JpGU-AGU Joint Meeting 2017

講演情報

[JJ] ポスター発表

セッション記号 S (固体地球科学) » S-VC 火山学

[S-VC50] [JJ] 火山・火成活動と長期予測

2017年5月20日(土) 15:30 〜 17:00 ポスター会場 (国際展示場 7ホール)

コンビーナ:及川 輝樹(国研)産業技術総合研究所 活断層・火山研究部門)、長谷川 健(茨城大学理学部地球環境科学コース)、三浦 大助(一般財団法人 電力中央研究所 地球工学研究所 地圏科学領域)、下司 信夫(産業技術総合研究所 活断層・火山研究部門)

[SVC50-P21] 1980年5月18日セントへレンズ山噴火における降下火砕堆積物の岩石組織記載と密度分析

*伊野 遥1寅丸 敦志2 (1.九州大学大学院理学府地球惑星科学専攻、2.九州大学大学院理学研究院地球惑星科学部門)

キーワード:発泡度、プリニー式噴火、密度、フェノバブル

The May 18, 1980, eruption of Mount St. Helens, Washington, erupted white pumices that have the same composition from 08:32 to 18:15 LT. Characteristics of eruption of Mount St. Helens are represented by the dramatic land slide and subsequent plinian eruptions. Phenocrysts and pheno-bubble textures of fall deposits record state in the conduit just before the plinian eruptions. In this study, correlations between texture of fall deposit and time evolution of eruption are examined. Samples of this study were taken from fall deposits divided into seven layers with 2 cm in thickness. The uppermost layer is referred to as layer 1, layers below are identified by following sequential integers. Measurement of bulk density and description of texture were carried out for white pumices with 8~16mm in radius in each layer. Bulk density was calculated on the basis of bulk volume by 3D image. Thin sections were made for white pumices with the average in mass, bulk volume and bulk density in each layer and the maximum and minimum bulk density in layer 1. Measured bulk density ranges 0.495~1.01g/cm³. Statistical made of bulk density is 0.7~0.8g/cm³in the intermediate bin for layer 1 and 2, whereas that is in the smallest bin 0.5~0.6g/cm³ and the abundance of pumices monotonically decrease with bulk density for layer 3 and 4. Layers 1 and 2, as well as layers 3 and 4 resemble in bulk density distribution and petrographic texture. Specifically in the petrographic texture, there are more phenol-bubbles for layer 3 and 4. The maximum and minimum bulk densities in layer 3 are 0.888g/cm³ and 0.505g/cm³, respectively. From backscattered electron images, pumices samples with minimum density include more coalesced bubble than those with maximum one. If we assume the inverse relationship between eruption intensity and pumice bulk density, we can suggest that pumices with the smallest bulk density in layer 4 may be eruption products when the plinian column grew up to the maximum height. We should confirm the trend in texture of pumices by more detail analysis for sufficient numbers of pumices samples with different bulk densities in each layer including bubble size distribution measurement and chemical analysis microlites. Furthermore, from BSD data we should calculate the average bubble nucleation rate and growth rate to infer how bubbles were formed, in addition to the estimation of buoyancy state of the conduit prior to eruptions by pheno-bubble abundance.