Abstract
Basse Terre Island is made up of a cluster of composite volcanoes that are part of the Lesser Antilles volcanic arc. The morphology of these volcanoes and the onshore continuation of the grabens and strike–slip faults that surround the island are poorly documented due to erosion and rainforest cover. Therefore, we conducted a morphological analysis of the island using Digital Elevation Model (DEM) data integrated with field observations to document erosional, constructional, and deformational processes. A DEM-based analysis of 1,249 lineaments and field structural measurements of 16 normal faults, 3,741 veins and fractures, and 46 dykes was also carried to document the structures that predominate in sub-surface rocks. The results indicate that the over 1-My-old and elongated Northern Chain volcano, which makes up the northern half of the island, was built by high eruption rates and/or a low viscosity magma injected along the N–S to NNW–SSE-striking extensional structures formed by the flexure of the lithosphere by the overall subduction regime. After 1 Ma, the southern half of the island was shaped by an alignment of conical volcanoes, likely built by a more viscous magma type that was guided by the NW–SE-striking Montserrat-Bouillante strike–slip fault system. These N to NNW and NW structural directions are however poorly expressed onshore, possibly due to slow slip motion. The sub-surface rocks mostly contain E–W-striking structures, which have likely guided the many flank instabilities documented in the studied area, and guide hydrothermal fluids and shallow magmatic intrusions. These structures are possibly part of the E–W-striking Marie-Gallante offshore graben.
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References
Adiyaman O, Chorowicz J (2002) Late Cenozoic tectonics and volcanism in the northwestern corner of the Arabian plate: a consequence of the strike-slip Dead Sea fault zone and the lateral escape of Anatolia. JVGR 117:327–345
Baubron J (1990) Prospection géochimique par analyse des gaz des sols en vue de la localisation d’une fracture majeure sous recouvrement, Faille Montserrat-Marie Galante: secteur de Marie-Galante et Capesterre-Belle-Eau, Basse-Terre (Guadeloupe) = Geochemical prospection by gas analysis of a major buried fracture: the Montserrat-Marie Gallante fault. Bureau de Recherche Géologique et Minière (BRGM) Report R-31069
Bellier O, Sébrier M (1994) Relationship between tectonism and volcanism along the Great Sumatran Fault Zone deduced by SPOT image analyses. Tectonophys 233:215–231
Blanc F (1983) Corrélations chronologiques et géochimiques des formations volcaniques du sud de la Basse-Terre de Guadeloupe (Petites Antilles), Début du cycle récent = Chronological and geochemical correlations of recent Basse-Terre volcanism, Guadeloupe (Lesser Antilles). Dissertation, Grenoble University
Borgia A, Ferrari L, Pasquarè G (1992) Importance of gravitational spreading in the tectonic and volcanic evolution of Mount Etna. Nature 357:231–235. doi:10.1038/357231a0
Borgia A, Delaney PT, Denlinger RP (2000) Spreading volcanoes. Ann Rev Earth Planet Sci 28:539–570. doi:10.1146/annurev.earth.28.1.539
Boudon G, Dagain J, Semet M, Westercamp D (1988) Carte géologique à 1/20000e du Massif volcanique de la Soufrière = Géological map of Soufrière massif. BRGM-CNRS-DRM-IPGP, BRGM (ed) Orléans, scale 1:20,000
Boudon G, Komorowski J, Semet M, Le Friant A, Deplus C (1999) Frequent volcanic flank-collapses in the Lesser Antilles arc: origin and hazards. EOS Trans 80(46):F1142
Bouysse P, Westercamp D (1990) Subduction of Atlantic aseismic ridges and Late Cenozoic evolution of the Lesser Antilles island arc. Tectonophys 175(4):349–355. doi:10.1016/0040-1951(90)90180-G
Bouysse P, Westercamp D, Andreieff P, Baubron J, Scolari G (1985) Le volcanisme sous-marin Néogéne récent au large des côtes Caraïbes des Antilles françaises. Relations avec le volcanisme à terre et évolution du front volcanique = Neogene submarine volcanisme of French Lesser Antilles: relationship with onshore eruptions and volcanic axis evolution. Géol France 1:101–110
Bouysse P, Westercamp D, Andreieff P (1990) The Lesser Antilles arc. In: Moore JC, Mascle A, et al. (eds) Proceedings of the ocean drilling program - scientific results, 110. pp 29–44
Calcagno P, Bouchot V, Thinon I, Bourgine B (2012) A new 3D fault model of the Bouillante geothermal province combining onshore and offshore structural knowledge (French West Indies). Tectonophys 526–529:185–195. doi:10.1016/j.tecto.2011.08.012
Carrasco-Núñez G, Díaz-Castellón R, Siebert L, Hubbard B, Sheridan MF, Rodríguez SR (2006) Multiple edifice-collapse events in the Eastern Mexican volcanic belt: the role of sloping substrate and implications for hazard assessment. JVGR 158:151–176. doi:10.1016/j.jvolgeores.2006.04.025
Chabellard J, Philip H, Gaulon R (1986) Déformation et régimes de contraintes actuel et récent dans l’arc des Petites Antilles entre Martinique et Antiguá = Actual and recent deformations and stresses in the Lesser Caribbean Arc between Martinique and Antigua. CR Acad Sci—Série 2 303(1):81–86
Dagain J (1981) La mise en place du massif volcanique Madeleine-Soufrière, Basse-Terre de Guadeloupe, Antilles = Formation of Madeleine-Soufrière, Basse-Terre of Guadeloupe. Dissertation, Université Paris Sud-Orsay
De Reynal de Saint-Michel A (1966) Carte géologique de la France et notice explicative, département de la Guadeloupe, Basse-Terre et les Saintes = Geological map of France and notice, Guadeloupe area, Basse-Terre and Saintes. Ministère de l’industrie de Paris (ed) scale 1:50,000
Delaney PT, Denlinger RP, Lisowski M, Miklius A, Okubo PG, Okamura AT, Sako MK (1998) Volcanic spreading at Kilauea, 1976–1996. J Geophys Res 103(B8):18,003–18,023. doi:10.1029/98JB01665
Delcamp A, van Wyk de Vries B, James MR, Gailleret LS, Lebas E (2009) Relationships between volcano gravitational spreading and magma intrusion. Bull 74(3):743–765. doi:10.1007/s00445-011-0558-9
DeMets C, Jansma P, Mattioli G, Dixon T, Farina F, Bilham R, Calais E, Mann P (2000) GPS geodetic constraints on Caribbean-North America plate motion. Geophys Res Lett 27(3):437–440
Farr TG, Rosen PA, Caro E, Crippen R, Duren R, Hensley S, Kobrick M, Paller M, Rodriguez E, Roth L, Seal D, Shaffer S, Shimada J, Umland J, Werner M, Oskin M, Burbank D, Alsdorf D (2007) The shuttle radar topography mission. Rev Geophys 45. doi:10.1029/2005RG000183
Favalli M, Innocenti F, Pareschi MT, Pasquarè G, Mazzarini F, Branca S, Cavarra L, Tibaldi A (1999) The DEM of Mt. Etna: geomorphological and structural implications. Geodin Acta 12(5):279–290. doi:10.1016/S0985-3111(00)87045-X
Feuillet N (2000) Sismotectonique des Petites Antilles, liaison entre activité sismique et volcanique = Sismotectonics of Lesser Antilles, relationship between seismic activity and volcanism. Dissertation, Université Paris 7 René Diderot
Feuillet N, Manighetti I, Tapponnier P, Jacques E (2002) Arc parallel extension and localization of volcanic complexes in Guadeloupe, Lesser Antilles. J Geophys Res 107(B12):2331. doi:10.1029/2001JB000308
Gadalia A, Gstatler N, Westercamp D (1988) La chaîne volcanique de Bouillante, Basse-Terre de Guadeloupe (Petites Antilles): identité pétrographique, volcanologique et géodynamique = the Bouillante Chain, Basse-Terre, Guadeloupe (Lesser Antilles): petrology, volcanology and geodynamic. Géol France 2–3:101–130
Grosse P, van Wyk de Vries B, Petrinovic IA, Euillades PA, Alvarado GE (2009) Morphometry and evolution of arc volcanoes. Geology 37(7):651–654. doi:10.1130/G25734A.1
Grosse P, van Wyk de Vries B, Euillades PA, Kervyn M, Petrinovic IA (2012) Systematic morphometric characterization of volcanic edifices using digital elevation models. Geomorph 136(1):114–131. doi:10.1016/j.geomorph.2011.06.001
Gudmundsson A (2009) Toughness and failure of volcanic edifices. Tectono 471:27–35. doi:10.1016/j.tecto.2009.03.001
Gudmundsson A (2012) Strengths and strain energies of volcanic edifices: implications for eruptions, collapse calderas, and landslides. Nat Hazards Earth Syst Sci 12:2241–2258. doi:10.5194/nhess-12-2241-2012
Gunn BM, Roobolet MJ, Smith L (1980) Geochemistry of the volcanoes of Basse Terre, Guadeloupe - an example of intra-island variation. Bull 43(2):403–411. doi:10.1007/BF02598041
Heidbach O, Tingay M, Barth A, Reinecker J, Kurfer D, Müller B (2008) The world stress map database release 2008. http://dc-app3-14.gfz-potsdam.de. Accessed 01 February 2012
Institut National de Géographie (2012) IGN website. www.ign.fr. Accessed 01 September 2012
Julien P, Bonneton J (1984) Etude néotectonique de la Soufrière de Guadeloupe = Neotectonic study of La Soufrière of Guadeloupe. C R Acad Sci 298(2):907–909
Komorowski J-C, Boudon G, Semet M, Beauducel F, Habazac CA, S. Bazin GH (2005) Guadeloupe. In: Lindsay J M, Robertson R E A, Shepherd J B, Ali S (eds) Volcanic atlas of the Lesser Antilles, Trinidad and Tobago, Seismic. Res Unit, Univ West Indies, pp 67–105
Lahitte P, Samper A, Quidelleur X (2012) DEM-based reconstruction of southern Basse-Terre volcanoes (Guadeloupe archipelago, FWI): contribution to the Lesser Antilles Arc construction rates and magma production. Geomorph 136:148–164. doi:10.1016/j.geomorph.2011.04.008
Mas A, Guisseau D, Patrier Mas P, Beaufort D, Genter A, Sanjuan B, Girard JP (2006) Clay minerals related to the hydrothermal activity of the Bouillante geothermal field (Guadeloupe). JVGR 158(3–4):380–400. doi:10.1016/j.jvolgeores.2006.07.010
Mathieu L (2010) The structure of Guadeloupe, Maderas and Mt Cameroon volcanoes and the impact of strike-slip movements. Dissertation, Trinity College Dublin
Mathieu L, Kervyn M, Ernst G (2011a) Field evidence for flank instability, basal spreading and volcano-tectonic interactions at Mt Cameroon, West Africa. Bull 73(7):851–867. doi:10.1007/s00445-011-0458-z
Mathieu L, van Wyk de Vries B, Pilato M, Troll VR (2011b) The interaction between volcanoes and strike-slip, transtensional and transpressional fault zones: analogue models and natural examples. J Struct Geol 33(5):898–906. doi:10.1016/j.jsg.2011.03.003
Merle O, Borgia A (1996) Scaled experiments of volcanic spreading. J Geophys Res 101(B6):13,805–13,817. doi:10.1029/95JB03736
Nakamura K (1977) Volcanoes as possible indicators of tectonic stress orientation — principle and proposal. JVGR 2(1):1–16. doi:10.1016/0377-0273(77)90012-9
Nicollin F, Gibert D, Beauducel F, Boudon G, Komorowski J-C (2006) Electrical tomography of La Soufrière of Guadeloupe volcano: field experiments, 1D inversion and qualitative interpretation. EPSL 244(3–4):709–724. doi:10.1016/j.epsl.2006.02.020
Samper A (2007) Etude géochronologique, aspects géomorphologiques et géochimiques du volcanisme de l’île de Basse Terre (Guadeloupe), et datation des structures d’effondrement de flanc majeures de l’Arc des Petites Antilles = Geochronological, geomorphological and geochemical study of Basse Terre Island volcanoes, and dating of collapse structures of the Lesser Antilles Arc. Dissertation, Université Paris Sud-Paris XI
Samper A, Quidelleur X, Lahitte P, Mollex D (2007) Timing of effusive volcanism and collapse events within an oceanic arc island: Basse-Terre, Guadeloupe archipelago (Lesser Antilles Arc). EPSL 258(1–2):175–191. doi:10.1016/j.epsl.2007.03.030
Shea T, van Wyk de Vries B, Pilato M (2008) Emplacement mechanisms of contrasting debris avalanches at Volcán Mombacho (Nicaragua), provided by structural and facies analysis. Bull 70(8):899–921. doi:10.1007/s00445-007-0177-7
Tchoukanski I (2012) EasyCalculator 10. Plug-in for ArcGIS software. http://www.ian-ko.com/free/free_arcgis.htm. Accessed 01 March 2012
Thinon I, Guennoc P, Bitri A, Truffert C (2010) Study of the Bouillante Bay (West Basse-Terre Island shelf): contribution of geophysical surveys to the understanding of the structural context of Guadeloupe (French West Indies—Lesser Antilles). Bull Soc Géol France 181(1):51–56. doi:10.2113/gssgfbull.181.1.51
Wadge G (1986) The dykes and structural setting of the volcanic front in the Lesser Antilles island arc. Bull Volc 48:349–372. doi:10.1007/BF01074466
Weber J, Dixon T, DeMets C, Ambeh W, Jansma P, Mattioli G, Saleh J, Sella G, Bilham R, Perez O (2001) GPS estimate of relative motion between the Caribbean and South American plates, and geologic implications for Trinidad and Venezuela. Geology 29(1):75–78. doi:10.1130/0091-7613(2001)
Wooller L, van Wyk de Vries B, Murray JB, Rymer H, Meyer S (2004) Volcano spreading controlled by dipping substrata. Geology 32(7):573–576. doi:10.1130/G20472.1
Acknowledgments
Many thanks to Erwan Bourdon, Simon Lopez, Bouchot Vincent, and Alain Gadalia from the BRGM (Bureau de Recherche Géologique et Miniéres, Orléans) and to Daniel Beaufort, Patricia Patrier Mas, and Jean-Christophe Komorowski for their valuable remarks which have helped us throughout this study. We thank Dominique, Franck, Martine, and all the Guadeloupeans who shared their passion for canyoneering with us. Warm thanks are also addressed to Paul Byrne and Alessandro Tibaldi for their useful reviews and to August Gudmundsson for its efficient and constructive advices and editing. This Ph.D. work has been carried at Trinity College Dublin, Ireland and Blaise-Pascal University, France, and the Ph.D. of LM has been funded by IRCSET (Irish Research Council for Sciences, Engineering and Technology), which is gratefully acknowledged. The fieldwork in the Antilles has been funded by the ANR-VOLCARISK project (Blaise-Pascal University, France).
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Mathieu, L., van Wyk de Vries, B., Mannessiez, C. et al. The structure and morphology of the Basse Terre Island, Lesser Antilles volcanic arc. Bull Volcanol 75, 700 (2013). https://doi.org/10.1007/s00445-013-0700-y
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DOI: https://doi.org/10.1007/s00445-013-0700-y