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覆盖在酸性硫酸盐土壤上的“洪水”脱氧作用控制因子: 实验模拟
引用本文:C. LIN,P. G. HASKINS,J. LIN. 覆盖在酸性硫酸盐土壤上的“洪水”脱氧作用控制因子: 实验模拟[J]. 土壤圈, 2003, 13(4): 323-330
作者姓名:C. LIN  P. G. HASKINS  J. LIN
作者单位:[1]CentreforCoastalManagement,SouthernCrossUniversity,LismoreNSW2480Australia [2]NSWDepartmentofInfrastructure,PlanningandNaturalResources,CoifsHarbourNSW2450Australia [3]CollegeofResourcesandEnvironment,SouthChinaAgriculturalUniversity,Guangzhou510642China
基金项目:*1Project partly supported by Australian Research Council and NSW Agriculture.
摘    要:An incubation experiment was conducted to simulate the effect of flooding on water deoxygenation in acid sulfate soil floodplain systems. The originally oxygenated “floodwater“ could be deoxygenated immediately following “flooding“ and it is likely that this was caused mainly by decomposition of organic debris from the inundated plants. Deoxygenation eventually led to the depletion of dissolved oxygen (DO) in the “floodwater“ and it is highly possible that this resulted in the transformations of ferric Fe to ferrous Fe, sulfate to hydrogen sulfide, and organic nitrogen to ammonia (ammonification). The accumulation of these reduced substancesallows the “floodwater“ to develop DO-consuming capacity (DOCC). When the “floodwater“ is mixed with the introduced oxygenated water, apart from the dilution effects, the reduced substances contained in the “floodwater“ oxidize to further consume DO carried by the introduced water. However, it appears that the DO drop in the mixed water can only last for a few hours if no additional DO-depleted “floodwater“ is added. Entry of atmospheric oxygen into the water can raise the DO level of the mixed water and lower water pH through the oxidation of the reduced substances.

关 键 词:去氧 控制要素 硫酸盐 实验 建模 土壤

Factors Controlling Deoxygenation of "Floodwater" Overlying an Acid Sulfate Soil: Experimental Modeling
C. LIN,P. G. HASKINS and J. LIN. Factors Controlling Deoxygenation of "Floodwater" Overlying an Acid Sulfate Soil: Experimental Modeling[J]. Pedosphere, 2003, 13(4): 323-330
Authors:C. LIN  P. G. HASKINS  J. LIN
Affiliation:[1]CentreforCoastalManagement,SouthernCrossUniversity,LismoreNSW2480Australia [2]NSWDepartmentofInfrastructure,PlanningandNaturalResources,CoifsHarbourNSW2450Australia [3]CollegeofResourcesandEnvironment,SouthChinaAgriculturalUniversity,Guangzhou510642China
Abstract:An incubation experiment was conducted to simulate the effect of flooding on water deoxygenation in acid sulfate soil floodplain systems. The originally oxygenated "floodwater" could be deoxygenated immediately following "flooding" and it is likely that this was caused mainly by decomposition of organic debris from the inundated plants. Deoxygenation eventually led to the depletion of dissolved oxygen (DO) in the "floodwater"and it is highly possible that this resulted in the transformations of ferric Fe to ferrous Fe, sulfate to hydrogen sulfide, and organic nitrogen to ammonia (ammonification). The accumulation of these reduced substances allows the "floodwater" to develop DO-consuming capacity (DOCC). When the "floodwater" is mixed with the introduced oxygenated water, apart from the dilution effects, the reduced substances contained in the "floodwater" oxidize to further consume DO carried by the introduced water. However, it appears that the DO drop in the mixed water can only last for a few hours if no additional DO-depleted "floodwater" is added.Entry of atmospheric oxygen into the water can raise the DO level of the mixed water and lower water pH through the oxidation of the reduced substances.
Keywords:acid sulfate soils  deoxygenation  experimental modeling  flood  organic matter
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