Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines

Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines

The Lead [Pb(II)] tolerance and uptake ability of four fungal species, two from the genus Penicillium and two from the genus Talaromyces were investigated in this study. The species were isolated from a polluted tributary and identified to be closest to P. canescens, P. simplicissimum, T. macrosporu...

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Main Authors: Maini, Zomesh A N, Aribal, Kiara Marie J, Narag, Regine Marinelli A, Melad, Jeorgina Kamella Luanshya T, Frejas, Juan Angelo D, Arriola, Luis Alfonso M, Gulpeo, Pia Clarisse G, Navarrete, Ian A, Lopez, Crisanto M
Format: text
Published: Archīum Ateneo 2019
Subjects:
mycoremediation
tolerance index
biosorption
bioaccumulation
heavy metals
Biology
Microbiology
Online Access:https://archium.ateneo.edu/biology-faculty-pubs/33
https://www.researchgate.net/profile/Ian_Navarrete/publication/331832591_Lead_II_Tolerance_and_Uptake_Capacities_of_Fungi_Isolated_from_a_Polluted_Tributary_in_the_Philippines/links/5c8f625f299bf14e7e82a307/Lead-II-Tolerance-and-Uptake-Capacities-of-Fungi-Isolated-from-a-Polluted-Tributary-in-the-Philippines.pdf
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Institution: Ateneo De Manila University
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spelling ph-ateneo-arc.biology-faculty-pubs-10352020-04-15T08:49:45Z Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines Maini, Zomesh A N Aribal, Kiara Marie J Narag, Regine Marinelli A Melad, Jeorgina Kamella Luanshya T Frejas, Juan Angelo D Arriola, Luis Alfonso M Gulpeo, Pia Clarisse G Navarrete, Ian A Lopez, Crisanto M The Lead [Pb(II)] tolerance and uptake ability of four fungal species, two from the genus Penicillium and two from the genus Talaromyces were investigated in this study. The species were isolated from a polluted tributary and identified to be closest to P. canescens, P. simplicissimum, T. macrosporus and another Talaromyces sp. via PCR targeting their internal transcribed spacer 1 and 4 sequences. All isolates have tolerances for up to 2000 µg/mL and 3000 µg/mL Pb(II) on solid and liquid medium, respectively. Both Penicillium isolates showed increasing removal rates dependent on initial Pb(II) concentration at 500 to 2000 µg/mL, while removal rates of both Talaromyces isolates were not significantly influenced by initial Pb(II) concentrations. The Pb(II) uptake of all isolates increased with increasing Pb(II) concentration but was depressed at 3000 µg/mL, with the exception of T. macrosporus. The recorded total uptake capacities for both Penicillium isolates in this study were higher than in most literature, at 7.0 – 407.4 mg/g and 50.8 – 412.6 mg/g for P. canescens and P. simplicissimum, respectively. The study also reported the exemplary Pb(II) uptake capacities of both Talaromyces isolates at 58.9 – 601.0 mg/g and 60.9 – 402.3 mg/g for T. macrosporus and Talaromyces sp., respectively. These results signify the excellent Pb(II) removal capabilities of all isolates which may further be developed for use as mycoremediation tools to remove Pb(II) from heavy metal contaminated environments. 2019-01-01T08:00:00Z text https://archium.ateneo.edu/biology-faculty-pubs/33 https://www.researchgate.net/profile/Ian_Navarrete/publication/331832591_Lead_II_Tolerance_and_Uptake_Capacities_of_Fungi_Isolated_from_a_Polluted_Tributary_in_the_Philippines/links/5c8f625f299bf14e7e82a307/Lead-II-Tolerance-and-Uptake-Capacities-of-Fungi-Isolated-from-a-Polluted-Tributary-in-the-Philippines.pdf Biology Faculty Publications Archīum Ateneo mycoremediation tolerance index biosorption bioaccumulation heavy metals Biology Microbiology
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 mycoremediation
tolerance index
biosorption
bioaccumulation
heavy metals
Biology
Microbiology
spellingShingle mycoremediation
tolerance index
biosorption
bioaccumulation
heavy metals
Biology
Microbiology
Maini, Zomesh A N
Aribal, Kiara Marie J
Narag, Regine Marinelli A
Melad, Jeorgina Kamella Luanshya T
Frejas, Juan Angelo D
Arriola, Luis Alfonso M
Gulpeo, Pia Clarisse G
Navarrete, Ian A
Lopez, Crisanto M
Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines
description The Lead [Pb(II)] tolerance and uptake ability of four fungal species, two from the genus Penicillium and two from the genus Talaromyces were investigated in this study. The species were isolated from a polluted tributary and identified to be closest to P. canescens, P. simplicissimum, T. macrosporus and another Talaromyces sp. via PCR targeting their internal transcribed spacer 1 and 4 sequences. All isolates have tolerances for up to 2000 µg/mL and 3000 µg/mL Pb(II) on solid and liquid medium, respectively. Both Penicillium isolates showed increasing removal rates dependent on initial Pb(II) concentration at 500 to 2000 µg/mL, while removal rates of both Talaromyces isolates were not significantly influenced by initial Pb(II) concentrations. The Pb(II) uptake of all isolates increased with increasing Pb(II) concentration but was depressed at 3000 µg/mL, with the exception of T. macrosporus. The recorded total uptake capacities for both Penicillium isolates in this study were higher than in most literature, at 7.0 – 407.4 mg/g and 50.8 – 412.6 mg/g for P. canescens and P. simplicissimum, respectively. The study also reported the exemplary Pb(II) uptake capacities of both Talaromyces isolates at 58.9 – 601.0 mg/g and 60.9 – 402.3 mg/g for T. macrosporus and Talaromyces sp., respectively. These results signify the excellent Pb(II) removal capabilities of all isolates which may further be developed for use as mycoremediation tools to remove Pb(II) from heavy metal contaminated environments.
format text
author Maini, Zomesh A N
Aribal, Kiara Marie J
Narag, Regine Marinelli A
Melad, Jeorgina Kamella Luanshya T
Frejas, Juan Angelo D
Arriola, Luis Alfonso M
Gulpeo, Pia Clarisse G
Navarrete, Ian A
Lopez, Crisanto M
author_facet Maini, Zomesh A N
Aribal, Kiara Marie J
Narag, Regine Marinelli A
Melad, Jeorgina Kamella Luanshya T
Frejas, Juan Angelo D
Arriola, Luis Alfonso M
Gulpeo, Pia Clarisse G
Navarrete, Ian A
Lopez, Crisanto M
author_sort Maini, Zomesh A N
title Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines
title_short Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines
title_full Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines
title_fullStr Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines
title_full_unstemmed Lead (II) Tolerance and Uptake Capacities of Fungi Isolated from a Polluted Tributary in the Philippines
title_sort lead (ii) tolerance and uptake capacities of fungi isolated from a polluted tributary in the philippines
publisher Archīum Ateneo
publishDate 2019
url https://archium.ateneo.edu/biology-faculty-pubs/33
https://www.researchgate.net/profile/Ian_Navarrete/publication/331832591_Lead_II_Tolerance_and_Uptake_Capacities_of_Fungi_Isolated_from_a_Polluted_Tributary_in_the_Philippines/links/5c8f625f299bf14e7e82a307/Lead-II-Tolerance-and-Uptake-Capacities-of-Fungi-Isolated-from-a-Polluted-Tributary-in-the-Philippines.pdf
_version_ 1722366417482809344

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