Tracing a possible origin of animal pollination
( | Press Release | 2022-10-10 16:13:32 )
Vienna, Austria, October 7th, 2022: An international team of researchers including Florian Etl and Jürg Schönenberger from the University of Vienna, Stefan Dötterl and Mario Schubert from the University of Salzburg, and Oliver Reiser and Christian Kaiser from the University of Regensburg, have for the first time succeeded in providing evidence for an important hypothesis on the evolution and diversity of animal pollination.

The hypothesis states that insect flower pests can become useful pollinators during the course of evolution. Botanists call this "antagonist capture", meaning that plants are able to turn a harmful insect into a pollinator through evolutionary adaptations in their flowers or inflorescences. This theory has now been confirmed for the first time in Syngonium hastiferum, an aroid plant (arum family, Araceae) from Costa Rica. The investigation, which also brought to light a completely new pollination system and a previously unknown flower scent compound, was published in the journal "Current Biology".

While all other members of the genus Syngonium studied so far are pollinated by nocturnal beetles, Syngonium hastiferum is exclusively pollinated by a hitherto unknown diurnal plant bug species. Interestingly, plant bugs also occur as flower visitors in beetle-pollinated aroids, but only as pests that eat pollen and flower tissue and thus damage the plants without pollinating them.

Flowers and inflorescences of Syngonium hastiferum differ in various characteristics from closely related but beetle-pollinated species. For example, the inflorescences of Syngonium hastiferum warm up in the early hours of the morning through a process called thermogenesis and, at the same time, emit a strong floral scent, attracting pollinating plant bugs during the day. In the beetle-pollinated species, these processes take place in the evening and accordingly, pollinating beetles are attracted during the night. In addition, Syngonium hastiferum lacks the usual food bodies for beetles and the surface of the pollen grains has also changed from smooth and sticky to spiny and powdery, which is what makes it possible for the pollen grains to adhere to the plant bugs.

There were also significant changes in the composition of the flower scent, which is crucial for attracting the plant bugs. While inflorescences of Syngonium hastiferum smell similarly intense as those of beetle-pollinated aroid species, their scent is composed of other chemical substances. The researchers have discovered a previously unknown substance as the main component of the scent of Syngonium hastiferum. The unknown compound was decoded using nuclear magnetic resonance spectroscopy, paving the way for another important step in the study: the chemical synthesis of the new natural substance in order to be able to test the attraction of the substance to the plant bugs. In Costa Rica, this synthetic product has attracted as many pollinating bugs as the plant's inflorescences. The researchers are thus sure that this substance is solely responsible for attracting the plant bugs. The newly described substance was named ‘gambanol’ in recognition of the Tropical Field Station La Gamba in Costa Rica, where the new pollination system was discovered.

The study offers a new perspective on the evolution of flowering plants and the spectacular diversity of their flowers and their pollinators by providing the first evidence that pest insects can become efficient pollinators through changes in the flowers. Future studies will have to show whether similar changes also occurred in other flowering plant lineages.

Abb. 1: Inflorescence of Syngonium hastiferum with numerous plant bug pollinators, attracted by the newly identified natural compound Gambanol, named after the tropical field station La Gamba in Costa Rica, where the new pollination system was discovered. (C: Florian Etl)
Abb. 2: A mirid bug pollinator dusted with pollen (C: Florian Etl)
Abb. 3: Mirid bug pollinators on female flowers of Syngonium hastiferum (C: Florian Etl)

Publication in Current Biology:
Evidence for the recruitment of florivorous plants bugs as pollinators: Florian Etl, Christian Kaiser, Oliver Reiser, Mario Schubert, Stefan Dötterl, Jürg Schönenberger
DOI: 10.1016/j.cub.2022.09.013

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Scientific contacts
Mag. Florian Etl
Department of Botany and Biodiversity Research
University of Vienna
T +43 (0)1 4277-540 83

Univ.-Prof. Dr. Jürg Schönenberger
Head of Division of Structural and Functional Botany
Department of Botany and Biodiversity Research
University of Vienna
T +43 (0)1 4277-540 80

Press contact
Mag. Alexandra Frey
Press and Information Office of the University of Vienna
Universitätsring 1, 1010 Vienna
T +43-1-4277-175 33

International Distribution
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