, Asbestos and other natural mineral fibres, Environmental Health criteria, 1986.

. Niosh, Asbestos Fibers and Other Elongate Mineral Particles : State of the Science and Roadmap for Research Revised Edition, Curr. Intell. Bull, p.153, 2011.

G. Vignaroli, P. Ballirano, G. Belardi, and F. Rossetti, Asbestos fibre identification vs. evaluation of asbestos hazard in ophiolitic rock mélanges, a case study from the Ligurian Alps (Italy), Environ. Earth Sci, vol.72, pp.3679-3698, 2014.

A. Campopiano, A. Olori, A. Spadafora, M. Bruno, F. Angelosanto et al., Asbestiform minerals in ophiolitic rocks of Calabria (southern Italy), Int. J. Environ. Health Res, vol.28, pp.134-146, 2018.

D. Lahondere and F. Cagnard, Naturally Occurring Asbestos in an Alpine Ophiolitic Complex, 2018.

D. Lahondère, F. Cagnard, G. Wille, J. Duron, and M. Misseri, TEM and FESEM characterization of asbestiform and non-asbestiform actinolite fibers in hydrothermally altered dolerites (France), Environ. Earth Sci, vol.77, 2018.

B. S. Van-gosen, H. A. Lowers, S. J. Sutley, and C. A. Gent, Using the geologic setting of talc deposits as an indicator of amphibole asbestos content, Environ. Geol, vol.45, pp.920-939, 2004.

B. S. Van-gosen, The geology of asbestos in the United States and its practical applications, Environ. Eng. Geosci, vol.13, pp.55-68, 2007.

R. Metcalf and B. J. Buck, Genesis and health risk implications of an unusual occurrence of fibrous NaFe3+-amphibole, Geology, vol.43, pp.63-66, 2015.

, IARC monographs on the evaluation of carcinogenic risks to humans: arsenic, metals, fibres and dusts, International agency for research on Cancer, 2012.

A. Hse, The analysts' guide for sampling, analysis and clearance procedures, 2006.

L. Kazan-allen, Asbestos and mesothelioma: Worldwide trends, Lung Cancer, vol.49, 2005.

D. Steen, M. P. Guillemin, P. Buffat, and L. Gilbert, Determination of asbestos fibres in air transmission electron microscopy as a reference method, Atmos. Environ, vol.17, pp.90227-90232, 1983.

K. E. Harris, K. L. Bunker, B. R. Strohmeier, R. Hoch, and R. J. Lee, Discovering the true morphology of amphibole minerals: complementary TEM and FESEM characterization of particles in mixed mineral dust, Mod. Res. Educ. Top. Microsc, vol.2, pp.643-650, 2007.


R. Wirth and L. Morales, Focused Ion Beam (FIB) combined with SEM (FIB/SEM) and TEM: Advanced tools for nano-analysis in Geosciences, 2011.

S. Giffin, R. Littke, J. Klaver, and J. L. Urai, Application of BIB-SEM technology to characterize macropore morphology in coal, Int. J. Coal Geol, vol.114, pp.85-95, 2013.

J. Klaver, J. Schmatz, G. Desbois, S. Hemes, and J. L. Urai, Application of BIB -SEM technology to characterize microstructure and pores in mudstone at a range of scales, in: 2nd Petrus-OPERA Conf, Radioact. Waste Manag. Geol. Dispos, pp.55-57, 2016.

A. Seydoux-guillaume, D. Fougerouse, A. T. Laurent, E. Gardés, S. M. Reddy et al., Nanoscale resetting of the Th/Pb system in an isotopically-closed monazite grain: A combined atom probe and transmission electron microscopy study, Geosci. Front, vol.10, pp.65-76, 2019.
URL : https://hal.archives-ouvertes.fr/hal-01903090

A. Seydoux-guillaume, J. Montel, R. Wirth, and B. Moine, Radiation damage in diopside and calcite crystals from uranothorianite inclusions, Chem. Geol, vol.261, pp.318-332, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00606536

E. Acosta, X. Llovet, E. Coleoni, J. A. Riveros, and F. Salvat, Monte Carlo simulation of x-ray emission by kilovolt electron bombardment, J. Appl. Phys, vol.83, pp.6038-6049, 1998.

J. T. Armstrong and P. R. Buseck, Quantitative chemical analysis of individual microparticles using the electron microprobe. Theoretical, Anal. Chem, vol.47, pp.2178-2192, 1975.

J. Tedenac, C. Pascal, C. Merlet, R. Marin-ayral, and B. Boyer, Identification by Electron Probe Microbeam Analysis of Submicron Borides in Joints of Nickel Base Superalloys, Microchim. Acta, vol.145, pp.147-151, 2004.

J. A. Small, The analysis of particles at low accelerating voltages (<= 10 kV) with energy dispersive x-ray spectroscopy (EDS), J. Res. Natl. Inst. Stand. Technol, vol.107, p.555, 2002.

I. Barkshire, P. Karduck, W. P. Rehbach, and S. Richter, High-Spatial-Resolution Low-Energy Electron Beam X-Ray Microanalysis, Mikrochim. Acta, vol.132, pp.113-0128, 2000.

C. Merlet and X. Llovet, Uncertainty and capability of quantitative EPMA at low voltage -A review, IOP Conf. Ser. Mater. Sci. Eng, vol.32, p.12016, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00767564

P. Gopon, J. Fournelle, P. E. Sobol, and X. Llovet, Low-Voltage electron-probe microanalysis of Fe-Si compounds using soft X-rays, Microsc. Microanal, vol.19, pp.1698-1708, 2013.

P. Jonnard, F. Brisset, F. Robaut, G. Wille, and J. Ruste, Inter-laboratory comparison of a WDS-EDS quantitative X-ray microanalysis of a metallic glass, X-Ray Spectrom, vol.44, pp.24-29, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01188759

R. Kusiorowski, T. Zaremba, J. Piotrowski, and J. Adamek, Thermal decomposition of different types of asbestos, J. Therm. Anal. Calorim, vol.109, pp.693-704, 2012.

J. Jiru?e, M. Hani?inec, M. Havelka, O. Hollricher, W. Ibach et al., Integrating focused ion beam-scanning electron microscope with confocal Raman microscope into a single instrument, J. Vac. Sci. Technol. B, Nanotechnol. Microelectron. Mater. Process. Meas. Phenom, vol.32, pp.6-9, 2014.

S. Denner and D. Rambourg, Les roches dominantes de la France -carte lithologique simplifiée (the dominant rocks of France -simplified lithological map), 2008.

P. D. Godard-g, P. Bouton, G. Godard, P. Bouton, D. Poncet et al., French geological map. France (1/50 000), BRGM, BRGM, 2007.

R. Wyns, G. Lablanche, and A. Lefavrais-raymond, Explanatory note and geological map (1/50 000) of Chantonnay (563), BRGM, BRGM, 1984.

D. Thieblemont and C. Bruno, Découverte d'une association de volcanites d'arc et de basaltes de type "MORB" dans la formation paléovolcanique silurienne de La Meilleraie, Mécanique, Phys. Chim. Sci. l'univers, Sci. La Terre, vol.2, pp.1986-1987, 1986.

D. Thiéblemont, Le magmatisme paleozoique en vendee : apport de la geochimie des elements traces et de la petrologie du metamorphisme a la comprehension du developpement orogenique varisque, 1987.

M. Demange, J. Guerange-lozes, and B. Guerange, Explanatory note and geological map (1/50 000) of Lacaune (987), 1995.

D. R. Van-orden, K. A. Allison, and R. J. Lee, Differentiating Amphibole Asbestos from Non-Asbestos in a Complex Mineral Environment, Indoor Built Environ, vol.17, pp.58-68, 2008.

F. C. Hawthorne, R. Oberti, G. E. Harlow, W. V. Maresch, R. F. Martin et al., Nomenclature of the amphibole supergroup, Am. Mineral, vol.97, pp.2031-2048, 2012.

C. Merlet, An accurate computer correction program for quantitative electron probe microanalysis, Mikrochim. Acta, pp.363-376, 1994.

A. J. Locock, An Excel spreadsheet to classify chemical analyses of amphiboles following the IMA 2012 recommendations, Comput. Geosci, vol.62, pp.1-11, 2014.

D. Drouin, A. R. Couture, D. Joly, X. Tastet, V. Aimez et al., 42-A Fast and Easy-to-use Modeling Tool for Scanning Electron Microscopy and Microanalysis Users, Scanning, vol.29, pp.92-101, 2007.

R. L. Perkins and B. W. Harvey, Method for the Determination of Asbestos in Bulk Building Materials, p.99, 1993.

G. Wille, X. Bourrat, N. Maubec, and A. Lahfid, Raman-in-SEM, a multimodal and multiscale analytical tool: Performance for materials and expertise, Micron, vol.67, pp.50-64, 2014.
URL : https://hal.archives-ouvertes.fr/insu-01087984

G. Wille, U. Schmidt, and O. Hollricher, RISE: Correlative confocal raman and scanning electron microscopy, 2018.

M. Fries, A. Steele, R. Spectroscopy, and C. Raman, Imaging in Mineralogy and Petrography, pp.111-135, 2010.

L. Leissner, J. Schlüter, I. Horn, and B. Mihailova, Exploring the potential of Raman spectroscopy for crystallochemical analyses of complex hydrous silicates: I

. Amphiboles, Am. Mineral, vol.100, pp.2682-2694, 2015.

T. Dieing and W. Ibach, Software Requirements and Data Analysis in Confocal Raman Microscopy, Confocal Raman Microsc, pp.61-89, 2011.

J. Schindelin, C. T. Rueden, M. C. Hiner, and K. W. Eliceiri, The ImageJ ecosystem: An open platform for biomedical image analysis, Mol. Reprod. Dev, vol.82, pp.518-529, 2015.

C. Rinaudo, D. Gastaldi, E. Belluso, C. Of-chrysotile, and A. Spectroscopy, Can. Mineral, vol.41, pp.883-890, 2003.

C. Groppo, C. Rinaudo, S. Cairo, D. Gastaldi, and R. Compagnoni, Micro-Raman spectroscopy for a quick and reliable identification of serpentine minerals from ultramafics, Eur. J. Mineral, vol.18, pp.319-329, 2006.

J. R. Petriglieri, E. Salvioli-mariani, L. Mantovani, M. Tribaudino, P. P. Lottici et al., Micro-Raman mapping of the polymorphs of serpentine, J. Raman Spectrosc, vol.46, pp.953-958, 2015.

V. Cardile, L. Lombardo, E. Belluso, A. Panico, S. Capella et al., Toxicity and Carcinogenicity Mechanisms of Fibrous Antigorite, Int. J. Environ. Res. Public Health, vol.4, pp.1-9, 2007.

D. Bard, J. Yarwood, and B. Tylee, Asbestos fibre identification by Raman microspectroscopy, J. Raman Spectrosc, vol.28, pp.803-809, 1997.

R. Petry, R. Mastalerz, S. Zahn, T. G. Mayerhöfer, G. Völksch et al., Asbestos Mineral Analysis by UV Raman and Energy-Dispersive X-ray Spectroscopy, ChemPhysChem, issue.7, pp.414-420, 2006.