Buzz pollination

Buzz pollination or sonication is a technique used by some bees, such as solitary bees (Andrena carantonica) to release pollen which is more or less firmly held by the anthers.[1] The anthers of buzz-pollinated plant species are typically tubular, with an opening at only one end, and the pollen inside is smooth-grained and firmly attached. With self-fertile plants such as tomatoes, wind may be sufficient to shake loose the pollen through pores in the anther and accomplish pollination. Visits by bees may also shake loose some pollen, but more efficient pollination of those plants is accomplished by a few insect species who specialize in sonication or buzz pollination.[2]

A bee using buzz pollination

In order to release the pollen, solitary bees are able to grab onto the flower and move their flight muscles rapidly, causing the flower and anthers to vibrate, dislodging pollen. Pollination involving vibrations is called buzz pollination. Honeybees cannot perform buzz pollination.[2] About 9% of the flowers of the world are primarily pollinated using buzz pollination.[3]

Senna's poricidal anthers.

Flower morphology

Plants that rely on buzz pollination have a unique anther shape compared to other flora. In buzz pollinated plants, this process can only happen if pollinators visit the flowers to extract pollen. Only a few insect species are able to pollinate these plants. The flower morphology of buzz pollinated plants is different from other flora that do not use this type of pollination. The anthers are completely sealed except for a small pore at the top or have very small slits that open along the sides. The pores and slits are small enough that insects cannot easily enter the anther, but large enough pollen can exit. Because of this shape, they are often referred to as poricidal anthers. These poricidal anthers are only able to release pollen when vibrated at a specific frequency.[4] The stigmas of these flowers are often located below the anthers. This is could be an evolutionary strategy to prevent self-fertilization, also known as selfing, by creating distance between the stigma.[4]

Plants pollinated by buzz pollination

The following plants are pollinated more efficiently by buzz pollination:

Andrena cornelli, the azalea andrena performing buzz pollination of azalea.

Examples of buzz pollinating bee species

Evolutionary origins

The earliest evidence of ancestors of plants that use this mode of pollination in the fossil record has been dated to the Cretaceous period.[7] Also, some extant flora such as members of the family Myrtaceae show a spectrum of anther shapes including poricidal anthers and are thought to resemble some morphological aspects of ancestral buzz pollinated flowers.[7] As these plants have evolved complex floral structures, pollinators have coevolved with these plants.[8]

Although pollination results from the bees visiting these flowers, this is not the primary reason they visit plants with poricidal anthers. Pollen contains a substantial amount of protein compared to nectar, the sugary liquid the majority of plants produce as a reward for their animal pollinators.[4] Bees eat pollen as well as make a paste with it to feed their larvae. The pollen paste is then sealed into the nest to create a reserve for the young bees.[4] Bees rely on this resource for food; therefore they are also dependent on flowers that produce substantial amounts of accessible pollen, including flowers with poricidal anthers. Bees from Bombus and Xylocopa are thought to pollinate these flowers because their adaptive behavior allows them to easily extract pollen that is less available to other insects.[8] Since bees have a source of plentiful pollen that they do not have to compete with other insects for, they are more likely to visit these flowers. This then allows the flowers to be more successful reproductively because the plants maximize their pollen dispersal with each bee visit, and less pollen is lost.[8] The relationship between buzz pollinated plants and bees benefits both groups and could be why poricidal anthers have been successful evolutionarily.[8] Pollinator and flower relationships have been observed in Orphium frutescens, a small shrub that has poricidal anthers. Bees visited these plants outside of the University of Cape Town and continued to visit the plants even when all of the pollen had been extracted. Although the bees did not know the O. frutescens would benefit from these multiple visits as the plants continue to produce pollen during the flowering season.

Economic impacts

Scientists can now import pollinators, such as bumblebees, where there might be a shortage of pollinators. In New Zealand, the red clover plant population was restored when bumblebees were imported from Europe to help with the pollination.[9] Maintaining red clover population in New Zealand at the time was critical to the country's crop production rate. However, in North America, bee populations are on the decline due to many factors, which include colony mortality, loss of suitable habitat for wild bees, synthetic pesticide use, and exposure to novel pests and pathogens [10]. This has led to challenges for farmers from the east to the west coast of the United States and Canada to find alternate ways to help plants such as berries pollinate at a steady pace.[9]

One of the most common plants that depend on buzz pollination is the greenhouse tomato (Lycopersicon esculentum). Worldwide, up to 50 bumblebee colonies are used per hectare during growing season, bringing in values of approximately $13 million a year for a 40,000 hectare of greenhouses globally.[11] Due to competition between producers and an increase in success rate of rearing, the total costs for the bumblebee colonies have diminished severely.[11] This common practice has led to producers branching out and selling not only bumblebees but other insects who may have mutualistic relationships with plants. The total profit of this industry has been recorded to produce over $111 million a year, with $61 million coming in from bumblebees alone.[11]

Alternative means of pollination

Greenhouse grown tomatoes are unproductive without aid in pollination. Traditionally, pollination has been done by shaking using electric vibrators (one brand name was "Electric Bee"), however, it has been found to be less expensive in human labor and plant breakage to use bumblebees within the greenhouses. In Australia, as bumblebees are not native, and Australia has a number of widely publicised environmental disasters caused by escaped introduced species ("feral species"), research is under way to adapt the use of the Australian native Amegilla cingulata (blue banded bees) for the same task.[12] This research is, however, competing with lobbying by potential importers of bumblebees, who would rather use those, disregarding the risk and the potential for developing a "home grown" solution.[13] Home growers and amateurs can be seen on YouTube using electric toothbrushes to pollinate their flowers. [14]

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References

  1. Fidalgo, Adriana De O.; Kleinert, Astrid De M. P. (2009-12-01). "Reproductive biology of six Brazilian Myrtaceae:‐is there a syndrome associated with buzz-pollination?". New Zealand Journal of Botany. 47 (4): 355–365. doi:10.1080/0028825x.2009.9672712. ISSN 0028-825X.
  2. Thomas S. Woodcock (2012), Pollination in the Agricultural Landscape: Best Management Practices for Crop Pollination (PDF), Canadian Pollination Initiative (NSERC-CANPOLIN), archived from the original (PDF) on 2018-02-19, retrieved 2016-07-29
  3. Buchmann, S. J. Kansas Entomol. Soc. 1985 Bees Use Vibration to Aid Pollen Collection from Non-Poricidal Flowers.
  4. Johnson, S.D. (1992). "Buzz pollination of Orpheum frutescens". Veld & Flora. 78 (2): 36–37.
  5. Morgan, Tan; Whitehorn, Penelope; Lye, Gillian C.; Vallejo-Marín, Mario (2016-03-01). "Floral Sonication is an Innate Behaviour in Bumblebees that can be Fine-Tuned with Experience in Manipulating Flowers". Journal of Insect Behavior. 29 (2): 233–241. doi:10.1007/s10905-016-9553-5. ISSN 0892-7553. PMC 4841848. PMID 27194824.
  6. Buchmann, Stephen L. (1985-01-01). "Bees Use Vibration to Aid Pollen Collection from Non-Poricidal Flowers". Journal of the Kansas Entomological Society. 58 (3): 517–525. JSTOR 25084671.
  7. Proença, C. P. (1992). "Buzz pollination–older and more widespread than we think?". Journal of Tropical Ecology. 8 (1): 115–120. doi:10.1017/s0266467400006192.
  8. Harder, Lawrence D.; Thomson, James D. (1989-01-01). "Evolutionary Options for Maximizing Pollen Dispersal of Animal-Pollinated Plants". The American Naturalist. 133 (3): 323–344. doi:10.1086/284922. JSTOR 2462124.
  9. Peter, Kevan; Truman, Phillips (2001-04-05). "The Economic Impacts of Pollinator Declines: An Approach to Assessing the Consequences" (PDF). Conservation Ecology. 5 (1). doi:10.5751/ES-00272-050108. hdl:10535/3353. ISSN 1195-5449.
  10. Sánchez-Bayo, F; Wyckhuys, K.A.G. (2019). "Worldwide decline of the entomofauna: A review of its drivers". Biological conservation (232): 8-27.
  11. Velthuis, Hayo H.W.; van Doorn, Adriaan (2006). "A century of advances in bumblebee domestication and the economic and environmental aspects of its commercialization for pollination". Apidologie. 37 (4): 421–451. doi:10.1051/apido:2006019. ISSN 0044-8435.
  12. Dollin A. (2006). "Blue Banded Bee Pollination Trials at Adelaide Uni." Aussie Bee, September 2006. Australian Native Bee Research Centre.
  13. Lambie's bumblebee deal carries feral sting in its tail, The Invasive Species Council, 24 September 2015, retrieved 30 September 2016
  14. https://www.youtube.com/results?search_query=toothbrush+pollination
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