Source Bioaerosol Concentration and rRNA Gene-Based Identification of Microorganisms Aerosolized at a Flood Irrigation Wastewater Reuse Site

Reuse of partially treated domestic wastewater for agricultural irrigation is a growing practice in arid regions throughout the world. A field sampling campaign to determine bioaerosol concentration, culturability, and identity at various wind speeds was conducted at a flooded wastewater irrigation...

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Veröffentlicht in:	Applied and Environmental Microbiology 2005-02, Vol.71 (2), p.804-810
Hauptverfasser:	Paez-Rubio, Tania, Viau, Emily, Romero-Hernandez, Socorro, Peccia, Jordan
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerosols Agriculture - methods Air Microbiology Animals bacteria Bacteria - classification Bacteria - genetics Bacteria - isolation & purification bioaerosols Biological and medical sciences Cloning, Molecular Colony Count, Microbial Eukaryota - classification Eukaryota - genetics Eukaryota - isolation & purification flood irrigation Floods Fundamental and applied biological sciences. Psychology genes Genes, rRNA Gram-negative bacteria heterotrophs Irrigation irrigation water Microbiology Molecular Sequence Data nucleotide sequences Phylogeny plate count Polymerase Chain Reaction population density Public Health Microbiology Rhodophyta - classification Rhodophyta - genetics Rhodophyta - isolation & purification ribosomal RNA Sequence Analysis, DNA sewage effluent Waste Disposal, Fluid - methods wastewater irrigation Water Microbiology Water treatment
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creator	Paez-Rubio, Tania Viau, Emily Romero-Hernandez, Socorro Peccia, Jordan
description	Reuse of partially treated domestic wastewater for agricultural irrigation is a growing practice in arid regions throughout the world. A field sampling campaign to determine bioaerosol concentration, culturability, and identity at various wind speeds was conducted at a flooded wastewater irrigation site in Mexicali, Baja California, Mexico. Direct fluorescent microscopy measurements for total microorganisms, culture-based assays for heterotrophs and gram-negative enteric bacteria, and small-subunit rRNA gene-based cloning were used for microbial characterizations of aerosols and effluent wastewater samples. Bioaerosol results were divided into two wind speed regimens: (i) below 1.9 m/s, average speed 0.5 m/s, and (ii) above 1.9 m/s, average speed 4.5 m/s. Average air-borne concentration of total microorganisms, culturable heterotrophs, and gram-negative enteric bacteria were, respectively, 1.1, 4.2, and 6.2 orders of magnitude greater during the high-wind-speed regimen. Small-subunit rRNA gene clone libraries processed from samples from air and the irrigation effluent wastewater during a high-wind sampling event indicate that the majority of air clone sequences were more than 98% similar to clone sequences retrieved from the effluent wastewater sample. Overall results indicate that wind is a potential aerosolization mechanism of viable wastewater microorganisms at flood irrigation sites.
doi_str_mv	10.1128/AEM.71.2.804-810.2005
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Small-subunit rRNA gene clone libraries processed from samples from air and the irrigation effluent wastewater during a high-wind sampling event indicate that the majority of air clone sequences were more than 98% similar to clone sequences retrieved from the effluent wastewater sample. 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A field sampling campaign to determine bioaerosol concentration, culturability, and identity at various wind speeds was conducted at a flooded wastewater irrigation site in Mexicali, Baja California, Mexico. Direct fluorescent microscopy measurements for total microorganisms, culture-based assays for heterotrophs and gram-negative enteric bacteria, and small-subunit rRNA gene-based cloning were used for microbial characterizations of aerosols and effluent wastewater samples. Bioaerosol results were divided into two wind speed regimens: (i) below 1.9 m/s, average speed 0.5 m/s, and (ii) above 1.9 m/s, average speed 4.5 m/s. Average air-borne concentration of total microorganisms, culturable heterotrophs, and gram-negative enteric bacteria were, respectively, 1.1, 4.2, and 6.2 orders of magnitude greater during the high-wind-speed regimen. Small-subunit rRNA gene clone libraries processed from samples from air and the irrigation effluent wastewater during a high-wind sampling event indicate that the majority of air clone sequences were more than 98% similar to clone sequences retrieved from the effluent wastewater sample. Overall results indicate that wind is a potential aerosolization mechanism of viable wastewater microorganisms at flood irrigation sites.</description><subject>Aerosols</subject><subject>Agriculture - methods</subject><subject>Air Microbiology</subject><subject>Animals</subject><subject>bacteria</subject><subject>Bacteria - classification</subject><subject>Bacteria - genetics</subject><subject>Bacteria - isolation & purification</subject><subject>bioaerosols</subject><subject>Biological and medical sciences</subject><subject>Cloning, Molecular</subject><subject>Colony Count, Microbial</subject><subject>Eukaryota - classification</subject><subject>Eukaryota - genetics</subject><subject>Eukaryota - isolation & purification</subject><subject>flood irrigation</subject><subject>Floods</subject><subject>Fundamental and applied biological sciences. 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A field sampling campaign to determine bioaerosol concentration, culturability, and identity at various wind speeds was conducted at a flooded wastewater irrigation site in Mexicali, Baja California, Mexico. Direct fluorescent microscopy measurements for total microorganisms, culture-based assays for heterotrophs and gram-negative enteric bacteria, and small-subunit rRNA gene-based cloning were used for microbial characterizations of aerosols and effluent wastewater samples. Bioaerosol results were divided into two wind speed regimens: (i) below 1.9 m/s, average speed 0.5 m/s, and (ii) above 1.9 m/s, average speed 4.5 m/s. Average air-borne concentration of total microorganisms, culturable heterotrophs, and gram-negative enteric bacteria were, respectively, 1.1, 4.2, and 6.2 orders of magnitude greater during the high-wind-speed regimen. Small-subunit rRNA gene clone libraries processed from samples from air and the irrigation effluent wastewater during a high-wind sampling event indicate that the majority of air clone sequences were more than 98% similar to clone sequences retrieved from the effluent wastewater sample. Overall results indicate that wind is a potential aerosolization mechanism of viable wastewater microorganisms at flood irrigation sites.</abstract><cop>Washington, DC</cop><pub>American Society for Microbiology</pub><pmid>15691934</pmid><doi>10.1128/AEM.71.2.804-810.2005</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Aerosols Agriculture - methods Air Microbiology Animals bacteria Bacteria - classification Bacteria - genetics Bacteria - isolation & purification bioaerosols Biological and medical sciences Cloning, Molecular Colony Count, Microbial Eukaryota - classification Eukaryota - genetics Eukaryota - isolation & purification flood irrigation Floods Fundamental and applied biological sciences. Psychology genes Genes, rRNA Gram-negative bacteria heterotrophs Irrigation irrigation water Microbiology Molecular Sequence Data nucleotide sequences Phylogeny plate count Polymerase Chain Reaction population density Public Health Microbiology Rhodophyta - classification Rhodophyta - genetics Rhodophyta - isolation & purification ribosomal RNA Sequence Analysis, DNA sewage effluent Waste Disposal, Fluid - methods wastewater irrigation Water Microbiology Water treatment
title	Source Bioaerosol Concentration and rRNA Gene-Based Identification of Microorganisms Aerosolized at a Flood Irrigation Wastewater Reuse Site
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