Effects of Mo(VI) on phototrophic hydrogen production by Rhodobacter sphaeroides
Effects of Mo⁶⁺ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results showed that an increase of Mo⁶⁺ from nil to 1000 µg l⁻¹ led to increases in hydrogen yield, maximum production rate, conversion efficiency,...
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| Published in | Environmental technology Vol. 32; no. 11; pp. 1279 - 1285 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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Abingdon
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01.08.2011
Taylor & Francis Group Taylor & Francis Taylor & Francis Ltd |
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| Abstract | Effects of Mo⁶⁺ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results showed that an increase of Mo⁶⁺ from nil to 1000 µg l⁻¹ led to increases in hydrogen yield, maximum production rate, conversion efficiency, biomass yield and lactate removal. At 100 µg‐Mo l⁻¹, the maximum rate was 12.0 ml h⁻¹ l⁻¹ with a conversion efficiency of 36.1%, the cell yields were 1.11 g‐cell g⁻¹‐lactate and 2.4 g‐cell g⁻¹‐TOC removed. Further increase of Mo⁶⁺ improved hydrogen production only marginally. Degradation of lactate by R. sphaeroides produced not just hydrogen but also acetate, butyrate, i‐valerate, i‐caproate, hexanoate and some unidentified organic intermediates, but did not produce propionate and alcohols. Nitrogenase activity, as measured by the acetylene reduction method, had no clear correlation with either Mo⁶⁺ concentration or hydrogen yield. |
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| AbstractList | Effects of Mo6+ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results showed that an increase of Mo6+ from nil to 1000 ?g l-1 led to increases in hydrogen yield, maximum production rate, conversion efficiency, biomass yield and lactate removal. At 100 ?g-Mo l-1, the maximum rate was 12.0 ml h-1 l-1 with a conversion efficiency of 36.1%, the cell yields were 1.11 g-cell g-1-lactate and 2.4 g-cell g-1-TOC removed. Further increase of Mo6+ improved hydrogen production only marginally. Degradation of lactate by R. sphaeroides produced not just hydrogen but also acetate, butyrate, i-valerate, i-caproate, hexanoate and some unidentified organic intermediates, but did not produce propionate and alcohols. Nitrogenase activity, as measured by the acetylene reduction method, had no clear correlation with either Mo6+ concentration or hydrogen yield. Effects of Mo⁶⁺ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results showed that an increase of Mo⁶⁺ from nil to 1000 µg l⁻¹ led to increases in hydrogen yield, maximum production rate, conversion efficiency, biomass yield and lactate removal. At 100 µg‐Mo l⁻¹, the maximum rate was 12.0 ml h⁻¹ l⁻¹ with a conversion efficiency of 36.1%, the cell yields were 1.11 g‐cell g⁻¹‐lactate and 2.4 g‐cell g⁻¹‐TOC removed. Further increase of Mo⁶⁺ improved hydrogen production only marginally. Degradation of lactate by R. sphaeroides produced not just hydrogen but also acetate, butyrate, i‐valerate, i‐caproate, hexanoate and some unidentified organic intermediates, but did not produce propionate and alcohols. Nitrogenase activity, as measured by the acetylene reduction method, had no clear correlation with either Mo⁶⁺ concentration or hydrogen yield. Effects of Mo(6+) concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results showed that an increase of Mo(6+) from nil to 1000 microg l(-1) led to increases in hydrogen yield, maximum production rate, conversion efficiency, biomass yield and lactate removal. At 100 microg-Mo l(-1), the maximum rate was 12.0 ml h(-1) with a conversion efficiency of 36.1%, the cell yields were 1.11 g-cell g(-1) -lactate and 2.4 g-cell g(-1)-TOC removed. Further increase of Mo(6+) improved hydrogen production only marginally. Degradation of lactate by R. sphaeroides produced not just hydrogen but also acetate, butyrate, i-valerate, i-caproate, hexanoate and some unidentified organic intermediates, but did not produce propionate and alcohols. Nitrogenase activity, as measured by the acetylene reduction method, had no clear correlation with either Mo(6+) concentration or hydrogen yield. Effects of Mo6+ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results showed that an increase of Mo6+ from nil to 1000 µg l-1 led to increases in hydrogen yield, maximum production rate, conversion efficiency, biomass yield and lactate removal. At 100 µg-Mo l-1, the maximum rate was 12.0 ml h-1 l-1 with a conversion efficiency of 36.1%, the cell yields were 1.11 g-cell g-1-lactate and 2.4 g-cell g-1-TOC removed. Further increase of Mo6+ improved hydrogen production only marginally. Degradation of lactate by R. sphaeroides produced not just hydrogen but also acetate, butyrate, i-valerate, i-caproate, hexanoate and some unidentified organic intermediates, but did not produce propionate and alcohols. Nitrogenase activity, as measured by the acetylene reduction method, had no clear correlation with either Mo6+ concentration or hydrogen yield. Effects of Mo 6+ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results showed that an increase of Mo 6+ from nil to 1000 µg l −1 led to increases in hydrogen yield, maximum production rate, conversion efficiency, biomass yield and lactate removal. At 100 µg-Mo l −1 , the maximum rate was 12.0 ml h −1 l −1 with a conversion efficiency of 36.1%, the cell yields were 1.11 g-cell g −1 -lactate and 2.4 g-cell g −1 -TOC removed. Further increase of Mo 6+ improved hydrogen production only marginally. Degradation of lactate by R. sphaeroides produced not just hydrogen but also acetate, butyrate, i-valerate, i-caproate, hexanoate and some unidentified organic intermediates, but did not produce propionate and alcohols. Nitrogenase activity, as measured by the acetylene reduction method, had no clear correlation with either Mo 6+ concentration or hydrogen yield. |
| Author | Fang, Herbert H.P Li, Ru Ying Zhang, Tong |
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| CitedBy_id | crossref_primary_10_1016_j_enconman_2014_06_069 crossref_primary_10_1080_09593330_2013_826251 crossref_primary_10_1016_j_ijhydene_2022_02_172 crossref_primary_10_1016_j_ijhydene_2013_02_097 crossref_primary_10_1016_j_enconman_2018_01_058 crossref_primary_10_1016_j_egypro_2012_09_042 |
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| Keywords | Correlation Rhodobacter sphaeroides molybdate Correlation analysis phototrophic Biomass hydrogen lactate Hydrogen production |
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| Snippet | Effects of Mo⁶⁺ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results... Effects of Mo 6+ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source.... Effects of Mo(6+) concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source.... Effects of Mo6+ concentration on phototrophic hydrogen production of Rhodobacter sphaeroides were investigated using lactate as the sole carbon source. Results... |
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| SubjectTerms | acetates Acetylene acetylene reduction alcohols Applied sciences Bioelectric Energy Sources Biomass Bioreactors - microbiology butyrates Carbon Carbon - metabolism Conversion Correlation analysis environmental technology Exact sciences and technology Fatty Acids - metabolism Fermentation hydrogen Hydrogen - analysis Hydrogen - metabolism Hydrogen production lactate Lactates Lactic Acid - metabolism molybdate molybdenum Molybdenum - metabolism Molybdenum - pharmacology nitrogenase phototrophic Phototrophic Processes Pollution propionic acid Rhodobacter sphaeroides Rhodobacter sphaeroides - drug effects Rhodobacter sphaeroides - growth & development Rhodobacter sphaeroides - metabolism Sole |
| Title | Effects of Mo(VI) on phototrophic hydrogen production by Rhodobacter sphaeroides |
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