Estimating pollination success with novel artificial flowers: Effects of nectar concentration

Estimating pollination success with novel artificial flowers: Effects of nectar concentration

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We developed novel artificial flowers that dispense and receive powdered food dyes as pollen analogues while their nectar is replenished by capillary action. Dye receipt, which can be measured colourimetrically, is a direct surrogate for pollen receipt or female reproductive success, but can also se...

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Main Authors: James D. Thomson, Jane E. Ogilvie, Takashi T. Makino, Angela Arisz, Sneha Raju, Vanessa Rojas-Luengas, Marcus Tan
Format: Article
Language:English
Published: Enviroquest Ltd. 2012-10-01
Series:Journal of Pollination Ecology
Online Access:https://pollinationecology.org/index.php/jpe/article/view/185
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spelling doaj-d031ded1724d4e7d8134a9ff179d09f42021-07-28T12:36:10ZengEnviroquest Ltd.Journal of Pollination Ecology1920-76032012-10-01910811410.26786/1920-7603(2012)1473Estimating pollination success with novel artificial flowers: Effects of nectar concentrationJames D. Thomson0Jane E. Ogilvie1Takashi T. Makino2Angela Arisz3Sneha Raju4Vanessa Rojas-Luengas5Marcus Tan6Department of Ecology and Evolutionary Biology, University of TorontoDepartment of Ecology and Evolutionary Biology, University of TorontoDepartment of Biology, Faculty of Science, Yamagata UniversityDepartment of Ecology and Evolutionary Biology, University of TorontoDepartment of Ecology and Evolutionary Biology, University of TorontoDepartment of Ecology and Evolutionary Biology, University of TorontoDepartment of Ecology and Evolutionary Biology, University of TorontoWe developed novel artificial flowers that dispense and receive powdered food dyes as pollen analogues while their nectar is replenished by capillary action. Dye receipt, which can be measured colourimetrically, is a direct surrogate for pollen receipt or female reproductive success, but can also serve to compare pollen donation (male reproductive success) from flowers with different colours of dye. By allowing captive bumble bee colonies to visit large arrays of such flowers, we investigated whether total dye receipt depended on the sugar concentration of a flower’s nectar. Estimating pollen transfer, rather than simply visitation rate, is appropriate for this question because flowers with more concentrated nectar might accrue more pollen not only through higher visitation rates but also through longer visits that transfer more pollen per visit. Flowers with richer nectar did receive more dye regardless of their spatial arrangement, but the effect was greatest when rich and poor flowers were segregated in large blocks, as opposed to being intermingled.https://pollinationecology.org/index.php/jpe/article/view/185
collection DOAJ
language English
format Article
sources DOAJ
author James D. Thomson
Jane E. Ogilvie
Takashi T. Makino
Angela Arisz
Sneha Raju
Vanessa Rojas-Luengas
Marcus Tan
spellingShingle James D. Thomson
Jane E. Ogilvie
Takashi T. Makino
Angela Arisz
Sneha Raju
Vanessa Rojas-Luengas
Marcus Tan
Estimating pollination success with novel artificial flowers: Effects of nectar concentration
Journal of Pollination Ecology
author_facet James D. Thomson
Jane E. Ogilvie
Takashi T. Makino
Angela Arisz
Sneha Raju
Vanessa Rojas-Luengas
Marcus Tan
author_sort James D. Thomson
title Estimating pollination success with novel artificial flowers: Effects of nectar concentration
title_short Estimating pollination success with novel artificial flowers: Effects of nectar concentration
title_full Estimating pollination success with novel artificial flowers: Effects of nectar concentration
title_fullStr Estimating pollination success with novel artificial flowers: Effects of nectar concentration
title_full_unstemmed Estimating pollination success with novel artificial flowers: Effects of nectar concentration
title_sort estimating pollination success with novel artificial flowers: effects of nectar concentration
publisher Enviroquest Ltd.
series Journal of Pollination Ecology
issn 1920-7603
publishDate 2012-10-01
description We developed novel artificial flowers that dispense and receive powdered food dyes as pollen analogues while their nectar is replenished by capillary action. Dye receipt, which can be measured colourimetrically, is a direct surrogate for pollen receipt or female reproductive success, but can also serve to compare pollen donation (male reproductive success) from flowers with different colours of dye. By allowing captive bumble bee colonies to visit large arrays of such flowers, we investigated whether total dye receipt depended on the sugar concentration of a flower’s nectar. Estimating pollen transfer, rather than simply visitation rate, is appropriate for this question because flowers with more concentrated nectar might accrue more pollen not only through higher visitation rates but also through longer visits that transfer more pollen per visit. Flowers with richer nectar did receive more dye regardless of their spatial arrangement, but the effect was greatest when rich and poor flowers were segregated in large blocks, as opposed to being intermingled.
url https://pollinationecology.org/index.php/jpe/article/view/185
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