Queen Dominance May Reduce Worker Mushroom Body Size in a Social Bee

Jaumann, Sarah; Seid, Marc A.; Simons, Meagan; Smith, Adam R.

doi:10.1002/dneu.22705

Cited by 8 publications

(17 citation statements)

References 78 publications

(199 reference statements)

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“…These brain differences do not result from differences in social experience, because all individuals were solitary at the time they were collected, which suggests that the MB calyx size differences reflect species-specific patterns of neural investment. This is consistent with previous studies of socially polymorphic bees (those that can nest socially and solitarily) which also found smaller relative MB calyx size in solitary reproductives relative to social queens, but these did not control for potential effects of social interactions on MB size ( Smith et al 2010 , Rehan et al 2015 ; but see Jaumann et al 2019 ).…”

Section: Discussionsupporting

confidence: 91%

“…To test whether brain size relative to body size differed between species, we standardized individual whole brain volume to individual body size by calculating a correction factor that was applied to each bee: mean body size of all bees in the study divided by the individual’s body size. This correction factor was then multiplied to brain volume for each bee to calculate size-corrected whole brain volume ( Jaumann et al 2019 ). We used an independent samples t -test with equal variances not assumed to compare the two species; all variables fit a normal distribution with Shapiro–Wilk test P -values >0.05.…”

Section: Methodsmentioning

confidence: 99%

“…However, recent intraspecific comparisons in social insects suggest that while the evolutionary origins of large MBs may predate sociality, differences in social behavior can still lead to differences in MB investment. For example, differences in MB volume associated with dominance status within social species demonstrate a social influence on MB size ( Molina et al 2007 , 2008 ; O’Donnell et al 2008, 2017 ; Smith et al 2010 ; Rehan et al 2015 ; Jaumann et al 2019 ; Pahlke et al 2019 ). A direct test of whether social behavior leads to increased MB investment relative to solitary living should compare closely related social and solitary species.…”

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confidence: 99%

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The Loss of Sociality Is Accompanied by Reduced Neural Investment in Mushroom Body Volume in the Sweat Bee Augochlora Pura (Hymenoptera: Halictidae)

Pahlke

Seid

Jaumann

et al. 2020

Annals of the Entomological Society of America

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Social behavior has been predicted to select for increased neural investment (the social brain hypothesis) and also to select for decreased neural investment (the distributed cognition hypothesis). Here, we use two related bees, the social Augochlorella aurata (Smith) (Hymenoptera: Halictidae) and the related Augochlora pura (Say), which has lost social behavior, to test the contrasting predictions of these two hypotheses in these taxa. We measured the volumes of the mushroom body (MB) calyces, a brain area shown to be important for cognition in previous studies, as well as the optic lobes and antennal lobes. We compared females at the nest foundress stage when both species are solitary so that brain development would not be influenced by social interactions. We show that the loss of sociality was accompanied by a loss in relative neural investment in the MB calyces. This is consistent with the predictions of the social brain hypothesis. Ovary size did not correlate with MB calyx volume. This is the first study to demonstrate changes in mosaic brain evolution in response to the loss of sociality.

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Section: Discussionsupporting

confidence: 91%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

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The Loss of Sociality Is Accompanied by Reduced Neural Investment in Mushroom Body Volume in the Sweat Bee Augochlora Pura (Hymenoptera: Halictidae)

Pahlke

Seid

Jaumann

et al. 2020

Annals of the Entomological Society of America

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“…comm.). Our results of high investment in olfaction and sensory processing are consistent with other studies that show preferential brain investment in brain region associated needed for effective communication, maintenance of division of labor, learning and memory (Farris et al, 2001;Gronenberg et al, 1996;Jaumann et al, 2019;O'Donnell et al, 2015;Rehan et al, 2015;Seid et al, 2005;Smith et al, 2010). Host queens had significantly higher antennal lobes, as they spend most of their time on the nest and communicate with incoming subordinate workers, who spend more time foraging off the nest (Molina & O'Donnell, 2008).…”

Section: Discussionsupporting

confidence: 91%

Differential investment in visual and olfactory brain regions mirrors the sensory needs of a paper wasp social parasite and its host

Rozanski

Cini

Lopreto

et al. 2021

Preprint

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Obligate social parasites evolve traits to effectively locate and then exploit their hosts, whereas hosts have complex social behavioral repertoires, which include sensory recognition to reject potential conspecific intruders and heterospecific parasites. While social parasite and host behaviors have been studied extensively, less is known about how their sensory systems function to meet their specific selective pressures. Here, we compare investment in visual and olfactory brain regions in the paper wasp Polistes dominula, and its obligate social parasite P. sulcifer, to explore the link between sensory systems and brain plasticity. Our results show opposite and significant differences, consistent with their very different life-histories, in the sensory investments between these two closely-related species. Social parasites initially invest in the optic lobes to likely locate their hosts. After host colony usurpation, the parasite increases its brain volume, with specific investment in antennal lobes, which mirrors the behavioral switch from a usurping parasite to an integrated parasitic queen of the host colony. Contrastingly, hosts initially invest in the antennal lobes and sensory processing compared to social parasites, as predicted by their need to maintain social cohesion, allocate colony tasks, and recognize con- and heterospecific intruders. Host queens show a trend of higher investment in all sensory brain regions compared to workers, paralleling differences in task allocations. Our work provides novel insights into how intraspecific brain plasticity can facilitate the unique sensory adaptations needed to perform specific tasks by the host or to transition from searching to successful host exploitation by the social parasite.

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“…These changes are similar to those observed in our mature B. impatiens males. However, experience-expectant neuroplasticity is absent in M. genalis females 54 (though see 55 ), which also lack age-related task specialization 25 , 56 . Our finding that mushroom body expansion occurs with maturation in male M. genalis suggests that experience-expectant neuroplasticity can occur in males, even when it is absent in females.…”

Section: Discussionmentioning

confidence: 99%

Age-related mushroom body expansion in male sweat bees and bumble bees

Hagadorn

Eck

Grosso

et al. 2021

Sci Rep

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A well-documented phenomenon among social insects is that brain changes occur prior to or at the onset of certain experiences, potentially serving to prime the brain for specific tasks. This insight comes almost exclusively from studies considering developmental maturation in females. As a result, it is unclear whether age-related brain plasticity is consistent across sexes, and to what extent developmental patterns differ. Using confocal microscopy and volumetric analyses, we investigated age-related brain changes coinciding with sexual maturation in the males of the facultatively eusocial sweat bee, Megalopta genalis, and the obligately eusocial bumble bee, Bombus impatiens. We compared volumetric measurements between newly eclosed and reproductively mature males kept isolated in the lab. We found expansion of the mushroom bodies—brain regions associated with learning and memory—with maturation, which were consistent across both species. This age-related plasticity may, therefore, play a functionally-relevant role in preparing male bees for mating, and suggests that developmentally-driven neural restructuring can occur in males, even in species where it is absent in females.

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Queen Dominance May Reduce Worker Mushroom Body Size in a Social Bee

Cited by 8 publications

References 78 publications

The Loss of Sociality Is Accompanied by Reduced Neural Investment in Mushroom Body Volume in the Sweat Bee Augochlora Pura (Hymenoptera: Halictidae)

The Loss of Sociality Is Accompanied by Reduced Neural Investment in Mushroom Body Volume in the Sweat Bee Augochlora Pura (Hymenoptera: Halictidae)

Differential investment in visual and olfactory brain regions mirrors the sensory needs of a paper wasp social parasite and its host

Age-related mushroom body expansion in male sweat bees and bumble bees

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