Effect of leaf type and pesticide exposure on abundance of bacterial taxa in mosquito larval habitats

Lentic freshwater systems including those inhabited by aquatic stages of mosquitoes derive most of their carbon inputs from terrestrial organic matter mainly leaf litter. The leaf litter is colonized by microbial communities that provide the resource base for mosquito larvae. While the microbial bio...

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Veröffentlicht in:	PloS one 2013-08, Vol.8 (8), p.e71812
Hauptverfasser:	Muturi, Ephantus J, Orindi, Benedict O, Kim, Chang-Hyun
Format:	Artikel
Sprache:	eng
Schlagworte:	Abundance Agriculture Agrochemicals Animals Aquatic habitats Aquatic insects Atrazine Bacteria Bacteria - classification Bacteria - drug effects Bacterial Load Biology Chemical contamination Chemical pollution Community structure Containers Culicidae Culicidae - drug effects Culicidae - growth & development Culicidae - microbiology Deoxyribonucleic acid Detritus DNA Ecosystem Ecosystems Environmental Exposure Environmental stress Exposure Flowers & plants Food contamination Glyphosate Habitats Herbicides Hypotheses Indoor environments Insecticides Larva - drug effects Larva - microbiology Larvae Leaf litter Leaves Low concentrations Malathion Microbial activity Microbiota - drug effects Microcosms Microorganisms Mosquitoes Organic matter Permethrin Pesticides Pesticides - toxicity Plant Leaves - classification Plant Leaves - drug effects Species Taxa Taxonomy Terrestrial environments Tropical diseases
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creator	Muturi, Ephantus J Orindi, Benedict O Kim, Chang-Hyun
description	Lentic freshwater systems including those inhabited by aquatic stages of mosquitoes derive most of their carbon inputs from terrestrial organic matter mainly leaf litter. The leaf litter is colonized by microbial communities that provide the resource base for mosquito larvae. While the microbial biomass associated with different leaf species in container aquatic habitats is well documented, the taxonomic composition of these microbes and their response to common environmental stressors is poorly understood. We used indoor aquatic microcosms to determine the abundances of major taxonomic groups of bacteria in leaf litters from seven plant species and their responses to low concentrations of four pesticides with different modes of action on the target organisms; permethrin, malathion, atrazine and glyphosate. We tested the hypotheses that leaf species support different quantities of major taxonomic groups of bacteria and that exposure to pesticides at environmentally relevant concentrations alters bacterial abundance and community structure in mosquito larval habitats. We found support for both hypotheses suggesting that leaf litter identity and chemical contamination may alter the quality and quantity of mosquito food base (microbial communities) in larval habitats. The effect of pesticides on microbial communities varied significantly among leaf types, suggesting that the impact of pesticides on natural microbial communities may be highly complex and difficult to predict. Collectively, these findings demonstrate the potential for detritus composition within mosquito larval habitats and exposure to pesticides to influence the quality of mosquito larval habitats.
doi_str_mv	10.1371/journal.pone.0071812
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We found support for both hypotheses suggesting that leaf litter identity and chemical contamination may alter the quality and quantity of mosquito food base (microbial communities) in larval habitats. The effect of pesticides on microbial communities varied significantly among leaf types, suggesting that the impact of pesticides on natural microbial communities may be highly complex and difficult to predict. 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The leaf litter is colonized by microbial communities that provide the resource base for mosquito larvae. While the microbial biomass associated with different leaf species in container aquatic habitats is well documented, the taxonomic composition of these microbes and their response to common environmental stressors is poorly understood. We used indoor aquatic microcosms to determine the abundances of major taxonomic groups of bacteria in leaf litters from seven plant species and their responses to low concentrations of four pesticides with different modes of action on the target organisms; permethrin, malathion, atrazine and glyphosate. We tested the hypotheses that leaf species support different quantities of major taxonomic groups of bacteria and that exposure to pesticides at environmentally relevant concentrations alters bacterial abundance and community structure in mosquito larval habitats. 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subjects	Abundance Agriculture Agrochemicals Animals Aquatic habitats Aquatic insects Atrazine Bacteria Bacteria - classification Bacteria - drug effects Bacterial Load Biology Chemical contamination Chemical pollution Community structure Containers Culicidae Culicidae - drug effects Culicidae - growth & development Culicidae - microbiology Deoxyribonucleic acid Detritus DNA Ecosystem Ecosystems Environmental Exposure Environmental stress Exposure Flowers & plants Food contamination Glyphosate Habitats Herbicides Hypotheses Indoor environments Insecticides Larva - drug effects Larva - microbiology Larvae Leaf litter Leaves Low concentrations Malathion Microbial activity Microbiota - drug effects Microcosms Microorganisms Mosquitoes Organic matter Permethrin Pesticides Pesticides - toxicity Plant Leaves - classification Plant Leaves - drug effects Species Taxa Taxonomy Terrestrial environments Tropical diseases
title	Effect of leaf type and pesticide exposure on abundance of bacterial taxa in mosquito larval habitats
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