Abstract
This study aimed to evaluate nitrogen (N) leaching from Japanese cedar, the main plantation species in Japan, in response to elevated atmospheric N deposition. N leaching and possible factors, including soil nitrification, tree N uptake, and topographic steepness, were evaluated in mature (64–69 year) Japanese cedar trees planted on steep slopes (25°–40°) and neighboring Japanese oak plantations in suburban forests, which served as reference sites. N fertilization (50 kg N ha−1 year−1 as ammonium nitrate) was conducted to evaluate the response of N leaching to an elevated inorganic N pool in the surface soil. The soil water nitrate (NO3−) concentration below the rooting zone in the Japanese cedar forest (607 ± 59 μmol L−1) was much higher than that in the Japanese oak plantations (8.7 ± 8.1 μmol L−1) and increased immediately after fertilization, indicating high N leaching from the Japanese cedar plantations. The relatively low N uptake by Japanese cedar planted on the steep slopes could be an important contributor to the high N leaching. This study highlights the importance of vegetation composition for managing the water quality in headwater streams from forest ecosystems disturbed by atmospheric N deposition.
Highlights
This study aimed to evaluate nitrogen (N) leaching from Japanese cedar, the main plantation species in Japan, in response to elevated atmospheric N deposition
Many studies have evaluated N leaching from Japanese cedar plantations indirectly by statistical analysis in which synoptic sampling of stream water was conducted within a forested watershed containing various overstory species[25,26]
Studies evaluating N leaching from Japanese cedar plantations at the stand scale are limited to studies in suburban forests in eastern Japan by Oyanagi et al.[30]
Summary
This study aimed to evaluate nitrogen (N) leaching from Japanese cedar, the main plantation species in Japan, in response to elevated atmospheric N deposition. This study highlights the importance of vegetation composition for managing the water quality in headwater streams from forest ecosystems disturbed by atmospheric N deposition. Human activities, such as fuel combustion and agricultural activities, have increased anthropogenic nitrogen (N) deposition, especially since 1 9601. Many studies have evaluated N leaching from Japanese cedar plantations indirectly by statistical analysis in which synoptic sampling of stream water was conducted within a forested watershed containing various overstory species[25,26]. Studies evaluating N leaching from Japanese cedar plantations at the stand scale are limited to studies in suburban forests in eastern Japan by Oyanagi et al.[30]
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