Title of article
Sulfur and strontium isotope geochemistry of tributary rivers of Lake Biwa: implications for human impact on the decadal change of lake water quality
Author/Authors
Takanori Nakanoa، نويسنده , , *، نويسنده , , Ichiro Tayasub، نويسنده , , Eitaro Wadaa، نويسنده , , Akitake Igetaa، نويسنده , , Fujio Hyodoa، نويسنده , , Yuuta Miurac، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2005
Pages
12
From page
1
To page
12
Abstract
To study the deterioration of the water quality in Lake Biwa, Japan, over the last 40 years, we measured the concentrations
and isotopic ratios of sulfur and strontium of water in 41 inflowing rivers and one discharging river. The concentrations of SO4
and Sr of inflowing rivers at downstream sites were generally high in the southern urban area and in the eastern area, where a
large agricultural plain is situated, but low in the northern and western areas, whose watersheds are mountainous and with low
population density. SO4 and Sr concentrations are also lower at upstream sites, which are closer to mountainous areas. Thus, the
inflowing river receives large amounts of SO4 and Sr as it flows across the plain, where human activity levels are high. The d34S
or 87Sr/86Sr values of most eastern rivers at downstream sites are lower than those of water in Lake Biwa, and values become
more uniform as the proportion of the plain area in the watershed increases. River water in other areas has higher values of d34S
or 87Sr/86Sr than the lake water. This result indicates that the decadal decrease of d34S and 87Sr/86Sr in the lake water has been
caused mainly by the increased flux of SO4 and Sr from rivers in the eastern plain. We assume that in the plain, sulfur, nitrogen,
and organic compounds induced by human activities generate sulfuric, nitric, and organic acids in the water, which accelerate
the extraction of Sr from bedrocks, leading to the generation of Sr in the river water in the area.
Keywords
sulfur isotope , Lake Biwa , water quality , human activity , Sr isotope
Journal title
Science of the Total Environment
Serial Year
2005
Journal title
Science of the Total Environment
Record number
984269
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