Environmental morphing enables informed dispersal of the dandelion diaspore
Environmental morphing enables informed dispersal of the dandelion diaspore
Animal migration is highly sensitised to environmental cues, but plant dispersal is considered largely passive. The common dandelion, Taraxacum officinale, bears an intricate haired pappus facilitating flight. The pappus enables the formation of a separated vortex ring during flighthowever, the pappus structure is not static but reversibly changes shape by closing in response to moisture. We hypothesised that this leads to changed dispersal properties in response to environmental conditions. Using wind tunnel experiments for flow visualisation, particle image velocimetry, and flight tests, we characterised the fluid mechanics effects of the pappus morphing. We also modelled dispersal to understand the impact of pappus morphing on diaspore distribution. Pappus morphing dramatically alters the fluid mechanics of diaspore flight. We found that when the pappus closes in moist conditions, the drag coefficient decreases and thus the falling velocity is greatly increased. Detachment of diaspores from the parent plant also substantially decreases. The change in detachment when the pappus closes increases dispersal distances by reducing diaspore release when wind speeds are low. We propose that moisture-dependent pappus-morphing is a form of informed dispersal allowing rapid responses to changing conditions.
Seale, Madeleine
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Zhdanov, Oleksandr
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Soons, Merel B.
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Cummins, Cathal
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Kroll, Erika
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Blatt, Michael R.
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Zare-Behtash, Hossein
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Busse, Angela
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Mastropaolo, Enrico
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Bullock, James M.
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Viola, Ignazio M.
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Nakayama, Naomi
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29 November 2022
Seale, Madeleine
60a1608b-7f1a-4614-847c-c06a1581253a
Zhdanov, Oleksandr
7531d5ee-a833-417e-8d9b-5c7cdfa98856
Soons, Merel B.
1a0fe3b1-86cb-4e50-83f9-e077b54a111e
Cummins, Cathal
1c4cee48-23ca-476e-9c39-cabce059e31f
Kroll, Erika
dc5ae853-0676-4d1b-ab34-05f860f67e93
Blatt, Michael R.
29e21e10-05c1-45bb-a628-83b80d91c236
Zare-Behtash, Hossein
74be9b97-cb09-49c6-9f75-7ec58c0dd16c
Busse, Angela
0430b320-341b-4c73-9cb5-f35632d562a4
Mastropaolo, Enrico
98cefa3f-0398-4e8c-97cc-87d634f24f56
Bullock, James M.
1905d5ee-f9cd-4752-b0aa-5ae5662b35e9
Viola, Ignazio M.
8775ec06-f507-4470-9cd2-1007815439f3
Nakayama, Naomi
375d7fad-f93b-49d2-bfa7-f1b5daed3a0f
Seale, Madeleine, Zhdanov, Oleksandr, Soons, Merel B., Cummins, Cathal, Kroll, Erika, Blatt, Michael R., Zare-Behtash, Hossein, Busse, Angela, Mastropaolo, Enrico, Bullock, James M., Viola, Ignazio M. and Nakayama, Naomi
(2022)
Environmental morphing enables informed dispersal of the dandelion diaspore.
eLife, 11, [e81962].
(doi:10.7554/eLife.81962).
Abstract
Animal migration is highly sensitised to environmental cues, but plant dispersal is considered largely passive. The common dandelion, Taraxacum officinale, bears an intricate haired pappus facilitating flight. The pappus enables the formation of a separated vortex ring during flighthowever, the pappus structure is not static but reversibly changes shape by closing in response to moisture. We hypothesised that this leads to changed dispersal properties in response to environmental conditions. Using wind tunnel experiments for flow visualisation, particle image velocimetry, and flight tests, we characterised the fluid mechanics effects of the pappus morphing. We also modelled dispersal to understand the impact of pappus morphing on diaspore distribution. Pappus morphing dramatically alters the fluid mechanics of diaspore flight. We found that when the pappus closes in moist conditions, the drag coefficient decreases and thus the falling velocity is greatly increased. Detachment of diaspores from the parent plant also substantially decreases. The change in detachment when the pappus closes increases dispersal distances by reducing diaspore release when wind speeds are low. We propose that moisture-dependent pappus-morphing is a form of informed dispersal allowing rapid responses to changing conditions.
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elife-81962-v2
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Accepted/In Press date: 28 November 2022
Published date: 29 November 2022
Identifiers
Local EPrints ID: 492705
URI: http://eprints.soton.ac.uk/id/eprint/492705
ISSN: 2050-084X
PURE UUID: ad82a1c9-2f73-485d-bba7-35c85f96855d
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Date deposited: 12 Aug 2024 16:45
Last modified: 13 Aug 2024 02:08
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Contributors
Author:
Madeleine Seale
Author:
Oleksandr Zhdanov
Author:
Merel B. Soons
Author:
Cathal Cummins
Author:
Erika Kroll
Author:
Michael R. Blatt
Author:
Hossein Zare-Behtash
Author:
Angela Busse
Author:
Enrico Mastropaolo
Author:
James M. Bullock
Author:
Ignazio M. Viola
Author:
Naomi Nakayama
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