Abstract
Nitrogen (N) emissions in Asian countries are predicted to increase over the next several decades. An understanding of the mechanisms that control temporal and spatial fluctuation of N export to forest streams is important not only to quantify critical loads of N, N saturation status, and soil acidification N dynamics and budgets in Japanese forested watersheds is not clear due to the lack of regional comparative studies on stream N chemistry. To address the lack of comparative studies, we measured inorganic N (nitrate and ammonium) concentrations from June 2000 to May 2001 in streams in 18 experimental forests located throughout the Japanese archipelago and belonging to the Japanese Union of University Forests. N concentrations in stream water during base flow and high flow periods were monitored, and N mineralization potential in soil was measured using batch incubation experiments. Higher nitrate concentrations in stream water were present in central Japan, an area that receives high rates of atmospheric N deposition. In northern Japan, snowmelt resulted in increased nitrate concentrations in stream water. The potential net N mineralization rate was higher in surface soil than in subsurface soil, and the high potential for N mineralization in the surface soil partly contributed to the increase in nitrate concentration in stream water during a storm event. Regional differences in the atmospheric N deposition and seasonality of precipitation and high discharge are principal controls on the concentrations and variations of nitrates in stream water in forested watersheds of Japan.
Highlights
Development of industrial and agricultural activities during the 20th century has increased atmospheric deposition of nitrogen (N) worldwide
Mean nitrate concentrations of stream water collected in NK-SR and NK-TR were significantly higher than those in stream water collected in other watersheds (ANOVA, p < 0.001)
Our results indicate that the linkage of hydrological processes and N dynamics in watershed is important in understanding the mechanisms that increase nitrate concentrations in stream water in this region
Summary
Development of industrial and agricultural activities during the 20th century has increased atmospheric deposition of nitrogen (N) worldwide. Numerous studies conducted over the past 2 decades have shown the significant contribution of atmospheric deposition of N to nitrate concentrations in stream water, especially in northern Europe[2,3,4]. Predictions of future effects of atmospheric N deposition in Asia are dependent on assessments of the current status of nitrate in stream water in Asia; few regional surveys[6,7,8] have been performed due to a lack of regional monitoring projects for stream biogeochemistry in this region. The unique regional environmental factors may result in different characteristics of N biogeochemistry in forested watersheds of eastern Asia than in northeastern America and Europe[10,11]. The main objective of this study was to clarify the factors contributing to regional and temporal fluctuations in nitrate concentrations in Japanese forest streams.
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