PT  - JOURNAL ARTICLE
AU  - Eliza Glowska
AU  - Zuzanna K. Filutowska
AU  - Miroslawa Dabert
AU  - Michael Gerth
TI  - Microbial composition of enigmatic bird parasites: &lt;em&gt;Wolbachia&lt;/em&gt; and &lt;em&gt;Spiroplasma&lt;/em&gt; are the most important bacterial associates of quill mites (Acari: Syringophilidae)
AID  - 10.1101/377218
DP  - 2018 Jan 01
TA  - bioRxiv
PG  - 377218
4099  - http://biorxiv.org/content/early/2018/10/15/377218.short
4100  - http://biorxiv.org/content/early/2018/10/15/377218.full
AB  - The microbiome is an integral component of many animal species, potentially affecting behaviour, physiology, and other biological properties. Despite this importance, bacterial communities remain vastly understudied in many groups of invertebrates, including mites. Quill mites (Acariformes: Syringophilidae) are a poorly known group of permanent bird ectoparasites that occupy quills of feathers and feed on bird subcutaneous tissue and fluids. Most species have strongly female biased sex ratios and it was hypothesized that this is caused by endosymbiotic bacteria. Their peculiar lifestyle further makes them potential vectors for bird diseases. Previously, Anaplasma phagocytophilum and a high diversity of Wolbachia strains were detected in quill mites via targeted PCR screens. Here, we use an unbiased 16S amplicon sequencing approach to determine other Bacteria that potentially impact quill mite biology.We performed 16S V4 amplicon sequencing of 126 quill mite individuals from eleven species parasitizing twelve bird species (four families) of passeriform birds. In addition to Wolbachia, we found Spiroplasma as potential symbiont of quill mites. Interestingly, consistently high Spiroplasma titres were only found in individuals of two mite species associated with finches of the genus Cardfuelis, suggesting a history of horizontal transfers of Spiroplasma via the bird host. Furthermore, there was evidence for Spiroplasma negatively affecting Wolbachia titres. We found no evidence for the previously reported Anaplasma in quill mites, but detected the potential pathogens Brucella and Bartonella at low abundances. Other amplicon sequence variants (ASVs) could be assigned to a diverse number of bacterial taxa, including several that were previously isolated from bird skin. We observed a relatively uniform distribution of these ASVs across mite taxa and bird hosts, i.e, there was a lack of host-specificity for most detected ASVs. Further, many frequently found ASVs were assigned to taxa that show a very broad distribution with no strong prior evidence for symbiotic association with animals. We interpret these findings as evidence for a scarcity or lack of resident microbial associates (other than inherited symbionts) in quill mites, or for abundances of these taxa below our detection threshold.