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REGARDS SUR

Titane, un métal discret plein de talents

Philippe Lagny

 

BRGM (2017). - Le titane (Ti) - éléments de criticité, 9 p.

European Commission (2023). - Study on the critical raw materials for the EU 2023, Final Report, 157 p.

Geological Survey of Norway (2023). - Tellnes, Deposit Area 1111 - 019, The Ore Database, 5 p.

Gursky D., Nechaev S. et Bobrov A. (2003). - Titanium deposits in Ukraine focused on the Proterozoic anorthosite-hosted massifs. Norges geologiske Undersøkelse, special publication, 9, p. 21-26.

Korneliussen A. et al. (2000). - An overview of titanium deposits in Norway. NGU-Bull., 436, p. 27-38.

L'Élémentarium, Titane (https://lelementarium.fr/element/titane/).

USGS - Mineral Commodity Summaries, janvier 2023, 2 p.

USGS - Titanium mineral concentrates, Mineral commodity summaries, january 2023.

Wikipedia, Titane, 22 p.

Woodruff L.G. et al. (2017). – Titanium. USGS Professional Paper, 1802-T, 23 p.

 

 

DOSSIER

Micropaléontologie

Qu’est-ce que la micropaléontologie aujourd’hui ?

Coordonnateurs : Marie Béatrice Forel (MNHN) et Baptiste Suchéras-Marx (CEREGE)

 

 

1 > Adaptation et évolution : le cas des ostracodes

Vincent Perrier (Univ. Lyon LGL-TPE)

 

Bennett, C. (2008). – A review of the Carboniferous colonisation of non-marine environments by ostracods. Senckenbergiana lethaea, 88, 37-46.

Bennett, C.E., Siveter, D. J., Davies, S.J., Williams, M., Wilkinson, I.P., Browne, M., & Miller, C.G. (2012). – Ostracods from freshwater and brackish environments of the Carboniferous of the Midland Valley of Scotland: the early colonization of terrestrial water bodies. Geological Magazine, 149(3), 366-396.

Perrier, V., Vannier, J., & Siveter, D. J. (2008). – The Silurian pelagic myodocope ostracod Richteria migrans. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 98(2), 151-163.

Perrier, V., Vannier, J., & Siveter, D.J. (2011). – Silurian bolbozoids and cypridinids (Myodocopa) from Europe: pioneer pelagic ostracods. Palaeontology, 54(6), 1361-1391.

Perrier, V., Williams, M., Siveter, D.J., Palmer, D., Steeman, T., & Vandenbroucke, T.R. (2020). – A high-precision global biostratigraphy of myodocope ostracods for the Silurian upper Wenlock Series and Ludlow Series. Lethaia, 53(3), 295-309.

Scotese, C.R. (2016). – Tutorial: PALEOMAP paleoAtlas for GPlates and the paleoData plotter program. PALEOMAP Project, Technical Report, 56. http://www.earthbyte.org/paleomap‐paleoatlas‐for‐gplates/

Siveter, D.J., Sutton, M.D., Briggs, D.E., & Siveter, D.J. (2003). – An ostracode crustacean with soft parts from the Lower Silurian. Science, 302(5651), 1749-1751.

Siveter, D.J., Siveter, D.J., Sutton, M.D., & Briggs, D.E. (2007). – Brood care in a Silurian ostracod. Proceedings of the Royal Society B: Biological Sciences, 274(1609), 465-469.

Siveter, D.J., Perrier, V., & Williams, M. (2022). – Silurian myodocopes display adaptations for a nektobenthic lifestyle: The paleobiological evidence. Marine Micropaleontology, 174, 101906.

Williams, M., Vannier, J., Corbari, L. & Massabuau, J.-C. (2011). – Oxygen as a Driver of Early Arthropod Micro-Benthos Evolution. PloS ONE, 6(12). e28183. https://doi.org/10.1371/journal.pone.0028183

 

 

2 > Micropaléontologie et nouvelles technologies

Nathalie Poulet-Crovisier (CNRS)

Marie-Béatrice Forel (MNHN)

Baptiste Suchéras-Marx (CEREGE)

Delphine Desmares (Sorbonne Univ.)

 

Forel M.-B., Poulet-Crovisier N., Korat L. (2021). – Ostracods like ghosts in their shells: input of X-ray computed tomography for taxonomy and taphonomy of Early Triassic Hollinella. Revue de micropaléontologie, 72, 100528.

Suchéras-Marx B., Giraud F., Simionovici A., Danie, I., Tucoulou R. (2016). – Perspectives on heterococcolith geochemical proxies based on high-resolution X-ray fluorescence mapping. Geobiology, 14, 390-403. doi: 10.1111/gbi.12177

 

 

3 > Micropaléontologie et climats anciens

Baptiste Suchéras-Marx (CEREGE)

Bralower, T.J., Self-Trail, J.M. (2016). – Nannoplankton malformation during the Paleocene-Eocene Thermal Maximum and its paleoecological and paleoceanographic significance. Paleoceanography, 31, 1423–1439. https://doi.org/10.1002/2016pa002980

Gaskell, D.E., Huber, M., O’Brien, C.L., Inglis, G.N., Acosta, R.P., Poulsen, C.J., Hull, P.M. (2022). – The latitudinal temperature gradient and its climate dependence as inferred from foraminiferal d18O over the past 95 million years. Proceedings of the National Academy of Sciences, 119, e2111332119. https://doi.org/doi:10.1073/pnas.2111332119

Keller, G., Mateo, P., Punekar, J., Khozyem, H., Gertsch, B., Spangenberg, J., Bitchong, A.M., Adatte, T., (2018). – Environmental changes during the Cretaceous-Paleogene mass extinction and Paleocene-Eocene Thermal Maximum: Implications for the Anthropocene. Gondwana Research, 56, 69–89. https://doi.org/10.1016/j.gr.2017.12.002

Le Hir, G., Fluteau, F., Suchéras-Marx, B., Goddéris, Y. (2020). – Amplifying factors leading to the collapse of primary producers during the Chicxulub impact and Deccan Traps eruptions. In: Adatte, T., Bond, D.P.G., Keller, G. (Eds.), Mass Extinctions, Volcanism, and Impacts: New Developments. Geological Society of America Special Paper., 544, 223-245.

Suan, G., Popescu, S.-M., Suc, J.-P., Schnyder, J., Fauquette, S., Baudin, F., Yoon, D., Piepjohn, K., Sobolev, N.N., Labrousse, L. (2017). – Subtropical climate conditions and mangrove growth in Arctic Siberia during the early Eocene. Geology, 45, 539–542. https://doi.org/10.1130/G38547.1

Zacaï, A., Monnet, C., Pohl, A., Beaugrand, G., Mullins, G., Kroeck, D.M., Servais, T. (2021). – Truncated bimodal latitudinal diversity gradient in early Paleozoic phytoplankton. Science Advances, 7, eabd6709. https://doi.org/10.1126/sciadv.abd6709

 

 

4 > Microfossiles : paléoécologie et écophénotypisme

Thomas Servais (CNRS, Univ. de Lille)

Kenneth N. Mertens (IFREMER, Concarneau)

 

Kroeck, D.M., Blanchon, M., Zacai, A., Navidi-Izad, N., Benachour, H.B., Monnet, C., Raevskaya, E., Szczepanik, Z., Servais, T. (2020). – Revision of the Cambro-Ordovician acritarch genus Vulcanisphaera Deunff, 1961. Review of Palaeobotany and Palynology, 279, 104212. Doi: 10.1016/j.revpalbo.2020.104212

Kroeck, D.M., Eriksson, M.E., Lindskog, A., Munnecke, A., Dubois, M., Régnier, S., Servais, T. (2021). – Morphological variability of peteinoid acritarchs from the Middle Ordovician of Oeland, Sweden, and implications for acritarch classification. Palynology, 45, 705-715. Doi: 10.1080/01916122.2021.1916785

Kroeck, D.M. Mullins, G., Zacai, A., Monnet, C., Servais, T. (2022). – A review of Paleozoic phytoplankton biodiversity: Driver for major evolutionary events? Earth-Science Reviews, 232: 104113. Doi: 10.1016/j.earscirev.2022.104113

Li, J., Servais, T., Yan, Y. & Zhu, H. (2004). –A nearshore-offshore trend in the acritarch distribution of the Early-Middle Ordovician of the Yangtze Platform, S-China. Review of Palaeobotany and Palynology, 130 (1-4): 141-161. Doi: 10.1016/j.revpalbo.2003.12.005

Mertens K.N., Ribeiro, S., Bouimetarhan, I., Caner, H., Combourieu-Nebout, N., Dale, B., De Vernal, A., Ellegaard, M., Filipova, M., Godhe, A., Goubert, E., Grøsfjeld, K., Holzwarth, U., Kotthoff, U., Leroy, S.A.G., Londeix, L., Marret, F., Matsuoka, K., Mudie, P.J., Naudts, L., Peña-Manjarrez, J.L., Persson, A., Popescu, S.-M., Pospelova, V., Sangiorgi, F., van der Meer M.T.J., Vink, A., Zonneveld, K.A.F., Vercauteren, D., Vlassenbroeck, J., Louwye, S., (2009). – Process length variations in cysts of a dinoflagellate, Lingulodinium machaerophorum, in surface sediments: Investigating its potential as salinity proxy. Marine Micropalaeontology, 70, 54–69. Doi : 10.1016/j.marmicro.2008.10.004

Molyneux, S.G., Delabroye, A., Wicander, R., Servais, T. (2013). – Biogeography of Palaeozoic phytoplankton. Geological Society, London, Memoir, 38: 365-397. Doi : 10.1144/M38.2

Munnecke, A. & Servais, T. (2008). – Palaeozoic calcareous plankton: evidence from the Silurian of Gotland. Lethaia, 41 : 185-194. Oslo. Doi : 10.1111/j.1502-3931.2008.00113.x

Servais, T., Stricanne, L., Montenari, M. & Pross, J. (2004). – Population dynamics of galeate acritarchs at the Cambrian-Ordovician transition in the Algerian Sahara. Palaeontology, 47: 395-414. Oxford. Doi:10.1111/j.0031-0239.2004.00367.x

Stricanne, L., Munnecke, A., Pross, J., Servais, T. (2004). – Acritarch distribution along an inshore-offshore transect in the Gorstian (lower Ludlow) of Gotland, Sweden. Review of Palaeobotany and Palynology, 130 (1-4): 195-216. Doi: 10.1016/j.revpalbo.2003.12.007

 

 

5 > Micropaléontologie et paléobiogéographie

Elvis Guillam (Sorbonne Univ.)

Marie-Béatrice Forel (MNHN)

 

Blakey R. (2016). – Devonian - 380 Ma, Global Paleogeography and Tectonics in Deep Time Series. Deep Time Maps™ Paleogeography.

Chiu W.T.R., Yasuhara M., Cronin T.M., Hunt G., Gemery L. & Wei C.L. (2020). – Marine latitudinal diversity gradients, niche conservatism and out of the tropics and Arctic: Climatic sensitivity of small organisms. Journal of Biogeography, 47(4): 817-828. https://doi.org/10.1111/jbi.13793

Clausen S. et Álvaro J. (2004). – Implications biostratigraphiques et paléobiogéographiques de la découverte du métazoaire néoproterozoïque Cloudina dans le versant nord de la Montagne Noire (France). In : Paléogéographie, Colloque de l’Académie des sciences de l’Institut de France et Société géologique de France.

Cornet Y., François C., Compère P., Callec Y., Roberty S., Plumier J.C., Javaux E.J., (2019). – New insights on the paleobiology, biostratigraphy and paleogeography of the pre-Sturtian microfossil index taxon Cerebrosphaera. Precambrian Research, 332: 105410. https://doi.org/10.1016/j.precamres.2019.105410

Gargani J. & Rigollet C. (2007). – Mediterranean Sea level variations during the Messinian Salinity Crisis. Geophysical Research Letters, 34: L10405. https://doi.org/10.1029/2007GL029885

Guillam E. (2023). – Les deux crises biologiques de la fin du Dévonien : les ostracodes marqueurs des variations paléoenvironnementales et des relations paléobiogéographiques. Thèse de doctorat, Sorbonne Université.

Kouwenhoven T.J, Hilgen, F.J & van der Zwaan G.J. (2003). – Late Tortonianearly Messinian stepwise disruption of the Mediterranean–Atlantic connections: constraints from benthic foraminiferal and geochemical data. Palaeogeography, Palaeoclimatology, Palaeoecology. 198, 3-4: 303-319. https://doi.org/10.1016/S0031-0182(03)00472-3

Pinseel E., Van de Vijver B., Wolfe A.P., Harper M., Antoniades D., Ashworth A.C., Ector L., Lewis A.R., Perren B., Hodgson D.A., Sabbe K., Verleyen E. & Vyverman, W. (2021). – Extinction of austral diatoms in response to large-scale climate dynamics in Antarctica. Science advances, 7(38): eabh3233. https://doi.org/10.1126/sciadv.abh3233

Stigall A.L. (2012). – Speciation collapse and invasive species dynamics during the Late Devonian "Mass Extinction". GSA Today, 22(1): 4-9. https://doi.org/10.1130/G128A.1

Thibault N., Gardin S. & Galbrun B. (2010). – Latitudinal migration of calcareous nannofossil Micula murus in the Maastrichtian: Implications for global climate change. Geology, 38(3): 203-206. https://doi.org/10.1130/G30326.1

 

 

7 > Microfossiles et patrimoine

Patrick De Wever (Prof. émérite MNHN)

 

De Wever P. (2016). – Merveilleux microfossiles. Édit. Biotope, 255 p.

Orbigny, A. D. d'. (1826). – Tableau méthodique de la classe des Céphalopodes. Annales des Sciences Naturelles, 7: 96-169, 245-314.

 

 

8 > La micropaléontologie à l’ère de l’Intelligence Artificielle

Thibault de Garidel-Thoron (CEREGE)

Camille Godbillot (CEREGE)

Sonia Chaabane (CEREGE)

Anthony Gramoullé (CEREGE)

 

Adebayo, Michael B., Clara T. Bolton, R. Marchant, F. Bassinot, S. Conrod, and T. de Garidel-Thoron (2023). – Environmental Controls of Size Distribution of Modern Planktonic Foraminifera in the Tropical Indian Ocean. Geochemistry, Geophysics, Geosystems, 24(4). https://doi.org/10.1029/2022gc010586.

Carlsson, V., T. Danelian, M. Tetard, M. Meunier, P. Boulet, P. Devienne, and S. Ventalon (2023). – Convolutional Neural Network Application on a New Middle Eocene Radiolarian Dataset. Marine Micropaleontology, 183 (August): 102268. https://doi.org/10.1016/j.marmicro.2023.102268.

Dollfus, D., and L. Beaufort (1999). – Fat Neural Network for Recognition of Position-Normalised Objects. Neural Networks: The Official Journal of the International Neural Network Society, 12(3): 553–60. https://doi.org/10.1016/s0893-6080(99)00011-8.

Johnson, Richard F. (1981). – Automatic Particle Analyzing System. USPTO 4295200A. US Patent, filed 1979, and issued 1981. https://apps.dtic.mil/sti/citations/ADD008972.

Marchant, R., T. de Garidel-Thoron, J.-M. Brutti, and P. Eloi (2022). – Système et procédé de tri particulaire, et installation et procédé de tri et de caractérisation particulaire associés. FR:3122586:A1. Patent, filed May 4, 2021, and issued November 11, 2022. https://patentimages.storage.googleapis.com/cd/af/c9/d338643a87be09/FR3122586A1.pdf.

Marchant, R., M. Tetard, A. Pratiwi, M. Adebayo, and T. de Garidel-Thoron (2020). – Automated Analysis of Foraminifera Fossil Records by Image Classification Using a Convolutional Neural Network. Journal of Micropalaeontology, 39(2): 183–202. https://doi.org/10.5194/jm-39-183-2020.