Integrated Field, Laboratory, and Modeling Studies to Determine the Effects of Linked Microbial and Physical Spatial Heterogeneity on Engineered Vadose Zone Bioremediation | |
Brokman, Fred ; Selker, John ; Rockhold, Mark | |
Oregon State University (United States) | |
关键词: Bioremediation; Simulation; Transport; Soils; Contamination; | |
DOI : 10.2172/820943 RP-ID : DOE/ER/82887 RP-ID : FG07-99ER62887 RP-ID : 820943 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
While numerous techniques exist for remediation of contaminant plumes in groundwater or near the soil surface, remediation methods in the deep vadose zone are less established due to complex transport dynamics and sparse microbial populations. There is a lack of knowledge on how physical and hydrologic features of the vadose zone control microbial growth and colonization in response to nutrient delivery during bioremediation. Yet pollution in the vadose zone poses a serious threat to the groundwater resources lying deeper in the sediment. While the contaminants may be slowly degraded by native microbial communities, microbial degradation rates rarely keep pace with the spread of the pollutant. It is crucial to increase indigenous microbial degradation in the vadose zone to combat groundwater contamination.
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