Toxomerus Explained

Toxomerus is a very large genus of hoverflies. They are found in many parts of North and South America.^{[1] [2]} Most larvae are predators on soft bodied insects, though a few species have been shown to feed on pollen. Adults feed on the pollen of a wide range of flowers.^[3]

Morphology

The majority of species are 6–9 mm in length. A common trait of species within the genus is their mimicry of stinging Hymenoptera to avoid predators.^{[4] [5]} What distinguishes Toxomerus from other hoverflies is the posterior indentation of their eyes and unique abdominal patterns; the abdominal patterns are diagnostic at the species level within the genus. Eyes are large (taking up approximately 2/3 of head) and range from red to black in color. Males and females can be distinguished by the dorsal spacing of their eyes, with males having a narrow gap and females having more space showing their ocelli.^[6]

Classification and distribution

Both molecular and morphological analysis have been used to establish Toxomerus monophyly. Not all of Toxomerus species have been described, though over 130 Neotropical species and 6 endemic Nearctic species are known.^[7] Some species have been discovered in the Old World in the afrotropics and are assumed to have been introduced due to their high genetic similarity to South American species. Toxomerus species are the most abundant hoverflies (or syrphid flies) in the Americas.^[8] Toxomerus marginatus is the most ubiquitous species in the North and is polyvoltine, brooding multiple times per year. Toxomerus dispar is the most common in the tropics, though T. pulchellus is more common in some areas.

Biology and ecology

Although they are high fidelity hymenopteran mimics^[9] they do not engage in behavioral mimicking such as leg waving, wing wagging, and mock-stinging. They also have significantly less hair than bees. As in all flies, Toxomerus species have 4 life stages: egg, larva, pupa, adult. The lifespan of the average adult is about a month and can vary depending on the season with shorter spans in the summer and longer in the winter. Mating can occur midair or on the ground depending on species. A female can lay up to hundreds of eggs at a time and will place them where prey or pollen food sources are readily available. They can be found in a wide variety of habitats. Adults can be encountered in dense ground cover including grasses and leaves.^[10] Some can do well in urban environments and can be responsible for some pollination in gardens.^[11]

Toxomerus larvae are known to typically feed on aphids.^[12] Predatory Toxomerus larvae have also been found to feed on other Hemiptera, Acari, and Thysanoptera, along with Lepidoptera larvae. Though Toxomerus larvae are generally predatory, there are three known exceptions: Toxomerus apegiensis, Toxomerus politus, and Toxomerus floralis.T. politus larvae feed on the pollen of Zea mays (corn), and T. apegiensis larvae feed on the pollen of Olyra obliquifolia (bamboo). T. floralis, the larvae of which feed on pollen from Cyperus rotundus (Java grass) and Mitracarpus hirtus (tropical girdleweed), is the only species whose larvae are known to feed on plants from different families. Generally, little information is known about the larval biology of Toxomerus species. Research suggests that other phytophagous Toxomerus species may be found by searching plants related to rainforest Olyra species.

After the larval stage, Toxomerus species typically become pollinivorous as adults.^[13] Their diets as adults had made some species responsible for pollination in a variety of plant families, including Poaceae, Scrophulariaceae, Ericaceae, Cyperaceae, and Orobanchaceae.^{[14] [15] [16] [17]} Adults and larvae will forage for pollen during the early daylight hours while their activity drops off at around late afternoon.^[18]

Species

List of Toxomerus species

Notes and References

1. Mengual. Ximo. Gunilla Stahls. Santos Rojo. 2008. First phylogeny of predatory flower flies (Diptera, Syrphidae, Syrphinae) using mitochondrial COI and nuclear 28S rRNA genes: conflict and congruence with the current tribal classification. Cladistics. 24. 4. 543–562. Wiley-Blackwell. 10.1111/j.1096-0031.2008.00200.x. 2009-06-18. dead. https://web.archive.org/web/20090409082745/http://entomology.si.edu/StaffPages/Mengual_Ximo/2008_Cladistics.pdf. 2009-04-09. 10045/12249. free.
2. Reemer, M. . 2010 . A second survey of Surinam Syrphidae (Diptera):introduction and Syrphinae . . 153 . 2 . 163–196 . 10.1163/22119434-900000295.
3. Reemer . Menno . Rotheray, Graham E. . 16 April 2009 . Pollen feeding larvae in the presumed predatory syrphine genus Toxomerus Macquart (Diptera, Syrphidae) . . 43 . 15 . 939–949 . Taylor and Francis . UK . 1464-5262 . 10.1080/00222930802610576 .
4. Shorter, Daniel A, and W A Drew. “SYRPHIDAE OF OKLAHOMA (DIPTERA).” Oklahoma State University, Department of Biology, Northwestern Oklahoma State University, Alva, Oklahoma, and Department of Entomology, Oklahoma State University, Stillwater, Oklahoma, digital.library.okstate.edu/oas/oas_pdf/v56/p75_94.pdf.
5. Penney, Heather D., et al. "The relationship between morphological and behavioral mimicry in hover flies (Diptera: Syrphidae)." The American Naturalist 183.2 (2013): 281-289.
6. Web site: Undeniably Interesting Facts About Hoverflies. AnimalSake. 2019-04-25.
7. Mengual, X. 2011. Black-tie dress code: two new species of the genus Toxomerus (Diptera, Syrhidae). ZooKeys 140: 1–26 (2011) doi: 10.3897/zookeys.140.1930 www.zookeys.org.
8. Metz, M., Thompson, C. 2001. A revision of the larger species of Toxomerus (Diptera: Syrphidae) with description of a new species. Studia dipterologica 8, 225-256.
9. Taylor. Christopher H.. Reader. Tom. Gilbert. Francis. June 2016. Hoverflies are imperfect mimics of wasp colouration. Evolutionary Ecology. 30. 3. 567–581. 10.1007/s10682-016-9824-9. 0269-7653.
10. Web site: Syrphidae, hover flies. www.bumblebee.org. 2019-04-25.
11. Lowenstein, David M., Kevin C. Matteson, and Emily S. Minor. "Diversity of wild bees supports pollination services in an urbanized landscape." Oecologia 179.3 (2015): 811-821.
12. Proctor, M., Yeo, P., Lack, A. 1996. The Natural History of Pollination. Harper Collins, London, 479 pp.
13. Thompson, F., & B. Thompson. “A new Toxomerus species from Chile (Diptera: Syrphidae.” Smithsonian Institution, Smithsonian Institution, 2007, repository.si.edu/bitstream/handle/10088/4385/Thompson_Thompson2007.pdf.
14. Borges, Zuleica M., and Marcia S. Couri. "Revision of Toxomerus Macquart, 1855 (Diptera: Syrphidae) from Brazil with synonymic notes, identification key to the species and description of three new species." Zootaxa 2179.s/n (2009).
15. Neel, Maile C. "Conservation implications of the reproductive ecology of Agalinis acuta (Scrophulariaceae)." American Journal of Botany 89.6 (2002): 972-980.
16. Kevan, P. G., et al. "Pollination of cranberries, Vaccinium macrocarpon, on cultivated marshes in Ontario." Proceedings of the Entomological Society of Ontario. Vol. 114. 1983.
17. Jordaens, Kurt, et al. "A second New World hoverfly, Toxomerus floralis (Fabricius)(Diptera: Syrphidae), recorded from the Old World, with description of larval pollen-feeding ecology." Zootaxa 4044.4 (2015): 567-576.
18. Dumbardon-Martial, Eddy. "Pollen feeding in the larva of Toxomerus pulchellus (Diptera, Syrphidae)." Bulletin de la Société entomologique de France 121.4 (2016): 413-420.