Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals

Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals

Abstract Neochloris minuta and Neochloris alveolaris grown in nitrogen-rich (+ N) and nitrogen-depleted (-N) media were tested for their heavy metal maximum biosorption capacities (qmax) and adsorption percent efficiencies (R%). By removing nitrogen from the growth media, both algal species showed a...

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Main Authors: Dimitrios G. Giarikos, Jessica Brown, Reza Razeghifard, Duy Vo, Ammy Castillo, Nikhil Nagabandi, Justin Gaffney, Miriam Zelden, Anna Antakshinova, Sara Rodriguez, Safiyah Muhammad
Format: Article
Language:English
Published: SpringerOpen 2021-02-01
Series:Applied Water Science
Subjects:
Microalgae
Biosorption
Heavy metals
Biomass
Nitrogen depletion
Online Access:https://doi.org/10.1007/s13201-021-01363-y
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spelling doaj-3b186bf626174e6cbb5d0fc142ea11b22021-02-07T12:47:52ZengSpringerOpenApplied Water Science2190-54872190-54952021-02-0111211510.1007/s13201-021-01363-yEffects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metalsDimitrios G. Giarikos0Jessica Brown1Reza Razeghifard2Duy Vo3Ammy Castillo4Nikhil Nagabandi5Justin Gaffney6Miriam Zelden7Anna Antakshinova8Sara Rodriguez9Safiyah Muhammad10Department of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityDepartment of Chemistry and Physics, Halmos College of Natural Sciences and Oceanography, Nova Southeastern UniversityAbstract Neochloris minuta and Neochloris alveolaris grown in nitrogen-rich (+ N) and nitrogen-depleted (-N) media were tested for their heavy metal maximum biosorption capacities (qmax) and adsorption percent efficiencies (R%). By removing nitrogen from the growth media, both algal species showed an increase in their lipid content and a decrease in their protein content. Langmuir and Freundlich adsorption isotherms were used to determine the qmax and adsorption efficiencies of the + N and −N algae in the recovery of Pb2+, Cd2+, Zn2+, Cu2+, and Ni2+. When comparing the two types of algae, N. alveolaris showed the highest adsorption capacities for all five metals either in + N or -N media. The maximum adsorption efficiency percentage of the lowest concentration metal ions for N. alveolaris was 87.10% for Pb2+, 64.98% for Cd2+, 59.50% for Zn2+, 60.08% for Cu2+, and 50.61% for Ni2+. In both algae, nitrogen depletion (-N) caused an increase in the qmax values for Zn2+ and Cu2+. Additionally, the qmax of N. minuta for Cd2+, Zn2+, Cu2+ and Ni2+ increased by the nitrogen depletion demonstrating that the treatment can be applied to improve the biosorption capacity of a particular alga for multiple heavy metals. The biosorption capacity for these algae for heavy metals was also discussed in terms of their biomass compositions and the type of hard or soft metal acid based on the Pearson theory of Hard and Soft, Acid and Bases (HSAB).https://doi.org/10.1007/s13201-021-01363-yMicroalgaeBiosorptionHeavy metalsBiomassNitrogen depletion
collection DOAJ
language English
format Article
sources DOAJ
author Dimitrios G. Giarikos
Jessica Brown
Reza Razeghifard
Duy Vo
Ammy Castillo
Nikhil Nagabandi
Justin Gaffney
Miriam Zelden
Anna Antakshinova
Sara Rodriguez
Safiyah Muhammad
spellingShingle Dimitrios G. Giarikos
Jessica Brown
Reza Razeghifard
Duy Vo
Ammy Castillo
Nikhil Nagabandi
Justin Gaffney
Miriam Zelden
Anna Antakshinova
Sara Rodriguez
Safiyah Muhammad
Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals
Applied Water Science
Microalgae
Biosorption
Heavy metals
Biomass
Nitrogen depletion
author_facet Dimitrios G. Giarikos
Jessica Brown
Reza Razeghifard
Duy Vo
Ammy Castillo
Nikhil Nagabandi
Justin Gaffney
Miriam Zelden
Anna Antakshinova
Sara Rodriguez
Safiyah Muhammad
author_sort Dimitrios G. Giarikos
title Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals
title_short Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals
title_full Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals
title_fullStr Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals
title_full_unstemmed Effects of nitrogen depletion on the biosorption capacities of Neochloris minuta and Neochloris alveolaris for five heavy metals
title_sort effects of nitrogen depletion on the biosorption capacities of neochloris minuta and neochloris alveolaris for five heavy metals
publisher SpringerOpen
series Applied Water Science
issn 2190-5487
2190-5495
publishDate 2021-02-01
description Abstract Neochloris minuta and Neochloris alveolaris grown in nitrogen-rich (+ N) and nitrogen-depleted (-N) media were tested for their heavy metal maximum biosorption capacities (qmax) and adsorption percent efficiencies (R%). By removing nitrogen from the growth media, both algal species showed an increase in their lipid content and a decrease in their protein content. Langmuir and Freundlich adsorption isotherms were used to determine the qmax and adsorption efficiencies of the + N and −N algae in the recovery of Pb2+, Cd2+, Zn2+, Cu2+, and Ni2+. When comparing the two types of algae, N. alveolaris showed the highest adsorption capacities for all five metals either in + N or -N media. The maximum adsorption efficiency percentage of the lowest concentration metal ions for N. alveolaris was 87.10% for Pb2+, 64.98% for Cd2+, 59.50% for Zn2+, 60.08% for Cu2+, and 50.61% for Ni2+. In both algae, nitrogen depletion (-N) caused an increase in the qmax values for Zn2+ and Cu2+. Additionally, the qmax of N. minuta for Cd2+, Zn2+, Cu2+ and Ni2+ increased by the nitrogen depletion demonstrating that the treatment can be applied to improve the biosorption capacity of a particular alga for multiple heavy metals. The biosorption capacity for these algae for heavy metals was also discussed in terms of their biomass compositions and the type of hard or soft metal acid based on the Pearson theory of Hard and Soft, Acid and Bases (HSAB).
topic Microalgae
Biosorption
Heavy metals
Biomass
Nitrogen depletion
url https://doi.org/10.1007/s13201-021-01363-y
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