Publications

  • Henry H., Ceuleneer G., Proietti A., Kaczmarek M.-A., Chatelin T., De Parseval P., (submitted), How nodular chromite nucleate and grow? An integrated microstructural and petrological approach, Journal of Petrology.
  • Ziobro-Mikrut M., Puziewicz J., Aulbach S., Kaczmarek M.-A., Kiraly F. (submitted), The refertilized nature of the soutner lithospheric mantle domain beneath the Massif Cnetral (France): an example of xenoliths from Mt. Briançon, Lithos.
  • Muckensturm N., Kaczmarek M.-A., M. Grégoire, T. Ntaflos, E. A. Bjerg, F. Mouthereau (major revision), Petrology and microstructures of the deep crust from the North Patagonian Massif, given by meta-igneous granulite xenoliths, Journal of Petrology.
  • Meunier-Mili N., Kaczmarek M.-A., Bystricky M. (major revision) – Insights on the brachinite parent body: a petrological and microstructural study of 10 brachinites. Journal of Geophysical Research – Planets
  • Bickert M., Kaczmarek M.-A., Brunelli  D., Maia M., Campos F.C., Sichel S.E. (2023) – Strain localization in oceanic transform faults by fluid-assisted grain size reduction. Nature Communications. https://doi.org/10.1038/s41467-023-39556-5
  • Puziewicz J., Aulbach S., Kaczmarek M.-A., Ntaflos T.,  Gerdes A., Mazurek H., Kukuła A., Matusiak-Małek M., Tedonkenfack S.S.T., Ziobro-Mikrut M., (2023) – The origin and evolution of DMM-like lithospheric mantle beneath continents: Mantle xenoliths from the Oku Volcanic Group in the Cameroon Volcanic Line, West Africa. Journal of Petrology. https://doi.org/10.1093/petrology/egad049.
  • Ceuleneer G., Rospabé M., Chatelin T., Henry H. Thilac R., Kaczmarek M.-A., le Sueur E., (2022) – A Rosetta stone linking melt trajectories in the mantle to the stress field and lithological heterogeneities (Trinity ophiolite, California). Geology, v. 50, p. 1192–1196. https://doi.org/10.1130/G50083.1
  • Abily B., Ceuleneer G., Rospabé M., Kaczmarek M.-A., Python M., Grégoire M., Benoit M., Rioux M., (2022) – Ocean crust accretion along a high-temperature detachment fault in the Oman ophiolite: a structural and petrological study of the Bahla massif. Tectonophysics, 822, 229160. doi.org/10.1016/j.tecto.2021.229160
  • Tedonkenfac S.S.T., Puziewicz J., Aulbach S., Ntaflos T., Kaczmarek M.-A., Matusiak-Małek M., Kukuła A., Ziobro M., (2021) – Lithospheric mantle refertilization by DMM-derived melts beneath the Cameroon Volcanic Line – a case study of the Befang xenolith suite (Oku Volcanic Group, Cameroon). Contributions to Mineralogy and Petrology
  • Rospabé M., Ceuleneer G., Le Guluche V., Benoit M., Kaczmarek M.-A. (2021) – Chromite-hosted Silicate Inclusions in Disseminated Chromites from the Dunitic Mantle-Crust Transition Zone (Oman Ophiolite): the Chicken and Egg Dilemma Linking Dunites and Chromitites. Journal of Petrology. 1-27, doi: 10.1093/petrology/egab026
  • Henry H., Kaczmarek M.-A., Ceuleneer G., Tilhac R., Grégoire M., Griffin W. L., O’Reilly S. Y., le Sueur E. (2021) – The microstructure of layered mafic-ultramafic cumulates: Case study of the Bear Creek intrusion, Trinity ophiolite, California, USA. Lithos. 388-389, 106047. doi.org/10.1016/j.lithos.2021.106047
  • Vieira Duarte J., Kaczmarek M.-A., Putlitz B., Vonlanthen P., Müntener O. (2020) – Hydration of a mantle shear-zone beyond serpentine stability: a possible link to microseismicity along ultra-slow spreading ridges? Journal of Geophysical Research – Solid Earth. 125 (10), e2020JB019509, https://doi.org/10.1029/2020JB019509
  • Rospabé M., Ceuleneer G., Benoit M., Kaczmarek M.-A. (2020) – Composition gradients in silicate inclusions in chromites from the dunitic mantle-crust transition (Oman ophiolite) reveal high temperature fluid-melt-rock interaction controlled by faulting. Ofioliti. 45 (2), 103-114.
  • Puziewicz J., Matusiak-Małek M., Ntaflos T., Grégoire M., Kaczmarek M.-A., Aulbach S., Ziobro M., Kukuła A. (2020) – The major lithologies of subcontinental lithospheric mantle of Variscan orogen in Europe. Lithos. 362-363; 105467
  • Rospabé M., Benoit M., Ceuleneer G., Kaczmarek M.-A., Hodel F. (2019) – Melt hybridization and metasomatism associated to synmagmatic fault zones within the dunitic mantle-crust transition zone in the Oman ophiolite. Earth and Planetary Science Letters. 516, 108-121; here
  • Rospabé M., Benoit M., Ceuleneer G., Hodel F., Kaczmarek M.-A. (2018) – Extreme geochemical variability through the dunitic transition zone of the Oman ophiolite: implications for melt/fluid-rock reactions at Moho level beneath oceanic spreading center. Geochemica and Cosmochimica Acta. 234, 1-34.
  • Malvoisin B., Brantu N., Kaczmarek M.-A. (2017) – Control of serpentinisation rate by reaction-induced cracking. Earth and Planetary Science Letters. 476, 143-152.
    doi.org/10.1016/j.epsl.2017.07.042
  • Henry H., Tilhac R., Griffin W. L., O’Reilly S. Y., Satsukawa T., Kaczmarek M.-A., Grégoire M., Ceuleneer G. (2017) – Deformation of mantle pyroxenites provides clues to geodynamic processes in subduction zones: a case study of the Cabo Ortegal complex, Spain. Earth and Planetary Science Letters. 472, 174-185.
    doi: 10.1016/j.epsl.2017.05.028
  • Pilet S., Abe N., Rochat L., Kaczmarek M.-A., Hirano N., Machida S., Buchs D., Baumgartner P.O., Muntener O. (2016) – Pre-subduction metasomatic enrichment of the oceanic lithosphere induced by plate flexure. Nature Geosciences.
    doi:10.1038/ngeo2825
  • Kaczmarek M.-A., Bodinier J.-L., Bosch D., Tommasi A, Dautria J.-M., S.A. Kechid (2016) – Metasomatised mantle xenoliths as a record of the lithospheric evolution of the northern edge of the Ahaggar swell, In Teria (Algeria). Journal of Petrology, 1-38
    doi: 10.1093/petrology/egw009
  • Kaczmarek M.-A., Reddy S, Friend C, Nutman A, Bennett V. (2016) – Earth’s oldest mantle fabrics indicate Eoarchaean subduction. Nature communications. doi:10.1038/ncomms10665 – open access
  • Kaczmarek M.-A., Jonda L., Davies H. (2015) – Evidence of melting, melt percolation and deformation in supra-subduction zone (Marum ophiolite complex -Papua New Guinea). Contributions to Mineralogy and Petrology. 179, 19.
    doi:10.1007/s00410-015-1174-z
  • Kaczmarek M.-A., Reddy S. (2013) Mantle deformation during rifting from quantitative microstructures analyses of olivine from East-African Rift. Tectonophysics. 608, 1122-1137.
    http://dx.doi.org/10.1016/j.tecto.2013.06.034
  • Merle R., Kaczmarek M.-A, Tronchet E., Girardeau J. (2012) Occurrence of inherited supra-subduction zone mantle in the oceanic lithosphere as inferred from mantle xenoliths and xenocrystals from Dragon and Lion seamounts (Southern Tore-Madeira Rise). Journal of the Geological Society London. 169, 251-267.
    doi: 10.1144/0016-76492011-015
  • Kaczmarek M.-A., Reddy S., Timms N. (2011) Temporal evolution of zircon deformation mechanisms in a shear-zone, Lanzo massif (W-Alps, Italy). Lithos. 127, 414-426
    doi:10.1016/j.lithos.2011.09.016
  • Kaczmarek M.-A., Tommasi A. (2011) Anatomy of an extensional shear zone in the mantle (Lanzo massif, Italy). Geophysics, Geochemistry, Geosystems; 12; Q0AG06.
  • Kaczmarek M.-A., Müntener O. (2010) – The variability of peridotite composition across a mantle shear zone (Lanzo massif, Italy): interplay of melt focusing and deformation. Contributions to Mineralogy and Petrology. 160: 663-679
    doi: 10.1007/s00410-010-0500-8
  • Kaczmarek M.-A., Müntener O. (2008) – Juxtaposition of melt impregnation and high temperature shear zones in the upper mantle. Field and petrological constraints from the Lanzo peridotite, (N-Italy). Journal of Petrology, 49 (12): 2187-2220
    doi:10.1093 /petrology/ egn065
  • Kaczmarek M.-A., Müntener O., Rubatto, D. (2008) – Trace element chemistry and U-Pb dating of zircons from oceanic gabbros and their relationship with whole rock composition (Lanzo, Italian Alps). Contributions to Mineralogy and Petrology, 155: 295-312
    doi: 10.1007/s00410-007-0243-3.
  • Kaczmarek M.-A., Müntener O. (2005) – Exhumation of mantle lithosphere: field relations, and interaction processes between magmatism and deformation (field trip to the Northern Lanzo peridotite). Ofioliti, 30 (2): 125-134.

Recent abstracts

2023

  • Meunier-Mili N., Kaczmarek M.-A., Bystricky M. Petrological and microstructural overview of differentiated meteorites, witnesses of mantellic and differenatiation proicesses in primary planetary bodies. Goldschmidt – Lyon
  • Muckensturm N., Kaczmarek M.-A., Grégoire M. – Petrology and microstructures of the deep crust from the North Patagonian massif given by meta-igneous granulite xenoliths. Goldschmidt – Lyon
  • Bickert M., Kaczmarek M.-A., Maia M., Brunelli D. – Fluid assisted deformation processes at the roots of oceanic transform faults. EGU, Vienna.

2022

  • Henry H., Kaczmarek M.-A., Ceuleneer G. plagilocases du LEG 153, what king of twining for what kind of deformation? – EMAW, Toulouse
  • Kaczmarek M.-A., Fillau P., Ceuleneer G., Benoit M., Rospabé M., Major mylonitic shear-zones in the mantle section of the Oman ophiolite: witnesses of oceanic accretion, intra-oceanic thrusting, or both? – EMAW, Toulouse
  • Meunier-Mili N., Kaczmarek M.-A., Bystricky M. Petrological and microstructural overview of differentiated meteorites, witnesses of mantellic and differentiation processes in primary planetary bodies. EMAW, Toulouse.
  • Muckensturm N., Kaczmarek M.-A., Grégoire M. – Petrology and microstructures of the mantle-crust transition zone from the North Patagonian massif. EMAW, Toulouse.
  • Bickert M., Kaczmarek M.-A., Lombardi F., Maia M., Brunelli D. – Fluid assisted deformation at the roots of oceanic transform faults. Ofioliti Working group on Mediterranean ophiolites (GLOM) Turin, Italy.
  • Puziewicz J., Aulbach S., Kaczmarek M.-A, Kukuła A., Ntaflos T., Matusiak-Małek M., Tedonkenfack S.S.T., and Ziobro-Mikrut M., Preliminary data on mantle xenoliths from the Wum maar, Oku Volcanic Group Cameroon Volcanic Line (West Africa), EGU

2021

  • Puziewicz J., Tedonkenfack S.S.T., Aulbach S., Ntaflos T., Kaczmarek M.-A., Kukula A., Matusiak-Małek M., and Ziobro M., Evolution of lithospheric mantle beneath mobile belt between two cratons: An example from the Oku Massif, Cameroon Volcanic Line (W Africa) EGU

2020

  • Ceuleneer G., Abily B., Python M., Kaczmarek M.-A., Rospabé M., Grégoire M., Benoit M., le Sueur E. – Crustal accretion along a giant high-temperature normal fault at the front of the Oman ophiolite: evidence from the Bahla and some other massifs. ICOOL conference – Muscat Sultanate of Oman.
  • Kourim F., Michibayashi K., Wang K.-L., Koepke J., Rospabé M., Kaczmarek M.-A., Kelemen P., Takazawa E., Teagle D.A-H., Godard M., Benoit M., Kakihata Y. and Oman Drilling Project Phase 2 Science Party – Feedback between melt percolation and deformation at Oman crust-mantle transition zone:  ICDP_ Exp. 807 Holes CM1A and CM2B a and Tontouta Valley shear zones. EGU, Vienna.
  • Kourim F., Michibayashi K., Wang K.-L., Koepke J., Kaczmarek M.-A., Kelemen P., Kakihata Y., Godard M., and Oman Drilling Project Phase 2 Science Party – ICDP_ Exp. 807: First Texture and microstructures characterization of Oman Crust-Mantle transition; holes CM1A and CM2B. ICOOL conference, Muscat Sultanate of Oman.
  • Lombardi F., Kaczmarek M.-A., Ballabio G., Hemond C., Cipriani A., Brunelli D. – A preliminary study of ultramafic mylonites and ultramylonites from the St. Paul massif, St. Paul fracture zone, equatorial atlantic, Ofioliti Working group on Mediterranean ophiolites (GLOM) Turin, Italy.
  • Maia M., Brunelli D., and the SMARTIES Cruise Scientific party – The Eastern Romanche ridge-transform intersection (Equatorial Atlantic): slow spreading under extreme low mantle temperatures. Preliminary results of the SMARTIES Cruise. EGU, Vienna.
  • Rospabé M., Ceuleneer G., Benoit M., Kaczmarek M.-A., Tamura Y. – The formation of the companion dunites and chromitites at the Maqsad mantle-crust transition zone. ICOOL conference, Muscat Sultanate of Oman.