Topography as a macroscopic index for the dissolved iron productivity of different land cover types in the Amur River Basin
Takeo Onishi, Muneoki Yoh, Hideaki Shibata, Seiya Nagao, Masayuki Kawahigashi and Vladimir Shamov
Release Date: November 18, 2010
Topography as a macroscopic index for the dissolved iron productivity of different land cover types in the Amur River Basin
Takeo Onishi1), Muneoki Yoh2), Hideaki Shibata3), Seiya Nagao4), Masayuki Kawahigashi5) and Vladimir Shamov6)
1) River Basin Research Center, Gifu University
2) Tokyo University of Agriculture and Technology
3) Field Science Center for Northern Biosphere, Hokkaido University
4) Low Level Radioactivity Laboratory, Kanazawa University
5) College of Bioresource Science, Nihon University
6) Institute for Water and Ecology Problems, Russian Academy of Sciences Far East Branch
(Received: July 27, 2010)
(Accepted for publication: October 13, 2010)
Abstract:
Iron is the limiting nutrient of phytoplankton in the Sea of Okhotsk, and the majority of iron in this system is fed by the Amur River. The recent conversion of wetlands, the main source of iron in the Amur River basin, to agricultural lands will likely impact dissolved iron productivity, which may also influence primary production in the Sea of Okhotsk. Therefore this study was conducted to construct a macroscopic index for use in assessing dissolved iron productivity in the basin. Correlation analysis between climate and topographic parameters and the observed dissolved iron concentration in forests and wetlands revealed that the topographic wetness index (TWI) had a significant correlation with dissolved iron concentration. An exponential curve was found to be the best curve to express this correlation. We assumed that dissolved iron concentration for grasslands and agricultural lands, the other two dominant land cover types, could also be expressed by TWI. Based on this assumption, dissolved iron concentration curves for grasslands and agricultural lands were inversely identified by systematic modification of the curve for forests and wetlands. The results suggest that TWI can describe the average dissolved iron concentration of major land cover types in the basin.
To cite this article:
Takeo Onishi, Muneoki Yoh, Hideaki Shibata, Seiya Nagao, Masayuki Kawahigashi and Vladimir Shamov: “Topography as a macroscopic index for the dissolved iron productivity of different land cover types in the Amur River Basin”, Hydrological Research Letters, Vol. 4, pp.85-89, (2010) .
doi:10.3178/hrl.4.85
JOI JST.JSTAGE/hrl/4.85
Copyright (c) 2010 Japan Society of Hydrology and Water Resources