The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent

The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent

Lead [Pb(II)] biosorption capacities of immobilized Talaromyces macrosporus on Moringa oleifera L. wood were compared against pure fungal and pure M. oleifera biomass. A Pb(II) contact test of 1000 ug/mL show similar Pb(II) removal of non-immobilized fungal biomass (F) and powdered wood colonized wi...

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Main Authors: Maini, Zomesh A N, Flores, Niña Therese B, Muñoz, Enrico P
Format: text
Published: Archīum Ateneo 2019
Subjects:
Fungi
heavy metals
immobilization
biosorption
FTIR
Biology
Online Access:https://archium.ateneo.edu/biology-faculty-pubs/101
https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1106&context=biology-faculty-pubs
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spelling ph-ateneo-arc.biology-faculty-pubs-11062022-03-02T07:02:12Z The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent Maini, Zomesh A N Flores, Niña Therese B Muñoz, Enrico P Lead [Pb(II)] biosorption capacities of immobilized Talaromyces macrosporus on Moringa oleifera L. wood were compared against pure fungal and pure M. oleifera biomass. A Pb(II) contact test of 1000 ug/mL show similar Pb(II) removal of non-immobilized fungal biomass (F) and powdered wood colonized with fungi (WP+F), with WP+F producing more biomass. Powdered sorbents had higher Pb(II) uptake compared to whole sorbents analyzed through ICP-AES, possibly due to increased surface area for Pb(II) binding. FTIR analysis of the F, WP, and WP+F identified hydroxyl, amino, carbonyl, and sulfhydryl functional groups which constitute probable Pb(II)-affinitive binding sites. The biosorbents tested in a Continuous Flow Column (CF) adsorbed Pb(II) at 1000, 2000, and 4000 ug/mL in 30 minutes with the Pb(II) uptake of WP+F producing removal efficiencies at 91-95% regardless of initial Pb(II) concentration. WP+F also showed significantly higher q values than powdered wood (WP) at 42.67184.83 mg/g for the Pb(II) test concentrations. Recovery of Pb(II) from WP+F yielded 99.61% of adsorbed ions from 1000 ug/mL Pb(II), proving Pb(II) entrapment in the sorbent. This is the first study to describe biosorption capacities for T. macrosporus and M. oleifera softwood along with the wood’s viability as an immobilization scaffold. These results show the potential of using T. macrosporus immobilized on M. oleifera wood as a tool for removal of Pb(II) in wastewater with high Pb(II) concentrations. 2019-12-09T08:00:00Z text application/pdf https://archium.ateneo.edu/biology-faculty-pubs/101 https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1106&context=biology-faculty-pubs Biology Faculty Publications Archīum Ateneo Fungi heavy metals immobilization biosorption FTIR Biology Fungi
institution Ateneo De Manila University
building Ateneo De Manila University Library
continent Asia
country Philippines
Philippines
content_provider Ateneo De Manila University Library
collection archium.Ateneo Institutional Repository
topic Fungi
heavy metals
immobilization
biosorption
FTIR
Biology
Fungi
spellingShingle Fungi
heavy metals
immobilization
biosorption
FTIR
Biology
Fungi
Maini, Zomesh A N
Flores, Niña Therese B
Muñoz, Enrico P
The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent
description Lead [Pb(II)] biosorption capacities of immobilized Talaromyces macrosporus on Moringa oleifera L. wood were compared against pure fungal and pure M. oleifera biomass. A Pb(II) contact test of 1000 ug/mL show similar Pb(II) removal of non-immobilized fungal biomass (F) and powdered wood colonized with fungi (WP+F), with WP+F producing more biomass. Powdered sorbents had higher Pb(II) uptake compared to whole sorbents analyzed through ICP-AES, possibly due to increased surface area for Pb(II) binding. FTIR analysis of the F, WP, and WP+F identified hydroxyl, amino, carbonyl, and sulfhydryl functional groups which constitute probable Pb(II)-affinitive binding sites. The biosorbents tested in a Continuous Flow Column (CF) adsorbed Pb(II) at 1000, 2000, and 4000 ug/mL in 30 minutes with the Pb(II) uptake of WP+F producing removal efficiencies at 91-95% regardless of initial Pb(II) concentration. WP+F also showed significantly higher q values than powdered wood (WP) at 42.67184.83 mg/g for the Pb(II) test concentrations. Recovery of Pb(II) from WP+F yielded 99.61% of adsorbed ions from 1000 ug/mL Pb(II), proving Pb(II) entrapment in the sorbent. This is the first study to describe biosorption capacities for T. macrosporus and M. oleifera softwood along with the wood’s viability as an immobilization scaffold. These results show the potential of using T. macrosporus immobilized on M. oleifera wood as a tool for removal of Pb(II) in wastewater with high Pb(II) concentrations.
format text
author Maini, Zomesh A N
Flores, Niña Therese B
Muñoz, Enrico P
author_facet Maini, Zomesh A N
Flores, Niña Therese B
Muñoz, Enrico P
author_sort Maini, Zomesh A N
title The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent
title_short The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent
title_full The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent
title_fullStr The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent
title_full_unstemmed The Biosorption of Lead from Aqueous Solutions by a Wood-immobilized Fungal Biosorbent
title_sort biosorption of lead from aqueous solutions by a wood-immobilized fungal biosorbent
publisher Archīum Ateneo
publishDate 2019
url https://archium.ateneo.edu/biology-faculty-pubs/101
https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1106&context=biology-faculty-pubs
_version_ 1728621272803311616

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