Interactions between the developmental and adult social environments mediate group dynamics and offspring traits in Drosophila melanogaster

Morimoto, Juliano; Ponton, Fleur; Tychsen, Ilona; Cassar, Jason; Wigby, Stuart

doi:10.1038/s41598-017-03505-2

Cited by 30 publications

(60 citation statements)

References 72 publications

(87 reference statements)

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“…Further studies are nonetheless needed to provide a better understanding of the relationship between fitness and lipid storage in tephritid fruit flies. Our results also showed that, in general, high larval density had a negative effect on pupal and adult weights, which are in agreement with our predictions 1 and 2 as well as previous studies of diverse insect taxa (Bauerfeind & Fischer, 2005;Blanckenhorn, 1998;Lyimo, Takken, & Koella, 1992;Morimoto et al, 2016;Morimoto, Ponton, Tychsen, Cassar, & Wigby, 2017;Wertheim et al, 2002). This confirms our hypothesis that high larval density is costly for individuals (Table 1).…”

Section: Discussionsupporting

confidence: 93%

Interactions between ecological factors in the developmental environment modulate pupal and adult traits in a polyphagous fly

Nguyen

Ponton

Than

et al. 2019

Ecology and Evolution

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In holometabolous insects, adult fitness depends on the quantity and quality of resource acquired at the larval stage. Diverse ecological factors can influence larval resource acquisition, but little is known about how these factors in the larval environment interact to modulate larval development and adult traits. Here, we addressed this gap by considering how key ecological factors of larval density, diet nutritional composition, and microbial growth interact to modulate pupal and adult traits in a polyphagous tephritid fruit fly, Bactrocera tryoni (aka “Queensland fruit fly”). Larvae were allowed to develop at two larval densities (low and high), on diets that were protein‐rich, standard, or sugar‐rich and prepared with or without preservatives to inhibit or encourage microbial growth, respectively. Percentage of adult emergence and adult sex ratio were not affected by the interaction between diet composition, larval density, and preservative treatments, although low preservative content increased adult emergence in sugar‐rich diets but decreased adult emergence in protein‐rich and standard diets. Pupal weight, male and female adult dry weight, and female (but not male) body energetic reserves were affected by a strong three‐way interaction between diet composition, larval density, and preservative treatment, whereby in general, low preservative content increased pupal weight and female lipid storage in sugar‐rich diets particularly at low‐larval density and differentially modulated the decrease in adult body weight caused by larval density across diets. Our findings provide insights into the ecological factors modulating larval development of a polyphagous fly species and shed light into the ecological complexity of the larval developmental environment in frugivorous insects.

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Section: Discussionsupporting

confidence: 93%

Interactions between ecological factors in the developmental environment modulate pupal and adult traits in a polyphagous fly

Nguyen

Ponton

Than

et al. 2019

Ecology and Evolution

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“…In invertebrates, including tephritid fruit flies, high-densities at the larval stage can decrease nutrient availability, and reduce adult body mass, reproductive success, and survival [e.g. 1 , 3 – 9 , 60 ], which can lead to a density-dependent effects on fitness that extends through generations 6 . However, high densities can also mitigate the negative effects of environmental stresses, and act as a buffering factor for individual fitness and survival [reviewed by 77 ].…”

Section: Discussionmentioning

confidence: 99%

“… 1 – 10 ]. Adult body size tends to correlate positively with female fecundity as well as male mating performance and reproductive success 5 , 11 ; accordingly, larval foraging behaviour is under productivity selection in females and sexual selection in males 11 – 15 , with profound effects on behavioural and evolutionary processes such as cognitive task performance, survival, reproduction, and ultimately sexual selection and sexual conflict 6 , 16 – 18 .…”

Section: Introductionmentioning

confidence: 99%

Social and nutritional factors shape larval aggregation, foraging, and body mass in a polyphagous fly

Morimoto

Nguyen

Tabrizi

et al. 2018

Sci Rep

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The majority of insect species have a clearly defined larval stage during development. Larval nutrition is crucial for individuals’ growth and development, and larval foraging success often depends on both resource availability and competition for those resources. To date, however, little is known about how these factors interact to shape larval development and behaviour. Here we manipulated the density of larvae of the polyphagous fruit fly pest Bactrocera tryoni (‘Queensland fruit fly’), and the diet concentration of patches in a foraging arena to address this gap. Using advanced statistical methods of machine learning and linear regression models, we showed that high larval density results in overall high larval aggregation across all diets except in extreme diet dilutions. Larval aggregation was positively associated with larval body mass across all diet concentrations except in extreme diet dilutions where this relationship was reversed. Over time, larvae in low-density arenas also tended to aggregate while those in high-density arenas tended to disperse, an effect that was observed for all diet concentrations. Furthermore, larvae in high-density arenas displayed significant avoidance of low concentration diets – a behaviour that was not observed amongst larvae in low-density arenas. Thus, aggregation can help, rather than hinder, larval growth in high-density environments, and larvae may be better able to explore available nutrition when at high-density than when at low-density.

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“…aegypti and A. gambiae; (Agnew et al 2002;Couret et al 2014;Gimnig et al 2002;Muriu et al 2013)]. In addition, high larval density also decreases larval and adult body mass and reproductive success [flies: D. melanogaster and B. tryoni (Diamantidis et al 2019;Morimoto et al 2016Morimoto et al , 2017aMorimoto et al , 2019a; mosquitoes: Ae. aegypti, Ae.…”

Section: Immediate and Delayed Density-dependent Effectsmentioning

confidence: 99%

“…First, we provide a functional definition of density aimed to standardise the terminology used in density-dependent studies-for our own reference while writing the review and also for future studies, where a functional definition of density will allow for comparative analysis across taxa. Next, we identify the biological levels at which density-dependent effects are manifested in non-social holometabolous insects and review the empirical evidences underpinning density-dependent effects on the larvae (density-dependent immediate effects), adults (density-dependent delayed effects), as well as populations (densitydependent ecological effects) and across generations (density-dependent evolutionary effects) (Agnew et al 2000;Bhavanam and Trewick 2017;Couret et al 2014;Creland et al 1986;Gimnig et al 2002;Hawley 1985;Morimoto et al 2019a;Morimoto et al 2017a). We then discuss recent evidences that density-dependent effects could affect the interactions between the host and its microbial community (density-dependent microbial interactions) and conclude by proposing a conceptual model to explain how density-dependent host-microbial interactions can modulate the strength of density-dependent effects across biological levels.…”

Section: Introductionmentioning

confidence: 99%

Integrative developmental ecology: a review of density-dependent effects on life-history traits and host-microbe interactions in non-social holometabolous insects

Ponton

Morimoto

2020

Evol Ecol

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Population density modulates a wide range of eco-evolutionary processes including inter- and intra-specific competition, fitness and population dynamics. In holometabolous insects, the larval stage is particularly susceptible to density-dependent effects because the larva is the resource-acquiring stage. Larval density-dependent effects can modulate the expression of life-history traits not only in the larval and adult stages but also downstream for population dynamics and evolution. Better understanding the scope and generality of density-dependent effects on life-history traits of current and future generations can provide useful knowledge for both theory and experiments in developmental ecology. Here, we review the literature on larval density-dependent effects on fitness of non-social holometabolous insects. First, we provide a functional definition of density to navigate the terminology in the literature. We then classify the biological levels upon which larval density-dependent effects can be observed followed by a review of the literature produced over the past decades across major non-social holometabolous groups. Next, we argue that host-microbe interactions are yet an overlooked biological level susceptible to density-dependent effects and propose a conceptual model to explain how density-dependent effects on host-microbe interactions can modulate density-dependent fitness curves. In summary, this review provides an integrative framework of density-dependent effects across biological levels which can be used to guide future research in the field of ecology and evolution.

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Interactions between the developmental and adult social environments mediate group dynamics and offspring traits in Drosophila melanogaster

Cited by 30 publications

References 72 publications

Interactions between ecological factors in the developmental environment modulate pupal and adult traits in a polyphagous fly

Interactions between ecological factors in the developmental environment modulate pupal and adult traits in a polyphagous fly

Social and nutritional factors shape larval aggregation, foraging, and body mass in a polyphagous fly

Integrative developmental ecology: a review of density-dependent effects on life-history traits and host-microbe interactions in non-social holometabolous insects

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