scholarly journals Symbiont-mediated protection varies with wasp genotype in the Drosophila melanogaster–Spiroplasma interaction

Heredity ◽  
2020 ◽  
Vol 124 (4) ◽  
pp. 592-602 ◽  
Author(s):  
Jordan Elouise Jones ◽  
Gregory David Douglas Hurst
Keyword(s):  
Genetic Diversity ◽  
Drosophila Melanogaster ◽  
Environmental Factor ◽  
Natural Enemies ◽  
Natural Enemy ◽  
Model System ◽  
Parasitoid Wasps ◽  
Composite Measure ◽  
Natural Systems ◽  
Positive Effect

AbstractThe ability of an insect to survive attack by natural enemies can be modulated by the presence of defensive symbionts. Study of aphid–symbiont–enemy interactions has indicated that protection may depend on the interplay of symbiont, host and attacking parasite genotypes. However, the importance of these interactions is poorly understood outside of this model system. Here, we study interactions within a Drosophila model system, in which Spiroplasma protect their host against parasitoid wasps and nematodes. We examine whether the strength of protection conferred by Spiroplasma to its host, Drosophila melanogaster varies with strain of attacking Leptopilina heterotoma wasp. We perform this analysis in the presence and absence of ethanol, an environmental factor that also impacts the outcome of parasitism. We observed that Spiroplasma killed all strains of wasp. However, the protection produced by Spiroplasma following wasp attack depended on wasp strain. A composite measure of protection, including both the chance of the fly surviving attack and the relative fecundity/fertility of the survivors, varied from a <4% positive effect of the symbiont following attack of the fly host by the Lh14 strain of wasp to 21% for the Lh-Fr strain in the absence of ethanol. We also observed that environmental ethanol altered the pattern of protection against wasp strains. These data indicate that the dynamics of the Spiroplasma–Drosophila–wasp tripartite interaction depend upon the genetic diversity within the attacking wasp population, and that prediction of symbiont dynamics in natural systems will thus require analysis across natural enemy genotypes and levels of environmental ethanol.

scholarly journals Symbiont-mediated protection varies with wasp genotype in the Drosophila melanogaster-Spiroplasma interaction

2019 ◽  
Author(s):  
Jordan E Jones ◽  
Gregory D D Hurst
Keyword(s):  
Drosophila Melanogaster ◽  
Natural Enemies ◽  
Evolutionary Biology ◽  
Model System ◽  
Common Source ◽  
Parasitoid Wasps ◽  
Composite Measure ◽  
Natural Systems ◽  
Microbial Symbionts ◽  
Positive Effect

AbstractThe ability of an insect to survive attack by natural enemies can be modulated by the presence of defensive symbionts. Study of aphid-symbiont-enemy interactions has indicated that protection may depend on the interplay of symbiont, host and attacking parasite genotypes. However, the importance of these interactions are poorly understood outside of this model system. Here, we study interactions within a Drosophila model system, in which Spiroplasma protect their host against parasitoid wasps and nematode attack. We examine whether the strength of protection conferred by Spiroplasma to its host, Drosophila melanogaster varies with strain of attacking Leptopilina heterotoma wasp. We perform this analysis in the presence and absence of ethanol, an environmental factor that also impacts the outcome of parasitism. We observed that Spiroplasma killed all strains of wasp. However, the protection produced by Spiroplasma following wasp attack depended on attacking wasp strain. A composite measure of protection, including both the chance of the fly surviving attack and the relative fecundity/fertility of the survivors, varied from a <4% positive effect of the symbiont following attack of the fly host by the Lh14 strain of wasp to 21% for the Lh-Fr strain in the absence of ethanol. Variation in protection provided was not associated with differences in the oviposition behaviour of the different wasp strains. We observed that environmental ethanol altered the pattern of protection against wasp strains, with Spiroplasma being most protective against the Lh-Mad wasp strain in the presence of ethanol. These data indicate that the dynamics of the Spiroplasma-Drosophila-wasp tripartite interaction depend upon the genetic diversity within the attacking wasp population, and that prediction of symbiont dynamics in natural systems will thus require analysis across natural enemy genotypes and levels of environmental ethanol.Impact SummaryNatural enemies – predators, parasites and pathogens – are a common source of mortality in animals, and this has driven the evolution of an array of mechanisms for preventing and surviving attack. Recently it has been observed that microbial symbionts form a component of insect defence against attack by pathogens and parasites. Whether an individual fly dies or lives following wasp attack, for instance, is partly determined by the presence or absence of Spiroplasma bacteria in the fly blood. The evolutionary biology of these ‘protective symbioses’ will in part depend on the specificity of defence – does Spiroplasma defend against all wasp strains equally, or does defence vary between wasp strains? We investigated this in the model insect, Drosophila melanogaster. We observed that the defensive symbiont killed all strains of wasps tested. However, the capacity of the symbiont to rescue the fly varied – Spiroplasma rescued the flies for some attacking wasp strains, but not for others. These data mean that the degree to which symbionts protect their host will depend on the wasp strains circulating in nature. Our results are important in terms of understanding the forces that promote symbiont mediated protection and understanding the origins of diversity of circulating wasp strains. Further, these data indicate enemy diversity and their interaction with protective symbionts should be included in evaluation of the efficiency of biocontrol programmes involving natural enemies.

scholarly journals Trypanosomatids are common and diverse parasites ofDrosophila

Parasitology ◽  
2011 ◽  
Vol 138 (7) ◽  
pp. 858-865 ◽  
Author(s):  
L. WILFERT ◽  
B. LONGDON ◽  
A. G. A. FERREIRA ◽  
F. BAYER ◽  
F. M. JIGGINS
Keyword(s):  
Genetic Diversity ◽  
Immune Response ◽  
Drosophila Melanogaster ◽  
Phylogenetic Tree ◽  
Related Species ◽  
Natural Populations ◽  
Model System ◽  
Parasite Resistance ◽  
Spliced Leader ◽  
Geographical Locations

SUMMARYDrosophila melanogasteris an important model system of immunity and parasite resistance, yet most studies use parasites that do not naturally infect this organism. We have studied trypanosomatids in natural populations to assess the prevalence and diversity of these gut parasites. We collected several species ofDrosophilafrom Europe and surveyed them for trypanosomatids using conserved primers for two genes. We have used the conserved GAPDH sequence to construct a phylogenetic tree and the highly variable spliced leader RNA to assay genetic diversity. All 5 of the species that we examined were infected, and the average prevalence ranged from 1 to 6%. There are several different groups of trypanosomatids, related to other monoxenous Trypanosomatidae. These may represent new trypanosomatid species and were found in different species of EuropeanDrosophilafrom different geographical locations. The detection of a little studied natural pathogen inD. melanogasterand related species provides new opportunities for research into both theDrosophilaimmune response and the evolution of hosts and parasites.

scholarly journals Genotype and Trait Specific Responses to Rapamycin Intake in Drosophila melanogaster

Insects ◽  
2021 ◽  
Vol 12 (5) ◽  
pp. 474
Author(s):  
Palle Duun Rohde ◽  
Asbjørn Bøcker ◽  
Caroline Amalie Bastholm Jensen ◽  
Anne Louise Bergstrøm ◽  
Morten Ib Juul Madsen ◽  
...  
Keyword(s):  
Drosophila Melanogaster ◽  
Heat Stress ◽  
Side Effects ◽  
Protein Kinase ◽  
Stress Tolerance ◽  
Treated Group ◽  
Model System ◽  
Treatment Efficiency ◽  
Evolutionarily Conserved ◽  
Heat Stress Tolerance

Rapamycin is a powerful inhibitor of the TOR (Target of Rapamycin) pathway, which is an evolutionarily conserved protein kinase, that plays a central role in plants and animals. Rapamycin is used globally as an immunosuppressant and as an anti-aging medicine. Despite widespread use, treatment efficiency varies considerably across patients, and little is known about potential side effects. Here we seek to investigate the effects of rapamycin by using Drosophila melanogaster as model system. Six isogenic D. melanogaster lines were assessed for their fecundity, male longevity and male heat stress tolerance with or without rapamycin treatment. The results showed increased longevity and heat stress tolerance for male flies treated with rapamycin. Conversely, the fecundity of rapamycin-exposed individuals was lower than for flies from the non-treated group, suggesting unwanted side effects of the drug in D. melanogaster. We found strong evidence for genotype-by-treatment interactions suggesting that a ‘one size fits all’ approach when it comes to treatment with rapamycin is not recommendable. The beneficial responses to rapamycin exposure for stress tolerance and longevity are in agreement with previous findings, however, the unexpected effects on reproduction are worrying and need further investigation and question common believes that rapamycin constitutes a harmless drug.

scholarly journals Intercropping Rosemary (Rosmarinus officinalis) with Sweet Pepper (Capsicum annum) Reduces Major Pest Population Densities without Impacting Natural Enemy Populations

Insects ◽  
2021 ◽  
Vol 12 (1) ◽  
pp. 74
Author(s):  
Xiao-wei Li ◽  
Xin-xin Lu ◽  
Zhi-jun Zhang ◽  
Jun Huang ◽  
Jin-ming Zhang ◽  
...  
Keyword(s):  
Integrated Pest Management ◽  
Pest Management ◽  
Pest Control ◽  
Natural Enemies ◽  
Natural Enemy ◽  
Sweet Pepper ◽  
Population Densities ◽  
Pest Population ◽  
Major Pest ◽  
Population Suppression

Intercropping of aromatic plants provides an environmentally benign route to reducing pest damage in agroecosystems. However, the effect of intercropping on natural enemies, another element which may be vital to the success of an integrated pest management approach, varies in different intercropping systems. Rosemary, Rosmarinus officinalis L. (Lamiaceae), has been reported to be repellent to many insect species. In this study, the impact of sweet pepper/rosemary intercropping on pest population suppression was evaluated under greenhouse conditions and the effect of rosemary intercropping on natural enemy population dynamics was investigated. The results showed that intercropping rosemary with sweet pepper significantly reduced the population densities of three major pest species on sweet pepper, Frankliniella intonsa, Myzus persicae, and Bemisia tabaci, but did not affect the population densities of their natural enemies, the predatory bug, Orius sauteri, or parasitoid, Encarsia formosa. Significant pest population suppression with no adverse effect on released natural enemy populations in the sweet pepper/rosemary intercropping system suggests this could be an approach for integrated pest management of greenhouse-cultivated sweet pepper. Our results highlight the potential of the integration of alternative pest control strategies to optimize sustainable pest control.

scholarly journals Comparative approaches to the study of physiology: Drosophila as a physiological tool

2013 ◽  
Vol 304 (3) ◽  
pp. R177-R188 ◽  
Author(s):  
Wendi S. Neckameyer ◽  
Kathryn J. Argue
Keyword(s):  
Gene Expression ◽  
Drosophila Melanogaster ◽  
Pattern Formation ◽  
Signaling Pathways ◽  
Human Disease ◽  
Cognitive Disorders ◽  
Model System ◽  
Critical Questions ◽  
Developmental Signaling ◽  
Shed Light

Numerous studies have detailed the extensive conservation of developmental signaling pathways between the model system, Drosophila melanogaster, and mammalian models, but researchers have also profited from the unique and highly tractable genetic tools available in this system to address critical questions in physiology. In this review, we have described contributions that Drosophila researchers have made to mathematical dynamics of pattern formation, cardiac pathologies, the way in which pain circuits are integrated to elicit responses from sensation, as well as the ways in which gene expression can modulate diverse behaviors and shed light on human cognitive disorders. The broad and diverse array of contributions from Drosophila underscore its translational relevance to modeling human disease.

Adaptive Release of Natural Enemies in a Pest-Natural Enemy System with Pesticide Resistance

2013 ◽  
Vol 75 (11) ◽  
pp. 2167-2195 ◽  
Author(s):  
Juhua Liang ◽  
Sanyi Tang ◽  
Robert A. Cheke ◽  
Jianhong Wu
Keyword(s):  
Natural Enemies ◽  
Natural Enemy ◽  
Pesticide Resistance

scholarly journals Application of Trap Cropping as Companion Plants for the Management of Agricultural Pests: A Review

Insects ◽  
2018 ◽  
Vol 9 (4) ◽  
pp. 128 ◽  
Author(s):  
Shovon Chandra Sarkar ◽  
Endong Wang ◽  
Shengyong Wu ◽  
Zhongren Lei
Keyword(s):  
Pest Management ◽  
Natural Enemies ◽  
Natural Enemy ◽  
Insect Pests ◽  
Cropping Systems ◽  
Insect Pest ◽  
Critical Time ◽  
Trap Crops ◽  
Companion Plant ◽  
Trap Cropping

Companion planting is a well-known strategy to manage insect pests and support a natural enemy population through vegetative diversification. Trap cropping is one such type of special companion planting strategy that is traditionally used for insect pest management through vegetative diversification used to attract insect pests away from the main crops during a critical time period by providing them an alternative preferred choice. Trap crops not only attract the insects for feeding and oviposition, but also act as a sink for any pathogen that may be a vector. Considerable research has been conducted on different trap crops as companion plant species to develop improved pest management strategies. Despite this, little consensus exists regarding optimal trap cropping systems for diverse pest management situations. An advantage of trap cropping over an artificially released natural enemy-based biological control could be an attractive remedy for natural enemies in cropping systems. Besides, many trap crop species can conserve natural enemies. This secondary effect of attracting natural enemies may be an advantage compared to the conventional means of pest control. However, this additional consideration requires a more knowledge-intensive background to designing an effective trap cropping system. We have provided information based on different trap crops as companion plant, their functions and an updated list of trap cropping applications to attract insect pests and natural enemies that should be proven as helpful in future trap cropping endeavors.

scholarly journals The effect of inoculum dose on the genetic diversity detected within Helicoverpa armigera nucleopolyhedrovirus populations

2013 ◽  
Vol 94 (11) ◽  
pp. 2524-2529 ◽  
Author(s):  
Vicky Lynne Baillie ◽  
Gustav Bouwer
Keyword(s):  
Genetic Diversity ◽  
Helicoverpa Armigera ◽  
Gel Electrophoresis ◽  
Denaturing Gradient Gel Electrophoresis ◽  
Model System ◽  
Inoculum Dose ◽  
Significant Difference ◽  
Helicoverpa Armígera ◽  
Gradient Gel Electrophoresis ◽  
Neonate Larvae

Environmental and infection variables may affect the genetic diversity of baculovirus populations. In this study, Helicoverpa armigera nucleopolyhedrovirus (HearNPV) was used as a model system for studying the effects of a key infection variable, inoculum dose, on the genetic diversity within nucleopolyhedrovirus populations. Diversity and equitability indices were calculated from DNA polymerase-specific denaturing gradient gel electrophoresis profiles obtained from individual H. armigera neonate larvae inoculated with either an LD5 or LD95 of HearNPV. Although the genetic diversity detected in larvae treated with an LD95 was not statistically different from the diversity detected in the HearNPV inoculum samples, there was a statistically significant difference in the genetic diversity detected in the LD5-inoculated larvae compared with the genetic diversity detected in the HearNPV samples used for the inoculations. The study suggests that inoculum dose needs to be considered carefully in experiments that evaluate HearNPV genetic diversity or in studies where differences in genetic diversity may have phenotypic consequences.

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