H. Ikeda et Y. Miyanaga, Hydrogeochemical conditions affecting acidification of stream water in mountainous watersheds, WATER A S P, 130(1-4), 2001, pp. 1253-1258
Acid deposition in eastern Asia will increase and freshwaters in Japan are
likely to become acidified in future. In order to make long-term prediction
s about freshwater acidification, it is necessary to evaluate acid neutrali
zation mechanisms in Japanese watersheds. Ikeda and Miyanaga (1999) earlier
proposed a method of separating acid-neutralization capacity into chemical
weathering and cation exchange. By this means, we were able to assess the
effect of hydrogeochemical properties on chemical weathering and stream wat
er chemistry for three watersheds in Japan. On the basis of this assessment
, acid-neutralization stream water chemistry was predicted using the ILWAS
(Integrated Lake-Watershed Acidification Study) model. The main factors det
ermining acidification are the thickness of weatherd profile and chemical w
eathering rates. The principal results are: (1) for non-acidified watershed
s in Japan, acid deposition is neutralized by chemical weathering of primar
y minerals; (2) freshwaters in Japanese watersheds will not acidify even if
acid deposition increases to the extent found in an acidified watershed in
the U.S.A.