Mechanism of dissolved iron production in a watershed and the effect of soil freezing and thawing
2019
Onishi, T. (Gifu University, Gifu city, Gifu (Japan). Faculty of Applied Biological Sciences) | Tashiro, Y. | Yoh, M. | Shiraiwa, T.
Iron, one of the essential elements, is a very common element, since the total weight of the iron is approximately 30% of the weight of the Earth. However, concentration of iron in oceans is less than nmol, which is extremely low. Thus, iron supply from the terrestrial area through air dusts and river flows is significantly important for ocean ecosystems. In this sense, understanding the mechanism of iron behavior on lands is essential. Reviewing published articles on dissolved iron generation mechanisms suggests that soil organic matter and iron in the soil particles are behaving simultaneously. Under the condition that freezing and thawing processes is important, thawing depth might be the key factor to determine dissolved iron concentration. In addition, analysis on abnormal dissolved iron concentration peak in the late 1990s' in the Amur River is indicating that the effect of thawing of permafrost have a significant effect on dissolved iron production mechanisms. Based on this hypothesis, we conducted field observations combined with the analysis of long-term evaluation of thawing depths. The result indirectly supports the hypothesis. For the further understanding, classification of organic matter contributing the chelation with iron, and the monitoring of iron and dissolved organic matters during freezing and thawing processes are critical.
Mostrar más [+] Menos [-]Palabras clave de AGROVOC
Información bibliográfica
Este registro bibliográfico ha sido proporcionado por Agriculture, Forestry and Fisheries Research Information Technology Center