Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar
Biochar derived from enhanced biological phosphorus removal (EBPR) sludge could be a potential phosphorus (P) fertilizer. Soil microorganisms play a regulating role on the turnover of P in soil. When the EBPR sludge biochar is added to soil, it would inevitably interact with soil microorganisms. Thu...
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sg-ntu-dr.10356-1543832021-12-20T05:25:04Z Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar Qian, Tingting Lu, Dan Soh, Annie Yan Ni Webster, Richard David Zhou, Yan School of Civil and Environmental Engineering School of Physical and Mathematical Sciences Division of Chemistry and Biological Chemistry Nanyang Environment and Water Research Institute Advanced Environmental Biotechnology Centre (AEBC) Engineering::Environmental engineering Enhanced Biological Phosphorus Removal (EBPR) Sludge Phosphorus Recovery Biochar derived from enhanced biological phosphorus removal (EBPR) sludge could be a potential phosphorus (P) fertilizer. Soil microorganisms play a regulating role on the turnover of P in soil. When the EBPR sludge biochar is added to soil, it would inevitably interact with soil microorganisms. Thus, for the wise use of the EBPR sludge biochar, it is imperative to understand the interaction between the biochar and soil microorganisms. In this study, Pseudomonas putida (P. putida), a common soil microorganism, was applied to investigate the biotransformation of P in two EBPR sludge biochars. The results reveal that P released from biochar produced at 700 °C (E700) was more easily absorbed by P. putida than that released from biochar produced at 400 °C (E400). This is attributed to the higher polyphosphates (poly-P) content in E700 and poly-P has higher affinity to P. putida surface compared to orthophosphates. Furthermore, E400 has a negative effect on intracellular poly-P formation in P. putida, which is probably caused by the oxidative stress induced by the free radicals from E400. As intracellular poly-P plays a critical role on bacteria survival and their interaction with surrounding environment, high-temperature biochar (E700) in this case would be more suitable for soil remediation. Ministry of Education (MOE) This research was supported by Ministry of Education (MoE) Singapore under Tier 1 project Conductive biosystem - Enhanced biodegradation of recalcitrant compounds in industrial wastewater. 2021-12-20T05:25:04Z 2021-12-20T05:25:04Z 2020 Journal Article Qian, T., Lu, D., Soh, A. Y. N., Webster, R. D. & Zhou, Y. (2020). Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar. Water Research, 169, 115255-. https://dx.doi.org/10.1016/j.watres.2019.115255 0043-1354 https://hdl.handle.net/10356/154383 10.1016/j.watres.2019.115255 31698148 2-s2.0-85074230080 169 115255 en Water Research © 2019 Elsevier Ltd. All rights reserved. |
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Engineering::Environmental engineering Enhanced Biological Phosphorus Removal (EBPR) Sludge Phosphorus Recovery |
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Engineering::Environmental engineering Enhanced Biological Phosphorus Removal (EBPR) Sludge Phosphorus Recovery Qian, Tingting Lu, Dan Soh, Annie Yan Ni Webster, Richard David Zhou, Yan Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar |
| description |
Biochar derived from enhanced biological phosphorus removal (EBPR) sludge could be a potential phosphorus (P) fertilizer. Soil microorganisms play a regulating role on the turnover of P in soil. When the EBPR sludge biochar is added to soil, it would inevitably interact with soil microorganisms. Thus, for the wise use of the EBPR sludge biochar, it is imperative to understand the interaction between the biochar and soil microorganisms. In this study, Pseudomonas putida (P. putida), a common soil microorganism, was applied to investigate the biotransformation of P in two EBPR sludge biochars. The results reveal that P released from biochar produced at 700 °C (E700) was more easily absorbed by P. putida than that released from biochar produced at 400 °C (E400). This is attributed to the higher polyphosphates (poly-P) content in E700 and poly-P has higher affinity to P. putida surface compared to orthophosphates. Furthermore, E400 has a negative effect on intracellular poly-P formation in P. putida, which is probably caused by the oxidative stress induced by the free radicals from E400. As intracellular poly-P plays a critical role on bacteria survival and their interaction with surrounding environment, high-temperature biochar (E700) in this case would be more suitable for soil remediation. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Qian, Tingting Lu, Dan Soh, Annie Yan Ni Webster, Richard David Zhou, Yan |
| format |
Article |
| author |
Qian, Tingting Lu, Dan Soh, Annie Yan Ni Webster, Richard David Zhou, Yan |
| author_sort |
Qian, Tingting |
| title |
Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar |
| title_short |
Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar |
| title_full |
Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar |
| title_fullStr |
Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar |
| title_full_unstemmed |
Biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar |
| title_sort |
biotransformation of phosphorus in enhanced biological phosphorus removal sludge biochar |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/154383 |
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1720447183707176960 |