Juvenile hormone, reproduction, and worker behavior in the neotropical social wasp<i>Polistes canadensis</i>

Giray, Tuğrul; Giovanetti, Manuela; West‐Eberhard, Mary Jane

doi:10.1073/pnas.0409560102

Cited by 168 publications

(122 citation statements)

References 56 publications

(54 reference statements)

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“…Dopamine levels in honey bees have been shown to influence associative (punishment) learning (Vergoz et al, 2007;Agarwal et al, 2011). Juvenile hormone in both males and females has been shown to work as a regulator of behavioral development (Robinson et al, 1989;Fahrbach et al, 1995;Giray and Robinson, 1996;Giray et al, 1999;Giray et al, 2005). These results suggest that the transition to more complex tasks that require learning coincides with broad expansions of neural tissue in the MB.…”

Section: Introductionmentioning

confidence: 57%

Aversive conditioning in honey bees (Apis mellifera anatolica): a comparison of drones and workers

Dinges

Avalos

Abramson

et al. 2013

Journal of Experimental Biology

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Section: Introductionmentioning

confidence: 57%

Aversive conditioning in honey bees (Apis mellifera anatolica): a comparison of drones and workers

Dinges

Avalos

Abramson

et al. 2013

Journal of Experimental Biology

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“…Against the background of previous studies on hormone titer and function in wasps (Röseler, 1991;O'Donnell and Jeanne, 1993;Giray et al, 2005;Tibbetts et al, 2011b), our results on the endocrine physiology of a swarm-founding epiponine species show that the endocrinology of social wasps has undergone extensive remodeling. The low JH titer of queens and developing queens in P. micans suggests that JH is not a key driver of reproduction or competition, in stark contrast to the situation in Polistes wasps (Strambi, 1990;Röseler, 1991;Tibbetts et al, 2011b).…”

Section: Shared and Divergent Patterns Of Endocrine Activity In Sociamentioning

confidence: 94%

“…queen), but if she disappears, former workers fighting to inherit the nest show increased JH levels . Finally, as in other hymenopteran societies (O'Donnell and Jeanne, 1993;Robinson and Vargo, 1997;Lengyel et al, 2007;Penick et al, 2011;Dolezal et al, 2012), JH appears to modulate age-related changes in worker activity, a function that is condition and context dependent in adults of Polistes (West-Eberhard, 1996;Giray et al, 2005;Shorter and Tibbetts, 2009). …”

Section: Introductionmentioning

confidence: 99%

Reproductive status, endocrine physiology and chemical signaling in the Neotropical, swarm-founding eusocial wasp,Polybia micansDucke (Vespidae: Epiponini)

Kelstrup

Hartfelder

Nascimento

et al. 2014

Journal of Experimental Biology

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In the evolution of caste-based societies in Hymenoptera, the classical insect hormones juvenile hormone (JH) and ecdysteroids were co-opted into new functions. Social wasps, which show all levels of sociality and lifestyles, are an ideal group in which to study such functional changes. Virtually all studies on the physiological mechanisms underlying reproductive division of labor and caste functions in wasps have been done on independent-founding paper wasps, and the majority of these studies have focused on species specially adapted for overwintering. The relatively little-studied tropical swarm-founding wasps of the Epiponini (Vespidae) are a diverse group of permanently social wasps, with some species maintaining caste flexibility well into the adult phase. We investigated the behavior, reproductive status, JH and ecdysteroid titers in hemolymph, ecdysteroid content of the ovary and cuticular hydrocarbon (CHC) profiles in the caste-monomorphic, epiponine wasp Polybia micans Ducke. We found that the JH titer was not elevated in competing queens from established multiple-queen nests, but increased in lone queens that lack direct competition. In queenless colonies, JH titer rose transiently in young potential reproductives upon challenge by nestmates, suggesting that JH may prime the ovaries for further development. Ovarian ecdysteroids were very low in workers but higher and correlated with the number of vitellogenic oocytes in the queens. Hemolymph ecdysteroid levels were low and variable in both workers and queens. Profiles of P. micans CHCs reflected caste, age and reproductive status, but were not tightly linked to either hormone. These findings show a significant divergence in hormone function in swarm-founding wasps compared with independently founding ones. KEY WORDS: Challenge hypothesis, Cuticular hydrocarbons, Ecdysteroids, Epiponini, Juvenile hormone, Polistes INTRODUCTIONEusocial insects within the order Hymenoptera (bees, wasps and ants) are characterized by the production of distinct phenotypes (caste polyphenism) in the female sex: the queen, the worker and often additional physiologically or morphologically specialized types within the worker caste (Wilson, 1971;Hunt, 2006;Hunt et al., 2007;Robinson, 2009;Tibbetts and Izzo, 2009;Shukla et al., 2013). In most caste-based societies the development of such specialized phenotypes is induced or at least biased in a pre-imaginal stage, where qualitative or quantitative differences in diet, pheromonal signals, mechanical stimuli or other environmental cues trigger endogenous signaling cascades toward alternative developmental trajectories (Wilson, 1971; Chavarría-Pizarro and West-Eberhard, 2010;Suryanarayanan et al., 2011;Hartfelder and Emlen, 2012;Penick and Liebig, 2012). As with most polyphenisms in insects, juvenile hormone (JH) and ecdysteroids were co-opted to orchestrate distinct ontogenetic pathways on top of their wellconserved role in regulating the episodic, molt-based growth events in immature animals (Hartfelder and Emlen, 2012)....

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“…JH is involved in many aspects of reproductive and behavioural division of labour in eusocial bees and ants [83,84], and thus plays a key role in the major hypotheses for how these features of social life evolve [26,85,86]. Despite this, the relationship between JH, behaviour and reproductive development is virtually unknown in solitary bees (but see [44]), and inferences about how these functions have changed over the course of social evolution have necessarily been based on comparisons to distantly related insect species with life histories that do not closely resemble those of the solitary insects that gave rise to eusociality [26,83].…”

Section: Discussionmentioning

confidence: 99%

Support for the reproductive ground plan hypothesis in a solitary bee: links between sucrose response and reproductive status

Kapheim

Johnson

2017

Proc. R. Soc. B.

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In social bees, foraging behaviour is correlated with reproductive status and sucrose sensitivity via endocrine pathways. This association led to the hypothesis that division of labour in social insect societies is derived from an ancestral ground plan that functions to synchronize dietary preferences with reproductive needs in solitary insects. However, the relationship between these traits is unknown for solitary bees, which represent the ancestral state of social bees. We used the proboscis extension response assay to measure sucrose response among reproductive females of the solitary alkali bee ( Nomia melanderi ) as a function of acute juvenile hormone (JH) treatments and reproductive physiology. We also tested long-term effects of JH on reproductive development in newly emerged females. JH did not have short-term effects on reproductive physiology or sucrose response, but did have significant long-term effects on ovary and Dufour's gland development. Dufour's gland size, not ovary development, was a significant predictor of sucrose response. This provides support for the reproductive ground plan hypothesis, because the Dufour's gland has conserved reproductive functions in bees. Differing results from this study and honeybees suggest independent origins of division of labour may have evolved via co-option of different components of a conserved ground plan.

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Juvenile hormone, reproduction, and worker behavior in the neotropical social waspPolistes canadensis

Cited by 168 publications

References 56 publications

Aversive conditioning in honey bees (Apis mellifera anatolica): a comparison of drones and workers

Aversive conditioning in honey bees (Apis mellifera anatolica): a comparison of drones and workers

Reproductive status, endocrine physiology and chemical signaling in the Neotropical, swarm-founding eusocial wasp,Polybia micansDucke (Vespidae: Epiponini)

Support for the reproductive ground plan hypothesis in a solitary bee: links between sucrose response and reproductive status

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