Asfaw Zegeye, et al. Geochimica et Cosmochimica Acta V.71(22):5450-5462, 2007.
Microbiological reduction of a biogenic sulfated green rust , was examined using a sulfate reducing bacterium (Desulfovibrio alaskensis). Experiments investigated whether could serve as a sulfate source for D. alaskensis anaerobic respiration by analyzing mineral transformation. Batch experiments were conducted using lactate as the electron donor and biogenic as the electron acceptor, at circumneutral pH in unbuffered medium. transformation was monitored with time by X-ray diffraction (XRD), Transmission Mössbauer Spectroscopy (TMS), Diffuse Reflectance Infrared Fourier Transform Spectroscopy (DRIFTS), Transmission Electron Microscopy (TEM) and X-ray Photoelectron Spectroscopy (XPS). The reduction of sulfate anions and the formation of iron sulfur mineral were clearly identified by XPS analyses. TMS showed the formation of additional mineral as green rust (GR) and vivianite. XRD analyses discriminated the type of the newly formed GR as GR1. The formed GR1 was as indicated by DRIFTS analysis. Thus, the results presented in this study indicate that D. alaskensis cells were able to use as an electron acceptor. , vivianite and an iron sulfur compound were formed as a result of reduction by D. alaskensis. Hence, in environments where geochemical conditions promote biogenic formation, this mineral could stimulate the anaerobic respiration of sulfate reducing bacteria.
Article Outline
1. Introduction
2. Materials and methods
2.1. mineral
2.2. Bacteria and media
2.3. Bioreduction assays
2.4. Chemical analysis
2.5. Instrumentation
2.5.1. X-ray diffraction
2.5.2. Transmission electron microscopy
2.5.3. Transmission Mössbauer spectroscopy
2.5.4. Diffuse reflectance infrared fourier transform spectroscopy
2.5.5. X-ray photoelectron spectroscopy
3. Results
3.1. Monitoring of biomass, pH and Fe(II)
3.2. Mineral products of biogenic reduction by D. alaskensis: evidence of sulfate reduction
3.2.1. X-ray diffraction
3.2.2. Mössbauer spectroscopy
3.2.3. Characterization of anions in the solid phase
3.2.4. Surface analysis by XPS
3.2.5. Transmission electron microscopy
4. Discussion
4.1. Bioreduction of
4.2. The by-product of bioreduction
4.3. Environmental implication
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