Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica
The extensive industrial use of the heavy metal molybdenum (Mo) has led to an emerging global pollution with its traces that can even be found in Antarctica. In response, a reduction process that transforms hexamolybdate (Mo6+) to a less toxic compound, Mo-blue, using microorganisms provides a susta...
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my.um.eprints.340852022-07-19T04:13:34Z http://eprints.um.edu.my/34085/ Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica Darham, Syazani Zahri, Khadijah Nabilah Mohd Zulkharnain, Azham Sabri, Suriana Gomez-Fuentes, Claudio Convey, Peter Khalil, Khalilah Abdul Ahmad, Siti Aqlima GC Oceanography TA Engineering (General). Civil engineering (General) The extensive industrial use of the heavy metal molybdenum (Mo) has led to an emerging global pollution with its traces that can even be found in Antarctica. In response, a reduction process that transforms hexamolybdate (Mo6+) to a less toxic compound, Mo-blue, using microorganisms provides a sustainable remediation approach. The aim of this study was to investigate the reduction of Mo by a psychrotolerant Antarctic marine bacterium, Marinomonas sp. strain AQ5-A9. Mo reduction was optimised using One-Factor-At-a-Time (OFAT) and Response Surface Methodology (RSM). Subsequently, Mo reduction kinetics were further studied. OFAT results showed that maximum Mo reduction occurred in culture media conditions of pH 6.0 and 50 ppt salinity at 15 degrees C, with initial sucrose, nitrogen and molybdate concentrations of 2.0%, 3.0 g/L and 10 mM, respectively. Further optimization using RSM identified improved optimum conditions of pH 6.0 and 47 ppt salinity at 16 degrees C, with initial sucrose, nitrogen and molybdate concentrations of 1.8%, 2.25 g/L and 16 mM, respectively. Investigation of the kinetics of Mo reduction revealed Aiba as the best-fitting model. The calculated Aiba coefficient of maximum Mo reduction rate (mu(max)) was 0.067 h(-1). The data obtained support the potential use of marine bacteria in the bioremediation of Mo. MDPI 2021-06 Article PeerReviewed Darham, Syazani and Zahri, Khadijah Nabilah Mohd and Zulkharnain, Azham and Sabri, Suriana and Gomez-Fuentes, Claudio and Convey, Peter and Khalil, Khalilah Abdul and Ahmad, Siti Aqlima (2021) Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica. Journal of Marine Science and Engineering, 9 (6). ISSN 2077-1312, DOI https://doi.org/10.3390/jmse9060648 <https://doi.org/10.3390/jmse9060648>. 10.3390/jmse9060648 |
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GC Oceanography TA Engineering (General). Civil engineering (General) Darham, Syazani Zahri, Khadijah Nabilah Mohd Zulkharnain, Azham Sabri, Suriana Gomez-Fuentes, Claudio Convey, Peter Khalil, Khalilah Abdul Ahmad, Siti Aqlima Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica |
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The extensive industrial use of the heavy metal molybdenum (Mo) has led to an emerging global pollution with its traces that can even be found in Antarctica. In response, a reduction process that transforms hexamolybdate (Mo6+) to a less toxic compound, Mo-blue, using microorganisms provides a sustainable remediation approach. The aim of this study was to investigate the reduction of Mo by a psychrotolerant Antarctic marine bacterium, Marinomonas sp. strain AQ5-A9. Mo reduction was optimised using One-Factor-At-a-Time (OFAT) and Response Surface Methodology (RSM). Subsequently, Mo reduction kinetics were further studied. OFAT results showed that maximum Mo reduction occurred in culture media conditions of pH 6.0 and 50 ppt salinity at 15 degrees C, with initial sucrose, nitrogen and molybdate concentrations of 2.0%, 3.0 g/L and 10 mM, respectively. Further optimization using RSM identified improved optimum conditions of pH 6.0 and 47 ppt salinity at 16 degrees C, with initial sucrose, nitrogen and molybdate concentrations of 1.8%, 2.25 g/L and 16 mM, respectively. Investigation of the kinetics of Mo reduction revealed Aiba as the best-fitting model. The calculated Aiba coefficient of maximum Mo reduction rate (mu(max)) was 0.067 h(-1). The data obtained support the potential use of marine bacteria in the bioremediation of Mo. |
| format |
Article |
| author |
Darham, Syazani Zahri, Khadijah Nabilah Mohd Zulkharnain, Azham Sabri, Suriana Gomez-Fuentes, Claudio Convey, Peter Khalil, Khalilah Abdul Ahmad, Siti Aqlima |
| author_facet |
Darham, Syazani Zahri, Khadijah Nabilah Mohd Zulkharnain, Azham Sabri, Suriana Gomez-Fuentes, Claudio Convey, Peter Khalil, Khalilah Abdul Ahmad, Siti Aqlima |
| author_sort |
Darham, Syazani |
| title |
Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica |
| title_short |
Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica |
| title_full |
Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica |
| title_fullStr |
Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica |
| title_full_unstemmed |
Statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from Antarctica |
| title_sort |
statistical optimisation and kinetic studies of molybdenum reduction using a psychrotolerant marine bacteria isolated from antarctica |
| publisher |
MDPI |
| publishDate |
2021 |
| url |
http://eprints.um.edu.my/34085/ |
| _version_ |
1739828486956122112 |
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13.211869 |