粘土科学 17 巻, 3 号

高分解能電子顕微鏡による雲母-モンモリロナイト規則混合層鉱物の直接観察

Layer structures of regularly interstratified mica-montmorillonite (rectorite-like) were observed by high resolution electron microscopy. The specimens of regularly interstratified mineral used in this report were collected from the roseki (kaolin-pyrophyllite) deposits of Mitsuishi, Okayama Prefecture and Sano Mine, Kakuma, Nagano Prefecture.
Lattice images taken from microtomed sections which were cut perpendicularly to the cleavage plane show the periodic structures with the spacing about 10Å along the [001] direction and with the spacing about 4.0 A crossing each other at an angle of about 70°.
Lattice images of a curled edge show a periodic spacing with about 19.3Å along the [001] direction, and it is devided into two part, one of which is 10Å corresponding to a mica layer and the other is 9.3Å corresponding to a dehydrated montmorillonite layer.
The ordering in the layer stacking of the interstratified mica-montmorillonite may differ in different occurrences.

口永良部島における火山噴出物の変質状態と生成鉱物

Kuchinoerabu-jima Island, Tokara Islands, located in south of Kyushu, consists of plural volcanic bodies, and most of the rocks belong to hyperstheneaugite-andesite. The alteration phenomena of volcanic products in the island were investigated chemically and mineralogically.
1) Most of the altered materials at the old thermal spring and solfatara fields are very siliceous and mainly consist of opal accompanied by alunite, kaolin, chalcedony-quartz TiO₂ minerals. These extremely advanced stages of alteration were resulted from the hydrogen metasomatism of strong acid solution containing SO₄^2-.
2) Among the opaline minerals disordered a-cristobalite is predominant. Besides this, amorphous opal and β form like cristobalite in association with tridymite are found in small amounts. TiO₂ minerals are mainly leucoxinic anatase and rutile. They are contained about 1-3 wt% in almost all altered materials except one of siliceous pyroclastic materials contained 8.3% of TiO₂. One of the reason of such a high content of TiO₂ was due to the change of distribution in particle size of altered materials during before and after eruption.
3) Some argillized zones i.e. the assemblages of alunite, halloysite, kaolinite and micaceous mineral are formed at the altered areas in the west part of the island. These argillations were carried out at low temperature and with decreasing acidity of solution. Kaolinite in very fine particle size seems to be formed from mica mineral through the secondary alteration process in which Al₂O₃ is accumulated.

花崗岩質各種残積土の粘土鉱物組成とその分布的特徴

Clay mineralogical studies are made on four granite soils (residual) derived soils from different bio-climatic zones, i.e.; the temperate, warm temperate, subtropical and humid torrid regions. The four soils studied can be classified as brown forest soil of temperate zone (Mt. Kamagadake, Mie pref.), yellow brown forest soil (tentative name) of warm temperate zone, Yamaguchi pref., yellow soil (tentative name, Ishigaki is., Okinawa pref.) and, red yellow podolic soil of humid tropical zone (Amason high way, Altamira-Maraba, PARA, Brazil).
In brown forest soil, the clay minerals consist mainly of montmorillonite, gibbsite and meta-halloysite with a small amount of chlorite and illite. In the yellow brown forest soil, predominant clay minerals are meta-halloysite, Al-interlayered vermiculite, gibbite and illite. A small amount of chlorite, goethite, and mixed layer clay minerals of vermiculite and illite are also present. Yellow soil contains a large amount of meta-halloysite, some goeethite, and a little illite, hematite and lepidocrocite like mineral. The clay minerals in red yellow podzolic soil are dominated by well crystalized kaolinite, with some goethite and hematite. A very small amount of gibbsite are found only in the A, horizon. The present clay mineralogical study on four soils derived from similar parent rocks (granite) shows that the mode and process of the weathering or soil formation seem to be remarkably affected by the climatic condition, especially, by temperature and precipitation.
It is shown that there are distinct difference in the clay minerals species, kind and their combination and are also the differences in the profile distributions of clay minerals. Farthermore the differences in clay mineral compositions among the four soils are interesting from soil geographical viewpoint.

兵庫県明石・播磨地域の大阪層群の粘土鉱物

The Akashi-Harima area stratigraphically belongs to the Osaka group of Plio-Pleistocene age, which is composed of gravel beds, sand beds and clay beds formed in marine or fresh water environments. Clay mineral compositions of the clay beds were determined by the X-ray diffraction method, D.T.A. and optical microscopy. The results will be summarized as follows.
1) Abundant clay minerals of the clay beds are montmorillonite, metahalloysite, illite and chlorite.
2) Generally speaking, clay beds formed in the fresh water environment contain larger amounts of montmorillonite and smaller amounts of chlorite and illite near seashore than around hinterland.
3) There is a reverse relation between the quantity of montmorillonite and that of illite in the profile of fresh water clay beds (Ma 0). Chlorite is only contained in the Ma 1 clay beds around hinterland.
The sedimentary environment, where these clay minerals were formed, are discussed on the basis of geological and experimental results described above.