SEM observation on microbial like structure in the ferromanganese crust from the western Pacific Magellan Seamount
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Title
- SEM observation on microbial like structure in the ferromanganese crust from the western Pacific Magellan Seamount
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Author(s)
- 양기호; 박한범; 백현석; 김종욱; 박경량; 윤준범; 김진욱
- KIOST Author(s)
- Kim, Jonguk(김종욱)
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Alternative Author(s)
- 김종욱
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Publication Year
- 2016-12-12
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Abstract
- Understanding the biogeochemical process in the Fe-Mn crust layer is important to reconstruct the paleoenvironment when the Fe-Mn crust layer forms. Scanning Electron Microscopy (SEM), TransmissionElectron Microscopy (TEM), Electron Energy Loss Spectroscopy (EELS), and Polymerase Chain Reaction(PCR) were utilized to determine the redox states of Fe/Mn and microbial diversity at each layer. Samples were dredged from the western Pacific Magellan Seamount (OSM11) that consists of five well-defined layers from the rim (L1) to the core (L5). Some microbial like structures of sheath-like with filaments (L1 – L3), capsule-shaped (L2), fossilized coccolith mounds with phosphatized globules (L4), and bean-shaped (L4) were detected in entire layers. The cross sectional observation of bean-shaped microbe like structures encrusted with Fe-vernadite (L3) by Scanning Transmission Electron Microscopy (STEM) and Focused Ion Beam (FIB) technique revealed ~ 1-μm diameter cavity in the center and porous structures of encrusting Fe-vernadite in periphery. Moreover, the organic carbon in the center cavity compared withinorganic C (from carbonate) in periphery was differentiated by C-K edge EELS spectra, suggesting that the microbe used to occupy. Indeed, the PCR analysis indicated the presence of functional gene (cumA 1056bp & coxC 810bp) association with Mn & Fe oxidizer that promote the formation of the crust. The cloniny Loss Spectroscopy (EELS), and Polymerase Chain Reaction(PCR) were utilized to determine the redox states of Fe/Mn and microbial diversity at each layer. Samples were dredged from the western Pacific Magellan Seamount (OSM11) that consists of five well-defined layers from the rim (L1) to the core (L5). Some microbial like structures of sheath-like with filaments (L1 – L3), capsule-shaped (L2), fossilized coccolith mounds with phosphatized globules (L4), and bean-shaped (L4) were detected in entire layers. The cross sectional observation of bean-shaped microbe like structures encrusted with Fe-vernadite (L3) by Scanning Transmission Electron Microscopy (STEM) and Focused Ion Beam (FIB) technique revealed ~ 1-μm diameter cavity in the center and porous structures of encrusting Fe-vernadite in periphery. Moreover, the organic carbon in the center cavity compared withinorganic C (from carbonate) in periphery was differentiated by C-K edge EELS spectra, suggesting that the microbe used to occupy. Indeed, the PCR analysis indicated the presence of functional gene (cumA 1056bp & coxC 810bp) association with Mn & Fe oxidizer that promote the formation of the crust. The clonin
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URI
- https://sciwatch.kiost.ac.kr/handle/2020.kiost/24257
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Bibliographic Citation
- AGU 2016 Fall Meeting, pp.1, 2016
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Publisher
- AGU
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Type
- Conference
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Language
- English
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