Researchers from Stellenbosch University, South Africa found that tortoises, one of the main herbivores of the daisies, were unable to distinguish the lower petal surfaces against a green leaf background. Tortoises prefer to eat protein-rich flowers over leaves, but when confronted with closed flowers, they showed no preference between them.
When the researchers modelled the colours of the lower petal surfaces in the vision of other herbivores, they also found these colours to be indistinguishable from leaves.
In contrast, species of daisy that do not close at night produced the same colouration on their lower petals as the upper petals exposed to pollinators.
Plants face an evolutionary conflict between having flowers that attract pollinators while avoiding herbivores. Often plants defend themselves chemically, but this can have adverse effects on pollination.
"When plants defend their flowers chemically, the pollination interactions can be negatively influenced. Our study shows a novel way in which flowers can avoid herbivores, without compromising pollination interactions." Says Dr. Jurene Kemp, lead author of the study.
"These flowers can potentially circumvent the conflict of attracting both pollinators and herbivores by producing attractive colours on the surfaces that are exposed to pollinators (when flowers are open) and cryptic colours that are exposed when herbivores are active (when flowers are closed)."
In Namaqualand, South Africa, where the research took place, daises bloom annually in a spring flowering. This makes preserving flowers, responsible for reproduction, particularly important.
The researchers examined the colouration of 77 Asteraceae species, modelling how they appear in the visual systems of chameleons, horses and goats as proxies for tortoises and larger herbivores in the area, like springbok. They then tested the preferences of real tortoises with both open and closed flowers against leaf backgrounds.
Not all Asteraceae species that close their flowers had cryptically coloured lower petal surfaces, but in the experiments, the tortoises did not readily eat these flowers. Dr. Kemp said, "One interesting question would be to test whether non-cryptic flowers have chemical defences, and whether these chemical defences are absent in the cryptic flowers."
On further research Dr. Kemp said "Unfortunately, we could only do this using one plant family in one botanical region, it would be great to see if other plant species also use colour to avoid herbivores."
The researchers would also have liked to use larger herbivores such as springboks in their behavioural experiments, but Dr. Kemp adds that "this was practically not possible."
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Notes to Editors
For more information about this study and/or to arrange an interview, please contact:
Dr. Jurene Kemp
Email: jurenekemp@yahoo.com
Prof Allan Ellis
Email: agellis@sun.ac.za
Davy Falkner, Media Relations Officer, British Ecological Society
Email: davy@britishecologicalsociety.org, T: +44 (0)20 3994 8255, M: +44 (0) 7525 966 919
A pdf of the study and high-resolution images can be accessed here. Please note the captions and copyright information in the file names and credit the photographer appropriately.
This study is published in Functional Ecology. All articles will be available at https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/1365-2435.13423
Twitter: @FunEcology
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Functional Ecology