Abstract
Heritable symbionts have been found to mediate interactions between host species and their natural enemies in a variety of organisms. Aphids, their facultative symbionts, and their potential fitness effects have been particularly well-studied. For example, the aphid facultative symbiont Regiella can protect its host from infection from a fungal pathogen, and aphids with Hamiltonella are less likely to be parasitized by parasitic wasps. Recent work has also found there to be negative fitness effects for the larvae of two species of aphidophagous lady beetles that consumed aphids with facultative symbionts. In both species, larvae that consumed aphids with secondary symbionts were significantly less likely to survive to adulthood. In this study we tested whether adult Harmonia axyridis and Hippodamia convergens lady beetles avoided aphids with symbionts in a series of choice experiments. Adults of both lady beetle species were as likely to choose aphids with symbionts as those without, despite the potential negative fitness effects associated with consuming aphids with facultative symbionts. This may suggest that under natural conditions aphid secondary symbionts are not a significant source of selection for predatory lady beetles.
Highlights
Close associations between eukaryotic organisms and prokaryotic symbionts are ubiquitous across the tree of life
The aphid facultative symbiont Regiella can protect its host from infection from a fungal pathogen, and aphids with Hamiltonella are less likely to be parasitized by parasitic wasps
Host-symbiont mutualisms have been well-studied in insects, and one of the most thoroughly studied has been that of the pea aphid Acyrthosiphon pisum and its single obligate and multiple facultative bacterial symbionts
Summary
Close associations between eukaryotic organisms and prokaryotic symbionts are ubiquitous across the tree of life. These relationships can be detrimental to the host, as in parasitism, neutral for both parties, as in commensalism, or beneficial to the host and the symbiont, as in mutualism [1]. Host-symbiont mutualisms have been well-studied in insects, and one of the most thoroughly studied has been that of the pea aphid Acyrthosiphon pisum and its single obligate and multiple facultative bacterial symbionts. All A. pisum individuals harbor the obligate nutritional symbiont Buchnera aphidicola in specialized cells known as bacteriocytes. Approximately 80% of A. pisum individuals carry one or more facultative symbionts [2]. Seven facultative symbionts have been identified in different populations of A. pisum [3]
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