Biosorption of lead and nickel by biomass of marine algae

Screening tests of different marine algae biomass types revealed a high passive biosorptive uptake of lead up to 270 mg Pb/g of biomass in some brown marine algae. Members of the order Fucales performed particularly well in this descending sequence: Fucus > Ascophyllum > Sargassum. Although de...

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Veröffentlicht in:	Biotechnology and bioengineering 1994-05, Vol.43 (11), p.1001-1009
Hauptverfasser:	Holan, Z. R., Volesky, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	560300 - Chemicals Metabolism & Toxicology ALGAE Ascophyllum nodosum Biological and medical sciences BIOLOGICAL VARIABILITY biomasa biomass biomasse biosorption of heavy metals biosorption screening Biotechnology brown algae cation cationes cations chlorophyceae ELEMENTS Environment and pollution Fucus vesiculosus Fundamental and applied biological sciences. Psychology GENETIC VARIABILITY GROWTH Industrial applications and implications. Economical aspects LEAD lead biosorption Marine metal metal uptake metales METALS Miscellaneous NICKEL nickel biosorption niquel ORGANIC COMPOUNDS ORGANIC POLYMERS PETROCHEMICALS PETROLEUM PRODUCTS phaeophyceae PLANTS plomb plomo polisacaridos polyholoside POLYMERS polysaccharides RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT REMEDIAL ACTION RESINS rhodophyceae Sargassum natans seaweeds sorcion sorption SORPTIVE PROPERTIES SURFACE PROPERTIES TRANSITION ELEMENTS UPTAKE
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description	Screening tests of different marine algae biomass types revealed a high passive biosorptive uptake of lead up to 270 mg Pb/g of biomass in some brown marine algae. Members of the order Fucales performed particularly well in this descending sequence: Fucus > Ascophyllum > Sargassum. Although decreasing the swelling of wetted biomass particles, their reinforcement by crosslinking may significantly affect the biosorption performance. Lead uptakes up to 370 mg Pb/g were observed in crosslinked Fucus vesiculosus and Ascophyllum nodosum. At low equilibrium residual concentrations of lead in solution, however, ion exchange resin Amberlite IR-120 had a higher lead uptake than the biosorbent materials. An order-of-magnitude lower uptake of nickel was observed in all of the sorbent materials examined.
doi_str_mv	10.1002/bit.260431102
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R.</creatorcontrib><creatorcontrib>Volesky, B.</creatorcontrib><creatorcontrib>United States. National Oceanic and Atmospheric Administration. Office of Oceanic and Atmospheric Research</creatorcontrib><title>Biosorption of lead and nickel by biomass of marine algae</title><title>Biotechnology and bioengineering</title><addtitle>Biotechnol. Bioeng</addtitle><description>Screening tests of different marine algae biomass types revealed a high passive biosorptive uptake of lead up to 270 mg Pb/g of biomass in some brown marine algae. Members of the order Fucales performed particularly well in this descending sequence: Fucus > Ascophyllum > Sargassum. Although decreasing the swelling of wetted biomass particles, their reinforcement by crosslinking may significantly affect the biosorption performance. Lead uptakes up to 370 mg Pb/g were observed in crosslinked Fucus vesiculosus and Ascophyllum nodosum. At low equilibrium residual concentrations of lead in solution, however, ion exchange resin Amberlite IR-120 had a higher lead uptake than the biosorbent materials. An order-of-magnitude lower uptake of nickel was observed in all of the sorbent materials examined.</description><subject>560300 - Chemicals Metabolism & Toxicology</subject><subject>ALGAE</subject><subject>Ascophyllum nodosum</subject><subject>Biological and medical sciences</subject><subject>BIOLOGICAL VARIABILITY</subject><subject>biomasa</subject><subject>biomass</subject><subject>biomasse</subject><subject>biosorption of heavy metals</subject><subject>biosorption screening</subject><subject>Biotechnology</subject><subject>brown algae</subject><subject>cation</subject><subject>cationes</subject><subject>cations</subject><subject>chlorophyceae</subject><subject>ELEMENTS</subject><subject>Environment and pollution</subject><subject>Fucus vesiculosus</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>GENETIC VARIABILITY</subject><subject>GROWTH</subject><subject>Industrial applications and implications. Economical aspects</subject><subject>LEAD</subject><subject>lead biosorption</subject><subject>Marine</subject><subject>metal</subject><subject>metal uptake</subject><subject>metales</subject><subject>METALS</subject><subject>Miscellaneous</subject><subject>NICKEL</subject><subject>nickel biosorption</subject><subject>niquel</subject><subject>ORGANIC COMPOUNDS</subject><subject>ORGANIC POLYMERS</subject><subject>PETROCHEMICALS</subject><subject>PETROLEUM PRODUCTS</subject><subject>phaeophyceae</subject><subject>PLANTS</subject><subject>plomb</subject><subject>plomo</subject><subject>polisacaridos</subject><subject>polyholoside</subject><subject>POLYMERS</subject><subject>polysaccharides</subject><subject>RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT</subject><subject>REMEDIAL ACTION</subject><subject>RESINS</subject><subject>rhodophyceae</subject><subject>Sargassum natans</subject><subject>seaweeds</subject><subject>sorcion</subject><subject>sorption</subject><subject>SORPTIVE PROPERTIES</subject><subject>SURFACE PROPERTIES</subject><subject>TRANSITION ELEMENTS</subject><subject>UPTAKE</subject><issn>0006-3592</issn><issn>1097-0290</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1994</creationdate><recordtype>article</recordtype><recordid>eNqF0k1vEzEQBuAVAtG0cOSKVgjBacvYXn8d2wrSSlERoqUSF2t24i2mm3VYb1Ty73GUKOXUnizLj8evZlwUbxgcMwD-qQnjMVdQC8aAPysmDKyugFt4XkwAQFVCWn5QHKb0O2-1UeplccCMYlIymBT2NMQUh-UYYl_Gtuw8zkvs52Uf6M53ZbMumxAXmNLmdIFD6H2J3S36V8WLFrvkX-_Wo-L6y-ers_Nq9nV6cXYyq0hZ4JU2nhFpTZI1klrJldSgSQisa90isgYUmmYuLBFZbxo0vpYGCFRb10jiqHi3rRvTGFyiMHr6RbHvPY1OM8UF1xl93KLlEP-sfBrdIiTyXYe9j6vkdC2VVNzA01IIpbjmdZYfHpVMKWNyt5-GQlkOhmdYbSENMaXBt245hNzTtWPgNtN0eZpuP83s3-4Kr5qFnz_o3fgyeL8DmAi7dsCeQtq7OpcEuWF6y-5D59ePP-pOL67-T7BLHNLo_-5v4nDnlBZaupvLqbu8mZ3Dt-lP9-MhcYvR4e2Qw1x_Z9bK_PXA5Kr_AGi1zI4</recordid><startdate>199405</startdate><enddate>199405</enddate><creator>Holan, Z. 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R. ; Volesky, B.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c6902-78e1cc77c51b5cf5265707c33a447faa1b06a8bd39ccc9e8ba8e4580c06f44ac3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1994</creationdate><topic>560300 - Chemicals Metabolism & Toxicology</topic><topic>ALGAE</topic><topic>Ascophyllum nodosum</topic><topic>Biological and medical sciences</topic><topic>BIOLOGICAL VARIABILITY</topic><topic>biomasa</topic><topic>biomass</topic><topic>biomasse</topic><topic>biosorption of heavy metals</topic><topic>biosorption screening</topic><topic>Biotechnology</topic><topic>brown algae</topic><topic>cation</topic><topic>cationes</topic><topic>cations</topic><topic>chlorophyceae</topic><topic>ELEMENTS</topic><topic>Environment and pollution</topic><topic>Fucus vesiculosus</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>GENETIC VARIABILITY</topic><topic>GROWTH</topic><topic>Industrial applications and implications. Economical aspects</topic><topic>LEAD</topic><topic>lead biosorption</topic><topic>Marine</topic><topic>metal</topic><topic>metal uptake</topic><topic>metales</topic><topic>METALS</topic><topic>Miscellaneous</topic><topic>NICKEL</topic><topic>nickel biosorption</topic><topic>niquel</topic><topic>ORGANIC COMPOUNDS</topic><topic>ORGANIC POLYMERS</topic><topic>PETROCHEMICALS</topic><topic>PETROLEUM PRODUCTS</topic><topic>phaeophyceae</topic><topic>PLANTS</topic><topic>plomb</topic><topic>plomo</topic><topic>polisacaridos</topic><topic>polyholoside</topic><topic>POLYMERS</topic><topic>polysaccharides</topic><topic>RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. 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R.</au><au>Volesky, B.</au><aucorp>United States. National Oceanic and Atmospheric Administration. Office of Oceanic and Atmospheric Research</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Biosorption of lead and nickel by biomass of marine algae</atitle><jtitle>Biotechnology and bioengineering</jtitle><addtitle>Biotechnol. Bioeng</addtitle><date>1994-05</date><risdate>1994</risdate><volume>43</volume><issue>11</issue><spage>1001</spage><epage>1009</epage><pages>1001-1009</pages><issn>0006-3592</issn><eissn>1097-0290</eissn><coden>BIBIAU</coden><abstract>Screening tests of different marine algae biomass types revealed a high passive biosorptive uptake of lead up to 270 mg Pb/g of biomass in some brown marine algae. Members of the order Fucales performed particularly well in this descending sequence: Fucus > Ascophyllum > Sargassum. 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subjects	560300 - Chemicals Metabolism & Toxicology ALGAE Ascophyllum nodosum Biological and medical sciences BIOLOGICAL VARIABILITY biomasa biomass biomasse biosorption of heavy metals biosorption screening Biotechnology brown algae cation cationes cations chlorophyceae ELEMENTS Environment and pollution Fucus vesiculosus Fundamental and applied biological sciences. Psychology GENETIC VARIABILITY GROWTH Industrial applications and implications. Economical aspects LEAD lead biosorption Marine metal metal uptake metales METALS Miscellaneous NICKEL nickel biosorption niquel ORGANIC COMPOUNDS ORGANIC POLYMERS PETROCHEMICALS PETROLEUM PRODUCTS phaeophyceae PLANTS plomb plomo polisacaridos polyholoside POLYMERS polysaccharides RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT REMEDIAL ACTION RESINS rhodophyceae Sargassum natans seaweeds sorcion sorption SORPTIVE PROPERTIES SURFACE PROPERTIES TRANSITION ELEMENTS UPTAKE
title	Biosorption of lead and nickel by biomass of marine algae
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