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Resources and Environment Description

   
VV reduction by Polaromonas spp. in vanadium mine tailings
 The Weimin Sun research group has recently published an article entitled “VV reduction by Polaromonas spp. in vanadium mine tailings” in the prestigious journal “Environmental Science & Technology”. The study provided an in depth investigation of the microbial responses to elevated vanadium concentration using a combination of the field survey, lab experiments, and bioinformatic analysis.
2021-06-07
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ESNano: New insights into the dissimilatory reductive dissolution of different exposed facets of hematite
Recently, the research group of Professor Tongxu Liu from Institute of Eco-environmental and Soil Sciences, Guangdong Academy of Sciences has made new progress on the dissimilatory reductive dissolution of different exposed facets of hematite. This research was published in the journal of Environmental Science: Nano (IF = 7.683) and was selected as Outside Front Cover and Hot Article.
2021-06-07
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New findings about the sea-level change, coastal environment change and delta sedimentary evolution of the southeast China have been released
Recently, the research team led by Prof. Huang Guangqing from Guangzhou Institute of geography, Guangdong Academy of Sciences and Prof. Zong Yongqiang from University of Hong Kong published a series of research findings in the journals of Quaternary Science Reviews, Earth Surface Processes and Landforms and Marine Geology. These findings include the Holocene relative sea-level change in Hangzhou Bay, the sedimentary pattern of the Pearl River Delta and the coastal event deposition of the south China:
2021-02-04
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ES&T: Extracellular Electron Shuttling Mediated by Soluble?c-Type Cytochromes Produced by?Shewanella oneidensis?MR-1
Dissimilatory metal-reducing bacteria can oxidize intracellular organic compounds coupled with transferring electrons to terminal electron acceptors through extracellular electron transfer. These processes play a key role in degradation of organic pollutants and migration/transformation of heavy metals. Three pathways of extracellular electron transfer by dissimilatory metal reducing bacteria have been well recognized, including direct contact between the outer membrane and electron acceptors, electron shuttling, and nanowire-mediated electron transfer. While it is well known that Shewanella species interacts with electron acceptors primarily via flavins as soluble electron shuttles, it is unclear whether there are other processes of transferring electrons to the terminal electron acceptors.
2021-02-04
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