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common name: chilli thrips
scientific name: Scirtothrips dorsalis Hood (Insecta: Thysanoptera: Thripidae)

Introduction - Synonymy - Distribution - Identification - Life Cycle and Biology - Hosts - Damage - Disease Transmission - Management - Selected References

Introduction (Back to Top)

The chilli thrips, Scirtothrips dorsalis Hood, is an important pest of various vegetable, ornamental and fruit crops in southern and eastern Asia, Africa, and Oceania (Ananthakrishnan 1993, CABI/EPPO 1997, CAB 2003).

Dorsal view of adult chilli thrips, Scirtothrips dorsalis Hood.

Figure 1. Dorsal view of adult chilli thrips, Scirtothrips dorsalis Hood. Photograph by Lance Osborne, Entomology and Nematology Department, University of Florida.

Due to its diverse vegetation and subtropical climate, Florida is extremely suitable for the establishment of invasive alien flora and fauna (Ferriter et al. 2006). In the United States, the chilli thrips, Scirtothrips dorsalis Hood, is a relatively new, introduced insect pest in Florida and Texas.

Synonymy (Back to Top)

Anaphothrips andreae Karny 1925
Heliothrips minutissimus Bagnall 1919
Neophysopus fragariae Girault 1927
Scirtothrips andreae (Karny)
Scirtothrips fragariae (Girault)
Scirtothrips minutissimus (Bagnall)
Scirtothrips padmae Ramakrishna 1942

Distribution (Back to Top)

Scientists believe that Scirtothrips dorsalis originated either in Southeast Asia or in the Indian subcontinent, but it is now widely distributed. It is abundant on sacred lotus in Thailand (Mound and Palmer 1981), and on chilli peppers in India (Ramakrishna Ayyar 1932, Ramakrishna Ayyar and Subbiah 1935), where it is also a serious pest of peanuts (Amin 1979, 1980). In Japan, Scirtothrips dorsalis is a pest of tea and citrus (Kodomari 1978). Scirtothrips dorsalis has been reported from South Africa and the Ivory Coast, and plant quarantine interceptions suggest that this pest is widely distributed across West Africa and is present in East Africa (Kenya).

Worldwide distribution of chilli thrips, Scirtothrips dorsalis Hood, as of September 2009.

Figure 2. Worldwide distribution of chilli thrips, Scirtothrips dorsalis Hood, as of September 2009. Graphic by Garima Kakkar, Entomology and Nematology Department, University of Florida.

Although Venette and Davis (2004) suggested that the potential geographic distribution of Scirtothrips dorsalis in North America might extend from southern Florida north into Canada, a study by Holt (2006) indicates that this species would be troublesome primarily in the southern and Pacific states. These studies signal that it could also become widely established in much of South America, and throughout Central America and Mexico. If this insect becomes widely distributed in the United States it could cause annual crop losses in excess of $3 billion (Holt 2006). According to the Florida Nurserymen and Growers Association, Scirtothrips dorsalis is one of the thirteen most dangerous, exotic pest threats to the ornamental industry (FNGA 2003).

In the United States, USDA-APHIS inspectors at various ports-of-entry have intercepted Scirtothrips dorsalis 89 times since 1984 on imported plant materials belonging to 48 taxa (USDA 2004), and most frequently on cut flowers, fruits and vegetables. In Florida, an infestation of Scirtothrips dorsalis was first reported from Okeechobee County on October 2, 1991, and then from Highlands County on October 10, 1994, with subsequent occurrences in 2004, 2005 and 2007 in various counties of Florida and southeastern Texas.

Known distribution, hosts, and initial discovery dates of Scirtothrips dorsalis in the Greater Caribbean Region:

Identification (Back to Top)

The small size (< 2 mm) of Scirtothrips dorsalis life stages and rapid movement make it difficult to detect this insect in fresh vegetation. The very tiny eggs are inserted into soft plant tissues, and the egg stage may last one week. These characteristics increase the chance of transportation of Scirtothrips dorsalis through international trade of fresh plant materials. Scirtothrips dorsalis life stages occur on all the above-ground plant parts of its hosts, and cause scarring damage due to feeding or the transmission of pathogens (Chang et al. 1995, Seal et al. 2006b).

Generally, chilli thrips are pale colored and the lengths of their first and second instar larvae and the pupae are 0.37-0.39, 0.68-0.71 and 0.78-0.80 mm, respectively. Adults are about 1.2 mm long with dark wings and dark spots forming incomplete stripes which appear dorsally on the abdomen (Seal et al. 2009a).

There are numerous microtrichia and dark transverse antecostal ridges on the abdominal tergites as well as sternites. On the lateral microtrichial fields of the abdominal tergites are three discal setae. The posteromarginal comb on segment VIII is complete. The shaded forewings are distally light in color with straight cilia. The forewings possess an incomplete second vein, or a row of setae with two or three irregular setae in the distal half and a complete first vein.

Some identifying characteristics of the chilli thrips, Scirtothrips dorsalis Hood.

Figure 3. Some identifying characteristics of the chilli thrips, Scirtothrips dorsalis Hood. Photographs by Thomas Skarlinsky, United States Department of Agriculture, Animal and Plant Health Inspection Service.

Of eight antennal segments, I-II are pale and III-VIII are dark. Antennal segments III and IV have forked sense cones. The head and legs are pale. There are three pairs of ocellar setae on the head. The third ocellar seta is between the posterior ocelli. The postocular setae are equal in length. The anteroangular, anteromarginal and discal setae on the pronotum are short and nearly equal in length. Posteromargnial seta II is 1.5 times longer and broader than posteromarginal setae I and III (Skarlinsky 2004).

Accurate and rapid identification of a newly introduced invasive pest is the primary requirement for an effective biological control program. More than 100 species in the genus Scirtothrips have been reported worldwide. Among these, approximately 10 species are serious threats to agricultural production and vegetation in the United States. Members of the genus Scirtothrips can be differentiated from other members of Thripidae by the following features (EPPO 2005):

Life Cycle and Biology (Back to Top)

The life cycle stages of Scirtothrips dorsalis include egg, first and second instar larvae, prepupa, pupa and adult. Gravid females insert the eggs inside plant tissues above the soil surface. The eggs are microscopic (0.075 mm long and 0.070 mm wide), kidney-shaped and creamy white in color (Seal et al. 2009a). The eggs hatch between two to seven days, depending upon temperature. Larvae and adults tend to gather near the mid-vein or borders of the host leaf.

First instar larva of the chilli thrips, Scirtothrips dorsalis Hood, initiating its emergence from an egg on a cotton leaf.

Figure 4. First instar larva of the chilli thrips, Scirtothrips dorsalis Hood, initiating its emergence from an egg on a cotton leaf. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

First instar larva of the chilli thrips, Scirtothrips dorsalis Hood, about to emerge from an egg on a leaf disc.

Figure 5. First instar larva of the chilli thrips, Scirtothrips dorsalis Hood, about to emerge from an egg on a leaf disc. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Larva of the chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf.

Figure 6. Larva of the chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf. Photograph by Vivek Kumar, University of Florida, Entomology and Nematology Department.

The two larval stages are completed in eight to ten days and the pupal stage lasts for 2.6-3.3 days. The life span of chilli thrips is influenced by the host plant species. For example, at 28°C it takes 11.0 days for a first instar larva to progress to the adult stage on pepper plants and 13.3 days on squash plants. The chilli thrips adult's life span lasts 15.8 days on eggplant, but only 13.6 days on tomato plants (Seal et al. 2009a).

Unlike other thrips, pupae of chilli thrips are generally found on leaves, leaf litter or on the axils of leaves, in curled leaves or under the calyces of flowers and fruits.

Pupa of chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf.

Figure 7. Pupa of chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Adult chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf.

Figure 8. Adult chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Dorsal view of adult female chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf.

Figure 9. Dorsal view of adult female chilli thrips, Scirtothrips dorsalis Hood, feeding on cotton leaf. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Adult chilli thrips, Scirtothrips dorsalis Hood.

Figure 10. Adult chilli thrips, Scirtothrips dorsalis Hood. Photographs by Thomas Skarlinsky, United States Department of Agriculture, Animal and Plant Health Inspection Service.

Hosts (Back to Top)

Before its arrival in the Western Hemisphere, Scirtothrips dorsalis was known to infest a wide variety of hosts plant belonging to more than 100 plant taxa among 40 families (Mound and Palmer 1981). After its introduction into the Western Hemisphere, Scirtothrips dorsalis was found to attack additional taxa of plants (Klassen et al. 2008, Osborne 2008, Venette and Davis 2004). While their main wild host-plants belong to the pea family (Fabaceae), such as Acacia, Brownea, Mimosa and Saraca, the chilli thrips has also been recorded as a pest of numerous other economically important host plants in various plant families.

Among the potential economically important hosts of this pest in Western Hemisphere listed by Venette and Davis (2004) are banana, bean, cashew, castor, citrus, cocoa, corn, cotton, eggplant, grapes, litchi, longan, mango, melon, peanut, pepper, poplar, rose, strawberry, sweet potato, tea, tobacco, tomato, and wild yams (Dioscorea spp.). Scirtothrips dorsalis is a significant pest of ornamental plantings in Florida.

Plants in Florida on which S. dorsalis is known to reproduce are as follows:

(from Klassen et al. 2008, Osborne 2008)

Host list of chilli thrips, Scirtothrips dorsalis among different families of plants

 

Damage (Back to Top)

Thrips possesses piercing and sucking mouthparts and cause damage by extracting the contents of individual epidermal cells leading to necrosis of tissue. This changes the tissue color from silvery to brown or black. Chilli thrips create damaging feeding scars, distortions of leaves, and discolorations of buds, flowers and young fruits by feeding on the meristems of the host plant's terminals and on other tender parts above the soil surface. Scirtothrips dorsalis has not been reported feeding on mature host tissues. According to Sanap and Nawale (1987), adult and nymphs of Scirtothrips dorsalis suck the cell sap of leaves, causing rolling of the leaf upward and leaf size reduction. For example, a heavy infestation of Scirtothrips dorsalis in pepper plants changes the appearance of the plant to what is called "chilli leaf curl." Appearance of discolored or disfigured plant parts suggests the presence of Scirtothrips dorsalis.

A severe infestation of chilli thrips makes the tender leaves and buds brittle, resulting in complete defoliation and total crop loss. Infested fruits develop corky tissues (Seal et al. 2006b). Sometimes Scirtothrips dorsalis infested plants superficially appear like broad mite infested plant. On many hosts, after a heavy infestation chilli thrips also start feeding on the upper surface of leaves.

Cotton plant heavily infested with the chilli thrips, Scirtothrips dorsalis Hood.

Figure 11. Cotton plant heavily infested with the chilli thrips, Scirtothrips dorsalis Hood. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Deformed pepper fruit (no economic value) after damage from an infestation of the chilli thrips, Scirtothrips dorsalis Hood.

Figure 12. Deformed pepper fruit (no economic value) after damage from an infestation of the chilli thrips, Scirtothrips dorsalis Hood. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Feeding scars on pepper plant leaves due to an infestation of the chilli thrips, Scirtothrips dorsalis Hood.

Figure 13. Feeding scars on pepper plant leaves due to an infestation of the chilli thrips, Scirtothrips dorsalis Hood. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Feeding on host plant by the chilli thrips, Scirtothrips dorsalis Hood, also results in softening of calyx which causes premature falling of fruits.

Figure 14. Feeding on host plant by the chilli thrips, Scirtothrips dorsalis Hood, also results in softening of calyx which causes premature falling of fruits. Photograph by Vivek Kumar, Entomology and Nematology Department, University of Florida.

Symptoms of Damage:

Disease Transmission (Back to Top)

Scirtothrips dorsalis also posseses strong viruliferous behavior for seven recorded viruses. This species transmits chilli leaf curl (CLC) virus, and peanut necrosis virus (PBNV) (Mound and Palmer 1981, Ananthakrishnan 1993). In 2003, Rao et al. found chilli thrips as vectors of tobacco streak virus (TSV) in groundnut crops in India. Recently, in Thailand its role as a vector of three tospoviruses (i.e., melon yellow spot virus (MYSV), watermelon silver mottle virus (WsMoV), and capsicum chlorosis virus (CaCV)) in field crops was confirmed (Chiemsombat et al. 2008).

Management (Back to Top)

Development of effective management practices for Scirtothrips dorsalis is still in its infancy. Many recommendations have been suggested by the World Vegetable Center (AVRDC) which could serve as basic management practices for this pest. Management practices include crop rotation, removal of weeds (which may serve as hosts), and supporting the maximum use of natural enemies, including predators and parasites, and rotating insecticides.

Chemical control. Upon the establishment of Scirtothrips dorsalis in the Caribbean in 2003 there was a paucity of information for effective management of this insect with modern insecticides. In order to impede the development of insecticide resistance it is always advisable to use insecticides from different classes in rotation. Pyrethroids have never been reported to provide effective control against Scirtothrips dorsalis (Seal et al. 2006a). Various formulations of imidacloprid used as either soil drench or foliar application provide effective control of Scirtothrips dorsalis without harming natural control agents. Imidacloprid suppresses Scirtothrips dorsalis populations for many days (Seal et al. 2009b). Spinetoram gives the best result when used as a foliar application and imidacloprid as soil drench (Seal et al. 2008). In addition, these two insecticides when applied as above allow the continuous growth and development of natural enemies of S. dorsalis.

While the above provides general guidelines, for recommended controls see the University of Florida Chilli Thrips Web site.

Biological control. Various biological control agents, including minute pirate bugs, Orius spp. (Hemiptera: Anthocoridae) and entomopathogenic nematodes, Thripinema spp. (Tylenchida: Allantonematidae), have been reported to effectively control field populations of the chilli thrips. Adults of Orius insidiosus feed on all the life stages of thrips. Because Orius insidiosus also feeds on aphids, mites, moth eggs and pollen, its population does not decline strongly even if thrips populations are drastically reduced. Thripinema species are entomogenous nematodes which parasitize female thrips and make them incapable of laying eggs, leading to the reduction of thrips populations. In addition, they also reduce food consumption of these thrips, resulting in limited feeding damage.

Arthurs et al. (2009) evaluated two phytoseiid mites, Neoseiulus cucumeris and Amblyseius swirskii, as potential biological control agents of the chilli thrips and reported that Amblyseius swirskii can be a promising tool in managing chilli thrips on pepper. Other predators of chilli thrips which are being investigated, but on which adequate practical studies to assess their potential as significant natural enemies of thrips have not been done, include:

When used alone, the fungal pathogen Beauveria bassiana is not effective in controlling chilli thrips adults or larvae, but produced better result when used in combination with Tricon (an experimental product consisting of borax, orange oil and biodegradable surfactants) (Kumar, unpublished data).

Selected References (Back to Top)