TY - JOUR T1 - The Pitcairn hotspot in the South Pacific: distribution and composition of submarine volcanic sequences A1 - Hekinian,Roger A1 - Cheminee,J A1 - Dubois,J A1 - Stoffers,P A1 - Scott,S A1 - Guivel,C A1 - Garbe Schonberg,D A1 - Devey,C A1 - Bourdon,B A1 - Lackschewitz,K A1 - McMmurtry,G A1 - Le Drezen,Eliane AD - Univ Kiel, Inst Geowissensch, D-24098 Kiel, Germany. AD - Inst Phys Globe, F-75252 Paris, France. AD - Univ Toronto, Dept Geol, Toronto, ON M5S 3B1, Canada. AD - Univ Nantes, Fac Sci, F-92208 Nantes, France. AD - Univ Bremen, D-28334 Bremen, Germany. AD - Univ Hawaii, Dept Oceanog, Honolulu, HI 96822 USA. AD - IFREMER, Ctr Brest, F-29280 Plouzane, France. UR - https://archimer.ifremer.fr/doc/00000/784/ DO - 10.1016/S0377-0273(02)00427-4 KW - Petrology KW - Volcanic sequences KW - Morphology KW - Volcanism KW - Hotspot N2 - Multibeam bathymetry and bottom imaging (Simrad EM12D) studies on an area of about 9500 km(2) were conducted over the Pitcairn hotspot near 25degrees10'S, 129degrees 20'W In addition, 15 dives with the Nautile submersible enabled us to obtain ground-true observations and to sample volcanic structures on the ancient ocean crust of the Farallon Plate at 3500-4300 in depths. More than 100 submarine volcanoes overprint the ancient crust and are divided according to their size into large ( > 2000 in in height), intermediate (500-2000 in high) and small ( < 500 in high) edifices. The interpretation of seafloor backscatter imagery accompanied by submersible observations and sampling enabled us to infer that the total volume of submarine lava erupted during hotspot activity is about 5900 km 3 within a radius of about 110 km. The most recent volcanic activities occur on both small and large edifices composed of a great variety of lava flows. These flows vary in composition, following a succession from picritic basalt to alkali basalt, trachybasalt, trachy-andesite and to trachyte. Their large range of SiO2 (48-62%), Na2O+K2O (2-11%), Ba (300-1300 ppm), MgO (1-11%), Nb (19-130 ppm), Ni (4-400 ppm) and rare earth elements suggests that crystal-liquid fractionation from basanite and/or picritic melt sources was a major process. The variation in composition between the least evolved basaltic rocks and the other more evolved silicic lava is marked by a difference in their flow morphology (pillow, giant tubes, tabular to blocky flows). The lava composition and field observation indicate that several magmatic pulses giving rise to cyclic eruptions are responsible for the construction of the edifices. The two larger edifices ( > 2000 in high) show more extensive eruptive events and a wider range in compositional variability than the smaller (< 500 in high) ones. Several (five) submersible transects made along the slope of one of the largest edifices (Bounty) enabled us to observe at least nine successive eruptive cycles progressing from pillow and giant tubular basalt to tabular/blocky trachy-andesite and trachyte flows. Pyroclasts and hyaloclastites are often found with these eruptive sequences. The smaller edifices, forming individualized cones, are built mainly of evolved Silicic (SiO2 > 53%) flows consisting essentially of alternating sequences of trachy-andesite and trachyte. The distribution and composition of the small edifices suggest that they are the result of sub-crustal forceful magma injection and channeling supplied from reservoirs associated with the large volcanoes. Y1 - 2003/03 PB - Elsevier JF - Journal of Volcanology and Geothermal Research SN - 0377-0273 VL - 121 IS - 3-4 SP - 219 EP - 245 ID - 784 ER -