Geographical review of Japan series B
Online ISSN : 1883-4396
ISSN-L : 1883-4396
Volume 90 , Issue 2
Showing 1-2 articles out of 2 articles from the selected issue
  • OYAGI Hideo, ENDOH Shuichi, ISHIKAWA Toshiyuki, OKUMURA Yasuaki, TSUKA ...
    Type: Article
    2017 Volume 90 Issue 2 Pages 53-65
    Published: January 06, 2018
    Released: December 29, 2017
    Lake Tonle Sap has the largest surface area of any lake in Southeast Asia. The lake’s water level varied by 8 m between seasons in 2005, which resulted in dramatic seasonal changes in the surface area. The quality of the lake water can be divided into two contrasting types in the low- and high-water-level periods. Measurements of water quality were made during the low-water-level period. Na-HCO3 type water was a characteristic feature of the water quality in the foreshore areas from March to May of 2005. Of particular interest during the low-water-level period is the ratio of chloride ions to total dissolved solids. Changes in the quality of the lake water during low-water-level periods are caused in part by an increase in the influence of discharge from inflowing tributaries as the volume of lake water decreases. In addition, seasonal changes are caused by anthropogenic contamination from mobile villages of floating and folding houses situated around the lake margin. In contrast to the low-water-level period, the dominant composition during the high-water-level period was Ca-HCO3 type water. The water quality of the lake during the rainy season does not appear to be affected by human activity but is significantly affected by reverse inflow from the Mekong River to Lake Tonle Sap.
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Research Notes
  • KUBO Sumiko, K. Ch. V. NAGA KUMAR, Gajji DEMUDU, B. HEMA MALINI, K. NA ...
    Type: Research Note
    2017 Volume 90 Issue 2 Pages 66-75
    Published: January 06, 2018
    Released: December 29, 2017
    Comparative analysis of time series satellite images spread over the past four decades indicated significant changes in the mangrove environment of the Krishna-Godavari twin deltas along the east coast of India. We analyzed Landsat-MSS, TM and ETM images from 1977, 1990, and 2000, respectively, and Indian Remote Sensing Satellite images from 1992, 2001, and 2013, which indicated that the mangrove cover in the region increased from 35,058 ha in 1977 to 39,283 ha by 2013. In spite of loss of mangrove vegetation over 8,036 ha due to coastal erosion, deforestation, decline and aquaculture encroachments, several mangrove-restoration projects taken up during 1991–2008 led to an overall increase in its area. Various mangrove eco-reforestation techniques were adapted in the region.
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