Iron isotopic fractionation during continental weathering

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• 作者：Fantle ; Matthew S. ; DePaolo ; Donald J.
• 关键词：iron isotopes ; weathering ; rivers ; soils ; iron cycle
• 刊名：Earth and Planetary Science Letters
• 出版年：2004
• 出版时间：December 15, 2004
• 年：2004
• 卷：228
• 期：3-4
• 页码：547-562
• 全文大小：729 K

文摘

The effect of continental weathering on the iron isotope compositions of natural materials is investigated. Unweathered igneous rocks, pelagic clay, and dust fall within the range ??<sup>56sup>Fe=0??0.3???. Rivers with large suspended loads also have ??<sup>56sup>Fe values near zero. Dilute streams have ??<sup>56sup>Fe values that trend towards lower ??<sup>56sup>Fe (??????1) suggesting that dissolved riverine iron is isotopically light relative to igneous rocks. Bulk soil and soil leaches display systematically different ??<sup>56sup>Fe profiles, indicating that isotopically distinct Fe pools are generated during pedogenesis. Nannofossil ooze, which contains Fe scavenged from the ocean water column, has ??<sup>56sup>Fe???0, but is consistent with seawater dissolved Fe having negative ??<sup>56sup>Fe. It is inferred that continental weathering under modern oxidizing Earth surface conditions preferentially releases dissolved Fe with negative ??<sup>56sup>Fe, which is transported in rivers to the ocean. A preliminary analysis of the marine Fe budget suggests that riverine Fe has a substantial role in determining the ??<sup>56sup>Fe of both the modern and ancient oceans, but other inputs, particularly that from diagenesis of marine sediments, may also be important. Since the chemical pathways of Fe processing during weathering are dependent on oxidation state and biological activity, Fe isotopes may prove useful for detecting changes in these parameters in the geologic past.