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135Ami Boué (J. Gaudant)

Boué A. (1861). – Documents sur l’origine de la Société geologique de France. Extrait présenté par M. Albert Gaudry. Bulletin de la Société géologique de France, (2), XVIII, p. 130-132.

Boué A. (1879). – Autobiographie du Docteur médecin Ami Boué, membre de l’Académie impériale de Vienne etc. Ferd. Ullrich et fils, Vienne, 172 + LXXII p. (cf. p. 117).

Géologie et Grande Guerre (N. Santarelli)

Barrois C. (1919). – La Société géologique du Nord pendant la guerre. Annales Soc. Géol. du Nord, T. XLIV, p. XI-XVI.

Doyle P. (2012). – Examples of the influence of groundwater on british military mining in Flanders, 1914-1917. Geological Society, London, Special Publications, 362, p.73-83.

King W.B.R. (1919). – Geological work on the Western front. The Geographical Journal, 54 (4), oct. 1919, p. 201-221.

King W.B.R. (1920) Résultats des sondages exécutés par les armées britanniques dans le Nord de la France. Annales Soc. Géol. du Nord,T. XLV.

King W.B.R. (1921) The surface of the marls of the Middle Chalk in the Somme valley and the neighbouring districts of Northern France and the effect on the hydrology. The Quarterly journal of the Geol. Soc. of London, 77, p. 135-143.

La Carte Géologique de la France. Echelle 1/1 000 000, 6e édition, 1998, éd. BRGM, Orléans, 1 CD-Rom.

Compléments de lecture

Delattre C., Mériaux E., Waterlot M. (1973). – Région du Nord. Guides géologiques régionaux Masson éd., Paris.

Minguely B. (2007). – Caractérisation géométrique 3D de la couverture sédimentaire méso-cénozoïque et du substratum varisque dans le nord de la France. Thèse université Lille, 230 p.

Minguely B. et al (2010). – Inversion tectonics at the northern margin of the Paris basin (northern France): new évidence from seismic profiles and boreholes interpolation in the Artois area.  Bull. Soc. Géol. France, 181 (5), p. 429-442.

Robaszynski F. et Dupuis C. (1983). – Belgique. Guides géologiques régionaux Masson éd., Paris.

Rose E.P.F. and Mather J.D. (2012). – Military aspects of hydrogeology: an introduction and overview. Geological Society, London, Special Publications, 362, p. 1-17.

Rose E.P.F. (2012). – Groundwater as a military resource: pioneering British military well boring and hydrogeology in World War 1. Geological Society, London, Special Publications, 362, p. 49-72.

Willig D. and Häusler H. (2012). – Aspects of military hydrogeology and groundwater development by Germany and its allies in World War 1- Geological Society, London, Special Publications, 362, p. 85-103.

Delattre C. (1968). – Carte géologique d’Arras à 1/50 000e. Feuille XXIV-6. BRGM éd., Orléans.

Goguel J. (1960). – Carte géologique de Béthune à 1/50 000e. Feuille XXIV-5. BRGM éd., Orléans.

La mine de sel de Realmonte (J. Melleton & M. Alletti)

Bertini A., Londeix L., Maniscalco R., Di Stefano A., Suc J.P., Clauzon G., Gautier F., Grasso M. (1998). – Paleobiological evidence of depositional conditions in the Salt Member, Gessoso-Solfifera Formation (Messinian, Upper Miocene) of Sicily according to new paleobiological records. Micropaleontology, 44, p. 413-433.

Butler R.W.H., Lickorish W.H., Grasso M., Pedley H.M., Ramberti L. (1995). – Tectonics and sequence stratigraphy in Messinian basins, Sicily: Constraints on the initiation and termination of the Mediterranean salinity crisis. Geological Society of America Bulletin, 107, p. 425-439.

Lugli S. (1999). – Geology of the Realmonte salt deposit, a dessicated Messinian Basin (Agrigento, Sicily). Memorie della Societa Geologica Italiana, 54, p. 75-81.

Manzi V., Gennari R., Lugli S., Roveri M., Scafetta N., Schreiber B.C. (2012). – High-frequency cyclicity in the Mediterranean Messinian evaporates: evidence for solar-lunar climate forcing. Journal of Sedimentary Research, 82, p. 991-1005.  

Rigaudier T., Lécuyer C., Gardien V., Suc J.-P., Martineau F. (2011). – The record of temperature, wind veolicty and air humidity in the δD and δ18O of water inclusions in synthetic and Messinian halites. Geochimica et Cosmochimica Acta, 75, p. 4637-4652.

Rouchy J.-M., Caruso A. (2006). – The Messinian salinity crisis in the Mediterranean basin: A reassessment of the data and an integrated scenario. Sedimentary Geology, 188-189, p. 35-67.

Roveri M., Manzi V., Lugli S., Schreiber C., Caruso A., Rouchy J.-M., Iaccarino S.M., Gennari R., Vitale F.P., Ricci Lucchi F. (2006). – Clastic vs. primary precipitated evaporates in the Messinian Sicilian basins. R.C.M.N.S. Interim Colloquium “The Messinian salinity crisis revisited-II” Parma (Italy), 7th-9th September 2006, Post-Congress field trip. Acta Naturalia de l’Ateneo Parmense, 42, p. 125-199. 

Roveri M., Lugli S., Manzi V., Schreiber B.C. (2008). – The Messinian Sicilian stratigraphy revisited : toward a new scenario for the Messinian salinity crisis. Terra Nova, 20, p. 486-488.

Speranza G., Cosentino D., Tecce F., Facenna C. (2013). – Paleoclimate reconstruction during the Messinian evaporate drawdown of the Mediterranean Basin: Insights from microthermometry on halite fluid inclusions. Geochemistry, Geophysics, Geosystems, 14, p. 5054-5077.

Warren J. (2015). – Danakil potash: K2SO4 accross the Neogene: Implications, Part 4 of 4. Salty Matters (www.saltworkconsultants.com), 12 p.