University Of Tasmania
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Pollinator activity can explain variation in outcrossing rates within individual trees

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posted on 2023-05-16, 16:16 authored by Andrew HingstonAndrew Hingston, Bradley PottsBradley Potts
We tested the hypothesis that the previously recorded higher outcrossing rates and numbers of seeds per capsule from the upper, than from the lower, branches of trees of Eucalyptus globulus (Myrtaceae) is the result of greater pollinator activity in the upper parts of the canopy. Observations of bird pollinators on 23 trees, with flowers distributed evenly between the upper and lower halves of canopies, supported this hypothesis. Birds spent significantly more time foraging, and commenced foraging significantly more often, in the upper halves than in the lower halves of canopies. Flowers in the upper halves of E. globulus canopies would therefore be expected to receive more outcross-pollen from bird pollinators because they are usually visited more often and would probably receive a greater ratio of outcross- to self-pollen. We propose that such variation in pollinator activity and outcross-pollen deposition results in different selective pressures on the mating system and pollination syndrome in different parts of the canopy. This may result in balanced selection for these traits, contributing to the maintenance of the mixed mating and generalized pollination systems of E. globulus.


Publication title

Austral Ecology








School of Geography, Planning and Spatial Sciences


Blackwell Publishing Asia

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  • Restricted

Socio-economic Objectives

Terrestrial biodiversity

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    University Of Tasmania