IMIS - Marine Onderzoeksgroepen

Laboratoire G-Time (ULB)
gtime.ulb.ac.be/ gtime.ulb.ac.be/Staff.html

Organisatie
Personen (4)
Publicaties (60)
Project

Het laboratoire G-Time (Geochemie & Geofysica) werd opgericht in 2001 en was voorheen bekend als de 'unité de recherche Isotopes : Pétrologie et Environnement' (IPE). Deze groep verricht onderzoek rond de onderzoeksthema's Geochemie, Vulkanologie en Brucares (Brussels Universitair Platform voor Geochemische Analyses in Milieu, Gezondheid en Maatschappij). Het team Geochemie past isotopengeochemie (radiogene isotopen en niet-traditionele stabiele isotopen) en petrologie toe op de dynamiek van de aardmantel, vroege aardse en planetaire processen en milieustudies. Op het gebied van vulkanologie worden chemische en fysische eigenschappen van de restanten van vulkaanuitbarstingen uit het verleden bestudeerd en worden nieuwe monitoringmethoden bij actieve en slapende vulkanen gebruikt om toekomstige gevaren te begrijpen en uitbarstingen te voorspellen.

Mariene onderzoeksonderwerpen die momenteel bij G-Time worden bestudeerd zijn: hydrothermale systemen en rots - vloeistof interacties alsook de dynamica van vulkaan hydrothermale systemen.

Engelse naam: Laboratory G-Time
Overkoepelend instituut: Université Libre de Bruxelles; Faculté des Sciences; Département Géosciences, Environnement et Société (ULB-DSTE), meer

Adres:
CP 160/02
Avenue F.D. Roosevelt 50
1050 Brussels
België

Tel.: +32-(0)2-650 22 36
E-mail:

Debaille, Vinciane¹

Mattielli, Nadine^{1, 2}

de Jong, Jeroen²

Debouge, Wendy³

( 60 peer reviewed )

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Kaskes, P.; Marchegiano, M.; Peral, M.; Goderis, S.; Claeys, P. (2024). Hot carbonates deep within the Chicxulub impact structure. PNAS Nexus 3(1): pgad414. https://dx.doi.org/10.1093/pnasnexus/pgad414, meer
Van Overmeiren, P.; Demeestere, K.; De Wispelaere, P.; Gili, S.; Mangold, A.; De Causmaecker, K.; Mattielli, N.; Delcloo, A.; Van Langenhove, H.; Walgraeve, C. (2024). Four years of active sampling and measurement of atmospheric polycyclic aromatic hydrocarbons and oxygenated polycyclic aromatic hydrocarbons in Dronning Maud Land, East Antarctica. Environ. Sci. Technol. 58(3): 1577-1588. https://dx.doi.org/10.1021/acs.est.3c06425, meer
Blard, P.-H.; Protin, M.; Tison, J.-L.; Fripiat, F.; Dahl-Jensen, D.; Steffensen, J.P.; Mahaney, W.C.; Bierman, P.R.; Christ, A.J.; Corbett, L.B.; Debaille, V.; Rigaudier, T.; Claeys, P.; ASTER Team (2023). Basal debris of the NEEM ice core, Greenland: a window into sub-ice-sheet geology, basal ice processes and ice-sheet oscillations. J. Glaciol. 69(276): 1011-1029. https://dx.doi.org/10.1017/jog.2022.122, meer
de Graaff, S.J.; Ross, C.H.; Feignon, J.G.; Kaskes, P.; Gulick, S.P.S.; Goderis, S.; Dehais, T.; Debaille, V.; Ferriere, L.; Koeberl, C.; Mattielli, N.; Stockli, D.F.; Claeys, P. (2023). The Chicxulub impact structure reveals the first in-situ Jurassic magmatic intrusions of the Yucatan Peninsula, Mexico. Lithos 436: 106953. https://dx.doi.org/10.1016/j.lithos.2022.106953, meer
de Oliveira Amaral Quaresma, G.; Costa dos Santos, A.; Rocha-Júnior, E.R.V.; Bonifácio, J.; Queiroz Rego, C.A.; Mata, J.; Valeriano, C.M.; Jourdan, F.; Mattielli, N.; Geraldes, M.C. (2023). Isotopic constraints on Davis bank, Vitoria-Trindade Ridge: a revised petrogenetic model. J. South Am. Earth Sci. 122: 104099. https://dx.doi.org/10.1016/j.jsames.2022.104099, meer
Farmer, J.R.; Pico, T.; Underwood, O.M.; Stout, R.C.; Granger, J.; Cronin, T.M.; Fripiat, F.; Martinez-Garcia, A.; Haug, G.H.; Sigman, D.M. (2023). The Bering Strait was flooded 10,000 years before the Last Glacial Maximum. Proc. Natl. Acad. Sci. U.S.A. 120(1): e2206742119. https://dx.doi.org/10.1073/pnas.2206742119, meer
Fripiat, F.; Sigman, D.M.; Martinez-Garcia, A.; Marconi, D.; Ai, X.E.; Auderset, A.; Fawcett, S.E.; Moretti, S.; Studer, A.S.; Haug, G.H. (2023). The impact of incomplete nutrient consumption in the Southern Ocean on global mean ocean nitrate δ¹⁵N. Global Biogeochem. Cycles 37(2): e2022GB007442. https://dx.doi.org/10.1029/2022GB007442, meer
Henley, S.F.; Cozzi, S.; Fripiat, F.; Lannuzel, D.; Nomura, D.; Thomas, D.N.; Meinersg, K.M.; Vancoppenollej, M.; Arrigo, K.; Stefels, J.; van Leeuwe, M.; Moreau, S.; Jones, E.M.; Fransson, A.; Chierici, M.; Delille, B. (2023). Macronutrient biogeochemistry in Antarctic land-fast sea ice: Insights from a circumpolar data compilation. Mar. Chem. 257: 104324. https://dx.doi.org/10.1016/j.marchem.2023.104324, meer
Lannuzel, D.; Fourquez, M.; de Jong, J.; Tison, J.-L.; Delille, B.; Schoemann, V. (2023). First report on biological iron uptake in the Antarctic sea-ice environment. Polar Biol. 46(4): 339-355. https://dx.doi.org/10.1007/s00300-023-03127-7, meer
Marshall, T.A.; Sigman, D.M.; Beal, L.M.; Foreman, A.; Martínez-Garcia, A.; Blain, S.; Campbell, E.; Fripiat, F.; Granger, R.; Harris, E.; Haug, G.H.; Marconi, D.; Oleynik, S.; Rafter, P.A.; Roman, R.; Sinyanya, K.; Smart, S.M.; Fawcett, S.E. (2023). The Agulhas Current transport signals of local and remote Indian Ocean nitrogen cycling. JGR: Oceans 128(3): e2022JC019413. https://dx.doi.org/10.1029/2022JC019413, meer
Tang, W.Y.; Ward, B.B.; Beman, M.; Bristow, L.; Clark, D.; Fawcett, S.; Frey, C.; Fripiat, F.; Herndl, G.J.; Mdutyana, M.; Paulot, F.; Peng, X.F.; Santoro, A.E.; Shiozaki, T.; Sintes, E.; Stock, C.; Sun, X.; Wan, X.H.S.; Xu, M.N.; Zhang, Y. (2023). Database of nitrification and nitrifiers in the global ocean. ESSD 15(11): 5039-5077. https://dx.doi.org/10.5194/essd-15-5039-2023, meer
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. Sci. Total Environ. 881: 163450. https://dx.doi.org/10.1016/j.scitotenv.2023.163450, meer
André, L.; Monin, L.; Hofmann, A. (2022). The origin of early continental crust: new clues from coupling Ge/Si ratios with silicon isotopes. Earth Planet. Sci. Lett. 582: 117415. https://dx.doi.org/10.1016/j.epsl.2022.117415, meer
de Graaff, S.J.; Percival, L.M.E.; Kaskes, P.; Déhais, T.; de Winter, N.J.; Jansen, M.N.; Smit, J.; Sinnesael, M.; Vellekoop, J.; Sato, H.; Ishikawa, A.; Spassov, S.; Claeys, P.; Goderis, S. (2022). Geochemical records of the end-Triassic Crisis preserved in a deep marine section of the Budva Basin, Dinarides, Montenegro. Palaeogeogr. Palaeoclimatol. Palaeoecol. 606: 111250. https://dx.doi.org/10.1016/j.palaeo.2022.111250, meer
Déhais, T.; Chernonozhkin, S.M.; Kaskes, P.; de Graaff, S.J.; Debaille, V.; Vanhaecke, F.; Claeys, P.; Goderis, S. (2022). Resolving impact volatilization and condensation from target rock mixing and hydrothermal overprinting within the Chicxulub impact structure. Geoscience Frontiers 13(5): 101410. https://dx.doi.org/10.1016/j.gsf.2022.101410, meer
Feignon, J.-G.; Schulz, T.; Ferrière, L.; Goderis, S.; de Graaff, S.J.; Kaskes, P.; Déhais, T.; Claeys, P.; Koeberl, C. (2022). Lack of ubiquitous impactor component in the Chicxulub peak ring impact melt rocks: implications for the fate of the projectile. Meteorit. Planet. Sci. 57: 6200, meer
Feignon, J.-G.; Schulz, T.; Ferrière, L.; Goderis, S.; de Graaff, S.J.; Kaskes, P.; Déhais, T.; Claeys, P.; Koeberl, C. (2022). Search for a meteoritic component within the impact melt rocks of the Chicxulub impact structure peak ring, Mexico. Geochim. Cosmochim. Acta 323: 74-101. https://dx.doi.org/10.1016/j.gca.2022.02.006, meer
Kaskes, P.; de Graaff, S.J.; Feignon, J.-G.; Déhais, T.; Goderis, S.; Ferrière, L.; Koeberl, C.; Smit, J.; Wittmann, A.; Gulick, S.P.S.; Debaille, V.; Mattielli, N.; Claeys, P. (2022). Formation of the crater suevite sequence from the Chicxulub peak ring: a petrographic, geochemical, and sedimentological characterization. Geol. Soc. Am. Bull. 134(3-4): 895-927. https://dx.doi.org/10.1130/B36020.1, meer
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. https://dx.doi.org/10.1016/j.chemosphere.2022.134472, meer
Matoza, R.S.; Fee, D.; Assink, J.D.; Iezzi, A.M.; Green, D.N.; Kim, K.; Toney, L.; Lecocq, T.; Krishnamoorthy, S.; Lalande, J.-M.; Nishida, K.; Gee, K.L.; Haney, M.M.; Ortiz, H.D.; Brissaud, Q.; Martire, L.; Rolland, L.; Vergados, P.; Nippress, A.; Park, J.; Shani-Kadmiel, S.; Witsil, A.; Arrowsmith, S.; Caudron, C.; Watada, S.; Perttu, A.B.; Taisne, B.; Mialle, P.; Le Pichon, A.; Vergoz, J.; Hupe, P.; Blom, P.S.; Waxler, R.; De Angelis, S.; Snively, J.; Ringler, A.T.; Anthony, R.E.; Jolly, A.D.; Kilgour, G.; Averbuch, G.; Ripepe, M.; Ichihara, M.; Arciniega-Ceballos, A.; Astafyeva, E.; Ceranna, L.; Cevuard, S.; Che, I.-Y.; De Negri, R.; Ebeling, C.W.; Evers, L.G.; Franco-Marin, L.E.; Gabrielson, T.B.; Hafner, K.; Harrison, R.G.; Komjathy, A.; Lacanna, G.; Lyons, J.; Macpherson, K.A.; Marchetti, E.; McKee, K.F.; Mellors, R.J.; Mendo-Pérez, G.; Mikesell, T.D.; Munaibari, E.; Oyola-Merced, M.; Park, I.; Pilger, C.; Ramos, C.; Ruiz, M.C.; Sabatini, R.; Schwaiger, H.F.; Tailpied, D.; Talmadge, C.; Vidot, J.; Webster, J.; Wilson, D.C. (2022). Atmospheric waves and global seismoacoustic observations of the January 2022 Hunga eruption, Tonga. Science (Wash.) 377(6601): 95-100. https://dx.doi.org/10.1126/science.abo7063, meer
Rodriguez-Tovar, F.J.; Kaskes, P.; Ormö, J.; Gulick, S.P.S.; Whalen, M.T.; Jones, H.L.; Lowery, C.M.; Bralower, T.J.; Smit, J.; King, D.T.; Goderis, S.; Claeys, P. (2022). Life before impact in the Chicxulub area: unique marine ichnological signatures preserved in crater suevite. NPG Scientific Reports 12(1): 11376. https://dx.doi.org/10.1038/s41598-022-15566-z, meer
Ross, C.H.; Stockli, D.F.; Rasmussen, C.; Gulick, S.P.S.; de Graaff, S.J.; Claeys, P.; Zhao, J.; Xiao, L.; Pickersgill, A.E.; Schmieder, M.; Kring, D.A.; Wittmann, A.; Morgan, J.V. (2022). Evidence of Carboniferous arc magmatism preserved in the Chicxulub impact structure. Geol. Soc. Am. Bull. 134(1-2): 241-260. https://dx.doi.org/10.1130/B35831.1, meer
Tollenaar, V.; Zekollari, H.; Lhermitte, S.; Tax, D.M.J.; Debaille, V.; Goderis, S.; Claeys, P.; Pattyn, F. (2022). Unexplored Antarctic meteorite collection sites revealed through machine learning. Science Advances 8(4): eabj8138. https://dx.doi.org/10.1126/sciadv.abj8138, meer
de Graaff, S.J.; Kaskes, P.; Déhais, T.; Goderis, S.; Debaille, V.; Ross, C.H.; Gulick, S.P.S.; Feignon, J.-G.; Ferrière, L.; Koeberl, C.; Smit, J.; Mattielli, N.; Claeys, P. (2021). New insights into the formation and emplacement of impact melt rocks within the Chicxulub impact structure, following the 2016 IODP-ICDP Expedition 364. Geol. Soc. Am. Bull. 134(1-2): 293-315. https://dx.doi.org/10.1130/b35795.1, meer
Deman, F.; Fonseca-Batista, D.; Roukaerts, A.; García-Ibáñez, M.I.; Le Roy, E.; Thilakarathne, E.P.D.N.; Elskens, M.; Dehairs, F.; Fripiat, F. (2021). Nitrate supply routes and impact of internal cycling in the North Atlantic Ocean inferred From nitrate isotopic composition. Global Biogeochem. Cycles 35(4): e2020GB006887. https://dx.doi.org/10.1029/2020GB006887, meer
Feignon, J.-G.; de Graaff, S.J.; Ferrière, L.; Kaskes, P.; Déhais, T.; Goderis, S.; Claeys, P.; Koeberl, C. (2021). Chicxulub impact structure, IODP-ICDP Expedition 364 drill core: Geochemistry of the granite basement. Meteorit. Planet. Sci. 56(7): 1243-1273. https://dx.doi.org/10.1111/maps.13705, meer
Feignon, J.-G.; Schulz, T.; Ferrière, L.; Goderis, S.; de Graaff, S.J.; Kaskes, P.; Déhais, T.; Claeys, P.; Koeberl, C. (2021). Examining the (potential) presence of a preserved impactor signature in the impact melt rocks of the Chicxulub impact structure peak ring. Meteorit. Planet. Sci. 56: 1, meer
Goderis, S.; Sato, H.; Ferrière, L.; Schmitz, B.; Burney, D.; Kaskes, P.; Vellekoop, J.; Wittmann, A.; Schulz, T.; Chernonozhkin, S.M.; Claeys, P.; de Graaff, S.J.; Déhais, T.; De Winter, N.J.; Elfman, M.; Feignon, J.-G.; Ishikawa, A.; Koeberl, C.; Kristiansson, P.; Neal, C.R.; Owens, J.D.; Schmieder, M.; Sinnesael, M.; Vanhaecke, F.; Van Malderen, S.J.M.; Bralower, T.J.; Gulick, S.P.S.; Kring, D.A.; Lowery, C.M.; Morgan, J.V.; Smit, J.; Whalen, M.T.; IODP-ICDP Expedition 364 Scientists (2021). Globally distributed iridium layer preserved within the Chicxulub impact structure. Science Advances 7(9): eabe3647. https://dx.doi.org/10.1126/sciadv.abe3647, meer
Sauzéat, L.; Costas-Rodriguez, M.; Albalat, E.; Mattielli, N.; Vanhaecke, F.; Balter, V. (2021). Inter-comparison of stable iron, copper and zinc isotopic compositions in six reference materials of biological origin. Talanta 221: 121576. https://hdl.handle.net/10.1016/j.talanta.2020.121576, meer
Schulting, R.J.; Snoeck, C.; Pouncett, J.; Brock, F.; Ramsey, C.B.; Higham, T.; Devièse, T.; Delancy, K.; Pateman, M.; Keegan, W.; Ostapkowicz, J. (2021). Six centuries of adaptation to a challenging island environment: AMS ¹⁴C dating and stable isotopic analysis of pre-Columbian human remains from the Bahamian archipelago reveal dietary trends. Quat. Sci. Rev. 254: 106780. https://hdl.handle.net/10.1016/j.quascirev.2020.106780, meer
Sigman, D.M.; Fripiat, F.; Studer, A.S.; Martínez-Garcia, A.; Hain, M.P.; Ai, X.; Wang, X.; Ren, H.; Haug, G.H. (2021). The Southern Ocean during the ice ages: a review of the Antarctic surface isolation hypothesis, with comparison to the North Pacific. Quat. Sci. Rev. 254: 106732. https://hdl.handle.net/10.1016/j.quascirev.2020.106732, meer
Snoeck, C.; Schulting, R.J.; Brock, F.; Rodler, A.S.; Van Ham-Meert, A.; Mattielli, N.; Ostapkowicz, J. (2021). Testing various pre-treatments on artificially waterlogged and pitch-contaminated wood for strontium isotope analyses. Front. Ecol. Evol. 8: 589154. https://hdl.handle.net/10.3389/fevo.2020.589154, meer
Zeng, Z.; Liu, X.; Chen, S.; de Jong, J.; Mattielli, N.; Qi, H.; Pearce, C.; Murton, B.J. (2021). Iron, copper, and zinc isotopic fractionation in seafloor basalts and hydrothermal sulfides. Mar. Geol. 436: 106491. https://dx.doi.org/10.1016/j.margeo.2021.106491, meer
Ai, X.E.; Studer, A.S.; Sigman, D.M.; Martínez-Garcia, A.; Fripiat, F.; Thöle, L.M.; Michel, E.; Gottschalk, J.; Arnold, L.; Moretti, S.; Schmitt, M.; Oleynik, S.; Jaccard, S.L.; Haug, G.H. (2020). Southern Ocean upwelling, Earth’s obliquity, and glacial-interglacial atmospheric CO₂ change. Science (Wash.) 370(6522): 1348-1352. https://dx.doi.org/10.1126/science.abd2115, meer
Beunon, H.; Mattielli, N.; Doucet, L.S.; Moine, B.; Debret, B. (2020). Mantle heterogeneity through Zn systematics in oceanic basalts: evidence for a deep carbon cycling. Earth-Sci. Rev. 205: 103174. https://hdl.handle.net/10.1016/j.earscirev.2020.103174, meer
de Winter, N.J.; Ullmann, C.V.; Sørensen, A.M.; Thibault, N.; Goderis, S.; Van Malderen, S.J.M.; Snoeck, C.; Goolaerts, S.; Vanhaecke, F.; Claeys, P. (2020). Shell chemistry of the boreal Campanian bivalve Rastellum diluvianum (Linnaeus, 1767) reveals temperature seasonality, growth rates and life cycle of an extinct Cretaceous oyster. Biogeosciences 17(11): 2897-2922. https://hdl.handle.net/10.5194/bg-17-2897-2020, meer
de Winter, N.J.; Goderis, S.; Van Malderen, S.J.M.; Sinnesael, M.; Vansteenberge, S.; Snoeck, C.; Belza, J.; Vanhaecke, F.; Claeys, P. (2020). Subdaily-scale chemical variability in a Torreites Sanchezi rudist shell: implications for rudist paleobiology and the Cretaceous day-night cycle. Paleoceanography and Paleoclimatology 35(2): e2019PA003723. https://dx.doi.org/10.1029/2019PA003723, meer
Debret, B.; Reekie, C.D.J.; Mattielli, N.; Beunon, H.; Ménez, B.; Savov, I.P.; Williams, H.M. (2020). Redox transfer at subduction zones: insights from Fe isotopes in the Mariana forearc. Geochemical Perspectives Letters 12: 46-51. https://dx.doi.org/10.7185/geochemlet.2003, meer
Doucet, L.S.; Li, E.-X.; Gamal El Dien, H.; Pourteau, A.; Murphy, J.B.; Collins, W.J.; Mattielli, N.; Olierook, H.K.H.; Spencer, C.J.; Mitchell, R.N. (2020). Distinct formation history for deep-mantle domains reflected in geochemical differences. Nature Geoscience 13(7): 511-515. https://dx.doi.org/10.1038/s41561-020-0599-9, meer
Eriksen, A.M.H.; Matthiesen, H.; Kontopoulos, I.; Gregory, D.; Snoeck, C.; Zhang, G.; Collins, M.J.; Gilbert, M.T.P. (2020). Rapid loss of endogenous DNA in pig bone buried in five different environments. Archaeometry 62(4): 827-846. https://hdl.handle.net/10.1111/arcm.12553, meer
Gillmann, C.; Golabek, G.J.; Raymond, S.N.; Schönbächler, M.; Tackley, P.J.; Dehant, V.; Debaille, V. (2020). Dry late accretion inferred from Venus's coupled atmosphere and internal evolution. Nature Geoscience 13(4): 265-269. https://hdl.handle.net/10.1038/s41561-020-0561-x, meer
Hodel, F.; Triantafyllou, A.; Berger, J.; Macouin, M.; Baele, J.-M.; Mattielli, N.; Monnier, C.; Trindade, R.I.F.; Ducea, M.N.; Chatir, A.; Ennih, N.; Langlade, J.; Poujol, M. (2020). The Moroccan Anti-Atlas ophiolites: timing and melting processes in an intra-oceanic arc-back-arc environment. Gondwana Res. 86: 182-202. https://hdl.handle.net/10.1016/j.gr.2020.05.014, meer
Li, C.; Sonke, J.E.; Le Roux, G.; Van der Putten, N.; Piotrowska, N.; Jeandel, C.; Mattielli, N.; Benoit, M.; Wiggs, G.F.S.; De Vleeschouwer, F. (2020). Holocene dynamics of the southern westerly winds over the Indian Ocean inferred from a peat dust deposition record. Quat. Sci. Rev. 231: 106169. https://hdl.handle.net/10.1016/j.quascirev.2020.106169, meer
Maurice, J.; Bolfan-Casanova, N.; Demouchy, S.; Chauvigne, P.; Schiavi, F.; Debret, B. (2020). The intrinsic nature of antigorite breakdown at 3 GPa: experimental constraints on redox conditions of serpentinite dehydration in subduction zones. Contrib. Miner. Petrol. = Beitr. Mineral. Petrol. 175(10): 94. https://hdl.handle.net/10.1007/s00410-020-01731-y, meer
Debret, B.; Albers, E.; Walter, B.; Price, R.; Barnes, J.D.; Beunon, H.; Facq, S.; Gillikin, D.P.; Mattielli, N.; Williams, H. (2019). Shallow forearc mantle dynamics and geochemistry: new insights from IODP Expedition 366. Lithos 326-327: 230-245. https://dx.doi.org/10.1016/j.lithos.2018.10.038, meer
Schmitz, B.; Farley, K.A.; Goderis, S.; Heck, P.R.; Bergström, S.M.; Boschi, S.; Claeys, P.; Debaille, V.; Dronov, A.; van Ginneken, M.; Harper, D.A.T.; Iqbal, F.; Friberg, J.; Liao, S.; Martin, E.; Meier, M.M.M.; Peucker-Ehrenbrink, B.; Soens, B.; Wieler, R.; Terfelt, F. (2019). An extraterrestrial trigger for the mid-Ordovician ice age: dust from the breakup of the L-chondrite parent body. Science Advances 5(9): eaax4184. https://hdl.handle.net/10.1126/sciadv.aax4184, meer
Debret, B.; Beunon, H.; Mattielli, N.; Andreani, M.; da Costa, I.R.; Escartín, J. (2018). Ore component mobility, transport and mineralization at mid-oceanic ridges: a stable isotopes (Zn, Cu and Fe) study of the Rainbow massif (Mid-Atlantic Ridge 36°14′N). Earth Planet. Sci. Lett. 503: 170-180. https://dx.doi.org/10.1016/j.epsl.2018.09.009, meer
Fagel, N.; Lechenault, M.; Fontaine, F.; Pleuger, E.; Otten, J.; Allan, M.; Ghilardi, M.; Mattielli, N.; Goiran, J.-P. (2017). Record of human activities in the Pb isotopes signatures of coastal sediments from the Roman archaeological site of Cala Francese, Cape Corsica (France). Journal of Archaeological Science: Reports 12: 770-781. https://dx.doi.org/10.1016/j.jasrep.2016.08.002, meer
Tison, J.-L.; Schwegmann, S.; Dieckmann, G.; Rintala, J.-M.; Meyer, H.; Moreau, S.; Vancoppenolle, M.; Nomura, D.; Engberg, S.; Blomster, L.J.; Hendrickx, S.; Uhlig, C.; Luhtanen, A.-M.; de Jong, J.; Janssens, J.; Carnat, G.; Zhou, J.; Delille, B. (2017). Biogeochemical impact of snow cover and cyclonic intrusions on the winter Weddell Sea ice pack. JGR: Oceans 122(12): 9548-9571. https://dx.doi.org/10.1002/2017JC013288, meer
Wasilewski, B.; Doucet, L.S.; Moine, B.; Beunon, H.; Delpech, G.; Mattielli, N.; Debaille, V.; Delacour, A.; Grégoire, M.; Guillaume, D.; Cottin, J.-Y. (2017). Ultra-refractory mantle within oceanic plateau: petrology of the spinel harzburgites from Lac Michele, Kerguelen Archipelago. Lithos 272-273: 336-349. https://dx.doi.org/10.1016/j.lithos.2016.12.010, meer
De Jong, J.T.M.; Stammerjohn, S.; Ackley, S.; Tison, J.-L.; Mattielli, N.; Schoemann, V. (2015). Sources and fluxes of dissolved iron in the Bellingshausen Sea (West Antarctica): the importance of sea ice, icebergs and the continental margin. Mar. Chem. 177(Part 3): 518-535. https://dx.doi.org/10.1016/j.marchem.2015.08.004, meer
Petit, C.; Schafer, J.; Coynel, A.; Blanc, G.; Chiffoleau, J.; Auger, D.; Bossy, C.; Derriennic, H.; Mikolaczyk, M.; Dutruch, L.; Mattielli, N. (2015). The estuarine geochemical reactivity of Zn isotopes and its relevance for the biomonitoring of anthropogenic Zn and Cd contaminations from metallurgical activities: example of the Gironde fluvial-estuarine system, France. Geochim. Cosmochim. Acta 170: 108-125. https://dx.doi.org/10.1016/j.gca.2015.08.004, meer
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Applications of new isotopic systems Cu, Zn, Fe in complement with Pb isotopes to trace metal supplies in continental anthropogenic (Schelde Estuary) and natural environments (Peats in Fagnes), meer

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