natural occurrence of secondary bacterial symbionts in aphids

• Published in: Ecological entomology Vol. 41; no. 1; pp. 13 - 26
• Main Authors: ZYTYNSKA, SHARON E, WEISSER, WOLFGANG W
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.02.2016; Wiley Subscription Services, Inc
• Subjects: Aphididae; Arsenophonus; Bacteria; ecosystems; endosymbionts; geographical distribution; Hamiltonella; host plants; Insects; mixed infection; natural enemies; Regiella; Rickettsia; Serratia; Wolbachia
• ISSN: 0307-6946; 1365-2311
• DOI: 10.1111/een.12281

1. Many insects host secondary bacterial symbionts that are known to have wide‐ranging effects on their hosts, from host‐plant use to resistance against natural enemies. This has been most widely studied in aphids, which have become a model system to study insect–bacteria interactions. 2. While there is an increasing understanding of the role of symbionts in aphids from controlled laboratory studies, we are only beginning to explore the impact of hosting these symbionts on eco‐evolutionary dynamics in natural systems. To date, many research groups have identified bacterial symbionts from various aphid species, providing us with a bank of literature on aphid–symbiont associations in natural populations. 3. The role of secondary symbionts in aphids is discussed, and the taxonomic and geographical distribution of symbionts among aphids are summarised, and the potential reasons for the patterns observed. The need to test for multiple symbiont species (and co‐infections) across many individuals and the whole distribution range of an aphid is highlighted, including sampling on all known host‐plant species. 4. It is further important also to consider variation within the symbiont, the aphid‐host and the surrounding community, e.g. host‐plants or the natural enemies, to understand how these have the potential to mediate aphid–symbiont interactions. 5. Finally, the knowledge gained from experimental work should now be used to understand the role of aphid secondary symbionts in field systems, to fully understand the potentially far‐reaching consequences of aphid endosymbionts on community and ecosystem processes.