Maggie M. Mayberry scite author profile

Maggie M. Mayberry

3Publications

1Citation Statement Received

39Citation Statements Given

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Missouri State University

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Hold tight or loosen up? Functional consequences of a shift in anther architecture depend substantially on bee body size

et al. 2022

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A fundamental question in pollination ecology is how pollinators affect the evolution of different oral forms. Yet functional effects of shifts in oral form for plant and pollinator are frequently unclear. For instance, owers that conceal pollen within tube-like anthers that are spread apart and move freely (free architecture) or are tightly joined together (joined architecture) have evolved independently across diverse plant families and are geographically widespread. Surprisingly, how their bee pollinators affect the function of both architectures remains unknown. We hypothesized that bee body size would affect foraging success and pollination differently for free and joined anther architectures. We therefore modi ed the anther architecture of a single plant species (Solanum elaeagnifolium) and used a single species of generalist bumble bee (Bombus impatiens), which varies greatly in body size. We found that on free anther architecture, larger bees were better pollinators. More pollen on their bodies was available for pollination and they deposited more pollen on stigmas. Conversely, on joined anther architecture, smaller bees were better pollinators. They collected less pollen into their pollen baskets, had more pollen on their bodies available for pollination, and deposited more pollen on stigmas. While we also found modest evidence that plants bene t more from joined versus free anther architecture, further investigation will likely reveal this also depends on pollinator traits. We discuss potential mechanisms by which pollinator size and anther architecture interact and implications for oral evolution.

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Correction to: Hold tight or loosen up? Functional consequences of a shift in anther architecture depend substantially on bee body size

et al. 2023

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Hold tight or loosen up? Functional consequences of a shift in anther architecture depend substantially on bee body size

Wilkins

Mayberry

Vallejo‐Marín

et al. 2022

Preprint

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A fundamental question in pollination ecology is how pollinators affect the evolution of different floral forms. Yet functional effects of shifts in floral form for plant and pollinator are frequently unclear. For instance, flowers that conceal pollen within tube-like anthers that are spread apart and move freely (free architecture) or are tightly joined together (joined architecture) have evolved independently across diverse plant families and are geographically widespread. Surprisingly, how their bee pollinators affect the function of both architectures remains unknown. We hypothesized that bee body size would affect foraging success and pollination differently for free and joined anther architectures. We therefore modified the anther architecture of a single plant species (Solanum elaeagnifolium) and used a single species of generalist bumble bee (Bombus impatiens), which varies greatly in body size. We found that on free anther architecture, larger bees were better pollinators. More pollen on their bodies was available for pollination and they deposited more pollen on stigmas. Conversely, on joined anther architecture, smaller bees were better pollinators. They collected less pollen into their pollen baskets, had more pollen on their bodies available for pollination, and deposited more pollen on stigmas. While we also found modest evidence that plants benefit more from joined versus free anther architecture, further investigation will likely reveal this also depends on pollinator traits. We discuss potential mechanisms by which pollinator size and anther architecture interact and implications for floral evolution.

show abstract

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