Overview of the Special Issue on “Geology and Recent Eruptions of Irosin Caldera and Bulusan Volcano, Southern Luzon, Philippines”

DOI Web Site 19 References Open Access
  • OKUNO Mitsuru
    Department of Earth System Science, Faculty of Science; also AIG Collaborative Research Institute for International Study on Eruptive History and Informatics (ACRIFIS-EHAI), Fukuoka University
  • SOLIDUM Jr. Renato U.
    Philippine Institute of Volcanology and Seismology (PHIVOLCS)
  • T. MIRABUENO Ma. Hannah
    Philippine Institute of Volcanology and Seismology (PHIVOLCS)
  • NEWHALL Christopher G.
    Earth Observatory of Singapore (EOS), Nanyang Technological University
  • GESHI Nobuo
    Geological Survey of Japan, National Institute of Advanced Industrial Science and Technology (AIST)
  • SUGAI Toshihiko
    Graduate School of Frontier Sciences, The University of Tokyo
  • TANAKA Akiko
    Geological Survey of Japan, National Institute of Advanced Industrial Science and Technology (AIST)
  • KOBAYASHI Tetsuo
    Graduate School of Science and Engineering (Science Course), Kagoshima University

Bibliographic Information

Other Title
  • 小特集「フィリピン・ルソン島のイロシンカルデラとブルサン火山の地質と最近の噴火活動」の概観
  • Overview of the Special Issue on ^|^ldquo;Geology and Recent Eruptions of Irosin Caldera and Bulusan Volcano, Southern Luzon, Philippines^|^rdquo;

Search this article

Abstract

 The Irosin caldera and Bulusan volcano in the Bulusan Volcanic Complex (BVC) are located at the southeastern end of Luzon Island, the Philippines. This is an overview of all of the papers in the special issue “Geology and Recent Eruptions of Irosin Caldera and Bulusan Volcano, Southern Luzon, Philippines: Parts I and II” and related studies. Moriya (2014) tentatively outlines the evolution of 84 volcanoes on the Philippine Islands. Kobayashi et al. (2014a, b) establish the sequence of caldera-forming eruptions. Kobayashi (2014) compares this sequence with that of the Aira caldera in Japan. Danhara et al. (2014) describe the petrography of Irosin ignimbrite and related deposits. Komazawa et al. (2014) reveal a semi-circular feature with a steep gravity gradient in the Bouguer anomalies. Takashima and Kobayashi (2014) obtain 4 thermoluminescence (TL) ages of 36 ± 8, 38 ± 10, 33 ± 8, and 45 ± 10 ka for ignimbrite and co-ignimbrite ash falls. Mirabueno et al. (2014) identify 1 pyroclastic flow and 12 fallout deposits, including 5 possible fallout deposits, intercalated with lahars and fluvial sediments within the caldera. Kinoshita and Laguerta (2014) introduce image recording of volcanic clouds for managing volcanic hazards. Delos Reyes et al. (2014) present the distribution and petrography of fallout tephra from the 2006-2007 eruptions. Taguchi et al. (2014a) report hot and cold springs around Bulusan volcano.

Journal

References(19)*help

See more

Related Projects

See more

Keywords

Details 詳細情報について

Report a problem

Back to top