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Stream water chemistry in Japanese forested watersheds and its variability on a small regional scale
Author(s) -
Ohrui Kiyokazu,
Mitchell Myron J.
Publication year - 1998
Publication title -
water resources research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.863
H-Index - 217
eISSN - 1944-7973
pISSN - 0043-1397
DOI - 10.1029/98wr00918
Subject(s) - streams , hydrology (agriculture) , groundwater , nitrification , weathering , environmental chemistry , environmental science , water chemistry , precipitation , mineralization (soil science) , stream flow , soil water , chemistry , nitrogen , drainage basin , soil science , geology , geochemistry , geography , computer network , geotechnical engineering , cartography , organic chemistry , meteorology , computer science
Stream water chemistry was investigated for 25 forested watersheds located about 100 km northwest of Tokyo, Japan. Stream Ca 2+ and NO 3 − concentrations increased and Na + , HCO 3 − , and SiO 2 concentrations decreased with increases in stream discharge rates due to the increased importance of soil water to stream water and decreased importance of groundwater during periods of high precipitation inputs. Stream chemistry was significantly different from soil water chemistry, especially during low flow, suggesting a large contribution of groundwater to the streams during these periods. There were large differences of stream chemistry among watersheds in NO 3 − and HCO 3 − concentrations (44 ± 30 and 114 ± 82 µeq L −1 , respectively; average ± standard deviation), and smaller differences in Cl − concentrations (46 ± 8 µeq L −1 ). Patterns of stream NO 3 − concentrations were affected by the stand age, which affected the ability of the forest to retain N, and the nitrification potential, which regulated N mobility. Patterns of stream HCO 3 − concentrations varied concomitantly with Ca 2+ , Na + , and SiO 2 concentrations and p H (6.6 ± 0.5) were important attributes of the stream waters of these watersheds, due to the warm humid climate that enhanced N mineralization, nitrification, and mineral weathering.

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