地球科学 40 巻, 2 号

二上層群の原川累層・定ケ城累層の層序とサヌキトイドの活動時期

The Nijo Group of middle Miocene, is divided into three units, as the Donzurubo, the Harakawa and the Jogashiro Formation. The first consists of mostly garnet-biotite rhyolite lava and pyroclastic rocks. The Harakawa Formation is subdivided into four members, as the Tajiri, the Myojin, the Tomesho-yama and the Higashiyama Member because of local variety of sedimentary facies. This Formation is interbedded with sanukitoid lavas and dike rocks. These sanukitoid rocks are aphyric andesite or/and olivine-pyroxene andesite, hornblende-bearing aphyric andesite, olivine- or hornblende- tearing or -free two pyroxene andesite, olivine-augite basalt and two pyroxene andesite in ascending order. Numerous large irregular boulders of granitic rocks occur at two stratigraphic horizons. The Tajiri Member yields fresh water diatoms and warm fossil plants. The Jogashiro Formation is subdivided into the Sekiya and the Tanabe Member. These consist of conglomerate, including biotite dacite gravels. Biotite dacite lava and tuff erupted in this time. The Jogashiro Formation unconformably covers the Harakawa Formation.

生駒山はんれい岩体について

The gabbroic rocks and granites are exposed in the Ikoma Mountains on the eastern border of the Osaka Basin. The gabbroic rocks are divided into the following five rock-types; 1) fine-grained pyroxene-hornblende gabbronorite, 2) olivine-pyroxene-hornblenda gabbronorite, 3) hornblende gabbro, 4) plagioclase-por-phyritic hornblende gabbro, 5) leucocratic hornblende gabbro. Among them, hornblende gabbro is the main type. Fine-grained pyroxene-hornblende gabbronorite is included in hornblende gabbro. Olivine-pyroxene-hornblende gabbronorite and hornblende gabbro are intruded by plagioclase-porphyritic hornblende gabbro and leucocratic hornblende gabbro. These gabbroic rocks are intruded by granitic rocks. The granitic rocks are classified into tonalite, K-feldspar-porphyritic biotite granite, weakly schistose coarse-grained biotite granite, massive medium-grained granodiorite and fine-grained granite. Weakly schistose coarse-grained biotite granite and K-feldspar-porphyritic biotite granite are the main types of the granites. The intrusive succession of the granites is assumed that tonalite is oldest and fine-grained granite is youngest (Fig. 3). The major elements of the gabbroic rocks vary systematically with the SiO_2 content. The study of ^<87>Sr/^<86>Sr ratios suggests that the gabbroic rocks are the products of magmatic differention from the tholeiitic magma. Plagioclase has high anorthite contents (An 85-95), but forsterite contents of olivine are rather low ranging from 0.6 to 0.7. These facts suggest the crystallization under the high water vapor pressure.

日本列島における中新世のコールドロンの配列に関する数値実験

本宿型陥没構造(cauldron)は,1.ドーム隆起,2.陥没形成,3.噴火,という形成過程をふみ,いくつかの陥没が討究する傾向がある.隣接する陥没盆地間の中心距離は,数km〜30km,平均して20km程度である.このように陥没盆地がある一定の距離を隔てて等間隔配列をするのは,それぞれの盆地に対応してマグマ溜りが深部の低密度の部分溶融層から浮上してきたためと考えられる. Rambergによる重力不安定の理論式にもとずいて,20kmの卓越波長を生じる条件を数値計算した.モデルは2層構造であり,上層/下層(浮上層)の比が,0.2, 0.5, 1.0, 2.0, 5.0, 10.0の6通りのケースを設定して,粘性係数比と肩摩の関係を求めた.その結果,卓越波長は,上層の厚さ(部分溶融層の深さ)にはほとんど無関係であり,部分溶融層の厚さに大きく影響される.20kmの卓越波長を与える溶融層の厚さは6km以下である必要がある.

三郡-中国帯に分布する錦層群からのペルム紀放散虫

筆者らは,島根県六日市町付近に分布する錦層群の生層序学的研究を行なった.本地域の錦層群は下位より,Na層(チャート相),Nb層(泥岩相),Nc層(砂岩相)からなる.Na層はAlbaillella sinuata帯およびPseudoalbaillella sp. C群集帯(今回新たに設定)を含んでおり,一方,Nb層はPseudoalbaillella sp. C帯,Ps. globosa群集帯およびFollicucullus monacanthus群集帯により特徴付けられる.Nc層とNb層の一部はFo. scholasticus群集帯の下部を含んでいる.六日市地域の錦層群の年代はこのような放散虫化石層序にもとづけば,北米のLeonardianおよびGuadalupianもしくは中国の茅口統(Maokouan)に相当する.また,本論文では,ここに述べた5化石帯のうち下部の3帯を再定義した.筆者のうち石賀と渡瀬は,Albaillella sp. Dの古生物学的検討から1新種(A. siunata)を提唱し,合わせてAlbaillellariaに属する3種の記載を行なった.