A Metagenomic Survey of Microbes in Honey Bee Colony Collapse Disorder

Diana Cox-Foster(National Institutes of Health), Sean Conlan(National Institutes of Health), Edward C. Holmes(National Institutes of Health), Gustavo Palacios(National Institutes of Health), Jay D. Evans(National Institutes of Health), Nancy A. Moran(National Institutes of Health), Phenix‐Lan Quan(National Institutes of Health), Thomas Briese(National Institutes of Health), Mady Hornig(National Institutes of Health), David M. Geiser(National Institutes of Health), Vincent G. Martinson(National Institutes of Health), Dennis vanEngelsdorp(National Institutes of Health), Abby L. Kalkstein(National Institutes of Health), Andrew T. Drysdale(National Institutes of Health), Jeffrey Hui(National Institutes of Health), Junhui Zhai(National Institutes of Health), Liwang Cui(National Institutes of Health), Stephen Hutchison(National Institutes of Health), Jan Fredrik Simons(National Institutes of Health), Michael D. Miller(National Institutes of Health), Jeffery S. Pettis(National Institutes of Health), W. Ian Lipkin(National Institutes of Health)
Science
September 6, 2007
10.1126/science.1146498
Cited by 1,776

Abstract

In colony collapse disorder (CCD), honey bee colonies inexplicably lose their workers. CCD has resulted in a loss of 50 to 90% of colonies in beekeeping operations across the United States. The observation that irradiated combs from affected colonies can be repopulated with naive bees suggests that infection may contribute to CCD. We used an unbiased metagenomic approach to survey microflora in CCD hives, normal hives, and imported royal jelly. Candidate pathogens were screened for significance of association with CCD by the examination of samples collected from several sites over a period of 3 years. One organism, Israeli acute paralysis virus of bees, was strongly correlated with CCD.

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