PUBLICATIONS

Author of 31 publications since 2005, 3 publications in Science and Geology as co-author, cited 626 times and a h-index of 14.

PUBLICATIONS - INTERNATIONAL JOURNALS AND ANTHOLOGIES
2019

  • [31] Cordier C., Coin K., Arndt T. N., Cartigny P. (in proof) The Älgliden Ni-Cu-Au deposit: magmatic sulfides in a subduction setting. Mineralium Deposita.
  • [30] Guillot S., Goussin F., Airagui L., Replumaz A., de Sigoyer J., Cordier C. (accepted) How and When did the Tibet Plateau growth? Russian Geology and Geophysics.

2018

  • [29] Baecker B., Ott U., Cordier C., Folco L., Trieloff M., van Ginneken M., Rochette P. (2018) Noble gases in micrometeorites from the Transantarctic Mountains. Geochimica et Cosmochimica Acta, 242, 266-297.
  • [28] Cordier C., Baecker B., Ott U., Folco L., Trieloff M. (2018) A new type of oxidized and pre-irradiated micrometeorite. Geochimica et Cosmochimica Acta, 233, 135-158.

2017

  • [27] Cordier C., Sauzeat L., Arndt N., Boullier A.-M., Batanova V., Barou F. (2017) Quantitative modelling of the apparent decoupling of Mg# and Ni in kimberlitic olivine margins: a reply to the comment on Cordier et al. (2015) by Moore A. Journal of Petrology, 58, 391-393.

2016

  • [26] Cordier C., Chauvel C., Hémond C. (2016) High-precision lead isotopes and stripy plumes: revisiting the Society chain in French Polynesia. Geochimica et Cosmochimica Acta, , 189, 236-250.
  • [25] Cordier C., Sauzeat L., Arndt N., Boullier A.-M., Batanova V., Barou F. (2016) The geochemical complexity of kimberlite rocks and their olivine populations: a reply to the comment on Cordier et al. (2015) by Andrea Giuliani & Stephen F. Foley. Journal of Petrology, 57, 927-932.
  • [24] Fazio A., D’Orazio M., Cordier C., Folco L. (2016) Target-Projectile Interaction during Impact Melting at Kamil Crater, Egypt. Geochimica et Cosmochimica Acta, 180, 33-50.

2015

  • [23] Cordier C., Sauzeat L., Arndt N., Boullier A.-M., Batanova V., Barou F. (2015) Metasomatism of the lithospheric mantle immediately precedes kimberlite eruption: new evidence from olivine composition and microstructures. Journal of Petrology, 56, 1775-1796.
  • [22] Folco L., D’Orazio M., Fazio A., Cordier C., Zeoli A., van Ginneken M., El-Barkooky A. (2015) Microscopic impactor debris in the soil around Kamil Crater (Egypt): inventory, distribution, total mass and implications for the impact scenario. Meteoritics and Planetary Science, 50, 382-400.
  • [21] Folco L. and Cordier C. (2015) Micrometeorites. In Notes in Mineralogy: Planetary Mineralogy, ed. M. Lee, European Mineralogical Union, 15, pp. 253-297.

2014

  • [20] Cordier C. and Folco L. (2014) Oxygen isotopes in cosmic spherules and the composition of the near Earth interplanetary dust complex. Geochimica et Cosmochimica Acta, 146, 18-26.
  • [19] Pelleter A.-Z., Caroff M., Cordier C., Bachelery P., Nehlig P., Debeuf D., Arnaud N. (2014) Melilite-bearing lavas in Mayotte (France): an insight into the mantle source below the Comores. Lithos, 208-209, 281-297.
  • [18] Fazio A., Folco L., D’Oriazio M., Frezzotti M. L., Cordier C. (2014) Shock metamorphism and impact melting in small impact craters on Earth: Evidence from Kamil Crater, Egypt. Meteoritics and Planetary Science, 49, 2175–2200.

2012

  • [17] van Ginneken M., Suavet C., Cordier C., Folco L., Rochette P., Sonzogni C. (2012) Oxygen isotope composition of meteoritic ablation debris from the Transantarctic Mountains: Constraining the parent body and implications for the impact scenario. Meteoritics and Planetary Science, 47, 1738-1747.
  • [16] van Ginneken M., Folco L., Cordier C., Rochette P. (2012) Chondritic micrometeorites from the Transantarctic Mountains. Meteoritics and Planetary Science, 47, 228-247.
  • [15] Cordier C., Caroff M., Rannou E. (2012) Timescale of open-reservoir evolution beneath the south Cleft segment, Juan de Fuca ridge. Mineralogy and Petrology, 104, 1-14.
  • [14] Cordier C., Suavet C., Folco L., Sonzogni C., Rochette P. (2012) HED-like cosmic spherules from the Transantarctic Mountains, Antarctica: Major and trace element abundances and oxygen isotopic compositions. Geochimica et Cosmochimica Acta, 77, 515-529.

2011

  • [13] Suavet C., Cordier C., Folco L., Rochette P., Gattacceca J., Sonzogni C., Damphoffer D. (2011) Non carbonaceaous chondrite-related large cosmic spherules from the Transantarctic Mountains. Geochimica et Cosmochimica Acta, 75, 6200-6210
  • [12] Cordier C., Folco L., Suavet C., Rochette P., Sonzogni C. (2011) Major, trace element and oxygen isotope study of glass cosmic spherules of chondritic composition: the record of their source material and atmospheric entry heating. Geochimica et Cosmochimica Acta, 75, 5203-5218.
  • [11] D’Orazio M., Folco L., Zeoli A., Cordier C. (2011) Gebel Kamil: the iron meteorite that formed the Kamil Crater (Egypt). Meteoritics and Planetary Science, 46, 1179-1196.
  • [10] Cordier C., van Ginneken M., Folco L. (2011) Nickel abundance in stony cosmic spherules: constraining precursor material and formation mechanisms. Meteoritics and Planetary Science, 46, 1110-1132.
  • [9] Cordier C., Folco L., Taylor S (2011) Vestoid cosmic spherules from the South Pole Water Well and Transantarctic Mountains (Antarctica): A major and trace element study. Geochimica et Cosmochimica Acta, 75, 1199-1215.
  • [8] Folco L., Di Martino M., El Barkooky A., D’Orazio M., Lethy A., Urbini S., Nicolosi I., Hafez M., Cordier C., van Ginneken M., Zeoli A., Radwan A. M., El Khrepy S., El Gabry M., M. Gomaa M., Barakat A.A., Serra R., El Sharkawi M. (2011) The Kamil Crater (Egypt): ground truth for small-scale meteorite impacts on Earth. Geology, 39, 179-182 (In cover).

2010

  • [7] Folco L., Di Martino M., El Barkooky A., D’Orazio M., Lethy A., Urbini S., Nicolosi I., Hafez M., Cordier C., van Ginneken M., Zeoli A., Radwan A. M., El Khrepy S., El Gabry M., M. Gomaa M., Barakat A.A., Serra R., El Sharkawi M. (2010) The Kamil Crater in Egypt. Science, 329, 804.
  • [6] Cordier C., Benoit M., Hémond C., Dyment J., Le Gall B., Briais A., Kitazawa, M. (2010) Time scales of melt extraction revealed by distribution of lava composition across a ridge axis. Geochemistry Geophysics Geosystems, 11, Q0AC06, doi: 10.1029/2010GC003074.

2007

  • [5] Cordier C., Caroff M., Juteau T., Fleutelot C., Hémond C., Drouin M., Cotten J., Bollinger C. (2007) Bulk-rock geochemistry and plagioclase zoning in lavas exposed along the northern flank of the Western Blanco Depression (North East Pacific): Insight into open-system magma chamber processes. Lithos, 99, 289-311.

2006

  • [4] Wilson D. S. and the Expedition 206, 309, and 312 Scientists (2006) Drilling to gabbro in intact ocean crust. Science, 312, 18-22.
  • [3] Tartarotti P., Crispini L. and the IODP Expedition 309 and 312 Shipboard Scientific Parties (2006) ODP-IODP Site 1256 (East Pacific Rise): An in-situ section of upper ocean crust formed at a superfast spreading rate. Ofioliti, 31, 107-116.
  • [2] Rannou E., Caroff M., and Cordier C. (2006) A new geochemical approach to model periodically replenished magma chambers: Does oscillatory supply of liquid account for the tectonic/magmatic evolution of the EPR axis at 17-19°S? Geochimica et Cosmochimica Acta, 70, 4783-4796.

2005

  • [1] Cordier C., Clément J. P., Caroff M., Hémond C., Blais S., Cotten J., Bollinger C., Launeau P., Guille G. (2005) Petrogenesis of coarse grained intrusives from Tahiti Nui and Raiatea (Society Islands, French Polynesia). Journal of Petrology, 46, 2281-2312.

PUBLICATIONS - OTHER

  • [6] Alt J.C. et al. (and the IODP Expedition 309 Scientists) (2007) IODP Expeditions 309 and 312 drill and intact section of upper oceanic basement into gabbros. Scientific Drilling, 4, 4-10.
  • [5] Teagle D.A.H., Alt J.C., Umino S., Miyashita S., Banerjee N.R., Wilson D.S. & the Expedition 309/312 Scientists (2006) Superfast Spreading Rate Crust 2 and 3. IODP Proceedings, 309/312. Washington DC (Integrated Ocean Drilling Program Management International, Inc.).
  • [4] Expedition 309 & 312 Scientists (2006) Superfast spreading rate crust 3: a complete in situ section of upper oceanic crust formed at superfast spreading rate. IODP Preliminary Reports, 312.
  • [3] Laverne C., Carlut J., Einaudi F., Cordier C., Belgoul A. and Expedition 206, 309, and 312 Scientists (2006) Sur la route du Moho. Géochronique, 98, 11-13.
    2005
  • [2] Teagle D. A. H., Banerjee N.R. and the Expedition 309 Scientists (2005) The Hard Yards: Deep basement drilling of an in situ section of oceanic crust formed at a superfast spreading rate. Recent results from IODP Expedition 309 to Hole 1256D, Eastern Equatorial Pacific. InterRidge News, 14, 8-11.
  • [1] Expedition 309 Scientists (2005) Superfast spreading rate crust 2: a complete in situ section of upper oceanic crust formed at superfast spreading rate." IODP Preliminary Reports, 309.