北海道の河川における河川水中の溶存鉄濃度の分布

白岩, 孝行; 倉野, 健人; 藤島, 洸; 夏目, 奏; 高宮, 良樹; 張, 健; 郭, 銘玉; 牛, 潤華


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Hokkaido University Collection of Scholarly and Academic Papers >
Institute of Low Temperature Science >
低温科学 = Low Temperature Science >
第82巻 >

北海道の河川における河川水中の溶存鉄濃度の分布

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Please use this identifier to cite or link to this item:https://doi.org/10.14943/lowtemsci.82.83

Title:	北海道の河川における河川水中の溶存鉄濃度の分布
Other Titles:	Dissolved iron concentrations in various rivers in Hokkaido, Japan.
Authors:	白岩, 孝行¹ Browse this author →KAKEN DB
	倉野, 健人² Browse this author
	藤島, 洸³ Browse this author
	夏目, 奏⁴ Browse this author
	高宮, 良樹⁵ Browse this author
	張, 健⁶ Browse this author
	郭, 銘玉⁷ Browse this author
	牛, 潤華⁸ Browse this author
Authors(alt):	Shiraiwa, Takayuki¹
	Kurano, Kento²
	Fujishima, Ko³
	Natsume, Kana⁴
	Takamiya, Yoshiki⁵
	Zhang, Jian⁶
	Guo, Mingyu⁷
	Niu, Runhua⁸
Keywords:	溶存鉄
	湿地
	土地利用
	魚附き林
	dissolved iron
	wetland
	land use
	fish-breeding foresten
Issue Date:	29-Mar-2024
Publisher:	低温科学第82巻編集委員会
Journal Title:	低温科学
Journal Title(alt):	Low Temperature Science
Volume:	82
Start Page:	83
End Page:	91
Abstract:	海洋表層において植物プランクトンの光合成に利用される溶存鉄の供給源は多様であるが，その一部は河川から流入する．本研究は，北海道の河川を対象に，異なる土地被覆・土地利用状況にある流域において，時間・空間的に河川水中の溶存鉄濃度がどのように変化するかを多地点における季節を通じた採水・分析によって明らかにした．その結果，湿原を有する流域で溶存鉄濃度が高く，森林を主体とした流域では濃度が低いことが判明した．一方，農地を起源とする溶存鉄も存在する可能性があることがわかった．季節的には，夏期に溶存鉄濃度が上昇するという先行研究の成果を追認した．
Abstract:	The dissolved iron utilized in photosynthesis by phytoplankton in the surface layer of the ocean includes various sources, but a certain amount of the dissolved iron is supplied from rivers. In this study, focusing on rivers in Hokkaido, we elucidated how the dissolved iron concentration in river water changes over time and space in different land cover and land use conditions in the watershed. This was achieved through seasonal sampling and analysis at multiple locations. The results revealed that areas with wetlands in low-lying watersheds had higher dissolved iron concentrations, while watersheds dominated by mountain forests showed lower concentrations. On the other hand, it was found that dissolved iron of agricultural origin might also be present. Seasonally, the study confirmed previous research findings that dissolved iron concentrations increase during the summer.
Type:	bulletin (article)
URI:	http://hdl.handle.net/2115/91807
Appears in Collections:	低温科学 = Low Temperature Science > 第82巻

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