{"id":208,"date":"2026-03-23T11:45:50","date_gmt":"2026-03-23T10:45:50","guid":{"rendered":"https:\/\/geops.geol.u-psud.fr\/etp\/?page_id=208"},"modified":"2026-03-23T11:46:14","modified_gmt":"2026-03-23T10:46:14","slug":"publications-en","status":"publish","type":"page","link":"https:\/\/geops.geol.u-psud.fr\/etp\/en\/publications-en\/","title":{"rendered":"Publications ( EN )"},"content":{"rendered":"

Publications<\/h1><\/div><\/div><\/div>
2020<\/span><\/a><\/div><\/div><\/div>
2021<\/span><\/a><\/div><\/div><\/div>
2022<\/span><\/a><\/div><\/div><\/div><\/div><\/div>
<\/div>

2022<\/h2><\/div>
    \n
  1. Schmidt, F.<\/strong>; Way, M. J.; Costard, F.; Bouley, S.; <\/strong>S\u00e9journ\u00e9<\/strong>, A<\/strong>. & Aleinov, I. Circumpolar ocean stability on Mars 3 Gy ago Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, 2022, 119, e2112930118,\u00a0http:\/\/dx.doi.org\/10.1073\/pnas.2112930118<\/li>\n
  2. Quidelleur<\/strong> X.<\/strong>, Michon L., Famin V., Geffray<\/strong> M.-C.<\/strong>, Dani\u0161i\u0301k M., Gardiner N., Rusquet A. Mohamed Gou Z., 2022. Holocene volcanic activity in Anjouan Island (Comoros archipelago) revealed by new Cassignol-Gillot groundmass K-Ar and 14C ages. Quat. Geochron. 67, 101236.<\/li>\n
  3. Faral A., F. Lavigne, B.W. Mutaqin, F. Mokadem, R. Achmad, R. W. Ningrum, P. <\/strong>Lahitte<\/strong>, D. S. Hadmoko, E. T. Wulan Mei, 2022, A 22,000-year tephrostratigraphy record of unidentified volcanic eruptions from Ternate and Tidore islands (North Maluku, Indonesia), J. Volcanol. Geotherm. Res., https:\/\/doi.org\/10.1016\/j.jvolgeores.2022.107474<\/u><\/a><\/li>\n
  4. Santamaria<\/strong> S.<\/strong>, Quidelleur<\/strong> X.<\/strong>, Hidalgo S., Samaniego P., Le Pennec J.L., Liorzou C., Lahitte P.<\/strong>, Co\u0301rdova M., Espi\u0301n P., 2022. Geochronological evolution of the potentially active Iliniza Volcano (Ecuador) based on new K-Ar ages. J. Volcanol. Geotherm. Res. 424, 107489.<\/li>\n
  5. Samaniego P., Ord\u00f3\u00f1ez J., Bablon M., Hall M.L., Quidelleur<\/strong> X.<\/strong>, Lahitte P.<\/strong>, Santamaria<\/strong> S.<\/strong>, Liorzou C., 2022. The eruptive chronology of the Carihuairazo volcano (Ecuador): Recurrent sector collapses of a Midle Pleistocene stratovolcano of the northern Andes. J. South Am. Earth\u00a0Sci. 116, 103865.<\/li>\n
  6. Michon L., Famin V., Quidelleur<\/strong> X.<\/strong>, 2022. M Evolution of the East African Rift System from trap-scale to plate-scale rifting. Earth\u00a0Sci. Rev. 231, 104089.<\/li>\n
  7. Henri M., Quidelleur<\/strong> X.<\/strong>, Le Friant A., Komorowski JC., Escart\u00edn J., Deplus C., Mevel C., 2022. K-Ar Geochronology and trace geochemistry of underwater lava samples from the Subsaintes cruise offshore Les Saintes (Guadeloupe). Marine Geology 450, 106862.<\/li>\n
  8. Grosse P., Dani\u0161\u00edk M., Apaza F.D., Guzm\u00e1n S.R., Lahitte P.<\/strong>, Quidelleur<\/strong> X<\/strong>., Self S., Siebe C., van Wyk de Vries B., Ureta G., Guillong M., De Rosa R., Le Roux P., Wotzlaw J.-F., Bachmann O., 2022. Holocene collapse of Socompa volcano and pre\u2010 and post\u2010collapse growth rates constrained by multi\u2010system geochronology. Bull. Volc. 84:85.<\/li>\n
  9. Lesage, E.; <\/strong>Massol<\/strong>, H<\/strong>.; Howell, S. M. & Schmidt, F.<\/strong> Simulation of Freezing Cryomagma Reservoirs in Viscoelastic Ice Shells The Planetary Science Journal, American Astronomical Society, 2022, 3, 170, http:\/\/dx.doi.org\/10.3847\/psj\/ac75bf<\/u><\/a><\/li>\n
  10. F. Costard<\/u>, E. Gautier, P. Konstantinov, F. Bouchard, L. Dupeyrat, A. S\u00e9journ\u00e9 and A. Fedorov (2022). Thermal regime variability of frozen islands in the Lena River floodplain near Yakutsk, eastern Siberia, Permafrost and Periglacial Processes<\/strong>, janvier, 1-14,.\u00a0DOI:<\/u> 10.1002\/ppp.2136<\/u><\/li>\n
  11. F. Schmidt, M. Way, F. Costard<\/u>, S. Bouley, A. S\u00e9journ\u00e9 and I. Aleinov (2022). Circumpolar ocean stability on Mars 3 Gy ago. PNAS, vol. 19, n\u00b0<\/strong>4,<\/strong>.\u00a0doi.org\/10.1073\/pnas.2112930118<\/u><\/a><\/li>\n
  12. A. Bouquety, O. Groussin, L. Jorda, A. Sejourn\u00e9, F. Costard<\/u> and S. Bouley (2022). Evidence for thermokarst on comet thaw 67P Churyumov-Gerasimenko: an interplanetary comparison. Astronomy<\/strong> and <\/strong>Astrophysics<\/strong>. 6\/04\/22.<\/li>\n
  13. Nkouandou O.F., Bardintzeff<\/strong> J.M.,<\/strong>\u00a0Fagny\u00a0Mefire A., Koromi A.B., Mahamat O. et Ngougoure M.S. (2022) – Geodynamic framework of the magmatic activity of Cretaceous L\u00e9r\u00e9 basin (Southwestern Chad, Central Africa). J. Afr. Earth Sc., 194, 1, 104630.<\/li>\n
  14. Pouclet A., Bardintzeff<\/strong> J.M.<\/strong> et Bellon H. (2022) – Variscan lamprophyres of the South Armorican Domain and comparison with lamprophyres of the Western European Variscan belt. Mineralogy and Petrology, 116, 4, 311-335.<\/li>\n
  15. Gurgurewicz, J.; M\u00e8ge, D.; Schmidt, F.<\/strong>; Dout\u00e9, S. & Langlais, B. Megashears and hydrothermalism at the Martian crustal dichotomy in Valles Marineris Nature Communications Earth & Environment, Springer Science and Business Media LLC, 2022, 3 http:\/\/dx.doi.org\/10.1038\/s43247-022-00612-5<\/u><\/a><\/li>\n
  16. Schmidt, <\/strong>F.<\/strong>;\u00a0Way, M. J.; Costard, F.; Bouley, S.; S\u00e9journ\u00e9, A. & Aleinov, I. Circumpolar\u00a0ocean\u00a0stability on Mars 3 Gy ago, Proceedings of the National Academy of Sciences, 2022, 119, e2112930118, http:\/\/dx.doi.org\/10.1073\/pnas.2112930118<\/u><\/a><\/li>\n
  17. Schmidt, F.<\/strong>, Andrieu, F., Costard, F., Kocifaj, M. & Meresescu, A., \u00ab Formation of recurring\u00a0slope\u00a0lineae on Mars by rarefied\u00a0gas-triggered\u00a0granular flows \u00bb, Nature Geoscience, 2017, 10, 270-273 http:\/\/dx.doi.org\/10.1038\/ngeo2917<\/u><\/a><\/li>\n<\/ol>\n<\/div><\/div><\/div><\/div><\/div>
    <\/div>

    2021<\/h2><\/div>
      \n
    1. Thomas, I. R.; Aoki, S.; Trompet, L.; Robert, S.; Depiesse, C.; Willame, Y.;\u00a0Cruz-<\/strong><\/em>Mermy<\/strong><\/em>, G.<\/strong><\/em>;\u00a0Schmidt, F.<\/strong>; Erwin, J. T.; Vandaele, A. C.; Daerden, F.; Mahieux, A.; Neefs, E.; Ristic, B.; Hetey, L.; Berkenbosch, S.; Clairquin, R.; Beeckman, B.; Patel, M. R.; Lopez-Moreno, J. J. & Bellucci, G. Calibration of NOMAD on ESA’s ExoMars Trace Gas Orbiter: Part 2 \u2013 The Limb, Nadir and Occultation (LNO) channel Planetary and Space Science, Elsevier BV, 2021, 105410,\u00a0http:\/\/dx.doi.org\/10.1016\/j.pss.2021.105410<\/li>\n
    2. Cruz <\/strong><\/em>Mermy<\/strong><\/em>, <\/strong><\/em>G.\u00a0<\/strong><\/em>;\u00a0Schmidt, F.<\/strong>; Thomas, I.; Daerden, F.; Ristic, B.; Patel, M.; Lopez-Moreno, J.-J.; Bellucci, G. & Vandaele, A. Calibration of NOMAD on ExoMars Trace Gas Orbiter: Part 3 – LNO validation and instrument stability Planetary and Space Science, Elsevier BV, 2021, 105399,\u00a0http:\/\/dx.doi.org\/10.1016\/j.pss.2021.105399<\/li>\n
    3. Belgacem<\/strong><\/em>, I.<\/strong><\/em>;\u00a0Schmidt, F.<\/strong>\u00a0& Jonniaux, G. Regional study of Ganymede’s photometry Icarus, Elsevier BV, 2021, 369, 114631,\u00a0http:\/\/dx.doi.org\/10.1016\/j.icarus.2021.114631<\/li>\n
    4. Aoki, S.; Daerden, F.; Viscardy, S.; Thomas, I. R.; Erwin, J. T.; Robert, S.; Trompet, L.; Neary, L.; Villanueva, G. L.; Liuzzi, G.; Crismani, M. M. J.; Clancy, R. T.; Whiteway, J.;\u00a0Schmidt, F.<\/strong>; Lopez-Valverde, M. A.; Ristic, B.; Patel, M. R.; Bellucci, G.; Lopez-Moreno, J.-J.; Olsen, K. S.; Lef\u00e8vre, F.; Montmessin, F.; Trokhimovskiy, A.; Fedorova, A. A.; Korablev, O. & Vandaele, A. C. Annual Appearance of Hydrogen Chloride on Mars and a Striking Similarity With the Water Vapor Vertical Distribution Observed by TGO\/NOMAD Geophysical Research Letters, American Geophysical Union (AGU), 2021, 48\u00a0http:\/\/dx.doi.org\/10.1029\/2021gl092506<\/li>\n
    5. Liuzzi, G.; Villanueva, G. L.; Viscardy, S.; M\u00e8ge, D.; Crismani, M. M. J.; Aoki, S.; Gurgurewicz, J.; Tesson, P.-A.; Mumma, M. J.; Smith, M. D.; Faggi, S.; Kofman, V.; Knutsen, E. W.; Daerden, F.; Neary, L.;\u00a0Schmidt, F.<\/strong>; Trompet, L.; Erwin, J. T.; Robert, S.; Thomas, I. R.; Ristic, B.; Bellucci, G.; Lopez-Moreno, J. J.; Patel, M. R. & Vandaele, A. C. Probing the Atmospheric Cl Isotopic Ratio on Mars: Implications for Planetary Evolution and Atmospheric Chemistry Geophysical Research Letters, American Geophysical Union (AGU), 2021, 48\u00a0http:\/\/dx.doi.org\/10.1029\/2021gl092650<\/li>\n
    6. Lesage, E.<\/strong><\/em>;\u00a0Schmidt, F.<\/strong>, Andrieu<\/strong> F. & <\/strong>Massol<\/strong>, H<\/strong>., Constraints on effusive cryovolcanic eruptions on Europa using topography obtained from Galileo images Icarus, Elsevier BV, 2021, 114373,\u00a0http:\/\/dx.doi.org\/10.1016\/j.icarus.2021.114373<\/li>\n
    7. Costard, F., Dupeyrat, S\u00e9journ\u00e9, A.<\/strong>, Bouchard, F., Fedorov, A., Saint-B\u00e9zar, B. (2021). Retrogressive thaw slumps on ice-rich permafrost under degradation: Results from a large-scale laboratory simulation. GRL. \u00a0<\/em>doi.org\/10.1029\/2020GL091070<\/u><\/a><\/li>\n
    8. Di Pietro I., S\u00e9journ\u00e9 A.,<\/strong> Costard F., Ci\u0105\u017cela M., Rodriguez J.A.P. (2021). Evidence of mud volcanism due to the rapid compaction of martian tsunami deposits in southeastern Acidalia Planitia, Mars. Icarus<\/em>, 354 doi.org\/10.1016\/j.icarus.2020.114096<\/u><\/a><\/li>\n
    9. A. Bouquety, L. Jorda, O. Groussin, S. , A. S\u00e9journ\u00e9 and F. Costard (2021). Ancient and present surface evolution processes in the Ash region on comet 67P\/Churyumov-Gerasimenko. Astronomy & Astrophysics. doi.org\/10.1051\/0004-6361\/202140516<\/a><\/li>\n
    10. Gautier E., Depret Th., Cavero J., Costard F., Virmoux C., Fedorov A., Konstantinov P., Jammet M., and D. Brunstein (2021). Fifty-year dynamics of the Lena river islands (Russia): spatio-temporal pattern of large periglacial anabranching river and influence of climate change. Science of the Total Environment. 783, 147020. doi.org\/10.1016\/j.scitotenv.2021.147020<\/u><\/a><\/li>\n
    11. Williams, D. Robert C Anderson, Shane Byrne, Francois Costard, Alexander Hayes, Ralf Jaumann, Peter Mouginis-Mark, Jan-Peter Muller, J\u00fcrgen Oberst, Peter H Schultz, John G Spray, Julie Stopar, Sarah Sutton, Thomas R Watters (2021). RPIFs to PDUCs: New Planetary Data Utilization Centers to support NASA’s Planetary Data Ecosystem<\/u><\/a>. Bulletin of the American Astronomical Society, Vol. 53, Issue 4, page 016. \u00a010.3847\/25c2cfeb.707b3a56<\/u><\/a><\/li>\n
    12. Robbe-Saule, M., Morize, C., Bertho, Y., Sauret, A., Hildenbrand<\/strong>, A.<\/strong>, Gondret, P., 2021. From laboratory experiments to geophysical tsunamis generated by subaerial landslides. Nature Scientific Reports 11, 18437<\/a>.<\/li>\n
    13. Barbarand, J., Marques, F., Hildenbrand<\/strong>, A.<\/strong>, Pinna-Jamme, R., Nogueira, C., 2021. Thermal evolution of onshore West Iberia: A better understanding of the ages of breakup and rift-to-drift in the Iberia-Newfoundland Rift. Tectonophysics, 813, 228926.<\/li>\n
    14. Moln\u00e1r K., Lahitte P.<\/strong>, Dibacto S.,\u00a0 Benk\u00f3 Z., Agostini S., D\u00f6ncz\u0151 B., Ionescu A.? Milevski I., \u00a0Szikszai Z., Kert\u00e9sz Z., Temovski M., 2021, The westernmost Late Miocene\u2013Pliocene volcanic activity in the Vardar zone (North Macedonia), Int J Earth Sci (Geol\u00a0Rundsch), doi:\/10.1007\/s00531-021-02153-2.<\/li>\n
    15. Genge M., Derycke A., Gautheron C., Zattin M., Witt C., Mazzoli S., Olivetti V., Quidelleur<\/strong> X.<\/strong>, 2021. Tectono-thermal history of the intraplate San Bernardo Fold and Thrust Belt in central Patagonia inferred by low-temperature thermochronology, 2021. J. South Am. Earth\u00a0Sci., 109, 103333.<\/li>\n
    16. Hildenbrand<\/strong> A.<\/strong>, Marques F.O., Quidelleur<\/strong> X.<\/strong>, Noronha F., 2021. Exhumation history of the Variscan orogen in western Iberia as inferred from new K-Ar and 40Ar\/39Ar data on granites from Portugal. Teconophysics, 812, 228863.<\/li>\n
    17. Marques, F.O., Catal\u00e3o, J., H\u00fcbscher, C., Costa, A.C.G., Hildenbrand<\/strong>, A.<\/strong>, Zeyen, H., Nomikou, P., Lebas, E., Zanon, V., 2021. The shaping of a volcanic ridge in a tectonically active setting: The Pico-Faial Ridge in the Azores Triple Junction. Geomorphology,\u00a0378, 107612.<\/li>\n
    18. Sagna I., Quidelleur<\/strong> X.<\/strong>, Dioh E., Gillot<\/strong> P.Y.<\/strong>, Lef\u00e8vre J.C., Baratoux L. and Diallo D.P. , 2021. Proterozoic magmatic events recorded in 40Ar\/39Ar data from the northern part of the Kedougou\u00a0Kenieba Inlier (eastern Senegal). Afr. J. Earth\u00a0Sci., 175, 104109.<\/li>\n
    19. Mey\u00a0Atour M., Bardintzeff<\/strong> J.M.<\/strong>, Fagny\u00a0Mefire A., Nkouandou O.F., Tchameni R. et Dinamou A. (2021) – Petrology and geochemical framework of dolerites dykes of Temt\u00e9, North Cameroon, Central Africa. Acta Geochimica, 40, 3, 287-299.<\/li>\n
    20. Itiga Z., Mbassa B.J., Ngo Belnoun R.N., Wotchoko P., Tchokona\u00a0Seuwui D., Owona S., Bardintzeff<\/strong> J.M.<\/strong>, Wandji P. et Bellon H. (2021) – Petrological and geochemical characteristics of the Cretaceous Ngaou\u00a0Boh anorogenic complex (Adamawa Plateau, Cameroon Line): Preliminary constraints. J. Geosciences and Geomatics, 9, 4, 160-176.<\/li>\n
    21. Adama H., Nkouandou O.F., Bardintzeff<\/strong> J.M.<\/strong>, Mbainassem M.Y., M\u2019Non-Allah N., Okomo\u00a0Atouba L.C. et Njankouo\u00a0Ndassa Z.N. (2021) – Petrography and geochemistry of the harzburgite\u00a0xenoliths of Lake Guinnadji and Ngao\u00a0Djalsoka\u00a0volcano\u00a0from the Dibi area (Adamawa plateau – Cameroon). Journal of Geography, Environment and Earth Science International, 25, 10, 178-193, 81483.<\/li>\n
    22. Bardintzeff<\/strong> J.M.<\/strong> (2021) – Volcanologie. 6e \u00e9dition, Dunod, Paris, 352\u00a0p. + 16 p. couleur hors texte<\/li>\n
    23. Lagain, A., Bouley<\/strong>, S.,<\/strong>\u00a0Baratoux, D., Marmo, C., Costard, F., Delaa, O., Pio Rossi et al. Crater database\u00a0: A participative project for the classification of the morphological characteristics of large Martian craters. GSA (2021)<\/li>\n
    24. Niang C.A.B., Baratoux, D., Diallo D.P., Rochette P., Jessell M.W., Reimold W.U., Bouley, S.,<\/strong>\u00a0Vanderheaghe O., Faye G., Lambert, P. A systematic survey of K, Th and U signatures in airborne radiometric data of Australian meteorite impact structures\u00a0: possible causes of circular features and implications. GSA (2021)<\/li>\n
    25. B. E. Morgado, B. Sicardy, F. Braga-Ribas, J. Desmars, A. R. Gomes-J\u00fanior, D. B\u00e9rard, R. Leiva, J. L. Ortiz, R. Vieira-Martins, G. Benedetti-Rossi, P. Santos-Sanz, J. I. B. Camargo, R. Duffard, F. L. Rommel, M. Assafin, R. C. Boufleur, F.Colas, M. Kretlow, W. Beisker, R. Sfair, C. Snodgrass, N. Morales, E. Fern\u00e1ndez-Valenzuela, L. S. Amaral, A. Amarante, R. A. Artola, M. Backes, K.-L. Bath, S., Bouley, S<\/strong>. et al. 2021 Refined physical parameters for Chariklo\u2019s body and rings from stellar occultations observed between 2013 and 2020 A&amp;A 652 A141 DOI:10.1051\/0004-6361\/202141543<\/li>\n
    26. E. Drolshagen, T. Ott, D. Koschny, G. Drolshagen, J. Vaubaillon, F. Colas, B., Zanda, S. <\/strong>Bouley<\/strong>, S. et al. 2021. Luminous efficiency of meteors derived from ablation model after assessment of its range of validity. A&amp;A, 652 A84 DOI: https:\/\/doi.org\/10.1051\/0004-6361\/202140917<\/li>\n
    27. E. Drolshagen, T. Ott, D. Koschny, G. Drolshagen, J. Vaubaillon, F. Colas, B., Zanda,S<\/strong>.<\/strong>\u00a0<\/strong>Boul<\/strong>ey, S. et al. 2021 Luminous\u00a0efficiency\u00a0based on FRIPON meteors and limitations of ablation models. A&amp;A, 650 A159 DOI: https:\/\/doi.org\/10.1051\/0004-6361\/202040204<\/li>\n
    28. D Gardiol, D Barghini, A Buzzoni, A Carbognani, M Di Carlo, M Di Martino, C, Knapic, E Londero, G Pratesi, S Rasetti, W Riva, R Salerno, G M Stirpe, G B, Valsecchi, C A Volpicelli, S Zorba, F Colas, B Zanda, S <\/strong>Bouley<\/strong>, et al. 2021. The first Italian meteorite recovered by the PRISMA fireball network. Orbit, trajectory, and strewn-field, Monthly Notices of the Royal Astronomical Society, Volume 501, Issue 1, February 2021, Pages 1215\u20131227, https:\/\/doi.org\/10.1093\/mnras\/staa3646<\/li>\n<\/ol>\n<\/div><\/div><\/div><\/div><\/div>
      <\/div>

      2020<\/h2><\/div>
        \n
      1. Schmidt, F.<\/strong>; Way, M. J.; Costard, F.; Bouley, S.; <\/strong>S\u00e9journ\u00e9<\/strong>, A<\/strong>. & Aleinov, I. Circumpolar ocean stability on Mars 3 Gy ago Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, 2022, 119, e2112930118,\u00a0http:\/\/dx.doi.org\/10.1073\/pnas.2112930118<\/li>\n
      2. Quidelleur<\/strong> X.<\/strong>, Michon L., Famin V., Geffray<\/strong> M.-C.<\/strong>, Dani\u0161i\u0301k M., Gardiner N., Rusquet A. Mohamed Gou Z., 2022. Holocene volcanic activity in Anjouan Island (Comoros archipelago) revealed by new Cassignol-Gillot groundmass K-Ar and 14C ages. Quat. Geochron. 67, 101236.<\/li>\n
      3. Faral A., F. Lavigne, B.W. Mutaqin, F. Mokadem, R. Achmad, R. W. Ningrum, P. <\/strong>Lahitte<\/strong>, D. S. Hadmoko, E. T. Wulan Mei, 2022, A 22,000-year tephrostratigraphy record of unidentified volcanic eruptions from Ternate and Tidore islands (North Maluku, Indonesia), J. Volcanol. Geotherm. Res., https:\/\/doi.org\/10.1016\/j.jvolgeores.2022.107474<\/u><\/a><\/li>\n
      4. Santamaria<\/strong> S.<\/strong>, Quidelleur<\/strong> X.<\/strong>, Hidalgo S., Samaniego P., Le Pennec J.L., Liorzou C., Lahitte P.<\/strong>, Co\u0301rdova M., Espi\u0301n P., 2022. Geochronological evolution of the potentially active Iliniza Volcano (Ecuador) based on new K-Ar ages. J. Volcanol. Geotherm. Res. 424, 107489.<\/li>\n
      5. Samaniego P., Ord\u00f3\u00f1ez J., Bablon M., Hall M.L., Quidelleur<\/strong> X.<\/strong>, Lahitte P.<\/strong>, Santamaria<\/strong> S.<\/strong>, Liorzou C., 2022. The eruptive chronology of the Carihuairazo volcano (Ecuador): Recurrent sector collapses of a Midle Pleistocene stratovolcano of the northern Andes. J. South Am. Earth\u00a0Sci. 116, 103865.<\/li>\n
      6. Michon L., Famin V., Quidelleur<\/strong> X.<\/strong>, 2022. M Evolution of the East African Rift System from trap-scale to plate-scale rifting. Earth\u00a0Sci. Rev. 231, 104089.<\/li>\n
      7. Henri M., Quidelleur<\/strong> X.<\/strong>, Le Friant A., Komorowski JC., Escart\u00edn J., Deplus C., Mevel C., 2022. K-Ar Geochronology and trace geochemistry of underwater lava samples from the Subsaintes cruise offshore Les Saintes (Guadeloupe). Marine Geology 450, 106862.<\/li>\n
      8. Grosse P., Dani\u0161\u00edk M., Apaza F.D., Guzm\u00e1n S.R., Lahitte P.<\/strong>, Quidelleur<\/strong> X<\/strong>., Self S., Siebe C., van Wyk de Vries B., Ureta G., Guillong M., De Rosa R., Le Roux P., Wotzlaw J.-F., Bachmann O., 2022. Holocene collapse of Socompa volcano and pre\u2010 and post\u2010collapse growth rates constrained by multi\u2010system geochronology. Bull. Volc. 84:85.<\/li>\n
      9. Lesage, E.; <\/strong>Massol<\/strong>, H<\/strong>.; Howell, S. M. & Schmidt, F.<\/strong> Simulation of Freezing Cryomagma Reservoirs in Viscoelastic Ice Shells The Planetary Science Journal, American Astronomical Society, 2022, 3, 170, http:\/\/dx.doi.org\/10.3847\/psj\/ac75bf<\/u><\/a><\/li>\n
      10. F. Costard<\/u>, E. Gautier, P. Konstantinov, F. Bouchard, L. Dupeyrat, A. S\u00e9journ\u00e9 and A. Fedorov (2022). Thermal regime variability of frozen islands in the Lena River floodplain near Yakutsk, eastern Siberia, Permafrost and Periglacial Processes<\/strong>, janvier, 1-14,.\u00a0DOI:<\/u> 10.1002\/ppp.2136<\/u><\/li>\n
      11. F. Schmidt, M. Way, F. Costard<\/u>, S. Bouley, A. S\u00e9journ\u00e9 and I. Aleinov (2022). Circumpolar ocean stability on Mars 3 Gy ago. PNAS, vol. 19, n\u00b0<\/strong>4,<\/strong>.\u00a0doi.org\/10.1073\/pnas.2112930118<\/u><\/a><\/li>\n
      12. A. Bouquety, O. Groussin, L. Jorda, A. Sejourn\u00e9, F. Costard<\/u> and S. Bouley (2022). Evidence for thermokarst on comet thaw 67P Churyumov-Gerasimenko: an interplanetary comparison. Astronomy<\/strong> and <\/strong>Astrophysics<\/strong>. 6\/04\/22.<\/li>\n
      13. Nkouandou O.F., Bardintzeff<\/strong> J.M.,<\/strong>\u00a0Fagny\u00a0Mefire A., Koromi A.B., Mahamat O. et Ngougoure M.S. (2022) – Geodynamic framework of the magmatic activity of Cretaceous L\u00e9r\u00e9 basin (Southwestern Chad, Central Africa). J. Afr. Earth Sc., 194, 1, 104630.<\/li>\n
      14. Pouclet A., Bardintzeff<\/strong> J.M.<\/strong> et Bellon H. (2022) – Variscan lamprophyres of the South Armorican Domain and comparison with lamprophyres of the Western European Variscan belt. Mineralogy and Petrology, 116, 4, 311-335.<\/li>\n
      15. Gurgurewicz, J.; M\u00e8ge, D.; Schmidt, F.<\/strong>; Dout\u00e9, S. & Langlais, B. Megashears and hydrothermalism at the Martian crustal dichotomy in Valles Marineris Nature Communications Earth & Environment, Springer Science and Business Media LLC, 2022, 3 http:\/\/dx.doi.org\/10.1038\/s43247-022-00612-5<\/u><\/a><\/li>\n
      16. Schmidt, <\/strong>F.<\/strong>;\u00a0Way, M. J.; Costard, F.; Bouley, S.; S\u00e9journ\u00e9, A. & Aleinov, I. Circumpolar\u00a0ocean\u00a0stability on Mars 3 Gy ago, Proceedings of the National Academy of Sciences, 2022, 119, e2112930118, http:\/\/dx.doi.org\/10.1073\/pnas.2112930118<\/u><\/a><\/li>\n
      17. Schmidt, F.<\/strong>, Andrieu, F., Costard, F., Kocifaj, M. & Meresescu, A., \u00ab Formation of recurring\u00a0slope\u00a0lineae on Mars by rarefied\u00a0gas-triggered\u00a0granular flows \u00bb, Nature Geoscience, 2017, 10, 270-273 http:\/\/dx.doi.org\/10.1038\/ngeo2917<\/u><\/a><\/li>\n<\/ol>\n<\/div><\/div><\/div><\/div><\/div>
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