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Jacques Malavieille

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Jacques Malavieille (French pronunciation: [ʒak malavjɛj]; born October 12, 1953, in Mende, Lozère)[1] is a French geologist. He is known for research combining geological fieldwork with analog modeling, and with some computer modeling, for scientific understanding of lithospheric deformation.[2][3]

Biography

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Jacques Malavieille grew up in that part of the valley of the river Lot located in the department of Lozère. As a small boy, he enjoyed searching for rocks and fossils in the mountainous region of the Massif Central.[3] At Montpellier 2 University (Université de Montpellier II), he graduated in 1982 with a PhD in tectonics and in 1987 with a Habilitation à diriger des recherches.[1] His PhD thesis Étude tectonique et microtectonique de la déformation ductile dans de grands chevauchements crustaux : exemples des Alpes Franco-Italiennes et de la Corse was supervised by Maurice Mattauer (1928–2009).[4] Malavieille's habilitation thesis, supervised by Mattauer, is entitled Les mécanismes d’amincissement d’une croûte épaissie, les "Metamorphic Core Complexes du Basin and Range" (USA).[5] Malavieille was employed by the CNRS from 1982 to 1994 as a Chargé de recherches (CR, Scientist) and from 1994 to 2002 as Directeur de recherches (DR, Senior Scientist). He was from 1999 to 2003 Directeur du Laboratoire Géophysique, Tectonique et Sédimentologie (UMR 5573 of the CNRS) and from 2003 to 2012 Directeur de recherches 1ère classe. From 2012 to the present, Malvieille has held the appointment Directeur de recherches Classe Exceptionnelle (DRCE) at Géosciences Montpellier of Montpellier 2 University.[1]

Malavieille is the author or co-author of over 100 peer-reviewed, scientific articles.[1] Several of his articles have over 600 citations.[6] He specializes in research on deformation of lithosphere underlying orogenic domains of Earth's continents.[1] He and his co-workers have done extensive field in the French Alps,[3] eastern Asia,[7][8][9] and the Tibetan Plateau.[10][11][12][13] He has also done fieldwork in Taiwan, which is located on a convergent boundary between the Philippine Sea Plate and the Eurasian Plate, and in the Rocky Mountains of the US and Canada.[2]

As a graduate student, Malavieille studied structural geology and how crustal deformation is related to lithospheric deformation. In the early 1980s, his research in Corsica and the western Alps linked lineations and mountain formation, promoted recognition of similar structures elsewhere, and showed how small-scale structures influence the large-scale kinematics of mountain ranges. In the 1980s, his research on strain fringes and asymmetric boundins provided new insights on the kinematics of geological structures. Some of his early fieldwork in the French Variscan orogenic belt and North America's Basin and Range Province contributed significantly to knowledge about metamorphic core complexes. Malavieille gained an international reputation for pioneering applications of analog modeling to scientific understanding of how fold-and-thrust belts and accretionary wedges develop. In Montpellier, he was essential in establishing an internationally renowned center for analog modeling in geology.[2] Such analog models use sands and powders.[3] His research has contributed to "understanding of accretionary wedges, seamount collision, basal underplating, tectonic erosion, oblique accretion."[2] His recent research involves the "impact of surface processes and climate on the dynamics of orogenic wedges".[1]

Malavieille was awarded in 2001 the Prix Pierre Pruvost of the Société Géologique de France.[14] In 2012 he received the Stephan Mueller Medal of the European Geosciences Union.[1] In 2012 he shared, with co-author Elena Konstantinovskaya,[15] the Geological Association of Canada's Dave Elliott Best Paper Prize. The prize for best paper in structural geology and tectonics published in 2011 honored their article Thrust wedges with décollement levels and syntectonic erosion: A view from analog models.[1][16] In 2014 he received the Prix Paul Fourmarier of the Royal Academies for Science and the Arts of Belgium.[1]

He is the father of three sons.[1]

References

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  1. ^ a b c d e f g h i j "Curriculum Vitae. Malavieille, Jacques". Géosciences Montpellier, Université de Montpellier II (gm.univ-montp2.fr).
  2. ^ a b c d "Stephan Mueller Medal 2012: Jacques Malavieille". European Geosciences Union (EGU).
  3. ^ a b c d "A Conversation with Jacque Malavieille". American Museum of Natural History (AMNH).
  4. ^ Malavieille, Jacques (1982). Étude tectonique et microtectonique de la déformation ductile dans de grands chevauchements crustaux : exemples des Alpes Franco-Italiennes et de la Corse. HAL theses: thèses en ligne (theses.hal.science) (Thesis).
  5. ^ Malavieille, J. (1987). "Les mecanismes d'amincissement d'une croute epaissie: les "metamorphic core complexes" du basin and range(USA)". Pascal and Francis Bibliographic Databases, CNRS (pascal-francis.inist.fr). (Database entry for habilitation thesis, Université des sciences et techniques du Languedoc, Montpellier 2).
  6. ^ "Malavieille, Jacques". Google Scholar.
  7. ^ Mattauer, M.; Matte, Ph.; Malavieille, J.; Tapponnier, P.; Maluski, H.; Qin, Xu Zhi; Lun, Lu Yi; Qin, Tang Yao (1985). "Tectonics of the Qinling Belt: build-up and evolution of eastern Asia". Nature. 317 (6037): 496. Bibcode:1985Natur.317..496M. doi:10.1038/317496a0. S2CID 4345856.
  8. ^ Roger, F.; Calassou, S.; Lancelot, J.; Malavieille, J.; Mattauer, M.; Zhiqin, Xu; Ziwen, Hao; Liwei, Hou (1995). "Miocene emplacement and deformation of the Konga Shan granite (Xianshui He fault zone, west Sichuan, China): Geodynamic implications". Earth and Planetary Science Letters. 130 (1): 201. Bibcode:1995E&PSL.130..201R. doi:10.1016/0012-821X(94)00252-T.
  9. ^ Bruguier, O.; Lancelot, J.R.; Malavieille, J. (1997). "U–Pb dating on single detrital zircon grains from the Triassic Songpan–Ganze flysch (Central China): Provenance and tectonic correlations". Earth and Planetary Science Letters. 152 (1–4): 217–231. Bibcode:1997E&PSL.152..217B. doi:10.1016/S0012-821X(97)00138-6.
  10. ^ Jolivet, M.; Brunel, M.; Seward, D.; Xu, Z.; Yang, J.; Roger, F.; Tapponnier, P.; Malavieille, J.; Arnaud, N.; Wu, C. (2001). "Mesozoic and Cenozoic tectonics of the northern edge of the Tibetan plateau: fission-track constraints". Tectonophysics. 343 (1): 111. Bibcode:2001Tectp.343..111J. doi:10.1016/S0040-1951(01)00196-2.
  11. ^ Roger, Françoise; Jolivet, Marc; Malavieille, Jacques (2010). "The tectonic evolution of the Songpan-Garzê (North Tibet) and adjacent areas from Proterozoic to Present: A synthesis". Journal of Asian Earth Sciences. 39 (4): 254. Bibcode:2010JAESc..39..254R. doi:10.1016/j.jseaes.2010.03.008.
  12. ^ Roger, Françoise; Arnaud, Nicolas; Gilder, Stuart; Tapponnier, Paul; Jolivet, Marc; Brunel, Maurice; Malavieille, Jacques; Xu, Zhiqin; Yang, Jingsui (2003). "Geochronological and geochemical constraints on Mesozoic suturing in east central Tibet". Tectonics. 22 (4): 1037. Bibcode:2003Tecto..22.1037R. doi:10.1029/2002TC001466. S2CID 128454718.
  13. ^ Roger, F.; Malavieille, J.; Leloup, Ph. H.; Calassou, S.; Xu, Z. (2004). "Timing of granite emplacement and cooling in the Songpan–Garzê Fold Belt (eastern Tibetan Plateau) with tectonic implications". Journal of Asian Earth Sciences. 22 (5): 465. Bibcode:2004JAESc..22..465R. doi:10.1016/S1367-9120(03)00089-0.
  14. ^ "Prix Pierre Pruvost". Société Géologique de France (SGF).
  15. ^ "Elena Konstantinovskaya, PhD, PGeo". Directory, University of Alberta.
  16. ^ Konstantinovskaya, Elena; Malavieille, Jacques (2011). "Thrust wedges with décollement levels and syntectonic erosion: A view from analog models". Tectonophysics. 502 (3–4): 336–350. Bibcode:2011Tectp.502..336K. doi:10.1016/j.tecto.2011.01.020.

Selected publications

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