The microbial dimension in insect nutritional ecology

Douglas, Angela E.

doi:10.1111/j.1365-2435.2008.01442.x

Cited by 681 publications

(616 citation statements)

References 59 publications

(76 reference statements)

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“…Further research will be required to understand the mechanistic detail of the complex indirect interactions between plant-soil microbe mutualisms and aphid-bacterial mutualisms. Aphids are not the only agriculturally significant insects to carry facultative endosymbionts [1,5,33], and it has been argued that the ecology and physiology of symbiont-bearing insects cannot be fully understood outside the context of these symbioses [4]. The incorporation of insect symbionts into the design of soil-plant-insect interaction studies could provide further novel insight into the wider ecological significance of facultative symbioses.…”

Section: Discussionmentioning

confidence: 99%

Unpredicted impacts of insect endosymbionts on interactions between soil organisms, plants and aphids

2013

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Ecologically significant symbiotic associations are frequently studied in isolation, but such studies of two-way interactions cannot always predict the responses of organisms in a community setting. To explore this issue, we adopt a community approach to examine the role of plant-microbial and insect-microbial symbioses in modulating a plant-herbivore interaction. Potato plants were grown under glass in controlled conditions and subjected to feeding from the potato aphid Macrosiphum euphorbiae. By comparing plant growth in sterile, uncultivated and cultivated soils and the performance of M. euphorbiae clones with and without the facultative endosymbiont Hamiltonella defensa, we provide evidence for complex indirect interactions between insect-and plant-microbial systems. Plant biomass responded positively to the live soil treatments, on average increasing by 15% relative to sterile soil, while aphid feeding produced shifts (increases in stem biomass and reductions in stolon biomass) in plant resource allocation irrespective of soil treatment. Aphid fecundity also responded to soil treatment with aphids on sterile soil exhibiting higher fecundities than those in the uncultivated treatment. The relative allocation of biomass to roots was reduced in the presence of aphids harbouring H. defensa compared with plants inoculated with H. defensa-free aphids and aphid-free control plants. This study provides evidence for the potential of plant and insect symbionts to shift the dynamics of plant-herbivore interactions.

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Section: Discussionmentioning

confidence: 99%

Unpredicted impacts of insect endosymbionts on interactions between soil organisms, plants and aphids

2013

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“…Well documented in the mammals and in several insects, specific symbioses related to particular trophic habits are widely argued to reflect the importance of bacteria in host dietary utilization (see, for example, Ley et al, 2008;Russell et al, 2009). Empirical and metagenomic evidence clearly indicate such an importance (Feldhaar et al, 2007;Douglas, 2009;Muegge et al, 2011). Hence, are shifts in bacteria essential for shifts in diet or trophic level?…”

Section: The Functional Implications Of Variable Gut Communitiesmentioning

confidence: 99%

Divergence across diet, time and populations rules out parallel evolution in the gut microbiomes of Trinidadian guppies

et al. 2015

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Diverse microbial consortia profoundly influence animal biology, necessitating an understanding of microbiome variation in studies of animal adaptation. Yet, little is known about such variability among fish, in spite of their importance in aquatic ecosystems. The Trinidadian guppy, Poecilia reticulata, is an intriguing candidate to test microbiome-related hypotheses on the drivers and consequences of animal adaptation, given the recent parallel origins of a similar ecotype across streams. To assess the relationships between the microbiome and host adaptation, we used 16S rRNA amplicon sequencing to characterize gut bacteria of two guppy ecotypes with known divergence in diet, life history, physiology and morphology collected from low-predation (LP) and high-predation (HP) habitats in four Trinidadian streams. Guts were populated by several recurring, core bacteria that are related to other fish associates and rarely detected in the environment. Although gut communities of lab-reared guppies differed from those in the wild, microbiome divergence between ecotypes from the same stream was evident under identical rearing conditions, suggesting host genetic divergence can affect associations with gut bacteria. In the field, gut communities varied over time, across streams and between ecotypes in a stream-specific manner. This latter finding, along with PICRUSt predictions of metagenome function, argues against strong parallelism of the gut microbiome in association with LP ecotype evolution. Thus, bacteria cannot be invoked in facilitating the heightened reliance of LP guppies on lower-quality diets. We argue that the macroevolutionary microbiome convergence seen across animals with similar diets may be a signature of secondary microbial shifts arising some time after host-driven adaptation.

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“…The great majority of plant species would quickly go extinct in nature without the mycorrhizal fungi attached to their roots that aid in nutrient capture or without the pollinators that aid in their reproduction. Animals generally rely on an assortment of gut symbionts to aid in nutrition, and the complexity of those symbioses is only starting to be unraveled (van Borm et al 2002;Douglas 2009;Noda et al 2009;Round and Mazmanian 2009).…”

Section: Complex Organisms Require Coevolved Interactions To Survivementioning

confidence: 99%

Four Central Points About Coevolution

Thompson

2010

Evo Edu Outreach

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The microbial dimension in insect nutritional ecology

Cited by 681 publications

References 59 publications

Unpredicted impacts of insect endosymbionts on interactions between soil organisms, plants and aphids

Unpredicted impacts of insect endosymbionts on interactions between soil organisms, plants and aphids

Divergence across diet, time and populations rules out parallel evolution in the gut microbiomes of Trinidadian guppies

Four Central Points About Coevolution

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