Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood

Flood-damaged homes typically have elevated microbial loads, and their occupants have an increased incidence of allergies, asthma, and other respiratory ailments, yet the microbial communities in these homes remain under-studied. Using culture-independent approaches, we characterized bacterial and f...
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Autor*in:	Miller, Shelly L [verfasserIn] Brewer, Tess E Awerbuch, Jonathan Morgan, Emily E Keady, Patricia B Fierer, Noah Emerson, Joanne B Clements, Nicholas

Format:	Artikel
Sprache:	Englisch

Erschienen:	2015

Schlagwörter:	RNA, Ribosomal, 16S - genetics RNA, Fungal - genetics RNA, Bacterial - genetics Bacteria - growth & development Bacteria - genetics Fungi - growth & development Fungi - genetics Environmental impact Bacteria Houses Floods Fungi

Übergeordnetes Werk:	Enthalten in: Environmental science & technology - Washington, DC : ACS Publ., 1967, 49(2015), 5, Seite 2675
Übergeordnetes Werk:	volume:49 ; year:2015 ; number:5 ; pages:2675

Links:	Link aufrufen Link aufrufen

Katalog-ID:	OLC1969628553

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520			\|a Flood-damaged homes typically have elevated microbial loads, and their occupants have an increased incidence of allergies, asthma, and other respiratory ailments, yet the microbial communities in these homes remain under-studied. Using culture-independent approaches, we characterized bacterial and fungal communities in homes in Boulder, CO, USA 2-3 months after the historic September, 2013 flooding event. We collected passive air samples from basements in 50 homes (36 flood-damaged, 14 non-flooded), and we sequenced the bacterial 16S rRNA gene (V4-V5 region) and the fungal ITS1 region from these samples for community analyses. Quantitative PCR was used to estimate the abundances of bacteria and fungi in the passive air samples. Results indicate significant differences in bacterial and fungal community composition between flooded and non-flooded homes. Fungal abundances were estimated to be three times higher in flooded, relative to non-flooded homes, but there were no significant differences in bacterial abundances. Penicillium (fungi) and Pseudomonadaceae and Enterobacteriaceae (bacteria) were among the most abundant taxa in flooded homes. Our results suggest that bacterial and fungal communities continue to be affected by flooding, even after relative humidity has returned to baseline levels and remediation has removed any visible evidence of flood damage.
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650		4	\|a Environmental impact
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spelling	PQ20160211 (DE-627)OLC1969628553 (DE-599)GBVOLC1969628553 (PRQ)p1636-7448a10c80d7b355e5c5626a483e3530528e1d3d53e38ea0b4102dd676f1223d0 (KEY)0072627320150000049000502675impactsofflooddamageonairbornebacteriaandfungiinho DE-627 ger DE-627 rakwb eng 050 333.7 DNB Miller, Shelly L verfasserin aut Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood 2015 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier Flood-damaged homes typically have elevated microbial loads, and their occupants have an increased incidence of allergies, asthma, and other respiratory ailments, yet the microbial communities in these homes remain under-studied. Using culture-independent approaches, we characterized bacterial and fungal communities in homes in Boulder, CO, USA 2-3 months after the historic September, 2013 flooding event. We collected passive air samples from basements in 50 homes (36 flood-damaged, 14 non-flooded), and we sequenced the bacterial 16S rRNA gene (V4-V5 region) and the fungal ITS1 region from these samples for community analyses. Quantitative PCR was used to estimate the abundances of bacteria and fungi in the passive air samples. Results indicate significant differences in bacterial and fungal community composition between flooded and non-flooded homes. Fungal abundances were estimated to be three times higher in flooded, relative to non-flooded homes, but there were no significant differences in bacterial abundances. Penicillium (fungi) and Pseudomonadaceae and Enterobacteriaceae (bacteria) were among the most abundant taxa in flooded homes. Our results suggest that bacterial and fungal communities continue to be affected by flooding, even after relative humidity has returned to baseline levels and remediation has removed any visible evidence of flood damage. RNA, Ribosomal, 16S - genetics RNA, Fungal - genetics RNA, Bacterial - genetics Bacteria - growth & development Bacteria - genetics Fungi - growth & development Fungi - genetics Environmental impact Bacteria Houses Floods Fungi Brewer, Tess E oth Awerbuch, Jonathan oth Morgan, Emily E oth Keady, Patricia B oth Fierer, Noah oth Emerson, Joanne B oth Clements, Nicholas oth Enthalten in Environmental science & technology Washington, DC : ACS Publ., 1967 49(2015), 5, Seite 2675 (DE-627)129852457 (DE-600)280653-8 (DE-576)01515274X 0013-936X nnns volume:49 year:2015 number:5 pages:2675 http://www.ncbi.nlm.nih.gov/pubmed/25643125 http://search.proquest.com/docview/1661371282 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-UMW SSG-OLC-TEC SSG-OLC-CHE GBV_ILN_23 GBV_ILN_70 GBV_ILN_252 GBV_ILN_2006 GBV_ILN_4323 AR 49 2015 5 2675
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topic_facet	RNA, Ribosomal, 16S - genetics RNA, Fungal - genetics RNA, Bacterial - genetics Bacteria - growth & development Bacteria - genetics Fungi - growth & development Fungi - genetics Environmental impact Bacteria Houses Floods Fungi
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author	Miller, Shelly L
spellingShingle	Miller, Shelly L ddc 050 misc RNA, Ribosomal, 16S - genetics misc RNA, Fungal - genetics misc RNA, Bacterial - genetics misc Bacteria - growth & development misc Bacteria - genetics misc Fungi - growth & development misc Fungi - genetics misc Environmental impact misc Bacteria misc Houses misc Floods misc Fungi Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood
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topic_title	050 333.7 DNB Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood RNA, Ribosomal, 16S - genetics RNA, Fungal - genetics RNA, Bacterial - genetics Bacteria - growth & development Bacteria - genetics Fungi - growth & development Fungi - genetics Environmental impact Bacteria Houses Floods Fungi
topic	ddc 050 misc RNA, Ribosomal, 16S - genetics misc RNA, Fungal - genetics misc RNA, Bacterial - genetics misc Bacteria - growth & development misc Bacteria - genetics misc Fungi - growth & development misc Fungi - genetics misc Environmental impact misc Bacteria misc Houses misc Floods misc Fungi
topic_unstemmed	ddc 050 misc RNA, Ribosomal, 16S - genetics misc RNA, Fungal - genetics misc RNA, Bacterial - genetics misc Bacteria - growth & development misc Bacteria - genetics misc Fungi - growth & development misc Fungi - genetics misc Environmental impact misc Bacteria misc Houses misc Floods misc Fungi
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title	Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood
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title_full	Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood
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title_sort	impacts of flood damage on airborne bacteria and fungi in homes after the 2013 colorado front range flood
title_auth	Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood
abstract	Flood-damaged homes typically have elevated microbial loads, and their occupants have an increased incidence of allergies, asthma, and other respiratory ailments, yet the microbial communities in these homes remain under-studied. Using culture-independent approaches, we characterized bacterial and fungal communities in homes in Boulder, CO, USA 2-3 months after the historic September, 2013 flooding event. We collected passive air samples from basements in 50 homes (36 flood-damaged, 14 non-flooded), and we sequenced the bacterial 16S rRNA gene (V4-V5 region) and the fungal ITS1 region from these samples for community analyses. Quantitative PCR was used to estimate the abundances of bacteria and fungi in the passive air samples. Results indicate significant differences in bacterial and fungal community composition between flooded and non-flooded homes. Fungal abundances were estimated to be three times higher in flooded, relative to non-flooded homes, but there were no significant differences in bacterial abundances. Penicillium (fungi) and Pseudomonadaceae and Enterobacteriaceae (bacteria) were among the most abundant taxa in flooded homes. Our results suggest that bacterial and fungal communities continue to be affected by flooding, even after relative humidity has returned to baseline levels and remediation has removed any visible evidence of flood damage.
abstractGer	Flood-damaged homes typically have elevated microbial loads, and their occupants have an increased incidence of allergies, asthma, and other respiratory ailments, yet the microbial communities in these homes remain under-studied. Using culture-independent approaches, we characterized bacterial and fungal communities in homes in Boulder, CO, USA 2-3 months after the historic September, 2013 flooding event. We collected passive air samples from basements in 50 homes (36 flood-damaged, 14 non-flooded), and we sequenced the bacterial 16S rRNA gene (V4-V5 region) and the fungal ITS1 region from these samples for community analyses. Quantitative PCR was used to estimate the abundances of bacteria and fungi in the passive air samples. Results indicate significant differences in bacterial and fungal community composition between flooded and non-flooded homes. Fungal abundances were estimated to be three times higher in flooded, relative to non-flooded homes, but there were no significant differences in bacterial abundances. Penicillium (fungi) and Pseudomonadaceae and Enterobacteriaceae (bacteria) were among the most abundant taxa in flooded homes. Our results suggest that bacterial and fungal communities continue to be affected by flooding, even after relative humidity has returned to baseline levels and remediation has removed any visible evidence of flood damage.
abstract_unstemmed	Flood-damaged homes typically have elevated microbial loads, and their occupants have an increased incidence of allergies, asthma, and other respiratory ailments, yet the microbial communities in these homes remain under-studied. Using culture-independent approaches, we characterized bacterial and fungal communities in homes in Boulder, CO, USA 2-3 months after the historic September, 2013 flooding event. We collected passive air samples from basements in 50 homes (36 flood-damaged, 14 non-flooded), and we sequenced the bacterial 16S rRNA gene (V4-V5 region) and the fungal ITS1 region from these samples for community analyses. Quantitative PCR was used to estimate the abundances of bacteria and fungi in the passive air samples. Results indicate significant differences in bacterial and fungal community composition between flooded and non-flooded homes. Fungal abundances were estimated to be three times higher in flooded, relative to non-flooded homes, but there were no significant differences in bacterial abundances. Penicillium (fungi) and Pseudomonadaceae and Enterobacteriaceae (bacteria) were among the most abundant taxa in flooded homes. Our results suggest that bacterial and fungal communities continue to be affected by flooding, even after relative humidity has returned to baseline levels and remediation has removed any visible evidence of flood damage.
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container_issue	5
title_short	Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood
url	http://www.ncbi.nlm.nih.gov/pubmed/25643125 http://search.proquest.com/docview/1661371282
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author2	Brewer, Tess E Awerbuch, Jonathan Morgan, Emily E Keady, Patricia B Fierer, Noah Emerson, Joanne B Clements, Nicholas
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