Insect Pests of Fruit, Plantation, Medicinal & Aromatic Crops (2+1)

Distribution

• The papaya mealybug is believed to be native to Mexico and/or Central America.
• It has never gained status as a serious pest there, probably due to the presence of an endemic natural enemy complex.
• The first specimens were collected in Mexico in 1955.
• The papaya mealybug was described in 1992 from the Neotropical Region in Belize, Costa Rica, Guatemala, and Mexico.
• When the papaya mealybug invaded the Caribbean region, it became a pest there; since 1994 it has been recorded in the following 14 Caribbean countries: St.Martin, Guadeloupe, St. Martin, Guadeloupe, St.Batthelemy, Antigua, Bahamas, British Virgin Islands, Cuba, Dominican Republic, Haiti, Puerto rico, Montserrat, Nevis, St. Kitts, and the U.S. Virgin Islands. More recently, specimens have turned up in the Pacific regions of Guam and the Republic of Palau.
• The papaya mealybug was discovered in Bradenton, Florida in 1998 on hibiscus. By January 2002, it had been collected 80 times on 18 different plant species in 30 cities throughout Alachua, Brevard, Broward, Collier, Dade, Hillsborough, Manatee, Martin, Monroe, Palm Beach, Pinellas, Polk, Sarasota, and Volusia counties.
• Specimens also have been intercepted in Texas and California, and it is expected that papaya mealybug could rapidly establish throughout Florida and through the Gulf states to California.
• It is possible that certain greenhouse crops could be at risk in areas as far north as Delaward, New Jersey and Maryland.
• It has already been identified on papaya plants in the Garfield Conservatory in Chicago, Illinois in late August of 2001.
• A biological control program was implemented in December of 2001 with very successful results.

Description

• Papaya mealybug infestations are typically observed as clusters of cotton-like masses on the above-ground portion of plants.
• The adult female is yellow and is covered with a white waxy coating. Adult females are approximately 2.2 mm long (1/16 inch) and 1.4 mm wide.
• A series of short waxy caudal filaments less than ¼ the length of the body exist around the margin.
• Eggs are greenish yellow and are laid in an egg sac that is three to four times the body length and entirely covered with white wax.
• The ovisac is developed ventrally on the adult female.
• Adult males tend to be colored pink, especially during the pre-pupal and pupal stages, but appear yellow in the first and second instar.
• Adult males are approximately 1.0 mm long, with an elongate oval body that is widest at the thorax (0.3 mm), Adult males have ten-segmented antennae, a distinct aedeagus, lateral pore clusters, a heavily sclerotized thorax and head, and well-developed wings.
• Two characteristics that are important in distinguishing P.marginatus adult females from all other species of Paracoccus are: the presence of oral-rim tubular ducts dorsally restricted to marginal areas of the body, and the absence of pores on the hind tibiae.
• Adult males may be distinguished from other related species by the presence of stout fleshy setae on the antennae and the absence of fleshy setae on the legs.
• The papaya mealybug can easily be distinguished from Maconellicoccus marginatus (Green), the pink hibiscus mealybug, because papaya mealybug females have eight antennal segments, in contrast to nine in the latter species.
• Specimens of papaya mealybug turn bluish-black when placed in alcohol, as is characteristic of other members of this genus.

Biology

• Details on the biology and life cycle of the papaya mealybug are lacking.
• In general, mealybugs have piercing-sucking mouthparts and feed by inserting their mouthparts into plant tissue and sucking out sap. Mealybugs are most active in warm, dry weather.
• Females have no wings, and move by crawling short distances or by being blown in air currents.
• Females usually lay 100 to 600 eggs in an ovisac, although some species of mealybugs give birth to live young.
• Egg-laying usually occurs in about 10 days, and nymphs, or crawlers, begin to actively search for feeding sites.
• Female crawlers have four instars, with a generation taking approximately one month to complete, depending on the temperature.
• Males have five instars, the fourth of which is produced in a cocoon and referred to as the pupa.
• The fifth instar of the male is the only winged form of the species capable of flight.
• Adult females attract the males with sex pheromones. Under greenhouse conditions, reproduction occurs throughout the year, and in certain species may occur without fertilization.

Host Plants

• The papaya mealybug is polyphagous and has been recorded on > 55 host plants in more than 25 genera. Economically important host plants of the papaya mealybug include papaya, hibiscus, avocado, citrus, cotton, tomato, eggplant, peppers, beans and peas, sweet potato, mango, cherry, and pomegranate.

Damage

• The papaya mealybug feeds on the sap of plants by inserting its stylets into the epidermis of the leaf, as well as into the fruit and stem.
• In doing so, it injects a toxic substance into the leaves.
• The result is chlorosis, plant stunting, leaf deformation, early leaf and fruit drop, a heavy build up of honeydew, and death.
• Heavy infestations are capable of rendering fruit inedible due to the buildup of thick white wax.
• Papaya mealybug has only been recorded feeding on areas of the host plant that are above ground, namely the leaves and fruit.

Management
Chemical control

• A number of chemical controls are available to control mealybug, although none are currently registered specifically for control of papaya mealybug. Active ingredients in registered pesticide formulations include acephate, carbaryl, clorpyrifos, diazinon, dimethoate, malathion, and white mineral oils.
• Typically, twice the normal dose is applied when treating for mealybugs because mealybugs are protected by thick waxy, cottony sacs, and often are concealed inside damaged leaves and buds.
• Thus, chemical controls are only partially effective and require multiple applications. Furthermore, problems with insecticide resistance and non-target effects on natural enemies make chemical control a less desirable control option to combat the papaya mealybug.

Biological control

• Natural enemies of the papaya mealybug include the commercially available mealybug destroyer (Cryptolaemus montrouzieri), lady beetles, lacewings, and hover flies, all which are generalist predators that have a potential impact on mealybug populations. In addition to predators, several parasitoids may attack papaya mealybug.
• In 1999, the USDA Animal and Plant Health Inspection Service (APHIS) and USDA Agricultural Research Station (ARS) initiated a classical biological control program for the papaya mealybug.
• Four genera of encyrtid endoparasitoid wasps specific to mealybugs were collected in Mexico by USDA and ARS researchers and Mexican cooperators as potential biological control agents:
• Acerophagus papaya @ 100 numbers / small village as inculative release, Anagyrus californicus Compere, and Pseudaphycus sp. A fifth collected species was later reared and identified as Pseudleptomastix Mexicana.
• All four species were screened in USDA/ARS quarantine facilities in Newark, Delaware and environmental assessments were completed. Specimens were then shipped to Puerto Rico where they were cultured and mass-reared for experimental release in Puerto Rico and the Dominican Republic.

• The first releases of these four parasitoids were made in Florida in October 2000.
• To date, APHIS has found that the release of the four genera of parasitoid wasps has brought a 99.7% reduction in the density of mealybug populations at research sites in the Dominican Republic, and a 97% reduction at research sites in Puerto Rico, with parasitism levels between 35.5% and 58.3%.
• All four species of parasitoids have been observed attacking second and third instars of P.marginatus. However, Acerophagus sp. emerged as the dominant paraditoid species in both Puerto Rico and the Dominican Republic.
• The outcome of releases of the four parasitoids in Florida is yet to be determined as of March 2003.