, and origin of the Messinian Mediterranean evaporites. InLeg 13”, Ryan W.B.F., Hsü K.J. et al., édit., Initial Reports of the Deep Sea Drilling Project, 13, Washington (U. S. Government Printing Office), 673-694.

Ottes W., Lambregts P., El Barkooky A., (2007).– The Messinian Salinity Crisis in the Nile Delta: chasing shallow marine reservoirs in a deep-water basin. Commission Internationale pour l’Exploration Scientifique de la Méditerranée, Workshop Monographs, 33, 107-109.

Pellen R., Popescu S.-M., Suc J.-P., Melinte-Dobrinescu M.C., Rubino J.-L., Rabineau M., Marabini S., Loget N., Casero P., Cavazza W., Head M.J., Aslanian D., (2017). – The Apennine foredeep (Italy) during the latest Messinian: Lago Mare reflects competing brackish and marine conditions based on calcareous nannofossils and dinoflagellate cysts. Geobios, 50, 237-257.

Pigott J.D., Abdel-Fattah M.I., (2014). – Seismic stratigraphy of the Messinian Nile Delta coastal plain: recognition of the fluvial Regressive Systems Tract and its potential for hydrocarbon exploration. Journal of African Earth Sciences, 95, 9-21.

Popescu S.-M., Dalibard M., Suc J.-P., Barhoun N., Melinte-Dobrinescu M.C., Bassetti M.A., Deaconu F., Head M.J., Gorini C., Do Couto D., Rubino J.-L., Auxietre J.-L., Floodpage J., (2015). – Lago Mare episodes around the Messinian–Zanclean boundary in the deep southwestern Mediterranean. Marine and Petroleum Geology, 66, 55-70.

Popescu S.-M., Melinte-Dobrinescu M.C., Suc J.-P., Do Couto D., (2017). – Ceratolithus acutus Gartner and Bukry 1974 (= C. armatus Müller 1974), calcareous nannofossil marker of the marine reflooding that terminated the Messinian Salinity Crisis: Comment on “Paratethyan ostracods in the Spanish Lago-Mare: More evidence for interbasinal exchange at high Mediterranean sea level” by Stoica et al., 2016. Palaeogeography, Palaeoclimatology, Palaeoecology, 441, 854-870. Palaeogeography, Palaeoclimatology, Palaeoecology, 485, 986-989.

Rabineau M., Leroux E., Aslanian D., Bache F., Gorini C., Moulin M., Molliex S., Droz L., dos Reis A.T., Rubino J.-L., Guillocheau F., Olivet J.-L., (2014). – Quantifying subsidence and isostatic readjustment using sedimentary paleomarkers, example from the Gulf of Lion. Earth and Planetary Science Letters, 388, 353-366.

Rouchy J.-M., (1982). – La genèse des évaporites messiniennes de Méditerranée. Mémoires du Muséum national d’Histoire naturelle, 50, 267 p.

Roveri M., Flecker R., Krijgsman W., Lofi J., Lugli S., Manzi V., Sierro F.J., Bertini A., Camerlenghi A., De Lange G., Govers R., Hilgen F.J., Hübscher C., Meijer P.T., Stoica M., (2014). – The Messinian Salinity Crisis: past and future of a great challenge for marine sciences. Marine Geology, 352, 25-58.

Sternai P., Caricchi L., Garcia-Castellanos D., Jolivet L., Sheldrakie T.E., Castelltort S., (2017). – Magmatic pulse driven by sea-level changes associated with the Messinian salinity crisis. Nature Geoscience, 10, 783-787.

Suc J.-P., (2016). – Quarante ans de débats autour des évaporites messiniennes de Méditerranée et de la crise qui leur est associée. Un défi scientifique passionnant, mais singulier et déroutant. Travaux du Comité français d’Histoire de la Géologie (COFRHIGÉO), sér. 3, 30, 1, 1-64.

Suc J.-P., Bessais E., (1990). – Pérennité d'un climat thermo-xérique en Sicile, avant, pendant, après la crise de salinité messinienne. Comptes-Rendus de l’Académie des Sciences de Paris, sér. 2, 310, 1701-1707.

Suc J.-P., Gillet H., Çağatay M.N., Popescu S.-M., Lericolais G., Armijo R., Melinte-Dobrinescu M.C., Şen Ş., Clauzon G., Sakınç M., Zabcı C., Ucarkus G., Meyer B., Çakir Z., Karakaş Ç., Jouannic G., Macaleţ R., (2015a). –. The region of the Strandja Sill (North Turkey) and the Messinian events. Marine and Petroleum Geology, 66, 149-164.

Suc J.-P., Popescu S.-M., Do Couto D., Clauzon G., Rubino J.-L., Melinte-Dobrinescu M.C., Quillévéré F., Brun J.-P., Dumurdžanov N., Zagorchev I., Lesić V., Tomić D., Sokoutis D., Meyer B., Macaleţ R., Rifelj H., (2015b). – Marine gateway vs. fluvial stream within the Balkans from 6 to 5 Ma. Marine and Petroleum Geology, 66, 231-245.

Tari G., Fallah M., Kosi W., Floodpage J., Baur J., Bati Z., Sipahioğlu N.Ö., (2015). – Is the impact of the Messinian Salinity Crisi in the Black Sea comparable to that of the Mediterranean? Marine and Petroleum Geology, 66, 135-148.

Tari G., Fallah M., Schell C., Kosi W., Bati Z., Sipahioğlu N.Ö., Krezsek Cs., Schelder Zs., Kozhuharov E., Kitchka A., (2016). – Why are there no Messinian evaporates in the Black Sea? Petroleum Geoscience, 22, 381-391.

Tassy A., Fournier F., Munch P., Borgomano J., Thinon I., Fabri M.-C., Rabineau M., Arfib B., Begot J., Beslier M.-O., Cornée J.-J., Fournillon A., Gorini C., Guennoc P., Léonide P., Oudet J., Paquet F., Sage F., Toullec R., (2014). – Discovery of Messinian canyons and new seismic stratigraphic model, offshore Provence (SE France): implications for the hydrographic network reconstruction. Marine and Petroleum Geology, 57, 25-50.

 

 

Des crises récentes (D. Aslanian et al.)

Leroux L., Aslanian D., Rabineau M., Moulin M., Pellen R., (2018). – The late messinian event 6 ma ago: a world-wide tectonic revolution, Focus paper, Terra Nova, 30, 207-214.

Moulin M. & Aslanian D. (2010). – Corrigendum to: A new starting point for the South and Equatorial Atlantic Ocean 1, Earth Sciences Reviews, 98, 1-37.

Rampino, M. R., and Caldeira, K., (1992). – Episodes of terrestrial geologic activity during the past 260 million years: A quantitative approach. In Dynamics and Evolution of Minor Bodies with Galactic and Geological Implications, Springer Netherlands, 143-159.

Rampino, M. R., and Caldeira, K., (1993). – Major episodes of geologic change: correlations, time structure and possible causes. Earth and Planetary Science Letters, 114(2-3), 215-227.

Raup, D. M., (1985). – Magnetic reversals ans mass extinctions, Nature, 314, 341-343

Augier, R., (2004). – Evolution Tardi-Orogenique des Cordillères Bétiques (Espagne): Apports d’une étude intégrée. Thèse de doctorat, Université Pierre et Marie Curie, Paris, 400 pp.

Augier, R., Jolivet, L., Do Couto, D., Negro, F., (2013). – From ductile to brittle, late- to post-orogenic evolution of the Betic Cordillera: Structural insights from the North-eastern Internal Zones. Bulletin de la Société Géologique de France, 184, p. 405-425.

Clauzon, G., Suc, J.-P., Do Couto, D., Jouannic, G., Melinte-Dobrinescu, M.C., Jolivet, L., Lebret, N., Mocochain, L., Popescu, S.-M., Martinell, J., Doménech, R., Rubino, J.-L., Gumiaux, C., Warny, S., Gorini, C., Bache, F., Rabineau, M., Estrada, F, (2015). – New insights on the Sorbas Basin (SE Spain): the onshore reference of the Messinian Salinity Crisis. Marine and Petroleum Geology,.66/1, p. 71-100

Do Couto, D., (2014). – Evolution géodynamique de la Mer d’Alboran par l’étude des bassins sédimentaires. Thèse de doctorat, Université Pierre et Marie Curie, Paris, 529 p.

Do Couto D., Gumiaux C., Augier R., Lebret N., Folcher N., Jouannic G., Jolivet L., Suc J.P., Gorini C., (2014). – Tectonic inversion of an asymmetric graben: insights from a combined field and gravity survey in the Sorbas basin. Tectonics, 33/7, p. 1360-1385.

Do Couto D., Gumiaux C., Jolivet L., Augier R., Lebret N., Folcher N., Jouannic G., Suc J.P., Gorini C., (2015). – 3D modelling of the Sorbas Basin (Spain): New constraints on the Messinian Erosional Surface morphology. Marine and Petroleum Geology, 66/1, p. 101-116.

Kleverlaan, K., (1989). – Neogene history of the Tabernas basin (SE Spain) and its Tortonian submarine fan development. Geologie en Mijnbouw, 68, p. 421-432.

Jolivet, L., Faccenna, C., Goffé, B., Burov, E., Agard, P., (2003). – Subduction tectonics and exhumation of high pressure metamorphic rocks in the Mediterranean orogens. American Journal of Science, 303, p. 353-409.

Jolivet, L., Augier, R., Robin, C., Suc, J.-P., Rouchy, J. M., (2006). – Lithospheric-scale geodynamic context of the Messinian salinity crisis. Sedimentary Geology, 188-189, p. 9-33.

Jolivet, L., Augier, R., Faccenna, C., Negro, F., Rimmele, G., Agard, P., Robin, C., Rossetti, F., Crespo-Blanc, A., (2008). – Subduction, convergence and the mode of backarc extension in the Mediterranean region. Bulletin De La Société Géologique De France, 179, p. 525-550.

Jolivet, L., Faccenna, C., Piromallo, C., (2009). – From mantle to crust: Stretching the Mediterranean. Earth and Planetary Science Letters, 285, p. 198-209.

Leprêtre, R., Frizon de Lamotte, D., Combier, V., Gimeno-Vives, O., Mohn, G., Eschard, R., (2018). – The Tell-Rif orogenic system (Morocco, Algeria, Tunisia) and the structural heritage of the southern Tethys margin. BSGF - Earth Sci. Bull., 189/2, 35 p.