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Keyword [Acid Mine]
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21. Diversity Of Iron-and Sulfur-cycling Microorganism And The Role Of Microbial Activity In Fe(Ⅲ) Hydroxysulfate Mineral Transformations In A River Affected By Acid Mine Drainage
22. Characteristics Of Microbial Community Spatial And Temporal Change In Paddy Soil Under Long-term Acid Mine Drainage Irrigation And Its Response Mechanism
23. Succession Rule Of Microbial Community And Functional Prediction Of Iron-sulfur Metabolic Genes In High-sulfur Abandoned Coal Mines
24. Minning River Sulfate Source Identification And Microbial Transformation-Based On Sulfur And Oxygen Isotopes
25. Treatment Of Acid Mine Wastewater With Sulfate Reducing Bacteria As The Core
26. Schwertmannite Transformation Via Direct Or Indirect Electron Transfer By Sulfate Reducing Bacterial Enrichment
27. Effects Of Acid Mining Drainage On Microorganism And The Abundance Of Functional Genes Involving In C,N And S Transformation In Soil Profile
28. Composition Feature Of Microbial Communities In Acid Mine Drainage From Yangquan Mining Area And Its Impact On Water Quality Downstream
29. Isolation,Characterization And Genomic Functional Analysis Of Acidophilic Bacteria From An Acid Mine Drainage Lake,Anhui Province,China
30. Physiological Properties And Comparative Genomics Studies Of Acidophilic Bacteria In Acid Mine Drainage
31. Study On Treatment Of Acid Mine Drainage Using Sulfate Reducing Bacteria Cooperate With Lignite
32. Study On Treatment Of Acid Mine Drainage By Sulfate Reducing Bacteria Strengthened By Microelectrolysis
33. Adaptation of Acidithiobacillus ferrooxidans to the extreme acid mine drainage environment
34. Backward modeling to prioritize sources of acid mine drainage for remediation: Application to Warden Gulch, Summit County, Colorado
35. Water Chemistry and Benthic Macroinvertebrate Ecology in Response to Acid Mine Drainage
36. Abundance and diversity of nitrifying microbes in sediments impacted by acid mine drainage
37. Research On The Application Of Functional Gene Chip (GeoChip) For Two Typical Environmental Microbial Community Analysis
38. Strongly Removal Mechanism Study Of Fe And Mn In Acid Mine Drainage By Iron And Manganese Oxidizing Bacteria
39. Electrochemical Study Of The Oxidation Mechanism And Passivation Behavior Of Pyrite
40. Study On The Treatment Of Acid Mine Drainage By Sulfate-reducing Bacteria
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