124 results on '"Yellowjacket"'
Search Results
2. Nest-departure behaviour of gynes and drones in the invasive yellowjacket Vespula germanica (Hymenoptera: Vespidae)
- Author
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Juan C. Corley, Natalia Rousselot, Maité Masciocchi, and Andrés S. Martínez
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GYNE ,INBREEDING AVOIDANCE ,Zoology ,Gyne ,Ciencias Biológicas ,purl.org/becyt/ford/1 [https] ,Nest ,Inbreeding avoidance ,Yellowjacket ,purl.org/becyt/ford/1.6 [https] ,DRONE ,biology ,Vespidae ,OUTBREEDING ,SOCIAL WASP ,General Medicine ,Ecología ,TEMPORAL SEGREGATION ,biology.organism_classification ,MATING BEHAVIOR ,Insect Science ,Haplodiploidy ,Biological dispersal ,Vespula germanica ,Agronomy and Crop Science ,CIENCIAS NATURALES Y EXACTAS - Abstract
Inbreeding costs can be high in haplodiploid hymenopterans due to their particular mechanism of sex determination (i.e., single-locus complementary sex-determination system, sl-CSD), as it can lead to the production of sterile males. Therefore, mechanisms contributing to reduced inbred matings can be beneficial. In this sense, asynchronous nest departure of sibling drones and gynes could reduce kin encounters in social hymenopterans. Using six observation colonies, we determined under field conditions the nest departure behaviour of sibling reproductives of the social wasp Vespula germanica (Hymenoptera: Vespidae). We determined that sexuals leave the nests definitively and detected asynchronous departure not fixed to a particular caste at a seasonal scale in some colonies, as gynes or drones delayed their departure as a function of the departure of the opposite sex, depending on the colony. At a higher temporal resolution (i.e., within a day), we discovered that drones consistently began to leave nests 1 h before gynes and this difference was driven by those individuals that left on the same day as did the opposite-sex kin. Even though other mechanisms such as polyandry and differential dispersal could also be important at reducing inbred matings in the species, the observed departure patterns (i.e., in some colonies actually leave together with the opposite caste, while in others temporal segregation seems to occur) from nests could be complementary to the former and be important at reducing the negative effects of inbreeding in this invasive species. Fil: Martinez Von Ellrichshausen, Andres Santiago. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche. Instituto de Investigaciones Forestales y Agropecuarias Bariloche. - Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones Forestales y Agropecuarias Bariloche; Argentina Fil: Rousselot, Natalia. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche. Instituto de Investigaciones Forestales y Agropecuarias Bariloche. - Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones Forestales y Agropecuarias Bariloche; Argentina Fil: Corley, Juan Carlos. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche. Instituto de Investigaciones Forestales y Agropecuarias Bariloche. - Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones Forestales y Agropecuarias Bariloche; Argentina Fil: Masciocchi, Maité. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche. Instituto de Investigaciones Forestales y Agropecuarias Bariloche. - Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones Forestales y Agropecuarias Bariloche; Argentina
- Published
- 2020
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3. Isolation, Structure Elucidation, and Total Synthesis of Dolichovespulide, a Sesquiterpene from Dolichovespula Yellowjackets
- Author
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Regine Gries, Gerhard Gries, Santosh Kumar Alamsetti, Catherine McCaughey, Robert Britton, Weiwu Ren, Roger G. Linington, and Kenji L. Kurita
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Dolichovespula ,Stereochemistry ,media_common.quotation_subject ,Pharmaceutical Science ,Insect ,Biology ,Sesquiterpene ,01 natural sciences ,Analytical Chemistry ,03 medical and health sciences ,chemistry.chemical_compound ,Drug Discovery ,Yellowjacket ,030304 developmental biology ,media_common ,Pharmacology ,0303 health sciences ,Natural product ,010405 organic chemistry ,Organic Chemistry ,Total synthesis ,biology.organism_classification ,Terpenoid ,0104 chemical sciences ,Complementary and alternative medicine ,chemistry ,Molecular Medicine ,Pheromone - Abstract
As part of an ongoing program to identify sex attractant pheromone components that mediate sexual communication in yellowjacket wasps, a novel sesquiterpene was isolated from body surface extracts of virgin bald-faced hornet queens, Dolichovespula maculata. The gross structure of this sesquiterpene was proposed through microscale spectroscopic analyses, and the configuration of the central olefin was subsequently confirmed by total synthesis. This new natural product (termed here dolichovespulide) represents an important addition to the relatively small number of terpenoids reported from the taxonomic insect family Vespidae.
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- 2019
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4. Inter‐kingdom signaling — symbiotic yeasts produce semiochemicals that attract their yellowjacket hosts
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Jean Pierre Lafontaine, Gerhard Gries, Tamara Babcock, Margo M. Moore, John H. Borden, Regine Gries, and Cassandra S. Carroll
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0106 biological sciences ,0303 health sciences ,biology ,Vespidae ,Lachancea thermotolerans ,Zoology ,Hymenoptera ,biology.organism_classification ,01 natural sciences ,Vespula pensylvanica ,010602 entomology ,03 medical and health sciences ,Hanseniaspora uvarum ,Insect Science ,Yellowjacket ,Ecology, Evolution, Behavior and Systematics ,030304 developmental biology - Published
- 2019
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5. Evolutionary ecology of insect egg coloration: a review
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Eric Guerra-Grenier
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0106 biological sciences ,0301 basic medicine ,biology ,Zoology ,Aposematism ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Predation ,03 medical and health sciences ,030104 developmental biology ,Animal ecology ,Crypsis ,Heliconius ,Evolutionary ecology ,Yellowjacket ,Paternal care ,Ecology, Evolution, Behavior and Systematics - Abstract
Body coloration in animals is often adaptive and used for defense against biotic (e.g., predators, competitors) and abiotic (e.g., solar radiation, desiccation) threats. The study of adaptive coloration in insects usually favors obvious model species such as yellowjacket wasps (Vespula spp.) and longwing butterflies (Heliconius spp.), partly because they actively interact with their environment. Yet, one life stage has received less attention because of its immobility: the egg. So far, vertebrate eggs, especially avian eggs, have held the ‘‘big end of the stick’’ when it comes to research effort on adaptive egg coloration. In species where eggs are not provided with parental care and left to survive on their own until hatching, studying the defensive roles played by their colors is imperative to understand their evolutionary ecology. Adaptive functions provided by egg coloration such as crypsis, aposematism and photoprotection against ultraviolet radiation potentially have huge fitness impacts and deserve more attention. Here, the current literature on insect egg coloration is reviewed, reporting its known adaptive significance. Clear distinctions are made between functions tested empirically and functions that remain hypothetical despite often being treated as facts. Avenues for future work in the field are also provided.
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- 2019
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6. Viral load, not food availability or temperature, predicts colony longevity in an invasive eusocial wasp with plastic life history
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Erin E. Wilson Rankin and Kevin J. Loope
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0106 biological sciences ,0301 basic medicine ,Science ,media_common.quotation_subject ,Population ,Zoology ,010603 evolutionary biology ,01 natural sciences ,03 medical and health sciences ,Nest ,Yellowjacket ,education ,Semelparity and iteroparity ,media_common ,education.field_of_study ,Multidisciplinary ,biology ,Characteristics of common wasps and bees ,Longevity ,biology.organism_classification ,Eusociality ,Vespula pensylvanica ,030104 developmental biology ,Medicine - Abstract
Social insect colonies exhibit a variety of life history strategies, from the annual, semelparous colonies of temperate bees and wasps to the long-lived colonies of many ants and honeybees. Species introduced to novel habitats may exhibit plasticity in life history strategies as a result of the introduction, but the factors governing these changes often remain obscure. Vespula pensylvanica, a yellowjacket wasp, exhibits such plasticity in colony longevity. Multi-year (perennial) colonies are relatively common in introduced populations in Hawaii, while source populations in the western United States are typically on an annual cycle. Here, we use experiments and observational data to examine how diet, disease, nest thermal environment, and nest location influence colony longevity in a population with both annual and perennial colonies. Counter to our predictions, experimental feeding and warming did not increase colony survival in the winter in the introduced range. However, Moku Virus load and wasp colony density predicted colony survival in one year, suggesting a potential role for disease in modulating colony phenology. We also found that local V. pensylvanica colony density was positively correlated with Moku Virus loads, and that Arsenophonus sp. bacterial loads in V. pensylvanica colonies were positively associated with proximity to feral honeybee (Apis mellifera) hives, suggesting potential transmission routes for these poorly understood symbionts. The factors influencing colony longevity in this population are likely multiple and interactive. More important than food availability, we propose winter precipitation as a critical factor that may explain temporal and spatial variation in colony longevity in these invasive wasps.
- Published
- 2021
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7. Clinical consequences of toxic envenomations by Hymenoptera
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Justin O. Schmidt
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030231 tropical medicine ,Zoology ,Poison control ,Wasp Venoms ,Hymenoptera ,Toxicology ,Insect bites and stings ,Vespula ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Animals ,Humans ,Yellowjacket ,030212 general & internal medicine ,Paraponera ,Envenomation ,biology ,fungi ,Insect Bites and Stings ,food and beverages ,biology.organism_classification ,medicine.disease ,eye diseases ,Sting - Abstract
Many familiar Hymenoptera are brightly colored and can sting painfully-thus, their threat and clinical importance may be exaggerated. Most stinging insects only sting to defend themselves or their colonies from predators. The clinical nature of Hymenoptera envenomations contrasts that of other venomous animals, including other arthropods, primarily because allergic reaction, not direct intoxication, is the usual main concern. This review focuses mainly on the clinical features of direct toxicity to Hymenoptera envenomations, which can induce a high incidence of acute renal failure, liver failure, multiple organ failures, and death. Toxic mass envenomations by honeybees usually entail many hundreds or more stings per victim. In contrast to honeybee toxic envenomations, hornet sting envenomations can be clinically threatening with only 20-200 stings needed to cause kidney and other organ failures. Many lethal envenomations by honeybees occur in rural areas in the New World and Africa and are not recorded or documented. In contrast, deaths by hornets occur mainly to Asia. The most frequent and important envenomating taxa are honeybees, hornets, yellowjacket wasps, paper wasps, fire ants, and jack jumper ants. Occasional envenomating taxa include bumblebees, bullet ants, harvester ants, solitary wasps, solitary bees, and various ants of lesser clinical importance. Envenomations by Hymenoptera usually can be avoided if one considers that bees, wasps and ants "view" us as potential threats or predators, and that with information about the biology of stinging Hymenoptera, humans can minimize adverse incidents.
- Published
- 2018
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8. Cuticular hydrocarbons determine sex, caste, and nest membership in each of four species of yellowjackets (Hymenoptera: Vespidae)
- Author
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Huimin Zhai, Sebastian Ibarra Jimenez, Nathan Derstine, Regine Gries, and Gerhard Gries
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0106 biological sciences ,0301 basic medicine ,Dolichovespula ,Vespidae ,Zoology ,Context (language use) ,Gyne ,Hymenoptera ,Biology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,03 medical and health sciences ,030104 developmental biology ,Nest ,Insect Science ,Yellowjacket ,Vespula squamosa ,Ecology, Evolution, Behavior and Systematics - Abstract
Cuticular hydrocarbons (CHCs) of social insects have typically been studied for their roles in reproductive signaling (i.e., fertility) rather than sexual signaling (i.e., interest in mating), resulting in little information about CHCs of males and virgin females. This dearth of information applies particularly to social wasps. We tested the hypothesis that CHCs differentiate sex, caste, and nest membership in each of four yellowjacket species (baldfaced hornets, Dolichovespula maculata; southern yellowjackets, Vespula squamosa; western yellowjackets, V. pensylvanica; V. alascensis). Cold-euthanized queens (21), gynes (81), workers (125), and males (77) from 35 nests were extracted with pentane, and each of the resulting 304 extracts was analyzed by gas chromatography (GC) and GC–mass spectrometry to identify and quantify CHC constituents (aliphatic alkanes and alkenes; mono-, di-, and tri-methyl-branched alkanes). To determine whether caste and sex differ in CHC profiles of wasps, linear discriminant analyses were performed, using Z-transformed relative CHC peak areas as predictor variables and sex and caste, or nest, as grouping variables. When caste and sex were used as a grouping variable, plots of the first two discriminant functions revealed that wasps from each of the four species clustered into their respective groups (queens, gynes, workers, males), with significant differences in group centroids, as measured by Wilks’ lambda. When nest was used as a grouping variable, plots of the first two discriminant functions revealed that workers from each of the four species and males from each of three species (insufficient sample size for V. pensylvanica) clustered according to nest. Diagnostic power calculations show greater inter-caste than inter-nest variation. Our data support the above hypothesis and inspire future studies to determine the definitive role(s) that gyne- and male-specific CHCs play in the context of sexual communication, from the perspective of both males and females.
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- 2018
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9. Mate-searching behavior in the invasive German wasp, Vespula germanica , in Patagonia
- Author
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Andrés S. Martínez, José M. Villacide, Juan C. Corley, Maité Masciocchi, and Natalia Pisman
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0106 biological sciences ,Integrated pest management ,GYNE ,HYMENOPTERA ,YELLOWJACKET ,Zoology ,Gyne ,Hymenoptera ,010603 evolutionary biology ,01 natural sciences ,SOCIAL INSECT ,Ciencias Biológicas ,DISPERSAL ,REPRODUCTIVE BEHAVIOR ,Yellowjacket ,VESPIDAE ,DRONE ,Ecology, Evolution, Behavior and Systematics ,INTEGRATED PEST MANAGEMENT ,biology ,Vespidae ,MATING SYSTEM ,BEHAVIORAL MANIPULATION ,PEST ,Ecología ,biology.organism_classification ,Mating system ,INVASIVE SPECIES ,010602 entomology ,Insect Science ,EUSOCIAL INSECT ,Biological dispersal ,IPM ,Vespula germanica ,CIENCIAS NATURALES Y EXACTAS - Abstract
In order to increase the probability of reproduction, social insects can adopt various mate-finding strategies, such as increasing densities of males at specific locations, and/or visual and chemical cues that attract the opposite sex. In field and laboratory studies we investigated strategies used by the invasive eusocial wasp Vespula germanica (Fabricius) (Hymenoptera: Vespidae). In tethered flight assays, we established contrasting flight patterns in females and males that may partly explain how related individuals distribute spatially during the mating period. We also determined experimentally, in the field and in the laboratory via olfactometer assays, that gynes produce airborne pheromonal cues that attract drones and are important during mate location. Our field trials also suggest that visual cues play a role in mate location. We conclude that in addition to aspects of the social biology of the species, an efficient mate-location strategy can partly explain the invasion success of the species. Tools to mitigate the damage caused by yellowjackets may be developed by focusing on reproductive castes, in addition to workers. Fil: Martínez Burkett, Andrés Santiago. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche; Argentina Fil: Masciocchi, Maité. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Pisman, Natalia. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche; Argentina Fil: Villacide, José M.. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche; Argentina Fil: Corley, Juan Carlos. Universidad Nacional del Comahue; Argentina. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Patagonia Norte. Estación Experimental Agropecuaria San Carlos de Bariloche; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina
- Published
- 2018
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10. Weak nestmate discrimination behavior in native and invasive populations of a yellowjacket wasp (Vespula pensylvanica)
- Author
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Jocelyn G. Millar, Kevin J. Loope, and Erin E. Wilson Rankin
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0106 biological sciences ,0301 basic medicine ,Ecology ,biology ,Range (biology) ,Zoology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Vespula ,Vespula pensylvanica ,03 medical and health sciences ,030104 developmental biology ,Geographic regions ,Late season ,Yellowjacket ,Polygyny ,Ecology, Evolution, Behavior and Systematics - Abstract
In geographic regions with warm winters, invasive yellowjacket wasp colonies (genus Vespula) often exhibit polygyny (multiple queens) and persist for multiple years, despite these phenomena being rare in the native range. Here, we test the hypothesis that polygyny, caused by foreign queens being accepted into an existing colony, is the result of relaxed nestmate recognition in the invasive range, as has been observed in some supercolonial invasive ants. In bioassays with wild colonies in the field, we found that nestmate discrimination was weak in both invasive (Hawaii) and native (California) populations of Vespula pensylvanica, with significant nestmate discrimination in only ~ 30% of trials. We also found that the diversity and variability of cuticular hydrocarbons, chemical compounds that mediate nestmate recognition, were not reduced in introduced populations, unlike several supercolonial invasive ant species. Our findings suggest that ancestral weak nestmate discrimination behavior of V. pensylvanica may make this species pre-adapted to transition to polygyny and extended colony lifespans when introduced into environments with benign winters that facilitate foreign queens joining existing colonies in late season.
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- 2018
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11. Evaluation of a Hydrogel Matrix for Baiting Western Yellowjacket (Vespidae: Hymenoptera)
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Kathleen Campbell, Mark S. Hoddle, Dong-Hwan Choe, Michael K. Rust, John N. Kabashima, and Monica Dimson
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0106 biological sciences ,Insecticides ,Polyacrylamide Hydrogel ,Wasps ,Polyacrylamide ,macromolecular substances ,Hymenoptera ,010603 evolutionary biology ,01 natural sciences ,chemistry.chemical_compound ,parasitic diseases ,Animals ,Yellowjacket ,Fipronil ,Ecology ,biology ,Vespidae ,food and beverages ,Hydrogels ,General Medicine ,biology.organism_classification ,Vespula pensylvanica ,010602 entomology ,Horticulture ,chemistry ,Insect Science ,Self-healing hydrogels ,Seasons ,Chickens ,human activities - Abstract
Baiting is an effective method to manage Vespula spp. yellowjacket (Hymenoptera: Vespidae) populations without having to locate and treat nests. Here, we assessed the utility of a commercially available polyacrylamide hydrogel as an alternative bait material for yellowjacket baiting. The experimental bait (hereafter referred to as 'hydrogel bait') consisted of diluted chicken juice (from canned chicken meat) and fipronil (0.025%, wt/wt) absorbed into granular polyacrylamide hydrogel particles. Three separate 24-h baiting trials were conducted at two different field sites with the western yellowjacket, Vespula pensylvanica (Saussare), as the target species. The monitoring data from pre- and posttreatment periods indicated that baiting with polyacrylamide hydrogel baits provided ≈74-96% reduction in the foraging activity of V. pensylvanica during its active season. In addition to their ability to absorb large quantities of aqueous bait containing phagostimulants and toxicants, the hydrogels' tactile resemblance to fresh meat upon hydration makes them a promising option as a non-meat material for delivering small amounts of insecticides to yellowjacket populations in a highly targeted manner.
- Published
- 2018
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12. Evidence for sex pheromones and inbreeding avoidance in select North American yellowjacket species
- Author
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Sebastian Ibarra Jimenez, Nathan Derstine, Peter J. Landolt, Gerhard Gries, and Bonnie Ohler
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0106 biological sciences ,biology ,Dolichovespula ,Ecology ,ved/biology ,ved/biology.organism_classification_rank.species ,Zoology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Vespula ,Vespula pensylvanica ,010602 entomology ,Insect Science ,Sex pheromone ,Inbreeding avoidance ,Yellowjacket ,Dolichovespula arenaria ,Vespula squamosa ,Ecology, Evolution, Behavior and Systematics - Abstract
Little is known about the roles of sex pheromones in mate-finding behavior of social wasps (Vespidae). Working with the aerial yellowjacket, Dolichovespula arenaria (Fabricius), baldfaced hornet, Dolichovespula maculata (L.), western yellowjacket, Vespula pensylvanica (Saussure), southern yellowjacket, Vespula squamosa (Drury), and Vespula alascensisPackard, we tested the hypotheses (1) that gynes produce an airborne sex pheromone attractive to males, and (2) that males are more strongly attracted to non-sibling gynes based on olfactory cues. A field experiment provided the first definitive evidence that D. arenaria gynes attract males. Surprisingly, we did not find such evidence in similar field experiments for sexual attractiveness of gynes of V. squamosa, V. pensylvanica, V. alascensis, or D. maculata. In Y-tube olfactometer experiments with three of these species (D. arenaria, D. maculata, V. pensylvanica), only D. maculata gynes attracted males, provided they were non-siblings, implying an olfactory-based mechanism of nestmate recognition and inbreeding avoidance. Lack of sex attraction responses for V. pensylvanica, V. alascensis, and V. squamosa in this study does not rule out pheromone-mediated sexual communication. Instead, it highlights the possibility that pheromonal signaling may be dependent on the presence of appropriate contextual cues.
- Published
- 2017
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13. Reproductive Partitioning in Vespula squamosa (Hymenoptera: Vespidae)
- Author
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Stephanie Stewart, Gary N. Fritz, Ann H. Fritz, and Anthony J. Deets
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0106 biological sciences ,biology ,Vespidae ,Ecology ,Context (language use) ,Hymenoptera ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Eusociality ,010602 entomology ,Nest ,Spermatheca ,Insect Science ,Yellowjacket ,Vespula squamosa ,reproductive and urinary physiology ,Ecology, Evolution, Behavior and Systematics - Abstract
The yellowjacket, Vespula squamosa (Drury) (Hymenoptera: Vespidae), is the only eusocial wasp that commonly has 2 social forms (monogyne and polygyne nests), has annual and perennial nests, facultatively usurps the nests of conspecifics, and parasitizes other vespine species. Thus, V. squamosa is ideally suited for examining various phenotypic and genetic variables as they relate to different social alternatives in the context of kin selection theory. In this study, we compared various metrics relating to reproduction for queens in monogyne versus polygyne nests including queen abdominal weight, fertility, egg number, egg size, and worker relatedness. Monogyne nests (N = 7) and polygyne nests (N = 5) were collected from Georgia and Florida, USA. Examination of nest comb material indicated all polygyne nests were perennial; the number of workers in these nests varied from approximately 700 to 36,379. All monogyne nests were annual and had fewer than 1,500 workers. Single queens were more physogastric than their polygyne counterparts and had significantly more mature eggs per ovary. Polygyne queens, however, had significantly larger eggs but produced smaller workers. Twelve percent of the queens in polygyne nests were either devoid of sperm or did not have full spermathecae (n = 142), whereas the spermathecae of single queens (n = 7) were replete with spermatozoa. Mean genetic relatedness among workers in perennial, polygyne nests suggests these nests include multiple egg-laying queens.
- Published
- 2017
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14. Phylogenomic analysis of yellowjackets and hornets (Hymenoptera: Vespidae, Vespinae)
- Author
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Ingi Agnarsson, James M. Carpenter, Bryan A. Ballif, Federico Lopez-Osorio, and Kurt M. Pickett
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0301 basic medicine ,DNA, Complementary ,Dolichovespula ,Vespidae ,Wasps ,Zoology ,Sequence Analysis, DNA ,Biology ,biology.organism_classification ,Biological Evolution ,Eusociality ,Vespula ,03 medical and health sciences ,Monophyly ,030104 developmental biology ,Phylogenetics ,Vespinae ,Genetics ,Animals ,RNA ,Yellowjacket ,Transcriptome ,Molecular Biology ,Phylogeny ,Ecology, Evolution, Behavior and Systematics - Abstract
The phylogenetic relationships among genera of the subfamily Vespinae (yellowjackets and hornets) remain unclear. Yellowjackets and hornets constitute one of the only two lineages of highly eusocial wasps, and the distribution of key behavioral traits correlates closely with the current classification of the group. The potential of the Vespinae to elucidate the evolution of social life, however, remains limited due to ambiguous genus-level relationships. Here, we address the relationships among genera within the Vespinae using transcriptomic (RNA-seq) data. We sequenced the transcriptomes of six vespid wasps, including three of the four genera recognized in the Vespinae, combined our data with publicly available transcriptomes, and assembled two matrices comprising 1,507 and 3,356 putative single-copy genes. The results of our phylogenomic analyses recover Dolichovespula as more closely related to Vespa than to Vespula, therefore challenging the prevailing hypothesis of yellowjacket (Vespula+Dolichovespula) monophyly. This suggests that traits such as large colony size and high paternity arose in the genus Vespula following its early divergence from the remaining vespine genera.
- Published
- 2017
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15. Dispersal behavior of yellowjacket (Vespula germanica) queens
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Juan C. Corley, Maité Masciocchi, Andrés S. Martínez, José M. Villacide, and Ana Julia Pereira
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0106 biological sciences ,education.field_of_study ,biology ,Ecology ,education ,Population ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,General Biochemistry, Genetics and Molecular Biology ,010602 entomology ,Nest ,Insect Science ,Biological dispersal ,Queen (butterfly) ,Yellowjacket ,Vespula germanica ,Agronomy and Crop Science ,Inbreeding ,Ecology, Evolution, Behavior and Systematics ,Overwintering - Abstract
Understanding the factors that affect animal dispersal behavior is important from both fundamental and applied perspectives. Dispersal can have clear evolutionary and ecological consequences, but for nonnative insect pests, dispersal capacity can also help to explain invasion success. Vespula germanica is a social wasp that, in the last century, has successfully invaded several regions of the world, showing one of the highest spread rates reported for a nonnative insect. In contrast with nonsocial wasps, in social species, queens are responsible for population redistribution and spread, as workers are sterile. For V. germanica, it has been observed that queen flight is limited to 2 distinct periods: early autumn, when new queens leave the nest to mate and find sheltered places in which to hibernate, and spring when new colonies are founded. Our aim was to study the flight behavior of V. germanica queens by focusing on the different periods in which dispersal occurs, characterizing as well the potential contribution of queen flight (i.e., distance) to the observed geographical spread. Our results suggest that the distances flown by nonoverwintered queens is greater than that flown by overwintered individuals, suggesting that the main queen dispersal events would occur before queens enter hibernation. This could relate to a behavioral trait of the queens to avoid the inbreeding with related drones. Additionally, given the short distances flown and remarkable geographical spread observed, we provide evidence showing that queen dispersal by flight is likely to contribute proportionately less to population spread than human-aided factors.
- Published
- 2016
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16. Lachancea thermotolerans, a Yeast Symbiont of Yellowjackets, Enhances Attraction of Three Yellowjacket Species (Hymenoptera: Vespidae) to Fruit Powder
- Author
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Tamara Babcock, John H. Borden, Margo M. Moore, Regine Gries, Cassandra S. Carroll, and Gerhard Gries
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0106 biological sciences ,0301 basic medicine ,Wasps ,Hymenoptera ,Insect Control ,01 natural sciences ,Pheromones ,Vespula ,03 medical and health sciences ,Botany ,Animals ,Yellowjacket ,Semiochemical ,Ecology, Evolution, Behavior and Systematics ,Behavior, Animal ,Ecology ,biology ,Vespidae ,biology.organism_classification ,Attraction ,Yeast ,Vespula pensylvanica ,010602 entomology ,030104 developmental biology ,Fruit ,Insect Science ,Saccharomycetales - Abstract
Previously, we showed that the symbiotic yeast Lachancea thermotolerans (Filippov) (Saccharomycetales: Saccharomycetaceae) is attractive to its Vespula (Hymenoptera: Vespidae) yellowjacket hosts when grown on media supplemented with grape juice. We hypothesized that "Concerto", a commercial strain of this yeast, could be combined with fruit powder to form a shelf-stable bait for trapping yellowjackets. Using molecular techniques, we first confirmed that Concerto yeast is indeed the species L. thermotolerans. We then tested whether: 1) Concerto yeast produces volatiles similar to those produced by L. thermotolerans isolated from yellowjackets, 2) Concerto yeast enhances attraction of yellowjackets to fruit powder, 3) a Concerto yeast/fruit powder bait interacts synergistically with a yellowjacket semiochemical lure, and 4) a synthetic analog blend of Concerto-produced volatiles attracts yellowjackets. Using gas chromatography-mass spectrometry, we demonstrated that the chemical composition of Concerto-produced volatiles closely resembles that produced by a yellowjacket-isolated strain of L. thermotolerans. In field experiments, addition of Concerto to fruit powder doubled its attractiveness to yellowjackets. Addition of the Concerto/fruit powder bait to a heptyl butyrate-based wasp lure revealed a weak additive effect. A three-component synthetic analog blend of volatiles identified from the Concerto/fruit powder bait attracted Vespula pensylvanica (Saussure), but no other yellowjacket species. Our results suggest that commercial L. thermotolerans in combination with fruit powder could be used as a yellowjacket bait, and that addition of yeast-produced volatiles to a commercial wasp lure may improve its attractiveness to V. pensylvanica. Further research should determine why the synthetic volatile blend failed to attract Vespula species other than V. pensylvanica.
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- 2018
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17. Feeding strategies and intraspecific competition in German yellowjacket (Vespula germanica)
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Michelina Pusceddu, Alberto Satta, Ignazio Floris, and Alessandra Mura
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0106 biological sciences ,Life Cycles ,Wasps ,lcsh:Medicine ,Predation ,Social Sciences ,01 natural sciences ,Abdomen ,Medicine and Health Sciences ,Psychology ,Yellowjacket ,Foraging ,lcsh:Science ,media_common ,Multidisciplinary ,biology ,Ecology ,Animal Behavior ,Eukaryota ,Bees ,Thorax ,Trophic Interactions ,Insects ,Community Ecology ,Vespula germanica ,Anatomy ,Honey Bees ,Research Article ,Apiary ,Arthropoda ,media_common.quotation_subject ,Zoology ,010603 evolutionary biology ,Competition (biology) ,Intraspecific competition ,Animals ,Behavior ,lcsh:R ,Ecology and Environmental Sciences ,Organisms ,Biology and Life Sciences ,Feeding Behavior ,Pupae ,biology.organism_classification ,Invertebrates ,Hymenoptera ,Brood ,010602 entomology ,Predatory Behavior ,lcsh:Q ,Developmental Biology - Abstract
The German yellowjacket (Vespula germanica) is an opportunist predator and a scavenger, whose eclectic diet also includes honey, brood, dead and live honey-bees. There is no evidence in this species of coordinated attacks against bees involving other conspecifics, although intraspecific competition has been already reported between two or more individuals during feeding. Our aim was to gain further knowledge on the feeding behavior of V. germanica in order to evaluate its role in an apiary. Sight observations of predation and necrophagy behaviors were carried out at the ground level near hives. We also investigated how intraspecific competition can influence the feeding display in this species. Our results confirm the major role of the German yellowjacket as a scavenger, because its diet is based mostly on bee carrions. Intraspecific competition during feeding was sometimes observed. When these events occurred, the interference of another wasp led to the bee escaping only in three cases. Our study also revealed that intraspecific competition events increase when the resource is fresh (predation vs necrophagy), and that the number of competing wasps was significantly higher when the food consisted of pupae and drones, compared to adult bees. When competition involved two individuals (the most frequent case), the winner was frequently the first wasp to reach the resource in both predation and necrophagy events. This suggests that the energy invested in foraging or predating activity and in defence of prey is usually rewarded.
- Published
- 2018
18. Molecular phylogeny and identification of the Egyptian wasps (Hymenoptera: Vespidae) based on COI mitochondrial gene sequences
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Amr Ageez, Emtithal M. Abd-El-Samie, Israa Elkafrawy, and Mai Osama
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0106 biological sciences ,0301 basic medicine ,Dolichovespula ,Plant Science ,Hymenoptera ,010603 evolutionary biology ,01 natural sciences ,DNA barcoding ,COI ,lcsh:Agriculture ,03 medical and health sciences ,Yellowjacket ,Phylogeny ,Genetic diversity ,Ecology ,biology ,Vespidae ,lcsh:S ,biology.organism_classification ,030104 developmental biology ,Evolutionary biology ,Insect Science ,Molecular phylogenetics ,Egypt ,Polistes ,Agronomy and Crop Science - Abstract
The Hymenoptera is one of the vital and biggest insect orders comprising the bees, wasps, sawflies, and ants. Wasps are important to natural and biological pest control because they are predators or parasitoids of pest arthropods. This study investigated the genetic diversity among the three wasps, Vespa orientalis Linnaeus, Polistes bucharensis Erichson, and Polistes mongolicus du Buysson, collected from three different governorates in Egypt, using cytochrome oxidase subunit I (COI) DNA barcoding. PCR was performed to amplify COI fragment. The amplified COI regions (710 bp) were sequenced and analyzed. All novel nucleotide sequences of COI gene were deposited into the GenBank database. The genetic distances were estimated using Kimura two-parameter model. In spite of the wide geographical range, minor genetic diversity was observed between some populations of the three wasp species, revealing unrestricted gene flow between them. Phylogenetic relationship analysis was performed, using maximum likelihood (ML) method. The results of the phylogenetic analyses recovered P. bucharensis more closely related to P. dominula and P. gallicus. P. mongolicus collected from Menofia Governorate formed a distinct branch with 99% support. V. orientalis was sister to the yellowjacket Dolichovespula adulterine, with 84% support. It can be concluded that DNA barcode is a powerful tool for rapid and accurate identification of Egyptian wasp species.
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- 2018
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19. Gastral drumming: a nest-based food-recruitment signal in a social wasp
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Benjamin J. Taylor and Robert L. Jeanne
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0106 biological sciences ,Forage (honey bee) ,biology ,Vespidae ,digestive, oral, and skin physiology ,05 social sciences ,Foraging ,Wasps ,Zoology ,General Medicine ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Nesting Behavior ,Animal Communication ,Nest ,Vespinae ,Animals ,0501 psychology and cognitive sciences ,Yellowjacket ,050102 behavioral science & comparative psychology ,Vespula germanica ,Ecology, Evolution, Behavior and Systematics ,Trophallaxis - Abstract
Many social insect species produce signals that either recruit foragers to a specific food source or simply activate more nestmates to become foragers. Both are means of enhancing resource exploitation by increasing the number of individuals devoted to gathering profitable resources. Gastral drumming (GD) has been documented in several species of yellowjackets and hornets (Vespidae: Vespinae). It has been hypothesized that it is a hunger signal, but there is little empirical evidence to support this claim. An alternative hypothesis is that GD recruits workers to forage for food. Here, we report the results of a test between the hunger-signal and food-recruitment hypotheses in the German yellowjacket wasp, Vespula germanica. We show that the rate of performance of GD decreased when colonies were deprived of food and increased when supplemental food was provided. Playback of GD caused increased rates of (1) movement in the nest, (2) trophallaxis, and (3) worker departures from the nest. Together, these results support the conclusion that GD is not a hunger signal as previously asserted but instead is a nest-based food-recruitment signal, the first to be reported for a social wasp.
- Published
- 2017
20. Component-resolved diagnosis in selecting patients for yellowjacket venom immunotherapy
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Sanna Edelman, Mika J. Mäkelä, Paula Kauppi, Anna Kaarina Kukkonen, Anna S. Pelkonen, Clinicum, Department of Dermatology, Allergology and Venereology, University of Helsinki, and HUS Inflammation Center
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Male ,Allergy ,medicine.medical_treatment ,Wasps ,Venom ,Wasp Venoms ,BASOPHIL ACTIVATION TEST ,Immunoglobulin E ,RVES V 5 ,API M 1 ,0302 clinical medicine ,Immunology and Allergy ,Yellowjacket ,030212 general & internal medicine ,Child ,Sensitization ,biology ,Area under the curve ,Middle Aged ,VESPULA VENOM ,3. Good health ,SENSITIZATION ,SERUM TRYPTASE ,medicine.anatomical_structure ,Child, Preschool ,Female ,Pulmonary and Respiratory Medicine ,Adult ,Adolescent ,Immunology ,Tryptase ,03 medical and health sciences ,WASP VENOM ,Young Adult ,medicine ,Hypersensitivity ,Animals ,Humans ,STING REACTIONS ,Serologic Tests ,IGE ,RECOMBINANT ALLERGENS ,Aged ,Retrospective Studies ,Skin Tests ,business.industry ,Patient Selection ,Infant ,Immunotherapy ,Allergens ,biology.organism_classification ,medicine.disease ,030228 respiratory system ,Desensitization, Immunologic ,3121 General medicine, internal medicine and other clinical medicine ,Case-Control Studies ,biology.protein ,Immunization ,business - Abstract
Background: Venom immunotherapy is effective in preventing systemic allergic reactions (SARs), but the diagnosis of venom allergy is problematic. Objective: To compare the performance of component-resolved diagnosis and conventional tests in patients referred for venom immunotherapy. Methods: We measured serum-specific immunoglobulin E to yellowjacket and honeybee venoms (Ves v 1 and Ves v 5 and Api m 1), cross-reactive carbohydrate determinants, serum basal tryptase (ImmunoCAP, ThermoFisher Scientific, Uppsala, Sweden), and skin prick test reactions in 84 patients referred to receive venom immunotherapy. History of SAR and its severity were evaluated. Results: Of the 78 patients with suspected yellowjacket venom (YJV) allergy, a history of SAR was confirmed in 47 (60%) and 31 (40%) had a non-SAR reaction. The most accurate tests to confirm venom allergy after a SAR were serum-specific immunoglobulin E to yellowjacket whole-venom extract spiked with Ves v 5 (area under the curve 0.87, 95% confidence interval 0.77-0.97, P
- Published
- 2017
21. Behavior, Ecology, Natural History, and Distribution of Stinging Hymenoptera
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Justin O. Schmidt
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Fire ant ,biology ,Dolichovespula ,Ecology ,Zoology ,Yellowjacket ,Polybia ,Hymenoptera ,Honey bee ,Polistes ,biology.organism_classification ,Vespula - Abstract
Stings by honey bees (Apis), bumble bees (Bombus), yellowjacket wasps (Vespula and Dolichovespula), paper wasps (Polistes), hornets (Vespa), fire ants (Solenopsis), other ants (Myrmecia, Pogonomyrmex, Myrmica, Brachyponera, Wasmannia, etc.), and a variety of tropical social wasps (Polybia, etc.) constitute an important medical challenge for clinicians and a physical and psychological challenge for patients. The behavior and biology of the major stinging insects responsible for causing hypersensitive reactions is presented with emphasis on how providers can educate their patients to prevent future stings and the disabling fear these insects sometimes engender.
- Published
- 2017
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22. Social context influences cue-mediated recruitment in an invasive social wasp
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Erin E. Wilson-Rankin
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Vespula pensylvanica ,biology ,Vespidae ,Nest ,Animal ecology ,Ecology ,Foraging ,Animal Science and Zoology ,Context (language use) ,Yellowjacket ,biology.organism_classification ,Ecology, Evolution, Behavior and Systematics ,Vespula - Abstract
Social insects often serve as model systems for communication and recruitment studies, and yet, it remains controversial whether social vespid wasps can reliably communicate resource information to nestmates. In this study, I present empirical evidence that foraging strategies depend on the initial assessment of resource size and potential competition by foraging yellowjackets. The context dependent foraging behavior of Vespula pensylvanica provides a potential explanation for the inconsistent reports of the existence of recruitment communication in vespid wasps. Furthermore, life history traits may influence yellowjacket foraging behavior; annual V. pensylvanica colonies, whose foragers routinely patrol near the nest, exhibited increased bait visitation in response to the return of successful foragers, whereas perennial colonies did not. These behavioral disparities provide insight into how foraging strategies and search patterns may shift with colony size and longevity. In experiments that investigate the effects of visual cues of conspecifics and bait dispersion, foraging decisions corresponded with expectations of yellowjackets integrating resource quantity and access into a perception of demand. When resource competition could be assessed as high, V. pensylvanica foragers quickly exploited the bait closest to their colony regardless of occupation by other wasps; however, foragers preferred visiting unoccupied baits in situations where competition could be perceived as low. Moreover, a meta-analysis revealed that context-dependent, cue-mediated recruitment was widespread in Vespidae, where such foraging behaviors changed with habitat and the potential for resource competition. Such plastic foraging strategies may contribute to the invasion success of some vespid wasps.
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- 2014
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23. DISPERSAL OF SPICEBUSH (CALYCANTHUS OCCIDENTALIS, CALYCANTHACEAE) BY YELLOW JACKETS (GENUS VESPULA; HYMENOPTERA: VESPIDAE)
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John J. Beck and Dylan O. Burge
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0106 biological sciences ,Diaspore (botany) ,Achene ,biology ,Vespidae ,Zoology ,Hymenoptera ,Calycanthus ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Vespula ,Vespula pensylvanica ,Yellowjacket ,010606 plant biology & botany - Abstract
Carnivorous wasps of the family Vespidae are known to seek out and disperse the diaspores of at least two North American and two Asian plant species. Attraction of the wasps to the diaspores is likely due to the release of volatile compounds that signal availability of an eliaiosome rich in protein and fat, which the wasps remove before releasing the diaspore. It is thought that this interaction between carnivorous wasps and plants is rare, occurring in just a few plant species. Here, we present our findings on dispersal of spicebush (Calycanthus occidentalis Hook. & Arn.) achenes by carnivorous wasps of the genus Vespula. Observations and experiments were performed with the goals of discovering: how geographically widespread this interaction is; what the reward system is, if any; and, how wasps detect the achenes. Eight populations of C. occidentalis in northern California were used to observe wasps and plants, and to perform experiments on wasp attraction to the achenes. In all examined populations, workers of western yellowjacket (Vespula pensylvanica [de Saussure, 1857]) were observed entering mature Calycanthus receptacles, removing achenes, taking flight with them, and successfully transporting achenes through the air. Receptacles were found to open upward at an average angle of 45° (SD = 29°), preventing the achenes from falling to the ground when mature. No animals other than wasps were observed visiting the receptacles during the observations. Experiments suggest that wasps are attracted to an elaiosome-like organ of the achene. Nutritional analysis shows that this organ is high in fat and protein. Further experiments using solvent extracts of the achenes suggest that the attraction is likely mediated by volatile compounds.
- Published
- 2019
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24. Matricide and queen sex allocation in a yellowjacket wasp
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Kevin J. Loope
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0106 biological sciences ,0301 basic medicine ,Male ,Reproduction (economics) ,media_common.quotation_subject ,Oviposition ,ved/biology.organism_classification_rank.species ,Wasps ,Zoology ,Kin selection ,Biology ,010603 evolutionary biology ,01 natural sciences ,Queen (playing card) ,03 medical and health sciences ,Animals ,Yellowjacket ,Sex Ratio ,Ecology, Evolution, Behavior and Systematics ,Sex allocation ,media_common ,Daughter ,Behavior, Animal ,Ecology ,ved/biology ,Reproduction ,General Medicine ,biology.organism_classification ,030104 developmental biology ,behavior and behavior mechanisms ,Dolichovespula arenaria ,Female ,Sex ratio - Abstract
In many colonies of social insects, the workers compete with each other and with the queen over the production of the colony's males. In some species of social bees and wasps with annual societies, this intra-colony conflict even results in matricide-the killing of the colony's irreplaceable queen by a daughter worker. In colonies with low effective paternity and high worker-worker relatedness, workers value worker-laid males more than queen-laid males, and thus may benefit from queen killing. Workers gain by eliminating the queen because she is a competing source of male eggs and actively inhibits worker reproduction through policing. However, matricide may be costly to workers if it reduces the production of valuable new queens and workers. Here, I test a theoretical prediction regarding the timing of matricide in a wasp, Dolichovespula arenaria, recently shown to have facultative matricide based on intra-colony relatedness. Using analyses of collected, mature colonies and a surgical manipulation preventing queens from laying female eggs, I show that workers do not preferentially kill queens who are only producing male eggs. Instead, workers sometimes kill queens laying valuable females, suggesting a high cost of matricide. Although matricide is common and typically occurs only in low-paternity colonies, it seems that workers sometimes pay substantial costs in this expression of conflict over male parentage.
- Published
- 2016
25. The use of attractants for western yellowjacket IPM
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Kathleen Campbell
- Subjects
biology ,Yellowjacket ,biology.organism_classification - Published
- 2016
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26. Allocation of Colony-Level Foraging Effort in Vespula germanica in Response to Food Resource Quantity, Quality, and Associated Olfactory Cues
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Benjamin J. Taylor, Erik V. Nordheim, and Robert L. Jeanne
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Forage (honey bee) ,Resource (biology) ,Ecology ,media_common.quotation_subject ,Foraging ,Biology ,biology.organism_classification ,Nest ,Odor ,Animal Science and Zoology ,Quality (business) ,Yellowjacket ,Vespula germanica ,Ecology, Evolution, Behavior and Systematics ,media_common - Abstract
In social insects, selection takes place primarily at the level of the colony. Therefore, unlike solitary insects, social species are expected to forage at rates that maximize colony fitness rather than individual fitness. Workers can increase the net benefit of foraging by responding to increased resource availability, by responding more strongly to higher-quality resources, and by decreasing the uncertainty with which nestmates find resources. Unlike many ants and social bees, no social wasp is known to utilize a nest-based recruitment signal to inform nestmates of food location. On the other hand, wasps do learn the odor of food brought to the nest and use this cue to locate the food source outside the nest. Here, we quantify the effects of three food-associated variables on the allocation of foraging effort in the yellowjacket Vespula germanica. We used an experimental approach to assess whether resource quantity, quality, or associated olfactory information affect the probability that a forager will leave the nest on a foraging trip. We addressed these questions by inserting a known amount of sucrose solution directly into nests and recording foraging effort (departure rate) over the subsequent hour-long observation period. No differences were found in foraging effort because of the presence/absence of olfactory cues, but there was strong evidence that foraging effort increased in response to resource influx and resource quality. Thus, while olfactory cues are learned in the nest, only resource quality and the cue of increased amount of food in the nest factor into a forager's decision of whether or not to depart on a foraging trip. However, as prior work has shown, once a wasp forager leaves the nest, it uses the learned olfactory cues to aid in finding resources.
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- 2012
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27. Short- and long-term control of Vespula pensylvanica in Hawaii by fipronil baiting
- Author
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Cause Hanna, David Foote, and Claire Kremen
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Insecticides ,Time Factors ,Human welfare ,macromolecular substances ,Hymenoptera ,Insect Control ,Hawaii ,Invasive species ,Toxicology ,chemistry.chemical_compound ,Animals ,Yellowjacket ,Fipronil ,Behavior, Animal ,biology ,Ecology ,business.industry ,Pest control ,General Medicine ,biology.organism_classification ,Vespula pensylvanica ,Butyrates ,chemistry ,Insect Science ,Pyrazoles ,business ,Chickens ,human activities ,Agronomy and Crop Science ,Long term control - Abstract
BACKGROUND: The invasive western yellowjacket wasp, Vespula pensylvanica (Saussure), has significantly impacted the ecological integrity and human welfare of Hawaii. The goals of the present study were (1) to evaluate the immediate and long-term efficacy of a 0.1% fipronil chicken bait on V. pensylvanica populations in Hawaii Volcanoes National Park, (2) to quantify gains in efficacy using the attractant heptyl butyrate in the bait stations and (3) to measure the benefits of this approach for minimizing non-target impacts to other arthropods. RESULTS: The 0.1% fipronil chicken bait reduced the abundance of V. pensylvanica by 95 ± 1.2% during the 3 months following treatment and maintained a population reduction of 60.9 ± 3.1% a year after treatment in the fipronil-treated sites when compared with chicken-only sites. The addition of heptyl butyrate to the bait stations significantly increased V. pensylvanica forager visitation and bait take and significantly reduced the non-target impacts of fipronil baiting. CONCLUSION: In this study, 0.1% fipronil chicken bait with the addition of heptyl butyrate was found to be an extremely effective large-scale management strategy and provided the first evidence of a wasp suppression program impacting Vepsula populations a year after treatment. Copyright © 2011 Society of Chemical Industry
- Published
- 2012
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28. Queen, worker, and male yellowjacket wasps receive different nutrition during development
- Author
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K. C. Schmidt, Chris Smith, and Brendan G. Hunt
- Subjects
Larva ,Evolution of eusociality ,biology ,Ecology ,fungi ,Zoology ,biology.organism_classification ,Eusociality ,Vespula ,Nest ,Insect Science ,Yellowjacket ,Caste determination ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
Nutritional variation among developing larvae is a long-standing hypothesis for how a sterile caste could evolve, with larvae deprived of nutrition becoming sterile or not leaving the nest. In this study, we test whether the three castes of the eusocial yellowjacket wasp (Vespula maculifrons) differ in the trophic source of their larval diet, their overall carbon (C) and nitrogen (N) content, as well as the distribution of C and N across body parts. Virgin queens (gynes) assimilated food from a higher relative trophic level compared to males, and workers were the lowest. Gynes, due to their much greater mass compared to the other castes are much more costly in terms of N, but males have the lowest C:N ratio. The variation in C:N is likely due to differences in life history between males and females (gynes and workers), where females invest more in energy storage (e.g., lipids) compared to males which have very short life spans; the major difference is in the abdomen, where fat is stored. The results of this study complement similar results in ants, which evolved a reproductive division of labor independently, and which diverged from vespid wasps near 150 million years ago. Similarities between how wasp and ant caste determination occurs suggest either a conserved mechanism that predates the evolution of eusociality or convergence on the same mechanism for generating alternative phenotypes. Provisioning N-expensive castes with food from a higher trophic level likely increases efficiency of N delivery because of N-enrichment with increasing trophic level.
- Published
- 2012
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29. Sting Embedment and Avulsion in Yellowjackets (Hymenoptera: Vespidae): a Functional Equivalent to Autotomy
- Author
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David B.K. Golden, Albert Greene, Larry W. Douglass, D. Kelly, and Nancy L. Breisch
- Subjects
biology ,Vespidae ,media_common.quotation_subject ,Venom ,Insect ,Hymenoptera ,Anatomy ,biology.organism_classification ,eye diseases ,Vespula ,Sting ,Insect Science ,Yellowjacket ,Autotomy ,Ecology, Evolution, Behavior and Systematics ,media_common - Abstract
Clinical studies, laboratory tests, and field observations confirm that the barbed sting of a yellowjacket wasp, Vespula maculifrons (Buysson), often becomes firmly anchored in human skin. Although the wasp cannot pull away from (i.e.autotomize) its sting when this occurs, if the insect is forcibly removed by the victim, the sting apparatus tends to be more readily torn from its abdomen than are the embedded lancets torn from the victim's skin. Associated with the release of alarm pheromone and prolonged injection of venom, this mechanism of sting loss by victim-mediated avulsion appears to be functionally equivalent to true autotomy in other social Hymenoptera. A second yellowjacket species, V. germanica (F.), exhibited the same type of sting loss, but at considerably lower frequencies.
- Published
- 2012
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30. Temporal polyethism in Korean yellowjacket foragers, Vespula koreensis (Hymenoptera, Vespidae)
- Author
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Bonghwan Kim, K. W. Kim, and Jae Chun Choe
- Subjects
biology ,Vespidae ,Ecology ,Insect Science ,Foraging ,Nectar ,Yellowjacket ,Hymenoptera ,biology.organism_classification ,Ecology, Evolution, Behavior and Systematics ,Vespula ,Predation - Abstract
We examined the foraging behavior of the Korean yellowjacket, Vespula koreensis, to determine whether this species displays temporal polyethism. Using video-recordings of the entrances of artificial nest boxes installed in the field, we investigated the association between the tasks performed by workers and age. We identified three foraging tasks (pulp, nectar and prey foraging). Pulp foraging was performed by younger foragers, while nectar and prey foraging were performed by older foragers. We measured the foraging time (time spent outside of the nest during a single foraging bout) and the weight of the materials that foragers brought into the nest for each task to estimate the cost of the task. Pulp foraging was less costly than nectar or prey foraging by both measures. Taken together, the results suggest that yellowjacket foragers tend to perform low-cost task in their early foraging days and high-cost task later. Our results add to a growing literature showing temporal polyethism in social insects.
- Published
- 2011
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31. Detecting selection on morphological traits in social insect castes: the case of the social wasp Vespula maculifrons
- Author
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Eric A. Hoffman, Michael A. D. Goodisman, Sarah M. Marriner, and Jennifer L. Kovacs
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Sexual dimorphism ,biology ,Trait ,Zoology ,Yellowjacket ,Allometry ,biology.organism_classification ,Genetic correlation ,Ecology, Evolution, Behavior and Systematics ,Genetic architecture ,Selection (genetic algorithm) ,Vespula - Abstract
Highly social insects dominate terrestrial ecosystems because society members belong to discrete castes that undertake distinct tasks. The distinct functional roles of members of different castes may lead to divergent selective regimes, which may ultimately lead to morphological specialization and differentiation of the castes. This study used morphological and genetic analyses to identify traits that experienced caste-specific selection in the social wasp Vespula maculifrons (Buysson, 1905). Traits putatively under selection were identified based on their degree of caste dimorphism, levels of variability, strength of correlations with other traits, and patterns of allometric scaling. Analyses of trait characteristics suggested that queen thorax length, thorax width, and possibly mass, have experienced queen-specific selection. Additionally, trait dimorphism and intercaste phenotypic correlation values were negatively correlated, as expected if some morphological traits were subject to selection, leading to alternate phenotypic optima in the two castes. Overall, our analyses demonstrate how techniques used to identify selection between dimorphic groups can be applied to social species with distinct castes. In addition, our analyses suggest the operation of selection may be stronger in reproductive than in non-reproductive castes. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 101, 93–102. ADDITIONAL KEYWORDS: allometry – dimorphism – genetic architecture – genetic correlation – Hymenoptera – morphology – social insect – yellowjacket.
- Published
- 2010
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32. Wasps drum to tell others of food
- Author
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Richard Kemeny
- Subjects
Multidisciplinary ,Forage (honey bee) ,Sucrose solution ,biology ,Nest ,Zoology ,Yellowjacket ,Drum ,Vespula germanica ,Baseline level ,biology.organism_classification - Abstract
Wasps literally drum up interest in food, banging their abdomens against the walls of their nest to inform their nestmates that food is available. Benjamin Taylor at the City University of New York and his colleagues took six colonies of German yellowjacket wasps (Vespula germanica) and housed them in artificial nests. The wasps were allowed to freely forage for a day, but the next day they were shut in and given only water, or a sucrose solution. On the third day, the exit was opened again. Drumming declined when the wasps were given only water, suggesting it was not a signal of hunger. The wasps drummed more when sucrose was offered, and the levels of drumming consistently returned to a baseline level on the third day. This suggests that the wasps drum to alert each other to the presence of food.
- Published
- 2018
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33. Temperature and forager body size affect carbohydrate collection in German yellowjackets, Vespula germanica (Hymenoptera, Vespidae)
- Author
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Robert L. Jeanne, Benjamin J. Taylor, and Jennifer M. Jandt
- Subjects
biology ,Vespidae ,Ecology ,Foraging ,Zoology ,Hymenoptera ,biology.organism_classification ,Optimal foraging theory ,Aculeata ,Nest ,Insect Science ,Yellowjacket ,Vespula germanica ,Ecology, Evolution, Behavior and Systematics - Abstract
The classic formulation of optimal foraging theory predicts that a central-place forager will gather more food if it is required to travel farther from the nest to find that food. We examined the foraging behavior of German yellowjackets (Vespula germanica) to determine whether carbohydrate foragers follow this pattern. We trained foragers to collect 2 M fructose solution at 5 or 50 m from the nest and measured the time spent feeding, load size, and the rate of delivery. We show that as a forager’s crop fills during a foraging bout, the amount of solution ingested per second decreased. However, load size did not change as wasps collected food up to 50 m from the nest. Instead, temperature and body size were better predictors of the volume of fructose a forager carried. Finally, the rate of fructose delivered to the nest was higher at warmer temperatures. Due to the fact that wasps gather more food but feed for shorter periods of time at warmer temperatures, we found an overall negative relationship between feeding time and load size. We conclude that the strong effects temperature had on the behavior of V. germanica foragers imply that feeding time may not always be an accurate predictor of the size of the load an individual carries back to the nest. Results from this study suggest that in yellowjacket colonies, foragers can collect and bring disproportionately more food back to the nest during the warmest days of the summer, a time of year when this pest species reaches peak population size during its annual colony cycle.
- Published
- 2010
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34. Flexible Foraging Behavior in the Invasive Social WaspVespula germanica(Hymenoptera: Vespidae)
- Author
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Mariana Lozada and Paola D’Adamo
- Subjects
Vespidae ,Ecology ,Insect Science ,Foraging ,Interference theory ,Yellowjacket ,Cognition ,Hymenoptera ,Vespula germanica ,Biology ,biology.organism_classification ,Cognitive psychology ,Task (project management) - Abstract
The German yellowjacket, Vespula germanica (F.) (Hymenoptera: Vespidae), is a highly invasive wasp that exhibits efficient mechanisms while foraging. Plastic cognitive systems might be advantageous for invasive species given that they repeatedly encounter dynamic, unknown, or unpredictable environments. In this study, we explore memory dynamics of wasp foragers dealing with changing contexts. The aim of this work was to analyze how learning a second task interferes with the retrieval of a first learned task. We demonstrate that V. germanica wasps integrate old and new memories while foraging on nondepleted food sources. Learning a second task interferes with a first learned task when both tasks have different response requirements, probably due to response competition. Memories associated with the first learned task are not wiped out. Interestingly, this pattern of memory interference does not change when decreasing the number of feeding trials. This study provides new evidence about the complex cognitive mechanisms of V. germanica wasps, which integrate old and new experiences after very few learning episodes. To our knowledge, this is the first study on memory interference in social wasps.
- Published
- 2009
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35. The Southern Yellowjacket, Vespula squamosa (Drury) (Hymenoptera: Vespidae) in Guatemala, Central America
- Author
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José Monzon Sierra, Peter J. Landolt, Richard S. Zack, Kristen N. Landolt, and Hal C. Reed
- Subjects
geography ,geography.geographical_feature_category ,biology ,Vespidae ,Ecology ,Coffea arabica ,Hymenoptera ,biology.organism_classification ,Pasture ,Nest ,Insect Science ,Yellowjacket ,Vespula squamosa ,Ecology, Evolution, Behavior and Systematics - Abstract
Southern yellowjackets, Vespula squamosa (Drury) were collected at sites in Guatemala, in the Departments of Baja Verapaz, El Progresso, and Zacapa. Collection localities ranged in elevation from 500 to 1,880 m. These locations were forested, or partially forested with some pasture land and coffee plantings, Coffea arabica L. Two active colonies of this wasp were collected and analyzed in May of 2006. The two colonies were subterranean, and the nests had 9 and 11 layers, respectively, of paper comb completely surrounded with external paper envelope. The two nests included 10,581 and 20,715 cells, with 2,818 and 6,105 workers, 203 and 313 queens, and 790 and 454 males respectively. Samples of queens from each nest were dissected. These included numerous queens that were mated and possessed mature eggs, as well as numbers of queens that were unmated and had no eggs. Workers from each nest showed no ovarian development. The nest sizes and populations of wasps for these colonies were within ranges of those reported for nests of this species in North America.
- Published
- 2009
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36. Yellowjackets (Vespula pensylvanica) thermoregulate in response to changes in protein concentration
- Author
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James C. Nieh, Erin E. Wilson, David A. Holway, and M. A. Eckles
- Subjects
Meat ,Wasps ,Foraging ,Population ,Zoology ,Vespula ,Body Temperature ,Protein content ,Animals ,Yellowjacket ,Social Behavior ,education ,Ecology, Evolution, Behavior and Systematics ,education.field_of_study ,biology ,Ecology ,fungi ,Feeding Behavior ,General Medicine ,Bees ,Thermoregulation ,biology.organism_classification ,Animal Feed ,Vespula pensylvanica ,Insect Proteins ,Dietary Proteins ,Chickens ,Protein concentration ,Body Temperature Regulation - Abstract
Social insects can modulate body temperature to increase foraging efficiency; however, little is known about how the relative value of protein resources affects forager body temperature. Such regulation may be important given that colony growth is often limited by protein availability. In this paper, we present what are, to our knowledge, the first data for social insects showing that thoracic temperatures (T (th)) of foragers increase with the protein content of food resources. In an introduced population of western yellowjacket (Vespula pensylvanica), we measured T (th) of foragers collecting high-quality protein (100% canned chicken) and low-quality protein (50% canned chicken, 50% indigestible alpha-cellulose by volume) at different ambient air temperatures (T (a)). Wasps foraging on 100% chicken consistently exhibited higher T (th) compared to wasps foraging on 50% chicken. After correcting for T (a), the mean T (th) for wasps collecting 100% chicken were 1.98 degrees C higher than those of individuals collecting 50% chicken. We suggest that this mechanism may increase foraging efficiency in this and other social wasp species.
- Published
- 2008
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37. Lack of field-based recruitment to carbohydrate food in the Korean yellowjacket, Vespula koreensis
- Author
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Kil Won Kim, Suegene Noh, and Jae Chun Choe
- Subjects
Social facilitation ,Nest ,Ecology ,Foraging ,Field based ,Yellowjacket ,Biology ,biology.organism_classification ,Sensory cue ,Ecology, Evolution, Behavior and Systematics ,Vespula - Abstract
We investigated field-based recruitment via visual, chemical and acoustic cues provided by conspecific wasps on carbohydrate feeders in Vespula koreensis. A wild colony nest was excavated and artificially installed in a field site. Naive foragers were individually marked and trained to an experimental feeder. We conducted three separate experiments in which foragers were presented with feeder dishes with different cue intensities. For the first, a different number of decoys were posed as if feeding (visual cue). In the second, dishes had been previously visited by different numbers of individuals, thus presenting different concentrations of a possible food site marking substance (chemical cue). In the third, each dish was placed in front of a covered flask with a different number of nestmates inside (acoustic cue combined with body-odor cue). We observed no social facilitation or social inhibition due to any of the experimental cues. Previous studies in Vespula species have shown a variety of foraging strategies ranging from local enhancement to local inhibition. Field-based recruitment mechanisms in yellowjackets may have evolved independently in different lineages.
- Published
- 2007
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38. Preference by Vespula germanica (Hymenoptera: Vespidae) for Processed Meats: Implications for Toxic Baiting
- Author
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D. C. Hopkins, N. A. Schellhorn, and G. M. Wood
- Subjects
Ecology ,Vespidae ,biology ,fungi ,Foraging ,food and beverages ,Zoology ,macromolecular substances ,General Medicine ,Hymenoptera ,Canned fish ,biology.organism_classification ,Nest ,Insect Science ,Yellowjacket ,Vespula germanica ,Nuisance - Abstract
The German yellowjacket, Vespula germanica (F.) (Hymenoptera: Vespidae), was introduced into Australia in 1959 and has established throughout southern Australia. In urban environments, V. germanica is frequently a nuisance pest at public gatherings and to homeowners. In native environments, it has the potential to pose a threat to native invertebrates. The current practice for controlling the wasps is nest destruction with pesticide. However, locating the nest(s) is not always practical or possible. Meat baits impregnated with an insecticide that foraging wasps cut and carry back to the nest offer a means of suppressing wasps where the nest sites are unknown. The success of meat baits depends on the attractiveness and acceptance of the meat to the wasp and the mode of action of the insecticide. Our objective was to determine wasp preference and acceptance of five processed meats: canned chicken or fish and freeze-dried chicken, fish, or kangaroo. We found that more wasps visited and took freeze-dried kangaroo and canned chicken than the other baits. Canned and freeze-dried fish were similarly preferred, and freeze-dried chicken was the least attractive and accepted by foraging wasps. Our findings demonstrate that wasps prefer some processed meats and hence take more loads back to the nest. By combining a suitable insecticide with a meat bait preferred by wasps, the likelihood of effective suppression of nuisance wasp populations should be increased.
- Published
- 2006
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39. German Yellowjacket (Vespula germanica) Foragers Use Odors Inside the Nest to Find Carbohydrate Food Sources
- Author
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Robert L. Jeanne and Jennifer M. Jandt
- Subjects
Aculeata ,Nest ,Odor ,biology ,Vespidae ,Ecology ,Foraging ,Animal Science and Zoology ,Yellowjacket ,Hymenoptera ,Vespula germanica ,biology.organism_classification ,Ecology, Evolution, Behavior and Systematics - Abstract
Prior work has shown that yellowjacket wasps remember food odors and use them as cues when foraging. There is also evidence they have mechanisms to recruit nest mates to highly rewarding food sources, as naive individuals are more likely to go to food sources with scents similar to those visited by nest mates. We asked whether recruitment requires behavioral stimulation by returning foragers, as in honey bees, or if sampling the food source inside the nest is sufficient. We tested this by eliminating the behavior of returning foragers by inserting a scented sugar solution directly into a Vespula germanica nest. Exiting foragers were given a choice of the test scent and a control scent. Wasps were more likely to choose the test scent. We conclude that behavioral interactions with returning foragers are not necessary to stimulate nest mates to associate an odor with a food source and search for a resource bearing that odor, and that experience with the scented reward inside the nest is sufficient to achieve this result.
- Published
- 2005
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40. A TEST OF WORKER POLICING THEORY IN AN ADVANCED EUSOCIAL WASP, VESPULA RUFA
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Nichola S. Badcock, Fabio S. Nascimento, Tom Wenseleers, Terry Burke, Adam G. Hart, Kristien Erven, Michael E. Archer, Adam Tofilski, and Francis L. W. Ratnieks
- Subjects
Male ,Wasps ,Vespula vulgaris ,Zoology ,Observation ,Kin selection ,Models, Biological ,Vespula ,Sexual Behavior, Animal ,Gene Frequency ,worker policing ,Vespinae ,Vespula rufa ,Genetics ,Animals ,Yellowjacket ,worker reproduction ,reproductive and urinary physiology ,Ecology, Evolution, Behavior and Systematics ,Ovum ,biology ,Ecology ,Reproduction ,reproductive conflict ,Worker policing ,biology.organism_classification ,Eusociality ,Vespinae wasps ,England ,Social Dominance ,behavior and behavior mechanisms ,Female ,queen policing ,General Agricultural and Biological Sciences ,Microsatellite Repeats - Abstract
Mutual policing is an important mechanism for maintaining social harmony in group-living organisms. In some ants, bees, and wasps, workers police male eggs laid by other workers in order to maintain the reproductive primacy of the queen. Kin selection theory predicts that multiple mating by the queen is one factor that can selectively favor worker policing. This is because when the queen is mated to multiple males, workers are more closely related to queen's sons than to the sons of other workers. Here we provide an additional test of worker policing theory in Vespinae wasps. We show that the yellowjacket Vespula rufa is characterized by low mating frequency, and that a significant percentage of the males are workers' sons. This supports theoretical predictions for paternities below 2, and contrasts with other Vespula species, in which paternities are higher and few or no adult males are worker produced, probably due to worker policing, which has been shown in one species, Vespula vulgaris. Behavioral observations support the hypothesis that V. rufa has much reduced worker policing compared to other Vespula. In addition, a significant proportion of worker-laid eggs were policed by the queen. ispartof: Evolution vol:59 issue:6 pages:1306-14 ispartof: location:United States status: published
- Published
- 2005
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41. TRAPPING YELLOWJACKETS (HYMENOPTERA: VESPIDAE) WITH HEPTYL BUTYRATE EMITTED FROM CONTROLLED-RELEASE DISPENSERS
- Author
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D. J. Ellis, Hal C. Reed, and Peter J. Landolt
- Subjects
Vespula pensylvanica ,Animal science ,biology ,Vespidae ,Insect Science ,Yellowjacket ,Butyrate ,Vespula germanica ,biology.organism_classification ,Vial ,Controlled release ,Vespula squamosa ,Ecology, Evolution, Behavior and Systematics - Abstract
Numbers of workers of Vespula pensylvanica (Saussure) (western yellowjacket) and V. atropilosa (Sladen) trapped with heptyl butyrate in Washington increased with greater release of the attractant from vial dispensers, up to an estimated 2.3 milligrams heptyl butyrate per hour. Vespula germanica (F.) (German yellowjacket) workers were also captured in significant numbers, and numbers of workers captured increased with increased release of heptyl butyrate, up to an estimated 1.4 milligrams per hour. Numbers of workers of Vespula squamosa (Drury) trapped with heptyl butyrate in Oklahoma increased with increased release of heptyl butyrate from dispensers, up to an estimated 3.3 milligrams per hour. Vial dispensers, with holes of 6, 12, 22, and 33 mm diameter in the vial lid, lost 0.42, 1.4, 2.3, and 3.3 milligrams of heptyl butyrate per hour in the laboratory and these rates changed little over a period of 4 weeks, indicating close to a zero order rate of release pattern. Rates of loss of 2 ml heptyl...
- Published
- 2003
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42. Elite workers and the colony-level pattern of labor division in the yellowjacket wasp, Vespula germanica
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Erik V. Nordheim, Christine R. Hurd, and Robert L. Jeanne
- Subjects
biology ,Ecology ,business.industry ,Foraging ,Distribution (economics) ,Division (mathematics) ,biology.organism_classification ,Behavioral Neuroscience ,symbols.namesake ,Elite ,symbols ,Animal Science and Zoology ,Yellowjacket ,Demographic economics ,Pareto distribution ,Vespula germanica ,business - Abstract
Measurements of carbohydrate foraging behavior of Vespula germanica yellowjackets show that the distribution of the number of foragers over the number of trips is highly skewed with a few foragers making a disproportionate number of trips. We tested several empirical models based on different biological assumptions to see which model best described the distribution. For all periods of observation, the data are well fitted by a straight line on a log-log plot. This fit indicates that the distribution of labor is non-increasing monotonic; i.e. continually decreasing, and follows a power law. Stochasticity and self-organization are two possible explanations for the power law distribution. As an alternative approach, cluster analysis of various foraging characteristics of individual foragers clearly separated foragers into two groups and is consistent with a bimodal model for the division of foraging labor. Based on these cluster results, we operationally defined workers as either 'elite' or 'non-elite'. We found that elite foragers are not more likely than non-elites to be task specialists. The data show that workers develop into elites but do not support the hypothesis of self-reinforcement as the mechanism.
- Published
- 2003
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43. Intra-caste size differences between two social forms of the southern yellowjacket, Vespula squamosa (Hymenoptera, Vespidae)
- Author
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A. J. Deets and G. N. Fritz
- Subjects
biology ,Vespidae ,Ecology ,Zoology ,Monogyny ,Hymenoptera ,biology.organism_classification ,Intraspecific competition ,Aculeata ,Nest ,Insect Science ,Yellowjacket ,Vespula squamosa ,Ecology, Evolution, Behavior and Systematics - Abstract
Changes in intraspecific social organization are of particular interest to sociobiologists, because an understanding of the genetic and ecological determinants of different social forms bears on the origins of sociality and mating isolation. The Southern Yellowjacket, Vespula squamosa (Drury), occurs as both polygyne and single queen nests. This study examined intra-caste size differences between both social forms of nests. Four polygyne and 13 single queen nests were collected from counties in Florida and Georgia. All single queen nests were one season old, whereas polygyne nests were at least 2 years old. The latter had significantly more workers per nest (p 0.72), whereas the lowest positive correlations were obtained between weight and all other measures of size (r < 0.64). Gynes of both social forms differed significantly in weight (p < 0.001) and thorax length (p < 0.04), whereas workers differed significantly for all six measures of size (p < 0.04 to p < 0.001).
- Published
- 2002
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44. Competitive impacts of an invasive nectar thief on plant-pollinator mutualisms
- Author
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Cause Hanna, David Foote, and Claire Kremen
- Subjects
Competitive Behavior ,Pollination ,Plant Nectar ,media_common.quotation_subject ,Myrtaceae ,Wasps ,Metrosideros polymorpha ,Flowers ,Models, Biological ,Competition (biology) ,Pollinator ,Nectar ,Animals ,Yellowjacket ,Symbiosis ,Ecology, Evolution, Behavior and Systematics ,media_common ,Mutualism (biology) ,biology ,Ecology ,Bees ,biology.organism_classification ,Vespula pensylvanica ,Energy Metabolism ,Introduced Species - Abstract
Plant-pollinator mutualisms are disrupted by a variety of competitive interactions between introduced and native floral visitors. The invasive western yellowjacket wasp, Vespula pensylvanica, is an aggressive nectar thief of the dominant endemic Hawaiian tree species, Metrosideros polymorpha. We conducted a large-scale, multiyear manipulative experiment to investigate the impacts of V. pensylvanica on the structure and behavior of the M. polymorpha pollinator community, including competitive mechanisms related to resource availability. Our results demonstrate that V. pensylvanica, through both superior exploitative and interference competition, influences resource partitioning and displaces native and nonnative M. polymorpha pollinators. Furthermore, the restructuring of the pollinator community due to V. pensylvanica competition and predation results in a significant decrease in the overall pollinator effectiveness and fruit set of M. polymorpha. This research highlights both the competitive mechanisms and contrasting effects of social insect invaders on plant-pollinator mutualisms and the role of competition in pollinator community structure.
- Published
- 2014
45. A comparative study on hypertrehalosaemic hormones in the Hymenoptera: sequence determination, physiological actions and biological significance
- Author
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Roland Kellner, Matthias W. Lorenz, Joseph Woodring, Wolfgang Völkl, and Klaus H. Hoffmann
- Subjects
biology ,Physiology ,Gryllus bimaculatus ,fungi ,Vespula vulgaris ,Zoology ,biology.organism_classification ,Bombus hortorum ,Tenthredo arcuata ,Insect Science ,Botany ,Yellowjacket ,Schistocerca ,Polistes ,Adipokinetic hormone - Abstract
A new hypertrehalosaemic peptide (Tea-HrTH; pQLNFSTGWGG-NH2) was isolated from the corpora cardiaca (CC) of the sawfly Tenthredo arcuata. The hypertrehalosaemic peptides found in the CC of five Bombus species and the paper wasp Polistes fuscata were identical to the adipokinetic hormone II of the desert locust, Schistocerca gregaria (Scg-AKH-II). The hypertrehalosaemic peptides found in the yellowjacket Vespula vulgaris and the hornet Vespa crabro were identical to the adipokinetic hormone of the cricket, Gryllus bimaculatus (Grb-AKH). All species examined had a large storage crop which, when filled with honey, held up to one-third of their total body weight. Overwintering queens of P. fuscata had large stores of carbohydrates and lipids in the abdomen, and were able to survive months of fasting. Workers of Bombus hortorum (bumble-bee), Apis mellifera (honey-bee) and V. vulgaris had little or no fat body. These species could fly as long as sugar was present in their crops, but they stopped flying as the carbohydrates in the crop disappeared. There was no significant increase in the haemolymph carbohydrate titres after injections of CC extracts or corresponding synthetic peptides into workers of B. hortorum or into males and females of T. arcuata. There was a moderate increase in haemolymph carbohydrate titres when these peptides were injected into overwintering queens of P. fuscata and into workers of V. crabro, both with significant amounts of fat body. However, well-fed V. vulgaris workers, with very little fat body, also responded to their own hypertrehalosaemic peptide.
- Published
- 2001
- Full Text
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46. Colony kin structure and male production in Dolichovespula wasps
- Author
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Kevin R. Foster, Niclas Gyllenstrand, Francis L. W. Ratnieks, and Peter Thorén
- Subjects
biology ,Vespidae ,Dolichovespula ,Ecology ,Zoology ,Kin selection ,Worker policing ,biology.organism_classification ,Vespula ,Vespinae ,Genetics ,Yellowjacket ,Mating ,Ecology, Evolution, Behavior and Systematics - Abstract
In annual hymenopteran societies headed by a single outbred queen, paternity (determined by queen mating frequency and sperm use) is the sole variable affecting colony kin structure and is therefore a key predictor of colony reproductive characteristics. Here we investigate paternity and male production in five species of Dolichovespula wasps. Twenty workers from each of 10 colonies of each of five species, 1000 workers in total, were analysed at three DNA microsatellite loci to estimate paternity. To examine the relationship between kin structure and reproductive behaviour, worker ovary activation was assessed by dissection and the maternal origin of adult males was assessed by DNA microsatellites. Effective paternity was low in all species (D.media 1.08, D. maculata 1.0, D. sylvestris 1.15, D. norwegica 1.08 and D. saxonica 1.35), leading to the prediction of queen?worker conflict over male production. In support of this, workers with full-size eggs in their ovaries (four out of five species) and adult males that were workers? sons (all five species) were found in queenright colonies. However, workers were only responsible for a minority of male production (D.media 7.4%, D. maculata 20.9%, D. sylvestris 9.8%, D. norwegica 2.6% and D. saxonica 34.6%) suggesting that the queen maintains considerable reproductive power over the workers. Kin structure and reproductive conflict in Dolichovespula contrast with their sister group Vespula. Dolichovespula is characterized by low paternity, worker reproduction, and queen?worker conflict and Vespula by high paternity, effective worker policing and absence of worker reproduction. The trend revealed by this comparison is as predicted by kin selection theory suggesting that colony kin structure has been pivotal in the evolution of the yellowjacket wasps.
- Published
- 2001
- Full Text
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47. Resource choice of social wasps: influence of presence, size and species of resident wasps
- Author
-
M. Raveret Richter and V. L. Tisch
- Subjects
Paper wasp ,Polistes fuscatus ,Vespidae ,biology ,Ecology ,Insect Science ,Yellowjacket ,Hymenoptera ,Vespula germanica ,Polistes ,biology.organism_classification ,Ecology, Evolution, Behavior and Systematics ,Vespula - Abstract
The role of visual cues provided by resident wasps on resource choice by yellowjacket and paper wasp foragers was investigated. Large spring queen yellowjackets and small early season yellowjacket foragers (Vespula germanica, Vespula maculifrons, and Vespula vidua) were extracted in hexane to remove odors and posed as though feeding at petri dish feeders bearing daisy-like flower models, equipped with microcapillary feeding tubes, and containing 1:3 honey:water solution. An array of five feeders was presented to foragers at a suburban and a woodland site in Saratoga Springs, New York. The visual cues provided by resident wasps influenced resource choice by approaching social wasp foragers. Vespula germanica, an introduced yellowjacket species that tends to dominate at rich resources, was the only wasp visiting the suburban feeders. Foragers of this species preferentially fed on feeders and flowers with posed wasps and fed most often next to large wasps. Polistes fuscatus foragers at the woodland site similarly preferred to feed on occupied feeders and flowers. Vespula maculifrons and V. consobrina preferentially visited unoccupied feeders. Individual V. maculifrons, V. consobrina and V. vidua foragers that landed on occupied feeders all preferentially visited unoccupied flowers on those feeders. Vespula vidua and V. flavopilosa foragers did not demonstrate a feeder preference based on the presence/absence of posed wasps. Vespula consobrina foragers that visited occupied feeders preferred those occupied by extracted V. maculifrons queens and workers; no other wasps showed species based landing preferences.
- Published
- 1999
- Full Text
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48. Mortality and Emergence Pattern of Overwintering Cocoons of the Wasp ParasitoidSphecophaga vesparum vesparum(Hymenoptera: Ichneumonidae) in New Zealand
- Author
-
Jason P. Malham, Richard J. Toft, and Jacqueline R. Beggs
- Subjects
Ecology ,biology ,fungi ,Vespula vulgaris ,Hymenoptera ,biology.organism_classification ,Parasitoid ,Ichneumonidae ,Nest ,Insect Science ,Yellowjacket ,Vespula germanica ,Ecology, Evolution, Behavior and Systematics ,Overwintering - Abstract
Sphecophaga vesparum vesparum (Curtis) has been released in New Zealand as a biological control agent for the introduced yellowjackets Vespula vulgaris (L.) and V. germanica (F.). The parasitoid has an overwintering cocoon stage that can remain in the subterranean nest cavity for 1–4 yr before emerging. A mathematical model of the potential effect of the parasitoid has suggested that the probability of survival of overwintering cocoons and the pattern of cocoon emergence are 2 key variables for predicting the ultimate suppression in yellowjacket abundance. Overwintering cocoons were buried in subterranean cavities to simulate natural conditions and rates of cocoon predation by rodents, plus mortality from other causes, and emergence patterns were recorded. Rodents killed 62% of cocoons over 3 yr, and flooding, insects, and unknown causes of mortality accounted for another 19.2%. The mean annual survival rate for overwintering cocoons was 0.56, considerably higher than the model predicted. Emergence of adults was delayed in comparison with above-ground parasitoid release boxes, with the majority of subterranean cocoons remaining dormant until their 3rd spring. Using the higher survival rate and delayed emergence pattern in the model for the effect of the parasitoid suggests that the maximum likely reduction of yellowjacket density may be greater than originally predicted but will take longer to achieve. However, data on the proportion of spring nests killed by the parasitoid is needed before the model can usefully predict the ultimate level of suppression of yellowjacket density.
- Published
- 1999
- Full Text
- View/download PDF
49. Perfumed to be Killed: Interception of Mediterranean Fruit Fly (Diptera: Tephritidae) Sexual Signaling by Predatory Foraging Wasps (Hymenoptera: Vespidae)
- Author
-
Martha A. Hendrichs and Jorge Hendrichs
- Subjects
Vespidae ,biology ,Ecology ,Insect Science ,Tephritidae ,fungi ,Foraging ,Yellowjacket ,Vespula germanica ,Ceratitis capitata ,biology.organism_classification ,Vespula ,Predation - Abstract
In a previous field study we demonstrated that predation on pheromone calling Mediterranean fruit fly, Ceratitis capitata (Wiedemann), males by the yellowjacket wasps Vespula gennanica (F.) is mediated through olfactory foraging behavior. The objectives of the current study were to assess wasp predation on sexually immature and mature C. capitata engaged in sexual and nonsexual activites on foliage and fruit and to confirm whether overall wasp attacks and prey capture rates are sexually biased. Our results indicate that capture rate of flies by foraging wasps is highly influenced by fly activity, with mature signaling males being subject to a majority of the attacks and suffering the highest losses on foliage, whereas on fruit it was ovipositing females that suffered the highest mortality. However, mature but virgin females also suffered considerable losses on foliage while visiting leking males. Mating pairs, even though they tended to leave the lek immediately after pair formation, suffered the highest predation losses proportionate to the number of attacks. Possible reasons for this activity- and sex-biased predation are discussed.
- Published
- 1998
- Full Text
- View/download PDF
50. Recruitment to food by the German yellowjacket, Vespula germanica
- Author
-
Robert L. Jeanne and Stephanie L. Overmyer
- Subjects
biology ,Vespidae ,Ecology ,digestive, oral, and skin physiology ,Foraging ,biology.organism_classification ,Aculeata ,Nest ,Animal ecology ,Animal Science and Zoology ,Yellowjacket ,Animal communication ,Vespula germanica ,Ecology, Evolution, Behavior and Systematics - Abstract
The hypothesis that Vespula germanica foragers can recruit nestmates to food resources was tested using a protocol that controlled for the biasing effects of social factors at the resource, including local enhancement and food-site marking substances. Foragers from an observation colony in the field were trained to visit a dish of scented corn syrup solution 15 m east of the nest. A second feeding station, 22 m northeast of the nest, offered incoming foragers a choice between food with the training scent and food with a control scent. Significantly more naive foragers arriving at that station chose the food with the training scent. We conclude that the German yellowjacket is able to recruit nestmates to carbohydrate food sources, and that recruits use food odor to locate the source of food being brought into the nest.
- Published
- 1998
- Full Text
- View/download PDF
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