Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France

Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France

The indoor microbial community is a mixture of microorganisms resulting from outdoor ecosystems that seed the built environment. However, the biogeography of the indoor microbial community is still inadequately studied. Dust from more than 3000 dwellings across France was analyzed by qPCR using 17 t...

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Main Authors: Steffi Rocchi, Gabriel Reboux, Emeline Scherer, Audrey Laboissière, Cécile Zaros, Adeline Rouzet, Benoit Valot, Sadia Khan, Marie-Noëlle Dufourg, Bénédicte Leynaert, Chantal Raherison, Laurence Millon
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Microorganisms
Subjects:
indoor exposure
molds
bacteria
dust mites
qpcr
electrostatic dust collector
Online Access:https://www.mdpi.com/2076-2607/8/3/341
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spelling doaj-ffa899a1684e4ff59b1cfb47079020ba2020-11-25T03:02:16ZengMDPI AGMicroorganisms2076-26072020-02-018334110.3390/microorganisms8030341microorganisms8030341Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in FranceSteffi Rocchi0Gabriel Reboux1Emeline Scherer2Audrey Laboissière3Cécile Zaros4Adeline Rouzet5Benoit Valot6Sadia Khan7Marie-Noëlle Dufourg8Bénédicte Leynaert9Chantal Raherison10Laurence Millon11Department of Parasitology and Mycology, University Hospital, 25030 Besançon CEDEX, FranceDepartment of Parasitology and Mycology, University Hospital, 25030 Besançon CEDEX, FranceDepartment of Parasitology and Mycology, University Hospital, 25030 Besançon CEDEX, FranceChrono-Environnement Research Team UMR/CNRS-6249 Bourgogne-Franche-Comté University, 25000 Besançon, FranceINED French Institute for Demographic Studies, ELFE Joint Unit Campus Condorcet 9, 93322 Aubervilliers CEDEX, FranceDepartment of Parasitology and Mycology, University Hospital, 25030 Besançon CEDEX, FranceChrono-Environnement Research Team UMR/CNRS-6249 Bourgogne-Franche-Comté University, 25000 Besançon, FranceINSERM Bordeaux Population Health Research Center U1219, Bordeaux University, 33076 Bordeaux, FranceINED French Institute for Demographic Studies, ELFE Joint Unit Campus Condorcet 9, 93322 Aubervilliers CEDEX, FranceInserm U1168, VIMA Aging and Chronic Disease, 94809 Villejuif, FranceINSERM Bordeaux Population Health Research Center U1219, Bordeaux University, 33076 Bordeaux, FranceDepartment of Parasitology and Mycology, University Hospital, 25030 Besançon CEDEX, FranceThe indoor microbial community is a mixture of microorganisms resulting from outdoor ecosystems that seed the built environment. However, the biogeography of the indoor microbial community is still inadequately studied. Dust from more than 3000 dwellings across France was analyzed by qPCR using 17 targets: 10 molds, 3 bacteria groups, and 4 mites. Thus, the first spatial description of the main indoor microbial allergens on the French territory, in relation with biogeographical factors influencing the distribution of microorganisms, was realized in this study. Ten microorganisms out of 17 exhibited increasing abundance profiles across the country: Five microorganisms (<i>Dermatophago&#239;des pteronyssinus</i>, <i>Dermatophago&#239;des </i>spp.,<i> Streptomyces </i>spp., <i>Cladosporium sphaerospermum, Epicoccum nigrum</i>) from northeast to southwest, two (<i>Cryptococcus</i> spp., <i>Alternaria alternata</i>) from northwest to southeast, Mycobacteria from east to west, <i>Aspergillus fumigatus</i> from south to north, and <i>Penicillium chrysogenum</i> from south to northeast. These geographical patterns were partly linked to climate and land cover. Multivariate analysis showed that composition of communities seemed to depend on landscapes, with species related to closed and rather cold and humid landscapes (forests, located in the northeast) and others to more open, hot, and dry landscapes (herbaceous and coastal regions, located in the west). This study highlights the importance of geographical location and outdoor factors that shape communities. In order to study the effect of microorganisms on human health (allergic diseases in particular), it is important to identify biogeographic factors that structure microbial communities on large spatial scales and to quantify the exposure with quantitative tools, such as the multi-qPCR approach.https://www.mdpi.com/2076-2607/8/3/341indoor exposuremoldsbacteriadust mitesqpcrelectrostatic dust collector
collection DOAJ
language English
format Article
sources DOAJ
author Steffi Rocchi
Gabriel Reboux
Emeline Scherer
Audrey Laboissière
Cécile Zaros
Adeline Rouzet
Benoit Valot
Sadia Khan
Marie-Noëlle Dufourg
Bénédicte Leynaert
Chantal Raherison
Laurence Millon
spellingShingle Steffi Rocchi
Gabriel Reboux
Emeline Scherer
Audrey Laboissière
Cécile Zaros
Adeline Rouzet
Benoit Valot
Sadia Khan
Marie-Noëlle Dufourg
Bénédicte Leynaert
Chantal Raherison
Laurence Millon
Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France
Microorganisms
indoor exposure
molds
bacteria
dust mites
qpcr
electrostatic dust collector
author_facet Steffi Rocchi
Gabriel Reboux
Emeline Scherer
Audrey Laboissière
Cécile Zaros
Adeline Rouzet
Benoit Valot
Sadia Khan
Marie-Noëlle Dufourg
Bénédicte Leynaert
Chantal Raherison
Laurence Millon
author_sort Steffi Rocchi
title Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France
title_short Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France
title_full Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France
title_fullStr Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France
title_full_unstemmed Indoor Microbiome: Quantification of Exposure and Association with Geographical Location, Meteorological Factors, and Land Use in France
title_sort indoor microbiome: quantification of exposure and association with geographical location, meteorological factors, and land use in france
publisher MDPI AG
series Microorganisms
issn 2076-2607
publishDate 2020-02-01
description The indoor microbial community is a mixture of microorganisms resulting from outdoor ecosystems that seed the built environment. However, the biogeography of the indoor microbial community is still inadequately studied. Dust from more than 3000 dwellings across France was analyzed by qPCR using 17 targets: 10 molds, 3 bacteria groups, and 4 mites. Thus, the first spatial description of the main indoor microbial allergens on the French territory, in relation with biogeographical factors influencing the distribution of microorganisms, was realized in this study. Ten microorganisms out of 17 exhibited increasing abundance profiles across the country: Five microorganisms (<i>Dermatophago&#239;des pteronyssinus</i>, <i>Dermatophago&#239;des </i>spp.,<i> Streptomyces </i>spp., <i>Cladosporium sphaerospermum, Epicoccum nigrum</i>) from northeast to southwest, two (<i>Cryptococcus</i> spp., <i>Alternaria alternata</i>) from northwest to southeast, Mycobacteria from east to west, <i>Aspergillus fumigatus</i> from south to north, and <i>Penicillium chrysogenum</i> from south to northeast. These geographical patterns were partly linked to climate and land cover. Multivariate analysis showed that composition of communities seemed to depend on landscapes, with species related to closed and rather cold and humid landscapes (forests, located in the northeast) and others to more open, hot, and dry landscapes (herbaceous and coastal regions, located in the west). This study highlights the importance of geographical location and outdoor factors that shape communities. In order to study the effect of microorganisms on human health (allergic diseases in particular), it is important to identify biogeographic factors that structure microbial communities on large spatial scales and to quantify the exposure with quantitative tools, such as the multi-qPCR approach.
topic indoor exposure
molds
bacteria
dust mites
qpcr
electrostatic dust collector
url https://www.mdpi.com/2076-2607/8/3/341
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