Abstract
To test the hypothesis that exposure to queen mandibular pheromone (QMP) modulates ecdysteroid production in adult worker honey bees, ecdysteroids were measured in hemolymph and other tissues of individual adult worker honey bees reared with or without QMP in cages and field colonies. Ecdysteroid titers were higher in caged workers exposed to QMP continuously from the first day of adult life than in workers reared without QMP. Statistical cluster analysis suggested the possibility that a subgroup of workers (“responders”) is more sensitive to QMP in this regard than other workers. In 12-day-old workers, ecdysteroid titers in workers reared in queenright (QR) colonies were similar to those observed in cages with QMP, but lower than those in queenless (QL) colonies. Differences in number of ovarioles or degree of ovarian activation did not correlate with hemolymph ecdysteroids. Previous studies have demonstrated ecdysteroids in hemolymph in very young adult workers and in workers in QL colonies; the present study indicates that production of ecdysteroids occurs in older adult worker honey bees in the absence of morphological signs of ovarian activation, with cage studies revealing a modulatory role for QMP masked in the complex environment of the hive.
Highlights
Insects produce ecdysteroid hormones (Niwa and Niwa 2014)
queen mandibular pheromone (QMP) exposure was associated with higher ecdysteroid titers in caged adult worker honey bees
On day 12, mean ecdysteroid titers were significantly elevated in workers exposed to a full QMP strip compared with the QMP− treatment
Summary
Insects produce ecdysteroid hormones (Niwa and Niwa 2014). The primary steroid produced by insect ovaries is ecdysone (C27H44O6), which is converted to 20hydroxyecdysone (20E) by peripheral tissues such. Vitellogenin is a yolk protein precursor, but in honey bees functions as a storage protein supporting synthesis of brood food by the hypopharyngeal glands (Amdam et al 2003). In adult worker honey bees, vitellogenin titers fall and juvenile hormone (JH) titers rise at the transition from hive bee to forager (Amdam et al 2007). A role for JH is an important component of the RGPH, the function of ecdysteroids in adult workers of eusocial species is less clear
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
