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1. Flies co-opt bacterial toxins for use in defense against parasitoids

   https://doi.org/10.1073/pnas.2304493120  

   Oliver, Kerry M. (May 2023, Proceedings of the National Academy of Sciences)
2. Top-down effects from parasitoids may mediate plant defence and plant fitness

   https://doi.org/DOI: 10.1111/1365-2435.13617  

   Tan, C.-W.; Peiffer, Michelle; Ali, Jared G.; Luthe, D.S.; Felton, Gary w. (October 2020, Functional ecology)

   null (Ed.)

   1. Plants face many environmental stresses that can impact their survival, development and fitness. Insects are the most diverse, abundant and threatening herbivores in nature. As a consequence, plants produce direct chemical and physical defences to reduce herbivory. They also release volatiles to recruit natural enemies that indirectly protect them from herbivory. The recruitment of parasitic wasps can benefit plant fitness because they ultimately kill their insect hosts. 2. Recently, studies showed that parasitoids can indirectly mediate plant defences by modulating herbivore oral secretions. In addition to the direct benefits of parasitoids in terms of reducing herbivore survival, we tested if the reduction in induced defences by parasitized caterpillars compared to non-parasitized caterpillars may reduce the costs associated with defence expression. 3. We provide evidence that tomato plants treated with saliva from parasitized caterpillars have significantly higher fitness parameters including increased flower numbers (16.3%) and heavier fruit weight (13.5%), compared to plants treated with saliva from non-parasitized caterpillars. Since plants were grown without actual herbivores, the higher values for these fitness parameters were due to lower costs of induced defences and not due to reduced herbivory by parasitized caterpillars. Furthermore, the resulting seed germination time was shorter and the germination rate was higher when the maternal plants were previously exposed to parasitized herbivore treatment compared to control (non-treated) plants. 4. Overall, application of saliva did not result in transgenerational priming of offspring defence responses. However, offspring of parents exposed to caterpillar saliva had lower constitutive levels and higher induced levels of trypsin inhibitor than offspring from unexposed parents. 5. This study shows that the saliva of parasitized caterpillars can modulate plant defences and further demonstrates that the lower induction of plant defences is associated with elevated plant fitness in the absence of herbivore feeding, suggesting that induced plant defences are costly. 

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3. Warm temperatures increase population growth of a nonnative defoliator and inhibit demographic responses by parasitoids

   https://doi.org/10.1002/ecy.3156  

   Ward, Samuel F.; Aukema, Brian H.; Fei, Songlin; Liebhold, Andrew M. (November 2020, Ecology)

   null (Ed.)
4. Parasites, parasitoids, and hive products that are potentially deleterious to wild and commercially raised bumble bees (Bombus spp.) in North America

   https://doi.org/10.26786/1920-7603(2023)710  

   Evans, Elaine; Strange, James; Sadd, Ben; Tripodi, Amber; Figueroa, Laura; Adams, Laurie; Colla, Sheila; Duennes, Michelle; Lehmann, David; Moylett, Heather; et al (July 2023, Journal of Pollination Ecology)

   Bumble bees are important pollinators for a great diversity of wild and cultivated plants, and in many parts of the world certain species have been found to be in decline, gone locally extinct, or even globally extinct. A large number of symbionts live on, in, or with these social bees. We give an overview of what is known about bumble bee ecto-symbionts and parasitoids. We provide information on assessment of risks posed by select bumble bee symbionts and methods for their detection, quantification, and control. In addition, we assess honey bee hive products such as pollen and wax that are used in commercial bumble bee production, and highlight key risks and knowledge gaps. Knowledge of these potential threats to native pollinators is important and they need to be managed in the context of national and international commercial trade in bumble bees to prevent pest introduction and pathogen spillover that can threaten native bees. 

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5. Does getting defensive get you anywhere?—Seasonal balancing selection, temperature, and parasitoids shape real‐world, protective endosymbiont dynamics in the pea aphid

   https://doi.org/10.1111/mec.15906  

   Smith, Andrew H.; O’Connor, Michael P.; Deal, Brooke; Kotzer, Coleman; Lee, Amanda; Wagner, Barrett; Joffe, Jonah; Woloszynek, Stephen; Oliver, Kerry M.; Russell, Jacob A. (April 2021, Molecular Ecology)

   Abstract Facultative, heritable endosymbionts are found at intermediate prevalence within most insect species, playing frequent roles in their hosts’ defence against environmental pressures. Focusing onHamiltonella defensa, a common bacterial endosymbiont of aphids, we tested the hypothesis that such pressures impose seasonal balancing selection, shaping a widespread infection polymorphism. In our studied pea aphid (Acyrthosiphon pisum) population,Hamiltonellafrequencies ranged from 23.2% to 68.1% across a six‐month longitudinal survey. Rapid spikes and declines were often consistent across fields, and we estimated that selection coefficients forHamiltonella‐infected aphids changed sign within this field season. Prior laboratory research suggested antiparasitoid defence as the majorHamiltonellabenefit, and costs under parasitoid absence. While a prior field study suggested these forces can sometimes act as counter‐weights in a regime of seasonal balancing selection, our present survey showed no significant relationship between parasitoid wasps andHamiltonellaprevalence. Field cage experiments provided some explanation: parasitoids drove modest ~10% boosts toHamiltonellafrequencies that would be hard to detect under less controlled conditions. They also showed thatHamiltonellawas not always costly under parasitoid exclusion, contradicting another prediction. Instead, our longitudinal survey – and two overwintering studies – showed temperature to be the strongest predictor ofHamiltonellaprevalence. Matching some prior lab discoveries, this suggested that thermally sensitive costs and benefits, unrelated to parasitism, can shapeHamiltonelladynamics. These results add to a growing body of evidence for rapid, seasonal adaptation in multivoltine organisms, suggesting that such adaptation can be mediated through the diverse impacts of heritable bacterial endosymbionts. 

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