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common name: orange spiny whitefly
scientific name: Aleurocanthus spiniferus (Quaintance) (Insecta: Hemiptera: Aleyrodidae)

Introduction - Distribution - Description and Life History - Economic Importance - Management - Selected References

Introduction (Back to Top)

Orange spiny whitefly, Aleurocanthus spiniferus (Quaintance), is a native pest of citrus in tropical Asia. In the early 1920s, pest outbreak infestation levels caused Japan to begin a biological control program. Primarily, orange spiny whitefly affects host plants by sucking the sap but it also causes indirect damage by producing honeydew and subsequently promoting the growth of sooty mold. Sooty mold is a black fungus that grows on honeydew. Heavy infestations of orange spiny whitefly, or other honeydew-producing insects such as scales, mealybugs, aphids, and other whitefly species, can cause sooty mold to completely cover the leaf surface and negatively affect photosynthesis.

Leaves infested by citrus blackfly, Aleurocanthus woglumi Ashby.

Figure 1. Leaves infested by citrus blackfly, Aleurocanthus woglumi Ashby. Photograph by Division of Plant Industry.

Distribution (Back to Top)

The orange spiny whitefly has spread to Africa, Australia, the Caribbean and the Pacific Islands (Nguyen et al. 1993). In the Caribbean Islands, Gowdey (1922) recorded orange spiny whitefly as an occasional pest of citrus in Jamaica. For the Pacific Islands, it was first recorded in Guam in 1951 where it was observed not only on citrus, but also on rose, grape, peach, pear and guava (Peterson 1955). Orange spiny whitefly was first detected on rose foliage in Honolulu, Oahu in 1974. Subsequent surveys discovered it on navel orange, lime, tangerine and pear, but infestations were reportedly low (USDA 1974). In Africa, the first report of this pest was in 1987 in Swaziland and in 1988 South Africa (Van den Berg et al. 1990). Established populations of orange spiny whitefly are not yet known to occur in the continental U.S.

Description and Life History (Back to Top)

Whiteflies have six developmental stages: egg, crawler (1st instar), two sessile nymphal instars (2nd and 3rd instars), the pupa (4th instar) and adult. Identification of the Aleyrodidae is largely based upon characters found in the pupal (4th instar) stage. The duration of the life cycle and the number of generations per year are greatly influenced by the prevailing climate. A mild temperature with high relative humidity provides ideal conditions for growth and development. About four generations per year have been recorded in Japan (Kuwana et al. 1927) while reports from Guam showed the presence of five or six generations (Peterson 1955). As many as seven generations occurred under ideal laboratory conditions. Kuwana et al. (1927) in Japan showed wide variability in life cycle duration, particularly in the 3rd and 4th instar: egg stage, 11 to 22 days; 1st instar, seven to 11 days; 2nd instar, five to seven days; 3rd instar, seven to 130 days; pupal stage, seven to 34 days.

Egg: The egg is minute (0.2 x 0.1 mm), yellow, stalked, curved and marked with polygonal areas (Quaintance 1903, Quaintance and Baker 1917). The stalk is short and holds the egg in more or less upright position on leaf.

Larva: The larva is elliptical or oval-shaped, brown to black and a short fringe of wax surrounds its body. As the orange spiny whitefly develops to the sessile nympal stage, the second instar is about 0.4 x 0.3 mm and has a distinctly crenulated marginal edge. Additionally, the second instar has short, acute incisions between the marginal wax tubes. Also, in the 2nd and 3rd instar stages, abdominal segments are more distinct than thoracic segments. The dorsal or upper side has a single row of eight abdominal and six thoracic strong, heavy spines on either side of the mid-dorsal line of the body.

Pupa: The oval-shaped pupa or 4th instar is jet black, convex, approximately 1.23 mm long and 1.88 mm wide with strong, dark dorsal spines. The marginal wax tubes produce a compact, short, cottony fringe that occurs on the pupal margin. The pupal stage of orange spiny whitefly is very similar to another exotic whitefly that is currently established in Florida, Alerocanthus woglumi Ashby or citrus blackfly. The main field characteristic difference between orange spiny whitefly and citrus blackfly is that the white wax fringe that surrounds their pupal case margins is generally twice as large for the orange spiny whitefly.

A) Pupae of citrus blackfly, Aleurocanthus woglumi Ashby, and the adult parasitoid, Amitus hesperidum Silvestri, and B) Pupal cases of the citrus blackfly, Aleurocanthus woglumi Ashby, from which the parasitoid has emerged. Egg spirals of citrus blackfly are also evident.

Figure 2. A) Pupae of citrus blackfly, Aleurocanthus woglumi Ashby, and the adult parasitoid, Amitus hesperidum Silvestri, and B) Pupal cases of the citrus blackfly, Aleurocanthus woglumi Ashby, from which the parasitoid has emerged. Egg spirals of citrus blackfly are also evident. Photograph by Division of Plant Industry.

Pupae of the orange spiny whitefly, Aleurocanthus spiniferus (Quaintance).

Figure 3. Pupae of the orange spiny whitefly, Aleurocanthus spiniferus (Quaintance). Photograph by Division of Plant Industry.

Adult: The adult orange spiny whitefly cannot be distinguished from citrus blackfly — both are a slate blue color. More information on citrus blackfly in Florida is available in Nguygen and Hamon (1998).

Adult citrus blackfly, Aleurocanthus woglumi Ashby.

Figure 4. Adult citrus blackfly, Aleurocanthus woglumi Ashby. Photograph by Division of Plant Industry.

Economic Importance (Back to Top)

Citrus fruit quality and production could be adversely affected if this pest were introduced into Florida. It causes a general weakening of the infested trees due to sap loss and development of sooty mold. The leaves, fruit and branches of infested trees are usually covered with sooty mold. Orange spiny whitefly is spread from one place to another through movement of nursery stocks and infested fruits. Orange spiny whitefly is also a potential threat to various ornamental plant hosts in Florida.

Management (Back to Top)

Biological control: Orange spiny whitefly outbreaks in other countries have been successfully brought under control through biological control. For example, the Japanese introduced parasitoids Prospaltella smithi Silv and a Cryptognatha sp. from China in 1925 and achieved satisfactory control by killing more than 74% of the population (Kuwana et al. 1927). In Guam, the use of Prospaltella smithi and Amitus hesperidium achieved 80 to 95% parasitism (Peterson 1955). However, it was noted that the biocontrol agent did not perform as well on rose and grapes, an observation reported in India.

Classical biological control of A. spiniferus brought significant reduction within eight months of release of Encarsia cf. smithi (Hymenoptera: Aphelinidae) in the commercial orchards of southern Africa with a mean parasitism rate of about 72.9% parasitsm (Van den Berg et al. 1997). It was also shown to be cost-effective with a benefit ratio of 2.8 (Van den Berg 2000).

Current established biological control options that are effective against citrus blackfly in Florida include Encarsi perplexa Huang & Polaszek and Amitus hesperidum Silvestri. Possibly these existing biological controls would also control orange spiny whitefly in Florida.

A) Adult Encarsi perplexa Huang & Polaszek, and (B) pupal cases of the citrus blackfly, Aleurocanthus woglumi Ashby, from which the parasitoid has emerged.

Figure 5. A) Adult Encarsi perplexa Huang & Polaszek, and (B) pupal cases of the citrus blackfly, Aleurocanthus woglumi Ashby, from which the parasitoid has emerged. Photograph by Division of Plant Industry.

In additional to biological controls, whiteflies in general can be controlled by sprays applied primarily for scale insects. A low concentration petroleum spray oils (0.25 to 0.5%) has been found to provide acceptable control in China on sweet orange (Citrus sinensis L.) and pummelo (Citrus grandis L.) (Rae et al. 2000). As with any control option, effects may vary with the growing region, host plant or variety, and oil formulation.

Chemical control: In general, chemical control has not been shown to be effective on orange spiny whitefly or other whiteflies in crop systems.

Selected References (Back to Top)