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BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA

万曦 万国江 黄荣贵 普勇

万曦, 万国江, 黄荣贵, 普勇. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. 中国地理科学, 1997, 7(4): 368-374.
引用本文: 万曦, 万国江, 黄荣贵, 普勇. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. 中国地理科学, 1997, 7(4): 368-374.
Wan Xi, Wan Guojiang, Huang Ronggui, Pu Yong. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. Chinese Geographical Science, 1997, 7(4): 368-374.
Citation: Wan Xi, Wan Guojiang, Huang Ronggui, Pu Yong. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. Chinese Geographical Science, 1997, 7(4): 368-374.

BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA

基金项目: This project was supported by the Natioual Natural Science Foundation of China and the Science Foundation of Guizhou.

BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA

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出版历程
  • 收稿日期:  1997-03-10
  • 刊出日期:  1997-12-20

BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA

    基金项目:  This project was supported by the Natioual Natural Science Foundation of China and the Science Foundation of Guizhou.

摘要: Lake Aha in Guizhou Province, China is a medium-sized artificial reservoir with seasonally anoxic hypolimnion. Long-term sedimentary accumulation of iron and manganese resulted in their enrichment in the upper sediments. In anoxic season, Fe2+ and Mn2+ formed from bioledcal oxidation, would diffuse upto upper water from sediments. However, the concentration of Fe2+ incrlater and decreased earlier than that of Mn2+. Generally, Sulfate reduction occUrred at 6cm below the sediment-water interface. Whereas, in anoxic season, the reduction reached sediment top, inhibiting the release of Fe2+. As the oxidation of Mn2+ required molecular oxygen as catalyst, Serious anoxia caused the violent diffusion of Mn2+. Based on the bio-effects on the accumulation of Mn in natural fresh water, it's necessary to seek a way to control manganese rerelease through accumulated manganese bacteria action.Keywrods: petdeopitional migration of Fe and Mn, biogaxhemical effect, Lake Aha

English Abstract

万曦, 万国江, 黄荣贵, 普勇. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. 中国地理科学, 1997, 7(4): 368-374.
引用本文: 万曦, 万国江, 黄荣贵, 普勇. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. 中国地理科学, 1997, 7(4): 368-374.
Wan Xi, Wan Guojiang, Huang Ronggui, Pu Yong. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. Chinese Geographical Science, 1997, 7(4): 368-374.
Citation: Wan Xi, Wan Guojiang, Huang Ronggui, Pu Yong. BIOGEOCHEMICAL MECHANISM OF POSTDEPOSITIONAL MIGRATION OF Fe AND Mn IN LAKE AHA, CHINA[J]. Chinese Geographical Science, 1997, 7(4): 368-374.

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