Remarkable Geochemical Changes and Degassing at Voui Crater Lake, Ambae Volcano, Vanuatu

Remarkable Geochemical Changes and Degassing at Voui Crater Lake, Ambae Volcano, Vanuatu

Journal of Volcanology and Geothermal Research 188 (2009) 347–357 Contents lists available at ScienceDirect Journal of Volcanology and Geothermal Research journal homepage: www.elsevier.com/locate/jvolgeores Remarkable geochemical changes and degassing at Voui crater lake, Ambae volcano, Vanuatu Philipson Bani a,b,⁎, Clive Oppenheimer c, Johan C. Varekamp d, Thomas Quinou b, Michel Lardy a, Simon Carn e a Institut de Recherche pour le Développement, BP A5 98848, Nouméa Cedex, New Caledonia b Laboratoire des Géosciences et physique de la matière condensée, Université de la Nouvelle Calédonie, BP 4477, Nouméa, New Caledonia c Department of Geography, University of Cambridge, Downing Place, Cambridge, CB2 3EN, UK d Earth and Environmental Sciences, 265 Church Street, Wesleyan University, Middletown CT 06459, USA e Department of Geological and Mining Engineering and Sciences, Michigan Technological University, 1400 Townsend Drive, Houghton MI, 49931-1295, USA article info abstract Article history: Ambae (also known as Aoba), is a 38×16 km2 lozenge-shaped island volcano with a coastal population of around Received 12 March 2009 10000. At the summit of the volcano is lake Voui — one of the largest active crater lakes worldwide, with 40×106m3 Accepted 25 September 2009 of acidic water perched 1400 ma.s.l. After more than 300 years of dormancy, Ambae volcano reawakened with Available online 20 October 2009 phreatic eruptions through Voui in 1995, and culminating in a series of surtseyan eruptions in 2005, followed by a rapid and spectacular colour change of the lake from light blue to red in 2006. Integrating lake water chemistry with Keywords: new measurements of SO emissions from the volcano during the 2005–2006 eruptive period helps to explain the Ambae volcano 2 — Lake Voui unusual and spectacular volcanic activity of Ambae initially, a degassed magma approached the lake bed and crater lake colour change triggered the surtseyan eruption. Depressurization of the conduit facilitated ascent of volatile-rich magma from the geochemistry deeper plumbing system. The construction of a cone during eruption and the high degassing destabilised the SO2 emissions equilibrium of lake stratification leading to a limnic event and subsequently the spectacular colour change. © 2009 Elsevier B.V. All rights reserved. 1. Introduction youngest summit caldera hosts the acidic crater lake Voui. Ambae is one of the least accessible volcanoes in Vanuatu and few volcanological observa- Ambae island volcano (167°50′E, 15°23′S) is one of the 83 islands and tions have been made there. What we do know of the recent volcanic islets that constitute the Vanuatu archipelago (lying between 166–170°E activity is summarised in Table 1, while Fig. 3 highlights changes in the 3 and 13–21°S, Fig. 1). It is the largest volcano in Vanuatu, (2500 km ), rising crater lake. Following an earthquake swarm beneath the edifice in late 3900 m height from seabed. It is associated with the active Melanesian arc, 1994 (Rouland et al., 2001), and a phreatic eruption in 1995, which was which lies along the margin of the Pacific and Australian plates. The recent accompanied by increased gas emissions and seismicity (Robin et al., tectonic evolution of the arc has been dominated by the collision of the 1995), the volcanic hazards became more widely recognised, especially in D'Entrecasteaux Zone (DEZ, e.g., Greene and Collot, 1994) with the central view of the perched crater lake (Cronin et al., 2004). But then Ambae zone, which coincides with Ambae (Fig. 2). The collision began 1.5–3Ma volcano remained calm for a decade, until on the night of 16 February ago near Epi and has been migrating northwards as a result of the 2005, a succession of earthquakes were felt by the islanders. A seis- obliquity of the DEZ relative to the trench (Greene et al., 1994). The DEZ mometer was installed several days later on the north coast of the island collision triggered the detachment of the Australian plate lithosphere but did not record any further significant seismicity prior to the ensuing beneath the central part of Vanuatu. This detachment is less pronounced eruption. under Ambae due to a westward and upward invasion of Indian-type On 21 November 2005, an increase of 5 °C was observed in lake Voui MORB mantle (Monzier et al., 1997). (http://www.ulb.ac.be/sciences/cvl/aoba/Ambae1.html), which was sub- Ambae is a shield volcano whose volcanic pile consists of primitive sequently recognised in MODIS thermal infrared imagery (http://modis. basalts (Eggins, 1993). It is surmounted by a broad pyroclastic cone whose higp.hawaii.edu/cgi-bin/modis/modisnew.cgi) suggesting a precursory increase in magmatic degassing into the lake (Nemeth et al., 2006). The ⁎ Corresponding author. Institut de Recherche pour le Développement, BP A5 98848, first eruptive activity occurred on 27 November 2005 and the episode Nouméa Cedex, Nouvelle Calédonie. Tel.: +687 265868; fax: +687 25 48 29. climaxed in mid-December. A new tuff cone about 50 m high and 500 m E-mail addresses: [email protected] (P. Bani), [email protected] in diameter arose from the lake, acting in such a way as to isolate the vent (C. Oppenheimer), [email protected] (J.C. Varekamp), [email protected] (T. Quinou), [email protected] (M. Lardy), from the lake water. Strong degassing persisted after the eruption through [email protected] (S. Carn). this newly formed islet. Then, in May–June 2006 lake Voui suddenly 0377-0273/$ – see front matter © 2009 Elsevier B.V. All rights reserved. doi:10.1016/j.jvolgeores.2009.09.018 348 P. Bani et al. / Journal of Volcanology and Geothermal Research 188 (2009) 347 – 357 Fig. 1. Map showing Ambae, located roughly in the geographic centre of the Vanuatu archipelago (left), and of the island, including Voui crater lake (right). Insets show photographs of Voui, with its usual blue colour (July 2005; courtesy S. Cronin) and its recent red colour (June 2006; courtesy P. Métois). P. Bani et al. / Journal of Volcanology and Geothermal Research 188 (2009) 347–357 349 Fig. 2. Tectonic setting of Vanuatu archipelago — three volcanic associations including Eastern Belt, Western Belt and Central Chain; six subaerial active volcanoes along the New Hebrides Trench. The collision of D'Entrecasteaux Zone with the Vanuatu arc have caused the detachment of the subducted slab which appears to be slowly sinking beneath Ambae due to the presence of the Indian Ocean-type MORB mantle (right). changed colour from blue to red (Figs. 1 and 3). Our aims here are to and June 2006 after the lake had changed colour to red. Samples were understand aspects of the magmatic–hydrothermal system, the related collected immediately below the water surface near the northern gas fluxes to the atmosphere through the recent eruption, and the geo- lakeshore. Water temperatures were measured in situ using a thermo- chemistry associated with the dramatic colour transformation. Ambae is couple. Cations were analysed by inductively coupled plasma-optical 2− − remote and receives limited scientific attention, thus the data available are emission spectroscopy (ICP-OES); anions (SO4 and Cl )wereanalysed sparse. Nevertheless, they shed light on a fascinating and rare variety of using a Technicon Auto-Analyzer II; and pH was measured with a Schott eruptive sequence. laboratory pH meter. The colour change in the lake was associated with the formation of a thin layer of red–brown deposits on the lake bed. Samples of these 2. Methods deposits were analysed using INEL X-ray powder diffraction (XRD) techniques. Water samples were collected at the lakeshore in July 2005 (four Measurements of SO2 flux were made (for the first time at Ambae months before the 2005 eruption); December 2005 and January 2006 volcano) in December 2005, using an ultraviolet spectrometer and during the eruption; in February 2006 after the eruption; and in May 2006 differential optical absorption spectroscopy (DOAS) retrieval methods. The spectrometer was carried on board a CESSNA 206G and a Britten- Table 1 Norman Islander flying at ~900 ma.s.l., beneath the plume. Ultraviolet Chronology of Ambae volcanic activity. spectra were also collected in February 2006, in June 2006 and in August – ~1575 +/ Explosion at the summit and formation of the Voui cone and the 2007. The spectrometer spanned the spectral interval 280 400 nm with a −54 Manaro Ngoru crater (C14 — Warden, 1970). spectral resolution of ~0.5 nm (FWHM), and was coupled by fibre optic ~1670 Fissural eruption from the western flank, along the N50 fractures, bundle to a simple telescope pointed to zenith. Exposure time for damaging the Ndui Ndui region (Joly, 1906). Formation of a individual spectra was 150 ms, and successive batches of 8 spectra were palagonitic tuf cone in the lac Voui (Williams and Warden, 1964). co-added to enhance the signal. The spatial position of each UV spectrum 1870+/−1 Explosive eruption leading to lahars causing victims (Simkin et al., 1981) was determined from a continuously recording GPS unit. Sulphur dioxide ~1916 Eruption? (and/or earthquake) leading to mass movement killing column abundances were retrieved following standard DOAS procedures around 100 people (De la Rüe, 1945). Volcanic activities along (Platt, 1994; Galle et al., 2002). The optimal window used to fittheSO2 fl fi ank ssures (Warden, 1970). (310.7–321.4 nm) was found by obtaining near random fitresidual 1966 Vapour emission, strong fumarole activity (Blot, 1976). 1971 Strong vapour emission (N.H.G.S. Ann Rep. for 1971). structure with minimal standard deviation. Wind speeds were obtained 1976 Strong activity on Solfatara (N.H.G.S., Ann. Rep. For 1976). from the aircraft navigation systems. 1991 On the 13 of July — 3 boiled zones identified in lake Voui and acid impact on vegetation on Voui crater rim (Wiart, 1995).

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