Parties d'ouvrages collectifs (4)
  1. 1. Clerbois, S., Mattielli, N., Triantafyllou, A., & Paridaens, N. (2021). Les carrières de granite des îles Cavallo et San Bainzu (archipel des Lavezzi, Corse), en usage sous l'antiquité romaine. In B. Marin (Ed.), Les petites îles de Méditerranée occidentale (1 ed., pp. 334-337). Marseille: Gaussen.
  2. 2. Clerbois, S., Authom, N., Paridaens, N., Mattielli, N., & Triantafyllou, A. (2021). Bonifacio. Cavallo-San-Bainzu. In Bilan scientifique 2018-2019. Ajaccio: Direction régionale des affaires culturelles Corse.
  3. 3. Pivin, M., Debaille, V., Mattielli, N., & Demaiffe, D. (2013). Nd-Hf isotope systematics of megacrysts from the Mbuji-Mayi kimberlites, D. R. Congo: Evidence for a metasomatic origin related to kimberlite interaction with the cratonic lithospheric mantle. In Proceedings of 10th International Kimberlite Conference: Special Issue of the Journal of the Geological Society of India (pp. 123-136).
  4. 4. Gregoire, M., Cottin, J.-Y., Giret, A., Mattielli, N., & Weis, D. (1997). Metasomatized refractory upper mantle and deep magmatic intrusions beneath the Kerguelen islands revealed by ultrabasic and basic xenoliths. In A. Giret & D. Demaiffe (Eds.), Petrology and Geochemistry of magmatic suites of rocks in the continental and oceanic crusts (pp. 371-384). Royal Museum for Central Africa: Editions de l'Université de Bruxelles.
    5.   Articles dans des revues avec comité de lecture (115)
  5. 1. Van Overmeiren, P., De Wispelaere, P., Demeestere, K., Gili, S., Mangold, A., De Causmaecker, K., Mattielli, N., Delcloo, A., Van Langenhove, H., & Walgraeve, C. (2024). Four years of active sampling of atmospheric polycyclic aromatic hydrocarbons (PAHs) and oxygenated PAHs in Dronning Maud Land, East Antarctica. Environmental science and technology.
  6. 2. Fagel, N., Israde-Alcantara, I., Safaierad, R., Rantala, M., Schmidt, S., Lepoint, G., Pellenard, P., Mattielli, N., & Metcalfe, S. (2023). Environmental significance of kaolinite variability over the last centuries in crater lake sediments from Central Mexico. Applied clay science, 247, 107211.
  7. 3. Dekoninck, A., Barbarand, J., Ruffet, G., Missenard, Y., Mattielli, N., Leprêtre, R., Mouttaqi, A., Verhaert, M., Saddiqi, O., & Yans, J. (2023). Intraplate orogenesis as a driver of multistage karst‐hosted mineralization: the Imini manganese case (Atlas, Morocco). Mineralium Deposita., https://doi.org/10.1007/s00126-023-01212-9.
  8. 4. Vanderstraeten, A., Mattielli, N., Laruelle, G. G., Gili, S., Bory, A., Gabrielli, P., Boxho, S., Tison, J.-L., & Bonneville, S. (2023). Identifying the provenance and quantifying the contribution of dust sources in EPICA Dronning Maud Land ice core (Antarctica) over the last deglaciation (7–27 kyr BP): A high-resolution, quantitative record from a new Rare Earth Element mixing model. Science of the total environment, 881, 163450. doi:10.1016/j.scitotenv.2023.163450
  9. 5. de Oliveira Amaral Quaresma, G., Costa dos Santos, A., Rocha-Júnior, E. R. V., Bonifácio, J., Queiroz Rego, C. A., Mata, J., de Morisson Valeriano, C., Jourdan, F., Mattielli, N., & Geraldes, M. C. (2023). Isotopic constraints on Davis bank, Vitória-Trindade Ridge: A Revised Petrogenetic Model. Journal of South American earth sciences, 122, 104099. doi:10.1016/j.jsames.2022.104099
  10. 6. de Graaff, S. S., Ross, C. H., Feignon, J. G., Stockli, D. F., Kaskes, P., Gulick, S. S., Goderis, S., Déhais, T., Debaille, V., Ferrière, L., Koeberl, C., Mattielli, N., & Claeys, P. (2022). The Chicxulub impact structure reveals the first in-situ Jurassic-aged magmatic intrusions of the Yucatán Peninsula, Mexico. Lithos.
  11. 7. Debret, B., Ménez, B., Walter, B., Bouquerel, H., Bouilhol, P., Mattielli, N., Pisapia, C., Rigaudier, T., & Williams, H. M. (2022). High-pressure synthesis and storage of solid organic compounds in active subduction zones. Science advances, 8(37), eabo2397. doi:10.1126/sciadv.abo2397
  12. 8. Maters, E. C., Mulholland, D. S., Flament, P., De Jong, J., Mattielli, N., Deboudt, K., Dhont, G., & Bychkov, E. (2022). Laboratory study of iron isotope fractionation during dissolution of mineral dust and industrial ash in simulated cloud water. Chemosphere, 299, 134472. doi:10.1016/j.chemosphere.2022.134472
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