• Le fonds

Introduction (R. Millot, E. Petelet, Ph. Négrel)

Aggarwal P.K., Gat J.R. and Froehlich K.F.O. (2005). – Isotopes in the water cycle ; past, present and future of a developing science. Springer Ed. 381 pp.

Allègre C.J., (1987). – Isotope geodynamics. Earth and Planetary Science Letters, 86, 175-203.

Allègre C.J., (2005). – Géologie Isotopique. Belin Ed. 495pp.

Bowen R., (1988). – Isotopes in the Earth Sciences.Elsevier Applied Science Ed. 647 pp.

Clark I.D. and Fritz P., (1997). – Environmental Isotopes in Hydrology. CRC Press/Lewis Publishers, 352 p.

European Commission, (2000). – Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policy, Official Journal of the European Communities L 327, 22.12.2000, p.1.

Faure G. (1986). – Principles of Isotope Geology. John Wiley & Sons Ed. 589 pp.

Fritz P. and Fontes J.C. (1980). – Handbook of Environmental Isotope Geochemistry, Vol 1 to 5. Elsevier Ed.

Kloppmann W. (2003). – Les nouveaux isotopes dans les sciences de l’eau. L’actualité chimique, 267, 44-47.

Mook W.G. (2001). – Environmental Isotopes in the hydrological cycle. Principles and applications IHP-V Technical Documents in Hydrology, Nº 39. UNESCO – IAEA, available at www-naweb.iaea.org.

 

Le cycle de l’eau vu au travers des isotopes de la molécule H2O (E. Petelet-Giraud, Ph. Négrel, R. Millot)

Blavoux, B. (1995). – Apports des techniques isotopiques à la connaissance des gisements d'eau minérale. La Houille Blanche, 2-3, 51-58. doi.org/10.1051/lhb/1995013

Clark, I. (2015). – Groundwater Geochemistry and Isotopes - 1st Edition. CRC Press. 456 pp. ISBN 9781466591738.

Craig, H. (1961). – Isotopic variations in meteoric waters. Science, 133, 1702-1703.

Millot, R., Petelet-Giraud, E., Guerrot, C. and Négrel, Ph. (2010). – Multi-isotopic composition (δ7Li- δ11B- δD- δ18O) of rainwaters in France: origin and spatio-temporal characterization. Applied Geochemistry, 25(10), 1510-1524.

Mook, W.G. (2001). – Environmental Isotopes in the hydrological cycle. Principles and applications. IHP-V Technical Documents in Hydrology, Nº 39. UNESCO – IAEA.

Négrel, P., & Petelet-Giraud, E. (2011). – Isotopes in groundwater as indicators of climate changes. TrAC Trends in Analytical Chemistry, 30(8), 1279-1290.

 

Les isotopes du lithium et la géothermie (R. Millot)

Beck P., Barrat J.A., Chaussidon M., Gillet Ph. , Bohn M. (2004) Li isotopic variations in single pyroxenes from the Northwest Africa 480 shergottite (NWA 480): a record of degassing of Martian magmas? Geochimica et Cosmochimica Acta, 68 : 2925-2933.

Chaussidon M., Robert F. (1998). – 7Li/6Li and 11B/10B variations in chondrules from the Semarkona unequilibrated chondrite. Earth Planet. Sci. Lett., 164, 577-589.

Coplen T.B., Hopple J.A., Böhlke J.K., Peiser H.S., Rieder S.E., Krouse H.R., Rosman K.J.R., Ding T., Vocke R.D.Jr., Révész K.M., Lamberty A., Taylor P. and De Bièvre P. (2002). – Compilation of minimum and maximum isotope ratios of selected elements in naturally occurring terrestrial materials and reagents. U.S. Geological Survey, Water-Resources Investigations, Report 01-4222.

Flesch G.D., Anderson A.R. and Svec H.J. (1973). – A secondary isotopic standard for 6Li/7Li determinations. International Journal of Mass Spectrometry and Ion Physics, 12, 265-272.

Millot R., Guerrot C., Vigier N. (2004). – Accurate and high precision measurement of lithium isotopes in two reference materials by MC-ICP-MS. Geostandards and Geoanalytical Research, 28, 53-159.

Millot R., Scaillet B., Sanjuan B. (2010). – Lithium isotopes in island arc geothermal systems: Guadeloupe, Martinique (French West Indies) and experimental approach. Geochimica et Cosmochimica Acta, 74, 1852-1871.

Millot R., Hegan A., Négrel Ph. (2012). – Geothermal waters from the Taupo Volcanic Zone, New Zealand: Li, B and Sr isotopes characterization. Applied Geochemistry, 27, 677-688.

Teng F.Z., McDonough W.F., Rudnick R.L., Dalpé C., Tomascak P.B., Chappell B.W., Gao S. (2004). – Lithium isotopic composition and concentration of the upper continental crust. Geochimica et Cosmochimica Acta, 68, 4167-4178.

Tomascak P.B. (2004). – Developments in the Understanding and Application of Lithium Isotopes in the Earth and Planetary Sciences. Reviews in Mineralogy & Geochemistry, 55, 153-195.

 

Ressources en eau et hydrogéologie isotopique : la nappe de l’Albien du Bassin parisien (Ch. Innocent, R. Millot, W. Kloppmann)

AGBP (2014). – Le Bassin parisien. Un nouveau regard sur la géologie. Cinquantenaire de l’Association des Géologues du Bassin de Paris, J.-P. Gély et F. Hanot Eds., 229 p.

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Dentzer J. (2016). – Forçages environnementaux et contrôles structuraux sur le régime thermique actuel du bassin de Paris. Thèse de doctorat Université Pierre et Marie Curie, 140 p.

Faure G. (1986). – Principles of isotope geology. Second Edition. John Wiley and sons Ed. 589 p.

Hydroexpert (2000). – Agence de l’Eau Seine Normandie. Réalisation d’un modèle de gestion des aquifères de l’Albien et du Néocomien. Rapport final de 3è phase, 113p.

Humez P. (2012). – Traçage des intrusions de CO2 dans les aquifères d’eau douce par les méthodes multi-isotopiques. Thèse de doctorat MINES ParisTech, 334 p.

Koepnick R.B., Burke W.H., Denison R.E., Hetherington E.A., Nelson H.F., Otto J.B., Waite L.E. (1985). – Construction of the seawater 87Sr/86Sr curve for the Cenozoic and cretaceous : supporting data. Chemical Geology, 58, 55-81.

Krouse H.R., Mayer B. (2000). – Sulphur and oxygen isotopes in sulphate. In : Environmental Tracers in Subsurface Hydrology, Cook P.G. and Herczeg A.L. (Eds), Kluwer Academic Press, 195-231.

Lemoine P., Humery R., Soyer R. (1939). – Les forages profonds du Bassin de Paris, la nappe artésienne des Sables Verts. Mémoire du Muséum National d’Histoire Naturelle, Nouvelle série, Tome XI, 700 p.

Matray J.-M., Meunier A., Thomas M., Fontes J.-C. (1989). – Les eaux de formation du Trias et du Dogger du Bassin Parisien : histoire et effets diagénétiques sur les réservoirs. Bulletin des Centres de Recherches Exploration-Production Elf-Aquitaine, 13, 483-504.

Mégnien C., Mégien F. (coordonnateurs). – (1980) Synthèse géologique du Bassin de Paris. Mémoires BRGM, 101, 102, 103, 3 volumes.

Millot R., Guerrot C., Innocent C., Négrel P., Sanjuan B. (2011a). – Chemical, multi-isotopic (Li-B-Sr-U-H-O) and thermal characterization of Triassic formation waters from the Paris Basin. Chemical Geology, 283, 226-241.

Millot R., Innocent C., Blanc P., Guerrot C., Gaucher E., Négrel P. (2011b). – Apport de la géochimie isotopique B-U-Li-Th appliquée aux eaux des formations de l’Oxfordien et du Dogger. Rapport final. BRGM/RP-59480-FR, 57 p., 31 fig., 9 tab., 1 ann.

Pawellek F., Frauenstein F., Veizer I. (2002). – Hydrochemistry and isotope geochemistry of the Upper Danube River. Geochimica et Cosmochimica Acta, 66, 3839-3854.

Raoult Y. (1999). – La nappe de l’Albien dans le bassin de Paris : de nouvelles idées pour de vieilles eaux. Thèse 3è cycle, Université Paris VI.

Raoult Y., Boulègue J., Lauverjat J., Olive P. (1997). – Geochemistry of the Albian aquifer in the Paris Basin area contributes to understanding complex hydrogeological behavior. Comptes Rendus de l’Académie des Sciences de Paris, Série IIA, Earth and Planetary Sciences, 325, 419-425.

Vernoux J.-F., Maget P., Afzali H., Blanchin R., Donsimoni M., Vairon J. (1997). – Synthèse hydrogéologique du Crétacé inférieur du bassin de Paris. Rapport BRGM DSGR/IDF R39702, 93 p., 2 tab., 37 fig. 23 pl., 12 ann.

Vuillaume (1971). – Application des méthodes isotopiques et hydrochimiques à l’étude de la nappe de l’Albien du Bassin de Paris. Rapport BRGM 71SGN304HYD

 

Les isotopes dans les eaux ou l’évidence des extrêmes (Ph. Négrel)

Coplen, T. B., Hopple, J.A., Boehike, J.K., Peiser, H.S., & Rieder, S.E. (2002). – Compilation of minimum and maximum isotope ratios of selected elements in naturally occurring terrestrial materials and reagents. pubs.usgs.gov; report 01-4222.

Négrel, P., Ollivier, P., Flehoc, C., & Hube, D. (2017). – An innovative application of stable isotopes (δ2H and δ18O) for tracing pollutant plumes in groundwater. Science of the Total Environment, 578, 495-501.

Négrel, P., Lemiere, B., De Grammont, H.M., Billaud, P., & Sengupta, B. (2007). – Hydrogeochemical processes, mixing and isotope tracing in hard rock aquifers and surface waters from the Subarnarekha River Basin, (east Singhbhum District, Jharkhand State, India). Hydrogeology Journal, 15(8), 1535-1552.

Négrel, P., Millot, R., Guerrot, C., Petelet-Giraud, E., Brenot, A., & Malcuit, E. (2012). – Heterogeneities and interconnections in groundwaters: Coupled B, Li and stable-isotope variations in a large aquifer system (Eocene Sand aquifer, Southwestern France). Chemical Geology, 296, 83-95.

Négrel, P., Millot, R., Brenot, A., & Bertin, C. (2010). – Lithium isotopes as tracers of groundwater circulation in a peat land. Chemical Geology, 276(1-2), 119-127.

Kloppmann, W., Petelet-Giraud, E., Guerrot, C., Cary, L., & Pauwels, H. (2015). – Extreme boron isotope ratios in groundwater. Procedia Earth and Planetary Science, 13, 296-300.

 

l’origine et les processus de salinisation des aquifères côtiers : exemple de Recife (E. Petelet-Giraud et Lise Cary, W. Kloppmann)

Pour aller plus loin :

Chatton, E., Aquilina, L., Petelet-Giraud, E., Cary, L., Bertrand, G., Labasque, T., Hirata, R., Martins, V., Montenegro, S., Vergnaud, V., Aurouet, A., Kloppmann, W., Pauwels, H. (2016). – Glacial recharge, salinization and anthropogenic contamination in the coastal aquifers of Recife (Brazil). Science of the Total Environment, 569-570, 1114-1125.

Bertrand G., R. Hirata, H. Pauwels, L. Cary, E. Petelet-Giraud, E. Chatton, L. Aquilina, T. Labasque, V. Martins, S. Montenegro, J. Batista, A. Arouet, J. Santos, R. Bertolo, G. Picot, M. Franzen, R. Hochreutener, G. Braibant (2016). – Groundwater contamination in coastal urban areas: Anthropogenic pressure and natural attenuation processes. Example of Recife (PE State, NE Brazil). Journal of Contaminant Hydrology, 192, 165-180.

Bertrand G., Hirata R., Auler A, Cruz F., Cary L., Petelet-Giraud E., Chatton E., Aquilina L., Moquet J.S., Bustamante M.G., Millo C., Martins V., Montenegro S., Celle-Jeanton H. (2017). – Groundwater isotopic data as potential proxy for Holocene paleohydroclimatic and paleoecological models in NE Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology, 469, 92-103.

Petelet-Giraud E., Cary, L., Cary, P., Bertrand, G., Giglio-Jacquemot A., Hirata, R., Aquilina, L., Alves, L.M., Martins, V., Melo, A.M., Montenegro, S., Chatton E., Franzen, M., Aurouet, A. and the COQUEIRAL team (2018). – Multi-layered water resources, management, and uses under the impacts of Global Changes in a Southern Coastal Metropolis: when will it be already too late? Crossed analysis in Recife, NE Brazil. Science of the Total Environment, 618, 645-657.

Cary P. et al. (2018). – Affronter le manque d'eau dans une métropole. Le cas de Recife – Brésil, Paul Cary; Armelle Giglio et Ana Maria Melo (Eds). Presses Universitaires du Septentrion.