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common name: composite thrips
scientific name: Microcephalothrips abdominalis (Crawford 1910) (Insecta: Thysanoptera: Thripidae)

Introduction - Synonymy - Distribution - Description - Life Cycle - Hosts - Economic Importance - Management - Selected References

Introduction (Back to Top)

Microcephalothrips abdominalis (Crawford 1910) (Figure 1) belongs to the order Thysanoptera and the family Thripidae with members commonly known as thrips. Thrips are small, slender-bodied insects with fringed wings, inhabiting diverse ecological niches. Thrips are often cryptic in nature. Microcephalothrips abdominalis prefers to feed on plants in the composite family and therefore is commonly known as composite thrips. Flowers of this family are generally composed of a disk with a ray of petals extending at the rim of the disk. Some flower heads are composed only of a disk or a ray and could be in clusters in some species.

Adult female composite thrips, Microcephalothrips abdominalis Crawford (dorsal view)

Figure 1. Adult female composite thrips, Microcephalothrips abdominalis Crawford (dorsal view). Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Synonymy (Back to Top)

Thrips abdominalis Crawford DL, 1910: 157.
Thrips femoralis Jones, 1912: 4.
Thrips crenatus Watson, 1922: 35.
Thrips microcephalus Priesner, 1923: 116.
Thrips (Ctenothripiella) gillettei Moulton, 1926: 126.
Stylothrips brevipalpis Karny, 1926: 206.
Paraphysopus burnsi Girault, 1927: 2.
Thrips oklahomae Watson, 1931: 342.
Microcephalothrips brevipalpis armatus Ananthakrishnan, 1956: 133.
Aureothrips marigoldae Raizada, 1966: 278.
Microcephalothrips chinensis Feng, 1998: 257.
Microcephalothrips jigonshanensis Feng, 1998: 258.
Microcephalothrips yanglinensis Feng, Zhang & Sha, 2002: 167.

 

Distribution (Back to Top)

Microcephalothrips abdominalis was described from Mexico (Crawford 1910) and is considered cosmopolitan (Bailey 1937). This species is distributed throughout the tropics and subtropics and has been reported from the following geographical regions (Jones 2005, Pizzol et al. 2011) (Figure 2).

 Global distribution of composite thrips, Microcephalothrips abdominalis Crawford.

Figure 2. The blue dots indicate the global distribution of composite thrips, Microcephalothrips abdominalis Crawford. Graphics by Rafia A. Khan, Entomology and Nematology Department, University of Florida.


Africa: Egypt, South Africa, and Zimbabwe.
Asia: Bangladesh, China, India, Indonesia, Japan, Pakistan, the Philippines, Taiwan, Thailand, South Korea, and Sri Lanka.
Central America and Caribbean: Caribbean Islands, Martinique, Cuba, Puerto Rico, and Trinidad.
Europe: Canary Islands, Croatia, Hungary, Italy, France, and Slovenia.
Middle East: Iran, Israel, Turkey, and the United Arab Emirates.
North America: Canada, United States Arkansas, California, Colorado, Illinois, Florida, Georgia, Louisiana, Maryland, Oklahoma, South Carolina, Texas, Virginia, and Washington.
Oceania: Australia, Fiji, Guam, Hawaii, New Caledonia, New Zealand, Palau and the Solomon Islands, Tonga and the Cook Islands.
South America: Argentina, Brazil, Colombia, Mexico, and Peru.

 

Description (Back to Top)

Microcephalothrips is a monospecific genus in the Terebrantia suborder. Morphologically the species resembles the genus Thrips and their key characteristics are distinct enough to differentiate them from other species. The adults are brown to dark brown in color. There are seven antennal segments; the third and sometimes the fourth segments are lightly colored (Figure 3). There are two pairs of ocellar setae, the interocellar pair being outside or near the ocellar triangle (Figure 4). The head of adult thrips is relatively small, narrower than the prothorax (Figure 5). The prothorax has two pairs of postero-lateral setae and five to six pairs of postero-marginal setae (Figure 6).

Head of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing antenna with seven antennal segments

Figure 3. Head of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing antenna with seven antennal segments. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Head of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing ocelli and ocellar setae.

Figure 4. Head of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing ocelli and ocellar setae. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Head and thorax (Pro, meso and meta thorax) of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing head is smaller than the pro-thorax.

Figure 5. Head and thorax (Pro, meso and meta thorax) of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing head is smaller than the pro-thorax. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Pro and meso thoracic segments of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing the lines and setae.

Figure 6. Pro and meso thoracic segments of an adult composite thrips, Microcephalothrips abdominalis Crawford, showing the lines and setae. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

The wings are brown with two distal setae on the main vein (Figure 7). The abdominal tergites one to eight display craspedum, characteristic triangular teeth along the posterior margin (pl. craspeda) (i.e., large triangular tooth) visible on the posterior edge of the segments (Figure 8). The pronotum is trapezoidal, wider at the posterior margin than the anterior. The hind femora and all tarsi are usually pale. The sternites bear many accessory bristles. The body length of the females is 1080 to 1320 µm. The male is paler and smaller (825 to 1000 µm) than the female, sometimes with a darker head. Small rounded sensory areas are present on sternites two to seven (Pizzol et al. 2011, Cluever and Smith 2017).

Forewing of an adult composite thrips, Microcephalothrips abdominalis Crawford.

Figure 7. Forewing of an adult composite thrips, Microcephalothrips abdominalis Crawford. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Abdominal tergites of an adult composite thrips, Microcephalothrips abdominalis Crawford.

Figure 8. Abdominal tergites of an adult composite thrips, Microcephalothrips abdominalis Crawford. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Tergites VI and VII of an adult Microcephalothrips abdominalis Crawford, showing teeth like craspeda on the posterior margin

Figure 9. Tergites VI and VII of an adult Microcephalothrips abdominalis Crawford, showing teeth like craspeda on the posterior margin. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.


Ovipositor of an adult female composite thrips, Microcephalothrips abdominalis Crawford.

Figure 10
. Ovipositor of an adult female composite thrips, Microcephalothrips abdominalis Crawford. Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.


Life Cycle (Back to Top)

Microcephalothrips abdominalis completes its life cycle within 9 to 12 days. Oviposition of this species coincides with the emergence of the petals of the disc florets of host plants in its late bud stage. The anthesis (when a flower is fully open) and nectar production in the flowers of host are followed and synchronized with oviposition and larval emergence of Microcephalothrips abdominalis. This species usually lays eggs within the tissues of involucral bracts (these are part of the green tissue between the flower petals and the stem of the flower) and occasionally on the upper side of the pedicles. Larvae are the most efficient stage to carry pollen grains on their body compared to the adults. Larvae can carry 330 to 1020 pollen grains on their body whereas the adults can carry 96 to 448 pollen grains (Gopinathan et al. 1981).


Hosts (Back to Top)

All life stages of Microcephalothrips abdominalis occur on flowers of composite plants. This thrips is considered an important pollinator for those plants. They also occur on older leaves and fruits. When populations are high these thrips move to weeds and vegetable crops.

Microcephalothrips abdominalis is commonly present on the plants in the family Asteraceae (Composite). It is reported from other hosts such as black-jack (Bidens pilosa), cosmos (Bidens formosa), mums (Chrysanthemum spp.), sunflower (Helianthus annuus), Calendula (Calendula species), Dahlia (Dahlia pinnata), marigold (Tagetes erecta), zinnia (Zinnia elegans), blue billygoatweed (Ageratum conizoides Lam.), Chinese wedelia (Wedelia chinensis), Bay Biscayne creeping-oxeye (Wedelia trilobata), and tridax daisy (Tridax procumbens).

The species was also found in native terrestrial orchids in northern Florida (Funderburk et al. 2007), in orchids in Thailand (Kajita et al. 1992), in citrus orchards in Florida (Childers and Nakahara 2006), on tea cultures in Japan (Okada and Kudo 1982), on rice in South Korea (Choi et al. 1991), on common sunflower, chamomile, begonia, giant onion, and tobacco in Iran (Mirab et al. 2015), and on Indian pole bean (Khan and Seal unpublished data 2017). However, because of its habit of frequenting flowers, Microcephalothrips abdominalis occurrence on plants in many other families is also reported.

 

Economic Importance (Back to Top)

Microcephalothrips abdominalis is an important pollinator for various asteracean plants (Ananthakrishnan 1993, Gopinathan et al. 1981). In south Florida, it occurs on Indian pole bean grown during May-August. In high abundance, feeding damage causes discoloration of leaves resulting in a bronze color. Larval feeding on pods lowers quality and reduces value, sometimes rendering the crop unmarketable under high infestations (Khan and Seal unpublished data 2017).

On Asteraceae, heavy infestation of Microcephalothrips abdominalis causes significant damage to the petals and the collar. Petals lose their pigmentation and seed development is hindered. They are also known as vectors of Tobacco streak virus (TSV) in parthenium weed (Parthenium hysterophorus) (Prasada et al. 2003, Sharman et al. 2009), blue-mink (Ageratum houstanianum), and Tobacco (Greber et al. 1991).

Sampling of infested bean leaf and pod showing male (smaller and paler than female), female (bigger and darker than male), and larval (different instars) composite thrips, Microcephalothrips abdominalis Crawford.

Figure 11. Sampling of infested bean leaf and pod showing male (smaller and paler than female), female (bigger and darker than male), and larval (different instars) composite thrips, Microcephalothrips abdominalis Crawford. The samples also contain some minute pirate bug (Orius spp.). Photograph by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Indian pole bean leaf and bean pods, infested by composite thrips, Microcephalothrips abdominalis Crawford.

Figure 12. Indian pole bean leaf and bean pods, infested by composite thrips, Microcephalothrips abdominalis Crawford. Photographs by Rafia A. Khan, Entomology and Nematology Department, University of Florida.

 

Management (Back to Top)

Across its distribution, reports of damage from Microcephalothrips abdominalis are infrequent. The species can occur on many ornamental plants without showing obvious damage. Management should start early when the infestations are low. Minute pirate bug (Orius spp.) is a potential predator at low infestation and can provide significant suppression of thrips (Figure 11). Biorational pesticides, such as insecticidal oil and insecticidal soap can be used at the early state of infestation. Use of broad-spectrum insecticides should be avoided to encourage predator population.

 

Selected References (Back to Top)