Social facilitation of eclosion in the fire ant, <i>Solenopsis invicta</i>

LaMon, Brent; Topoff, Howard

doi:10.1002/dev.420180502

Cited by 10 publications

(15 citation statements)

References 13 publications

(10 reference statements)

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“…Each cohort was created by placing late-stage worker pupae from a minimum of 5 different colonies into an 'eclosion tray' with a number of small, adult workers (headwidths # 0.60 mm) to help them eclose (Lamon and Topoff, 1985) (all trays had Fluon-coated sides to prevent ants from escaping; Fluon-Northern Products Inc., Woonsocket, RI). A moist, plaster-floored, darkened petri dish nest, along with fresh water and sugar water (20% v/v) in cotton-plugged test tubes, was provided for each cohort.…”

Section: Venom Synthesis Experimentsmentioning

confidence: 99%

Patterns of venom synthesis and use in the fire ant, Solenopsis invicta

Haight

Tschinkel

2003

Toxicon

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In the life of the fire ant, Solenopsis invicta, venom plays several important roles, including prey capture, defense, and antimicrobial action. Although this venom's chemistry, pharmacology, and effects on humans have been extensively studied, its patterns of synthesis and use have not. We determined the ability of different-aged workers to synthesize venom, and measured the amount of venom workers delivered per sting. Newly eclosed workers contained little or no venom in their reservoirs. The rate of synthesis was highest in workers aged 1 day after adult eclosion (1.17 mg venom/day for workers with headwidths of 1 mm), declined by 75% in workers aged 15 days (0.30 mg venom/day), and was negligible thereafter. Inducing ants to sting dummies as surrogates for humans, workers were found to deliver an average of 0.66 nl per sting, amounting to 3.1% of the average individual venom supply. Older workers (foragers) delivered less venom per sting than mid-age workers (reserves) and venom dose from nest-defenders was 55% higher in the spring than in the rest of the year. Thus, fire ant venom synthesis is limited to early life, and injected venom dose appears to be modulated. Economic explanations for the observed venom-use patterns are discussed. q

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Section: Venom Synthesis Experimentsmentioning

confidence: 99%

Patterns of venom synthesis and use in the fire ant, Solenopsis invicta

Haight

Tschinkel

2003

Toxicon

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“…The adequacy of a bioassay to test an hypothesis becomes acute when the test objects are not live animals. A widely used bioassay consists of retrieval of inert objects treated with brood extracts (Glancey et al 1970, Robinson & Cherrett 1974, Walsh & Tschinkel1974, Bigley & Vinson 1975, Brian 1975, LaMon & Topoff 1985, Glancey & Dickens 1988. However, this bioassay can be confounded by food responses as discussed below.…”

Section: Problems In Demonstratingmentioning

confidence: 99%

“…However, this bioassay can be confounded by food responses as discussed below. To overcome this problem, some experimenters (Walsh & Tschinkel 1974, Brian 1975, LaMon & Topoff 1985 used a nest design that incorporated a distinct brood chamber. Retrieval of tested objects into the brood chamber was used as the criterion for a brood-specific worker response.…”

Section: Problems In Demonstratingmentioning

confidence: 99%

“…One of the most frustrating inadequacies in many brood pheromone papers (Watkins & Cole 1966, Glancey et al 1970, Bigley & Vinson 1975, LaMon & Topoff 1985 is the lack of information regarding the brood equivalents of the extracts and amount of the control substances used in bioassays. Without this information, it is impossible to determine if a pheromonal response is being tested.…”

Section: Problems In Demonstratingmentioning

confidence: 99%

“…The most obvious larval behavior is the exchange of liquids with workers (trophallaxis); this exchange is bidirectional and both individuals benefit (Wilson 1971). Although pupae lack noticeable behavior, investigators can recognize eclosing pupae by their gross uncoordinated movements (e.g., LaMon & Topoff 1985). Worker ants may respond to eclosing pupae using these cues.…”

Section: Evidence For Involvement Of Nonchemical Signals In Specificmentioning

confidence: 99%

See 2 more Smart Citations

Do Ant Brood Pheromones Exist?

Morel¹,

Meer²

1988

Annals of the Entomological Society of America

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A brood pheromone is a chemical or mixture of chemicals released by immature stages that elicits a behavioral response in conspecific adults. The current literature devoted to brood pheromones in several ant species does not prove the existence of such a pheromone or even of brood-specific chemicals. The possibility of a food response or a nestmate recognition response, two of the most confounding factors, has not been eliminated. Two alternative hypotheses involving brood behavior, morphology, cuticular chemicals, and associative learning are proposed.

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Ontogeny of the Defensive Stinging Behavior of the Fire Ant, Solenopsis invicta

Haight

2008

J Insect Behav

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Social facilitation of eclosion in the fire ant, Solenopsis invicta

Cited by 10 publications

References 13 publications

Patterns of venom synthesis and use in the fire ant, Solenopsis invicta

Patterns of venom synthesis and use in the fire ant, Solenopsis invicta

Do Ant Brood Pheromones Exist?

Ontogeny of the Defensive Stinging Behavior of the Fire Ant, Solenopsis invicta

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