JpGU-AGU Joint Meeting 2017

Presentation information

[JJ] Poster

S (Solid Earth Sciences) » S-CG Complex & General

[S-CG73] [JJ] Petrology, Mineralogy and Resource Geology

Mon. May 22, 2017 10:45 AM - 12:15 PM Poster Hall (International Exhibition Hall HALL7)

convener:Satoshi SAITO(Graduate School of Science and Engineering, Ehime University), Koichi Momma(National Museum of Nature and Science), Tatsuo Nozaki(Research and Development Center for Submarine Resources, Japan Agency for Marine-Earth Science and Technology), Nobutaka Tsuchiya(Department of Geology, Faculty of Education, Iwate University)

[SCG73-P13] Bulk water content and hydration of pyroclasts of Asama volcano

Kei Kojima1, *Hiroaki Sato2, Keiko Suzuki-Kamata3, Eiichi Sato4 (1.Dept Earth Plan Sci, Fac of Science, Kobe Univ, Present address: Insource co., 2.Dept Earth Plan Sci, Grad Sch Sci, Kobe Univ, 3.Dept of Planetary Sci, Graduate School of Sci., Kobe Univ, 4.Inst for Promotion of Higher Education, Kobe Univ)

Keywords:pyroclasts, Asama volcano, water content, hydration of glass

Pre-eruptive andesitic magmas generally contain several weight percent of water, which may vesiculate and degass during eruption. Water content of pyroclasts may bear information of quenching condition of magmas during eruption as well as hydration after the emplacement. We analyzed water contents of pyroclasts of Asama volcano using Karl-Fischer titration method. The age of eruption of the analyzed samples ranges from 20 ka, 13ka, A.D.1108 and A.D.1783. We sieved the sample, selected 4-8 mm clast, split it into two fragments; one used for KFT analyses, and the other half mounted in resin and polished for BSE image and EPMA analyses of glass. Step heating of samples showed 18-35wt% degassing from 0 to 50 C, and gradual degassing up to 500-700 C. Two old samples (Shiraitonotaki pumice fall and Komoro pyroclastic flow) showed ca.50wt% degassing between 200 and 400 C. Totally 159 samples were analyzed by KFT titration. Average water content, standard deviation and number of analyzed samples are 2.60wt%, 0.38, 3 for 20ka (Shiraitonotaki PFa), 2,92, 0.79, 9 for 13ka Tsumagoi PFa, 2.19, 0.51, 27 for 13ka Komoro PFl, 0.50, 0.56, 68 for A.D.1108 Tennin PFa, 0.59, 0.21, 9 for A.D. 1108 Oiwake PFl, 0.46, 0.09, 32 for A.D.1783 Tenmei PFa, 0.65, 0.38, 11 for A.D. 1783 Agatsuma PFl. Even some of the younger eruption products showed higher (>1.0 wt%) water contents. SiO2 contents of matrix glass are 70-71 wt% for 20 ka Shiraitonotaki PFa, 68-77 wt% for 13ka Tsumagoi PFa, 68-80 wt% for 13ka Komoro PFl, 70-77 wt% and 63-67 wt% for A.D.1108 (Tennin PFa and Oiwake PFl, respectively), and 68-72 and 60-73 wt% for A.D.1783 (Tenmei PFa and Agatsuma PFl). There is no correlation between bulk water content and glass SiO2 wt.%. Back scattered electron images of older pyroclasts show brighter glass with darker glass margin of several tens of microns thick. It is inferred that hydration affected the bulk water content of pyroclasts older than 10ka, and limited to those of pyroclasts younger than 1000 years in Asama volcano. Present analyses showed older ejecta (>13000 yrs) have higher bulk water content (average,2.2-2.9wt%) than younger ejecta (<1000 yrs)(average,0.46-0.65 wt%), and bulk water contents are not correlated with mode of eruption, magnitude of eruption, and SiO2 content of glass, suggesting that hydration of glass is extensive for older samples (>10000 yrs) and limited for younger samples (<1000 yrs).