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Ce chantier concerne la place des donn\u00e9es produites par la recherche sur la crise sociale et environnementale ainsi que leur traduction politique, depuis leur collecte jusqu\u2019\u00e0 leur mise en forme.<\/p>\n
[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row][et_pb_column type=\u00a0\u00bb3_4″][et_pb_text _builder_version=\u00a0\u00bb3.22.1″ text_text_shadow_horizontal_length=\u00a0\u00bbtext_text_shadow_style,%91object Object%93″ text_text_shadow_vertical_length=\u00a0\u00bbtext_text_shadow_style,%91object Object%93″ text_text_shadow_blur_strength=\u00a0\u00bbtext_text_shadow_style,%91object Object%93″ link_text_shadow_horizontal_length=\u00a0\u00bblink_text_shadow_style,%91object Object%93″ link_text_shadow_vertical_length=\u00a0\u00bblink_text_shadow_style,%91object Object%93″ link_text_shadow_blur_strength=\u00a0\u00bblink_text_shadow_style,%91object Object%93″ ul_text_shadow_horizontal_length=\u00a0\u00bbul_text_shadow_style,%91object Object%93″ ul_text_shadow_vertical_length=\u00a0\u00bbul_text_shadow_style,%91object Object%93″ ul_text_shadow_blur_strength=\u00a0\u00bbul_text_shadow_style,%91object Object%93″ ol_text_shadow_horizontal_length=\u00a0\u00bbol_text_shadow_style,%91object Object%93″ ol_text_shadow_vertical_length=\u00a0\u00bbol_text_shadow_style,%91object Object%93″ ol_text_shadow_blur_strength=\u00a0\u00bbol_text_shadow_style,%91object Object%93″ quote_text_shadow_horizontal_length=\u00a0\u00bbquote_text_shadow_style,%91object Object%93″ quote_text_shadow_vertical_length=\u00a0\u00bbquote_text_shadow_style,%91object Object%93″ quote_text_shadow_blur_strength=\u00a0\u00bbquote_text_shadow_style,%91object Object%93″ header_text_shadow_horizontal_length=\u00a0\u00bbheader_text_shadow_style,%91object Object%93″ header_text_shadow_vertical_length=\u00a0\u00bbheader_text_shadow_style,%91object Object%93″ header_text_shadow_blur_strength=\u00a0\u00bbheader_text_shadow_style,%91object Object%93″ header_2_text_shadow_horizontal_length=\u00a0\u00bbheader_2_text_shadow_style,%91object Object%93″ header_2_text_shadow_vertical_length=\u00a0\u00bbheader_2_text_shadow_style,%91object Object%93″ header_2_text_shadow_blur_strength=\u00a0\u00bbheader_2_text_shadow_style,%91object Object%93″ header_3_text_shadow_horizontal_length=\u00a0\u00bbheader_3_text_shadow_style,%91object Object%93″ header_3_text_shadow_vertical_length=\u00a0\u00bbheader_3_text_shadow_style,%91object Object%93″ header_3_text_shadow_blur_strength=\u00a0\u00bbheader_3_text_shadow_style,%91object Object%93″ header_4_text_shadow_horizontal_length=\u00a0\u00bbheader_4_text_shadow_style,%91object Object%93″ header_4_text_shadow_vertical_length=\u00a0\u00bbheader_4_text_shadow_style,%91object Object%93″ header_4_text_shadow_blur_strength=\u00a0\u00bbheader_4_text_shadow_style,%91object Object%93″ header_5_text_shadow_horizontal_length=\u00a0\u00bbheader_5_text_shadow_style,%91object Object%93″ header_5_text_shadow_vertical_length=\u00a0\u00bbheader_5_text_shadow_style,%91object Object%93″ header_5_text_shadow_blur_strength=\u00a0\u00bbheader_5_text_shadow_style,%91object Object%93″ header_6_text_shadow_horizontal_length=\u00a0\u00bbheader_6_text_shadow_style,%91object Object%93″ header_6_text_shadow_vertical_length=\u00a0\u00bbheader_6_text_shadow_style,%91object Object%93″ header_6_text_shadow_blur_strength=\u00a0\u00bbheader_6_text_shadow_style,%91object Object%93″ z_index_tablet=\u00a0\u00bb500″]<\/p>\n
\nAckerer, J., Kuppel, S., Braud, I., Pasquet, S., Fovet, O., Probst, A., Pierret, M.-C., Ruiz, L., Tallec, T., Lesparre, N., Weill, S., Flechard, C., Probst, J. L., Mar\u00e7ais, J., Riviere a., Habets, F., Anquetin, S. & Gaillardet, J. (2023). Exploring the Critical Zone Heterogeneity and the Hydrological Diversity Using an Integrated Ecohydrological Model in Three Contrasted Long\u2010Term Observatories.\u00a0Water Resources Research<\/em>,\u00a059<\/em>(12), e2023WR035672.<\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0observatoires des Zones Critiques, mod\u00e9lisation \u00e9cohydrologique, bassin versant de Naizin, bassin versant d’Aurad\u00e9, bassin versant de Strangbach, observations \u00e0 long terme<\/h6>\n
Keywords<\/strong>: Critical Zone observatories, ecohydrological modelling, Naizin watershed, Aurad\u00e9 catchment, Strangbach watershed, long term observations<\/h6>\n
\nAgrinier, P., Bonifacie, M., Bardoux, G., Lucazeaux, F., Giunta, T., Ader, M. 2021. Chlorine isotope data of chlorides challenge the pore fluid paradigm. Geochimica et Cosmochimica Acta<\/em>, 300, 258\u2013278. https:\/\/doi.org\/10.1016\/j.gca.2021.02.034<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0fluides interstitiels, cro\u00fbte oc\u00e9anique, argile, filtration ionique, chlorure, isotopes du chlore, isotopes de l’oxyg\u00e8ne<\/h6>\n
Keywords<\/strong>: pore fluids, interstitial fluids, oceanic crust, clay, ion filtration, chloride, chlorine isotopes, oxygen isotopes<\/h6>\n
\nAntheaume, I., Bernard, C., Ader, M., Hugoni, M., 2022. Influence of aphotic haloclines and euxinia on microbial communities and organic biomarkers in a hypereutrophic thalassohaline crater lake. Geobiology<\/em> 20, 292-309. doi: 10.1111\/gbi.12477<\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0WSA2 Euryarchaeota m\u00e9thanog\u00e8ne, diversit\u00e9 bact\u00e9rienne et arch\u00e9ologique, bact\u00e9ro\u00efd\u00e8tes ML635J-40 groupe aquatique, euxinia haline et aphotique, biomarqueurs lipidiques, syntrophomonadaceae<\/h6>\n
Keywords<\/strong>: WSA2 methanogenic Euryarchaeota, bacterial and archaeal diversity, bacteroidetes ML635J-40 aquatic group, haline and aphotic euxinia, lipid biomarkers, syntrophomonadaceae<\/h6>\n
\nBarbier L., Boudia S., Goumri M. & Moizard-Lanvin J. (2021). Ignoranc(e)s. Dossier th\u00e9matique, Revue<\/em> d\u2019Anthropologie des connaissances<\/em>, 15-4. doi: 10.4000\/rac.11968<\/p>\n<\/blockquote>\n
\nBolou-Bi, B. E., Legout, A., Laudon, H., Louvat, P., Pollier, B., Gaillardet, J., Bishop, K. & K\u00f6hler, S. J. (2022). Use of stable Mg isotope ratios in identifying the base cation sources of stream water in the boreal Krycklan catchment (Sweden).\u00a0Chemical Geology<\/em>,\u00a0588<\/em>, 120651. doi:10.1016\/j.chemgeo.2021.120651<\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0magn\u00e9sium, isotope stable, sol, sol riverain, bassin versant, Krycklan<\/h6>\n
Keywords<\/strong>: magnesium, stable isotope, soil, riparian soil, watershed, Krycklan<\/h6>\n
\nBoudia S. & Henry E. (Eds) (2022). Les politiques de l\u2019ignorance. Presses Universitaires de France, La Vie des id\u00e9es<\/em>. ISBN : 9782130833895<\/p>\n<\/blockquote>\n
\nBusigny, V., Lebeau, O., J\u00e9z\u00e9quel, D., Chaduteau, C., Crowe, S. & Ader, M. (2024). Preservation of organic C and N isotope signatures from water column to sediments in the anoxic and ferruginous Pavin lake. Chemical Geology<\/em>, 643, 121814. doi: 10.1016\/j.chemgeo.2023.121814<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0carbone, azote, isotopes, lac m\u00e9romictique, ferrugineux, diagen\u00e8se, fixation de l’azote<\/h6>\n
Keywords<\/strong>: carbon, nitrogen, isotopes, meromictic lake, ferruginous, diagenesis, nitrogen fixation<\/h6>\n
\nCadeau, P., Ader, M., J\u00e9z\u00e9quel, D., Chaduteau, C., Fouilland, R., Le Floc\u2019h, E., Sarazin, G., Bernard, C., and Leboulanger, C., 2021. Nitrogen isotope discrepancy between primary producers and sediments in an anoxic and alkaline lake. Frontiers in Earth Sciences<\/em>. 9:787386. doi: 10.3389\/feart.2021.787386<\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0isotopes de l’azote, Dziani Dzaha, assimilation de l’ammonium, pH, conditions basiques, lac alcalin, enrichissement en 15N<\/h6>\n
Keywords<\/strong>: nitrogen isotopes, Dziani Dzaha, ammonium assimilation, pH, basic condition, alkaline lake, 15N enrichment<\/h6>\n
\nCadeau, P., J\u00e9z\u00e9quel, D., Groleau, A., Di Muro, A., Ader, M. 2022. Impact of the seismo-volcanic crisis offshore Mayotte on the Dziani Dzaha Lake. Comptes Rendus. G\u00e9oscience<\/em>, 1-18 doi:10.5802\/crgeos.172<\/p>\n<\/blockquote>\n
\nCentre des Politiques de la Terre (2022). Campus Anthropoc\u00e8ne 2021\u00a0: Le cycle de vie des donn\u00e9es environnementales \u00e0 l\u2019\u00e9chelle d\u2019un territoire de l\u2019Anthropoc\u00e8ne. Centre des Politiques de la Terre<\/i>. cloud.parisdescartes.fr\/index.php\/s\/SPKSt4Mg3RMHBXw#pdfviewer<\/a><\/p>\n<\/blockquote>\n
\nChaduteau, C., Ader, M., Lebeau, O., Landais, G., Busigny, V. 2021. Organic matter removal for continuous flow isotope ratio mass spectrometry analysis of carbon and oxygen isotope compositions of calcite or dolomite in organic-rich samples. Limnology and Oceanography Methods<\/em>, 19, 523-539.\u00a0https:\/\/doi.org\/10.1002\/lom3.10442<\/a><\/p>\n<\/blockquote>\n
\nCharbonnier, Q., Bouchez, J., Gaillardet, J., Gayer, E., & Porder, S. (2022). A global imbalance in potassium and barium river export: the result of biological uptake?.\u00a0Geochemical Perspectives Letters<\/em>,\u00a021<\/em>, 32-36. https:\/\/doi.org\/10.7185\/geochemlet.2214<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0grandes rivi\u00e8res, activit\u00e9 biologique, bilan de masse des rivi\u00e8res, alt\u00e9ration, isotopes stables<\/h6>\n
Keywords<\/strong>: large rivers, biological activity, river mass budget, weathering, stable isotopes<\/h6>\n
\nCharbonnier, Q., Bouchez, J., Gaillardet, J., Calmels, D., & Dellinger, M. (2022). The influence of black shale weathering on riverine barium isotopes.\u00a0Chemical Geology<\/em>,\u00a0594<\/em>, 120741. https:\/\/doi.org\/10.1016\/j.chemgeo.2022.120741<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0isotopes de baryum, alt\u00e9ration, schistes noirs, bassin du Mackenzie<\/h6>\n
Keywords<\/strong>: barium isotopes, weathering, black shales, Mackenzie basin<\/h6>\n
\nChetelat, B., Gaillardet, J., & Chen, J. (2021). Dynamic of boron in forest ecosystems traced by its isotopes: a modeling approach.\u00a0Chemical Geology<\/em>,\u00a0560<\/em>, 119994. https:\/\/doi.org\/10.1016\/j.chemgeo.2020.119994<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0isotopes du bore, nutriments, \u00e9cosyst\u00e8mes forestiers, mod\u00e9lisation, demande des plantes<\/h6>\n
Keywords<\/strong>: boron isotopes, nutrients, forest ecosystems, modeling, plant demand<\/h6>\n
\nEscalas, A., Troussellier, M., Melayah, D., Bruto, M., Nicolas, S., Bernard, C., Ader, M., Leboulanger, C., Agogue, H., Hugoni, M., 2022. Strong reorganization of multi-domain microbial networks associated with primary producers sedimentation from oxic to anoxic conditions in an hypersaline lake. FEMS Microbiology Ecology<\/em>, 97 (12), fiab163. doi: 10.1093\/femsec\/fiab163<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> : archaea, bact\u00e9ries, picoeukaryota, \u00e9cosyst\u00e8me hypersalin, r\u00e9seau d’associations microbiennes, Arthrospira fusiformis, Picocystis salinarum\u00a0<\/h6>\n
Keywords<\/strong>: archaea, bacteria, picoeukaryota, hypersaline ecosystem, microbial association network, Arthrospira fusiformis, Picocystis salinarum<\/h6>\n
\nFernandez, N. M., Bouchez, J., Derry, L. A., Chorover, J., Gaillardet, J., Giesbrecht, I., Freis, D. & Druhan, J. L. (2022). Resiliency of silica export signatures when low order streams are subject to storm events.\u00a0Journal of Geophysical Research: Biogeosciences<\/em>,\u00a0127<\/em>(5), e2021JG006660. https:\/\/doi.org\/10.1029\/2021JG006660<\/a><\/p>\n<\/blockquote>\n
\nGrouiez, P., Debref, R., Vivien, F.-D., & Befort, N. (2023). The complex relationships between non-food agriculture and the sustainable bioeconomy: The French case. Ecological Economics<\/em>, 214, 107974. doi: 10.1016\/j.ecolecon.2023.107974<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0bio\u00e9conomie, transition agricole, \u00e9conomie sociale et \u00e9cologique, soutenabilit\u00e9<\/h6>\n
Keywords<\/strong>: bioeconomy, agricultural transition, social ecological economics, sustainability<\/h6>\n
\nGrouiez, P. & Fautras, M. (2022). Heterogeneity of Agricultural Biogas Plants in France:\u00a0 A Sectoral System of Innovation Perspective. Journal of Innovation Economics & Management<\/em>, 38, 11-34. doi.org\/10.3917\/jie.pr1.0116<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0production agricole de biogaz, transition \u00e9nerg\u00e9tique, mod\u00e8les d’organisation, syst\u00e8mes sectoriels d’innovation et de production, strat\u00e9gies des agriculteurs<\/h6>\n
Keywords<\/strong>: agricultural biogas production, energetic transition, organizational models, sectoral systems of innovation and production, farmers\u2019 strategies<\/h6>\n
\nLeclercq, R. (2023). Une adaptation (infra)structurelle ? Des ing\u00e9nieurs face aux inondations dans la banlieue de Dakar. Critique internationale<\/em>, 98(1), 95\u2013115. doi.org\/10.3917\/crii.098.0095<\/a><\/p>\n<\/blockquote>\n
\nLeclercq, R. (2022). How Does Water Behave? Unstable Milieu and Stable Agencements in Dakar\u2019s Flooded Suburbs. Urban Planning<\/em>, 7(1), 21\u201331. doi: 10.17645\/up.v7i1.4353<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0Accra, agencements, assemblage, Dakar, Djiddah Thiaroye Kao, inondations, eaux indompt\u00e9es<\/h6>\n
Keywords<\/strong>: Accra, agencements, assemblage, Dakar, Djiddah Thiaroye Kao, flooding, untamed waters<\/h6>\n
\nLefebvre, P., Mangeret, A., Gourgiotis, A., Louvat, P., Le Pape, P., Sabatier, P., Diez, O., Cazala, C., Gaillardet, J. & Morin, G. (2023). Geochemical Controls on the Uranium Cycle in a Lake Watershed.\u00a0ACS Earth and Space Chemistry<\/em>,\u00a07<\/em>(5), 972-985. doi: 10.1021\/acsearthspacechem.2c00348 <\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0sp\u00e9ciation de l’uranium, isotopes de l’uranium, bassin versant d’un lac, mati\u00e8re organique, processus d’oxydor\u00e9duction, transport de particules<\/h6>\n
Keywords<\/strong>: uranium speciation, uranium isotopes, lake watershed, organic matter, redox processes, particulate transport<\/h6>\n
\nLefebvre, P., Sabatier, P., Mangeret, A., Gourgiotis, A., Le Pape, P., Develle, A. L., Louvat, P., Diez, O., Reyss, J.-L., Gaillardet, J., Cazala, C. & Morin, G. (2021). Climate-driven fluxes of organic-bound uranium to an alpine lake over the Holocene.\u00a0Science of the Total Environment<\/em>,\u00a0783<\/em>, 146878. https:\/\/doi.org\/10.1016\/j.scitotenv.2021.146878<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0bassin versant d’un lac, carottage XRF, flux terrig\u00e8nes, mati\u00e8re organique, cycle de l’uranium<\/h6>\n
Keywords<\/strong>: lake watershed, XRF core-scanning, terrigenous fluxes, organic matter, uranium cycle<\/h6>\n
\nLefebvre, P., Gourgiotis, A., Mangeret, A., Sabatier, P., Le Pape, P., Diez, O., Louvat, P., Menguy, N., Merrot, P., Baya, C., Zebrack, M., Blanchart, P., Malet, E., J\u00e9z\u00e9quel, D., Reyss, J.-L., Bargar, J. R., Gaillardet, J., Cazala, C. & Morin, G. (2021). Diagenetic formation of uranium-silica polymers in lake sediments over 3,300 years.\u00a0Proceedings of the National Academy of Sciences<\/em>,\u00a0118<\/em>(4), e2021844118. https:\/\/doi.org\/10.1073\/pnas.2021844118<\/p>\n<\/blockquote>\n
\nLhosmot, A., Bouchez, J., Steinmann, M., Lavastre, V., Bichet, V., Loup, C., Stefani, V., Boetsch, A., Chevet, J., Toussaint, M.-L., Gaillardet, J. & Bertrand, G. (2022). The origin and transfer of water and solutes in peatlands: A multi tracer assessment in the carbonated Jura Mountains.\u00a0Hydrological Processes<\/em>,\u00a036<\/em>(12), e14781. https:\/\/doi.org\/10.1002\/hyp.14781<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0carbonate, zone critique, tourbi\u00e8re, isotopes de strontium, isotopes de l’eau, interaction eau-roche<\/h6>\n
Keywords<\/strong>: carbonate, critical zone, peatland, strontium isotopes, water isotopes, water-rock interaction<\/h6>\n
\nLiuzzo, M., Di Muro, A., Rizzo, A.L., Grassa, F., Coltorti, M., Ader, M. 2022. The composition of gas emissions at Petite Terre (Mayotte, Comoros): inference on magmatic fingerprints. Comptes Rendus. G\u00e9oscience<\/em>, 1-24. https:\/\/doi.org\/10.5802\/crgeos.148<\/a><\/p>\n<\/blockquote>\n
\nMavromatis, V., Purgstaller, B., Louvat, P., Faure, L., Montouillout, V., Gaillardet, J., & Schott, J. (2021). Boron isotope fractionation during the formation of amorphous calcium carbonates and their transformation to Mg-calcite and aragonite.\u00a0Geochimica et cosmochimica acta<\/em>,\u00a0315<\/em>, 152-171. https:\/\/doi.org\/10.1016\/j.gca.2021.08.041<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0isotopes du bore, carbonate de calcium amorphe (ACC), transformation, proxy pH<\/h6>\n
Keywords<\/strong>: boron isotopes, Amorphous Calcium Carbonate (ACC), transformation, pH proxy<\/h6>\n
\nMilon, A.-S. (2023). From Crust to Core: A Chronicle of Deep Carbon Science. By Simon Mitton. Pp. 382, illus., index. Cambridge University Press: Cambridge. 2020. \u00a336.99. ISBN: 978-1-10-842669-5. Ambix<\/em>, 70(4), 407-408. https:\/\/doi.org\/10.1080\/00026980.2023.2248835<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0Deep Carbon Observatory, histoire des sciences, anthropoc\u00e8ne, Zone Critique, GIEC<\/h6>\n
Keywords<\/strong>: Deep Carbon Observatory, history of science, Anthropocene, Critical Zone, IPCC<\/h6>\n
\nMuller, E., Ader, M., Aloisi, G., Bougeault, C., Durlet, C., Vennin, E., Benzerara, K., Gaucher, E.C., Virgone, A., Chavez, M., Souquet, P., G\u00e9rard, E. 2022. Successive Modes of Carbonate Precipitation in Microbialites along the Hydrothermal Spring of La Salsa in Laguna Pastos Grandes (Bolivian Altiplano).\u00a0Geosciences<\/em>\u00a02022,\u00a012(2), 88. https:\/\/doi.org\/10.3390\/geosciences12020088<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> : bilan de masse des isotopes DIC, photosynth\u00e8se, microbialites, calcite, voies de pr\u00e9cipitation, source hydrothermale, Altiplano, ACC<\/h6>\n
Keywords<\/strong>: DIC isotope mass balance, photosynthesis, microbialites, calcite, precipitation pathways, hydrothermal spring, Altiplano, ACC<\/h6>\n
\nNoireaux, J., Sullivan, P. L., Gaillardet, J., Louvat, P., Steinhoefel, G., & Brantley, S. L. (2021). Developing boron isotopes to elucidate shale weathering in the critical zone.\u00a0Chemical Geology<\/em>,\u00a0559<\/em>, 119900. https:\/\/doi.org\/10.1016\/j.chemgeo.2020.119900<\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0Zone Critique, alt\u00e9ration, bore, schiste, fractionnement isotopique<\/h6>\n
Keywords<\/strong>: Critical Zone, weathering, boron, shale, isotopic fractionation<\/h6>\n
\nPasquet, S., Mar\u00e7ais, J., Hayes, J. L., Sak, P. B., Ma, L., & Gaillardet, J. (2022). Catchment\u2010Scale Architecture of the Deep Critical Zone Revealed by Seismic Imaging.\u00a0Geophysical Research Letters<\/em>,\u00a049<\/em>(13), e2022GL098433. https:\/\/doi.org\/10.1029\/2022GL098433<\/a><\/p>\n<\/blockquote>\n
\nRapuc, W., Arnaud, F., Sabatier, P., Anselmetti, F. S., Piccin, A., Peruzza, L., Bastien, A., Augustin, E., Gaillardet, J. & Von Grafenstein, U. (2022). Instant sedimentation in a deep Alpine lake (Iseo, Italy) controlled by climate, human and geodynamic forcing.\u00a0Sedimentology<\/em>,\u00a069<\/em>(4), 1816-1840. https:\/\/doi.org\/10.1111\/sed.12972<\/p>\n<\/blockquote>\n
\nRapuc, W., Bouchez, J., Sabatier, P., Genuite, K., Poulenard, J., Gaillardet, J., & Arnaud, F. (2021). Quantitative evaluation of human and climate forcing on erosion in the alpine Critical Zone over the last 2000 years.\u00a0Quaternary science reviews<\/em>,\u00a0268<\/em>, 107127. https:\/\/doi.org\/10.1016\/j.quascirev.2021.107127<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0\u00e9rosion, impact humain, s\u00e9diments lacustres, m\u00e9thode de la source au puits, mod\u00e8le de m\u00e9lange isotopique<\/h6>\n
Keywords<\/strong>: erosion, human impact, lake sediments, source to sink method, isotopic mixing model<\/h6>\n
\nSaldi, G. D., Louvat, P., Schott, J., & Gaillardet, J. (2021). The pH dependence of the isotopic composition of boron adsorbed on amorphous silica.\u00a0Geochimica et Cosmochimica Acta<\/em>,\u00a0308<\/em>, 1-20. https:\/\/doi.org\/10.1016\/j.gca.2021.05.052<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0adsorption du bore, fractionnement isotopique du bore, silice amorphe, mod\u00e8le \u00e0 trois couches, B pH-proxy<\/h6>\n
Keywords<\/strong>: boron adsorption, boron isotope fractionation, amorphous silica, triple-layer model, B pH-proxy<\/h6>\n
\nSong, Y., Zhang, X. Y., Bouchez, J., Chetelat, B., Gaillardet, J., Chen, J., Zhang, T., Cai, H., Yuan, W. & Wang, Z. (2021). Deciphering the signatures of weathering and erosion processes and the effects of river management on Li isotopes in the subtropical Pearl River basin.\u00a0Geochimica et Cosmochimica Acta<\/em>,\u00a0313<\/em>, 340-358. https:\/\/doi.org\/10.1016\/j.gca.2021.08.015<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0isotopes de lithium, alt\u00e9ration chimique, rivi\u00e8re des perles, Xijiang, intensit\u00e9 de l’alt\u00e9ration, gestion des rivi\u00e8res<\/h6>\n
Keywords<\/strong>: lithium isotopes, chemical weathering, pearl River, Xijiang, weathering intensity, river management<\/h6>\n
\nWang, J., Bouchez, J., Dolant, A., Floury, P., Stumpf, A. J., Bauer, E., Keefer, L., Gaillardet, J., Kumar, P. & Druhan, J. L. (2024). Sampling frequency, load estimation and the disproportionate effect of storms on solute mass flux in rivers.\u00a0Science of the Total Environment<\/em>,\u00a0906<\/em>, 167379. https:\/\/doi.org\/10.1016\/j.scitotenv.2023.167379<\/a><\/p>\n<\/blockquote>\n
Mots-cl\u00e9s<\/strong> :\u00a0relations concentration-d\u00e9bit, surveillance \u00e0 haute fr\u00e9quence, estimation de la charge, flux de masse des solut\u00e9s<\/h6>\n
Keywords<\/strong>: concentration-discharge relationships, high-frequency monitoring, load estimation, solute mass flux<\/h6>\n
\nYuan, W., Chen, J., Teng, H., Chetelat, B., Cai, H., Liu, J., Wang, Z., Bouchez, J., Moynier, F., Gaillardet, J., Schott, J. & Liu, C. (2021). A review on the elemental and isotopic geochemistry of gallium.\u00a0Global Biogeochemical Cycles<\/em>,\u00a035<\/em>(9), e2021GB007033. https:\/\/doi.org\/10.1029\/2021GB007033<\/a><\/p>\n<\/blockquote>\n
\nZhang, X., Bajard, M., Bouchez, J., Sabatier, P., Poulenard, J., Arnaud, F., Crouzet, C., Kuessner, M., Dellinger, M. & Gaillardet, J. (2023). Evolution of the alpine Critical Zone since the Last Glacial Period using Li isotopes from lake sediments. Earth and Planet Science Letters<\/em>, 624, 118463. doi: 10.1016\/j.epsl.2023.118463<\/a><\/p>\n<\/blockquote>\n