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Citation for Study 12120

Citation title: "Environment or kin: whence do bees obtain acidophilic bacteria?".

Study name: "Environment or kin: whence do bees obtain acidophilic bacteria?".

This study is part of submission 12120 (Status: Published).

Citation

Mcfrederick Q.S., Wcislo W.T., Taylor D.R., Ishak H.D., Dowd S.E., & Mueller U.G. 2012. Environment or kin: whence do bees obtain acidophilic bacteria?. Molecular Ecology , .

Authors

• Mcfrederick Q.S. (submitter) 5124717619
• Wcislo W.T.
• Taylor D.R.
• Ishak H.D.
• Dowd S.E.
• Mueller U.G.

Abstract

As honey bee populations decline, interest in pathogenic and mutualistic relationships between bees and microorganisms has increased. Honey bees and bumble bees appear to have a simple intestinal bacterial fauna that includes acidophilic bacteria. Here, we explore the hypothesis that sweat bees can acquire acidophilic bacteria from the environment. To quantify bacterial communities associated with two species of North American and one species of Neotropical sweat bees, we conducted 16S-amplicon 454-pyrosequencing of bacteria associated with the bees, their brood cells, and their nests. Lactobacillus spp. were the most abundant bacteria in many, but not all, of the samples. To determine if bee-associated lactobacilli can also be found in the environment, we reconstructed the phylogenetic relationships of the genus Lactobacillus. Previously described groups that associate with Bombus and Apis appeared relatively specific to these genera. Several bacteria that have been isolated from flowers, however, were isolated from bees. Additionally, all three sweat bee species associated with lactobacilli related to flower-associated lactobacilli. These data suggest that there may be at least two different means by which bees acquire putative probiotics. Some lactobacilli appear specific to corbiculate apids, possibly because they are largely vertically transmitted. Other lactobacilli, however, may be regularly acquired from environmental sources such as flowers. Sweat bee associated lactobacilli were found to be abundant in the pollen and frass inside the nest of halictids, suggesting that they could play a role in suppressing the growth of molds and other spoilage organisms.

Keywords

Acidophilic bacteria, Lactobacillus, phylogeny, 16S amplicon 454 pyrosequencing, insect diseases, insect symbiosis

External links

• DOI: 10.1111/j.1365-294X.2012.05496.x
• Other URL: http://onlinelibrary.wiley.com/doi/10.1111/j.1365-294X.2012.05496.x/abstract

About this resource

• Canonical resource URI: http://purl.org/phylo/treebase/phylows/study/TB2:S12120
• Other versions: Nexus NeXML
• Show BibTeX reference

  		@ARTICLE{TreeBASE2Ref20216,
  	 author = {Quinn Stetson McFrederick and William T.  Wcislo and Douglas R Taylor and Heather D. Ishak and Scot E Dowd and Ulrich G. Mueller},
  	 title = {Environment or kin: whence do bees obtain acidophilic bacteria?},
  	 year = {2012},
  	 keywords = {Acidophilic bacteria, Lactobacillus, phylogeny, 16S amplicon 454 pyrosequencing, insect diseases, insect symbiosis},
  	 doi = {10.1111/j.1365-294X.2012.05496.x},
  	 url = {http://onlinelibrary.wiley.com/doi/10.1111/j.1365-294X.2012.05496.x/abstract},
  	 pmid = {},
  	 journal = {Molecular Ecology },
  	 volume = {},
  	 number = {},
  	 pages = {},
  	 abstract = {As honey bee populations decline, interest in pathogenic and mutualistic relationships between bees and microorganisms has increased.  Honey bees and bumble bees appear to have a simple intestinal bacterial fauna that includes acidophilic bacteria.  Here, we explore the hypothesis that sweat bees can acquire acidophilic bacteria from the environment.  To quantify bacterial communities associated with two species of North American and one species of Neotropical sweat bees, we conducted 16S-amplicon 454-pyrosequencing of bacteria associated with the bees, their brood cells, and their nests.  Lactobacillus spp. were the most abundant bacteria in many, but not all, of the samples.  To determine if bee-associated lactobacilli can also be found in the environment, we reconstructed the phylogenetic relationships of the genus Lactobacillus.  Previously described groups that associate with Bombus and Apis appeared relatively specific to these genera.  Several bacteria that have been isolated from flowers, however, were isolated from bees.  Additionally, all three sweat bee species associated with lactobacilli related to flower-associated lactobacilli.  These data suggest that there may be at least two different means by which bees acquire putative probiotics.  Some lactobacilli appear specific to corbiculate apids, possibly because they are largely vertically transmitted.  Other lactobacilli, however, may be regularly acquired from environmental sources such as flowers.  Sweat bee associated lactobacilli were found to be abundant in the pollen and frass inside the nest of halictids, suggesting that they could play a role in suppressing the growth of molds and other spoilage organisms. }
  }
  		

• Show RIS reference

  		TY  - JOUR
  ID  - 20216
  AU  - McFrederick,Quinn Stetson
  AU  - Wcislo,William T. 
  AU  - Taylor,Douglas R
  AU  - Ishak,Heather D.
  AU  - Dowd,Scot E
  AU  - Mueller,Ulrich G.
  T1  - Environment or kin: whence do bees obtain acidophilic bacteria?
  PY  - 2012
  KW  - Acidophilic bacteria
  KW  - Lactobacillus
  KW  - phylogeny
  KW  - 16S amplicon 454 pyrosequencing
  KW  - insect diseases
  KW  - insect symbiosis
  UR  - http://onlinelibrary.wiley.com/doi/10.1111/j.1365-294X.2012.05496.x/abstract
  N2  - As honey bee populations decline, interest in pathogenic and mutualistic relationships between bees and microorganisms has increased.  Honey bees and bumble bees appear to have a simple intestinal bacterial fauna that includes acidophilic bacteria.  Here, we explore the hypothesis that sweat bees can acquire acidophilic bacteria from the environment.  To quantify bacterial communities associated with two species of North American and one species of Neotropical sweat bees, we conducted 16S-amplicon 454-pyrosequencing of bacteria associated with the bees, their brood cells, and their nests.  Lactobacillus spp. were the most abundant bacteria in many, but not all, of the samples.  To determine if bee-associated lactobacilli can also be found in the environment, we reconstructed the phylogenetic relationships of the genus Lactobacillus.  Previously described groups that associate with Bombus and Apis appeared relatively specific to these genera.  Several bacteria that have been isolated from flowers, however, were isolated from bees.  Additionally, all three sweat bee species associated with lactobacilli related to flower-associated lactobacilli.  These data suggest that there may be at least two different means by which bees acquire putative probiotics.  Some lactobacilli appear specific to corbiculate apids, possibly because they are largely vertically transmitted.  Other lactobacilli, however, may be regularly acquired from environmental sources such as flowers.  Sweat bee associated lactobacilli were found to be abundant in the pollen and frass inside the nest of halictids, suggesting that they could play a role in suppressing the growth of molds and other spoilage organisms. 
  L3  - 10.1111/j.1365-294X.2012.05496.x
  JF  - Molecular Ecology 
  VL  - 
  IS  - 
  ER  -