Journal of Geography (Chigaku Zasshi)
Online ISSN : 1884-0884
Print ISSN : 0022-135X
ISSN-L : 0022-135X
Volume 118, Issue 2
Displaying 1-10 of 10 articles from this issue
  • 2009 Volume 118 Issue 2 Pages Cover02_1-Cover02_2
    Published: April 25, 2009
    Released on J-STAGE: April 01, 2010
     Solnhohen is a small town located between Munich and Nürnberg. It is famous for its limestone dating from the late Jurassic period (150 Ma), from which many fossils have been obtained. Because it is fine-grained and slabby, as shown in the photograph on the cover page, Solnhohen's limestone has been used for building materials, especially walls and floors, since Roman times, and for lithographic stones since 1793. Since large-scale quarrying began, many fossils have been found there in good condition. Among these fossils, the most famous are archaeopteryx, and until now ten archaeopteryx have been collected.
     Bürgermeister-Müller-Museum near Solnfohen railroad station was reconstructed in 2008, and specializes is Solnhohen's fossils. Nördlingen, a medieval town along the Romantishe Strasse, is 40-km west of Solnfohen, where the Reis Crater Museum is located. These are the best geological museums to visit if you have a chance to go to Southern Germany.
    (Photo & Explanation: Motomaro SHIRAO)
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Original Articles
  • Ryoko NISHII
    2009 Volume 118 Issue 2 Pages 233-244
    Published: April 25, 2009
    Released on J-STAGE: April 01, 2010
     Linear depressions and associated uphill-facing scarps, which result from the gravitational deformation of rock slopes, have widely developed along the main ridge in the Mt. Eboshi area, northern Japanese Alps. The role of landslides in the development of linear depressions in granitic rocks is evaluated from the distribution of linear depressions, characteristics of landslides (form, magnitude and frequency) and characteristics of bedrock (geology, discontinuity, degree of weathering and rock mass strength). The morphology of landslides and changes in the areas of landslides from 1958 to 2004 are compared to the development of linear depressions. Most linear depressions lie parallel to the main ridge and the strike of major rock joints, although their distribution differs between the northern and southern areas. In the northern study area, linear depressions are concentrated on the gentle upper slopes and landslides have intensively occurred on the lower slopes. In contrast, the southern area shows sporadic occurrences of linear depressions on the middle to upper slopes and has experienced only minor landslides. The intensive occurrences of landslides and linear depressions in the northern area are considered to result basically from debuttress and stress-release caused by the landslide activity. In addition, the lower rock mass strength in the northern study area also promotes the development of linear depressions.
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  • Satoshi ISHIKAWA, Takehiko SUZUKI, Toshio NAKAYAMA, Kaoru KASHIMA
    2009 Volume 118 Issue 2 Pages 245-260
    Published: April 25, 2009
    Released on J-STAGE: April 01, 2010
     We analyzed core samples from two sites in the Tokyo lowland to clarify paleoenvironmental changes that occurred during the Holocene in the northern Tokyo Bay area. The samples are from (1) Core HK, which was bored at Hibiya Park, Chiyoda Ward, Tokyo, and from (2) Core DK, which was bored at Civil Engineering Center Tokyo Metropolitan Government in Koto Ward, Tokyo. Both cores belong to Civil Engineering Center Tokyo Metropolitan Government. Analyses of both lithofacies and diatom assemblages of the cored samples found the following paleoenvironmental changes.
     The first distinct regression occurred in the early Holocene (11,450-10,600 cal. yrBP) and was followed by one in the high-stand relative sea-level stage at 7,300-6,250 cal. yrBP. Subsequently, two small-scale regressions occurred at 3,600-1,200 cal. yrBP and 1,000 cal. yrBP, respectively. These two regressions were documented by temporal variations in diatom assemblages from marine to brackish-water diatoms to brackish and fresh-water diatoms. During the high-stand stage (7,300-6,250 cal. yrBP), the Hibiya embayment area was inundated with seawater and became part of Paleo-Okutokyo Bay. The marine transgressions and regressions inferred from diatom assemblages in both cores might be correlated with small-scale sea-level fluctuations at one- or two-thousand-year intervals during the Holocene, such as a minor regression during the middle Jomon period, Yayoi regression, and Heian transgression.
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  • Investigation Using Boring Core
    Kenshi KATAHIRA, Hiroshi MORIWAKI, Shusaku YOSHIKAWA, Futoshi NANAYAMA ...
    2009 Volume 118 Issue 2 Pages 261-279
    Published: April 25, 2009
    Released on J-STAGE: April 01, 2010
     In this study, concentrations of heavy metals and anions of natural origin were investigated using boring core obtained from the north bank of the Shin-yodogawa River in the northern part of Osaka City. A leaching test and a content test in compliance with Soil Contamination Countermeasures Law in Japan were applied. The leaching test is a method by which soil in ten times its volume of water is shaken for 6 hours, and considers the risk of ingestion of groundwater contaminated by hazardous substances eluted from contaminated soil. The content test is the method of eluting hazardous substances from 6 g of soil by shaking the sample in 200 mL of 1 mol/L hydrochloric acid for 2 hours, and considers the risk of the direct ingestion of contaminated soil. Concentrations of heavy metals obtained by the content test were lower than stipulated in the Japanese regulations, while some samples showed higher concentrations than stipulated in the regulations when using the leaching test.
     Metal concentrations were also observed by a microwave extraction method (MEM), which approached those of the total content analysis. The relationships between ratios of leaching amounts to the concentrations obtained by MEM and solution pH were used to discuss leaching characteristics. Because there were good correlations among concentrations of heavy metals and anions obtained by the leaching test, boron concentration could also be estimated from Cl- concentration, and F- concentration could be estimated from both concentrations of SO42- and Ca. There is a possibility that total amounts of Pb and Cr of natural origin in soil could be estimated using relationships with total amounts of other metals such as Ni, V, Mn, Zn and Mg, because their concentrations obtained by MEM showed good correlations.
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  • Hiroki MATSUDA
    2009 Volume 118 Issue 2 Pages 297-308
    Published: April 25, 2009
    Released on J-STAGE: April 01, 2010
     Dolomite (dolostone) is a common carbonate rock in the geological records and is also a very important carbonate reservoir rock, which stock about 40% of global oil reserves. Most of the dolomites in the geological record are considered to be of replacement origin, although some were precipitated directly from pore-fluids. A variety of dolomitization models in different diagenetic environments are currently proposed for interpreting ancient dolomites: (1) evaporative dolomitization including sabkha and seepage-reflux models, (2) mixed-water dolomitization, (3) marine dolomitization, (4) burial dolomitization, (5) hydrothermal dolomitization. The dolomites formed by each dolomitization model have different geological, petrographical, mineralogical and geochemical features. Based on these features, we can, therefore, identify dolomitization models and diagenetic environments of ancient dolomites.
     A dolomite reservoir is often of as good quality as a limestone reservoir. Dolomitization affects carbonate reservoir characteristics, such as porosity and permeability, and, as a result, reservoir characteristics are significantly changed from those of primary carbonate rocks. The important factors associated with dolomitization and controlling the characteristics of carbonate reservoir rocks are: (1) increasing crystal size (2) decreasing porosity due to a net addition of dolomite, (3) developing moldic pores, (4) increasing resistance to compaction, and (5) increasing fractures. Dolomitization and diagenetic history of individual carbonate reservoirs differ from each other and result in the complexity of reservoir characteristics. It is, therefore, indispensable to understand the processes that formed each dolomite reservoir.
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  • Tatsuo KANAMARU
    2009 Volume 118 Issue 2 Pages 309-310
    Published: April 25, 2009
    Released on J-STAGE: April 01, 2010
     In August 2008, I visited some rift zones, volcanoes, and glaciers in Iceland, and was impressed with Iceland's nature and Icelandic activities for harnessing it. I would like to introduce you to some of the geological tourist attractions in Iceland.
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Report of the Earth Science Club Lecture
  • Ken-ichi SHINODA
    2009 Volume 118 Issue 2 Pages 311-319
    Published: April 25, 2009
    Released on J-STAGE: April 01, 2010
     Modern DNA—maternally inherited mitochondrial DNA and paternally inherited Y-chromosomal DNA in particular—is now routinely used to trace ancient human routes. It appears that genetic data can actually offer a means of better understanding ancient population movements. The DNA patterns of present-day world populations indicate that modern humans emerged from Africa at least 150,000 years ago. These populations dispersed from Africa to most other parts of the world at least 60,000 years ago along the tropical coasts of the Indian Ocean to Southeast Asia and Australasia.
     Genetic data support a model for the peopling of the New World in which Native American ancestors diverged from the Asian gene pool and experienced a gradual population expansion as they moved into Beringia. After a long period in greater Beringia, these ancestors rapidly spread into the Americas at least 15,000 years ago.
     Examinations of ancient human bones using molecular genetic techniques provide direct access to genetic information on past populations. The retrieval and analysis of ancient DNA is more difficult than that of modern DNA. However, this technique holds great potential for inferring the origins of the Japanese people. The distribution of mitochondrial DNA haplogroups among the Jomon, Yayoi, and modern Japanese populations suggests that the formation of the Japanese population was not the result of a population expansion. Distinctively different frequencies of mitochondrial DNA haplogroups among Jomon and Yayoi populations indicate significantly different population histories for these groups. However, both populations have contributed to the formation of the modern Japanese population. An eastward population expansion from the Asian Continent during the Yayoi period resulted in the admixture of these people with the indigenous Jomon people and led to the formation of the basic pattern seen in modern Japanese people.
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Book Reviews