Water mediates fertilization in a terrestrial flowering plant

• Water-mediated fertilization is ubiquitous in early land plants. This ancestral mode of fertilization has, however, generally been considered to have been lost during the evolutionary history of terrestrial flowering plants. • We investigated reproductive mechanisms in the subtropical ginger Cautl...

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Bibliographic Details
Published in:The New phytologist 2019-11, Vol.224 (3), p.1133-1141
Main Authors: Fan, Yong-Li, Barrett, Spencer C.H., Yang, Ji-Qin, Zhao, Jian-Li, Xia, Yong-Mei, Li, Qing-Jun
Format: Article
Language:English
Subjects:
Atmospheric precipitations
autonomous self‐pollination
Biological fertilization
Fertilization
Flowering
Flowering plants
Flowers
Ginger
Insects
Magnoliophyta
Ovules
Plant reproduction
Plants (botany)
Pollen
pollen germination
Pollen tubes
Pollination
pollinator limitation
Pollinators
Rain
rain adaptation
reproductive assurance
Seed production
Seed set
Seeds
Spermatozoa
Terrestrial environments
Tubes
water‐mediated fertilization
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Summary:• Water-mediated fertilization is ubiquitous in early land plants. This ancestral mode of fertilization has, however, generally been considered to have been lost during the evolutionary history of terrestrial flowering plants. • We investigated reproductive mechanisms in the subtropical ginger Cautleya gracilis (Zingiberaceae), which has two pollen conditions – granular and filiform masses – depending on external conditions. We tested whether rain transformed granular pollen into filiform masses and whether this then promoted pollen-tube growth and fertilization of ovules. Using experimental manipulations in the field we investigated the contribution of water-mediated fertilization to seed production. • Rain caused granular pollen to form filiform masses of germinating pollen tubes, which transported sperm to ovules, resulting in fertilization and seed set. Flowers exposed to rain produced significantly more seeds than those protected from the rain, which retained granular pollen. Insect pollination made only a limited contribution to seed set because rainy conditions limited pollinator service. • Our results reveal a previously undescribed fertilization mechanism in flowering plants involving water-mediated fertilization stimulated by rain. Water-mediated fertilization is likely to be adaptive in the subtropical monsoon environments in which C. gracilis occurs by ensuring reproductive assurance when persistent rain prevents insect-mediated pollination.
ISSN:0028-646X
1469-8137
DOI:10.1111/nph.15873