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Fruit flies - Fiji (170) Print Fact Sheet

Common Name

There are seven fruit flies in Fiji: The species of economic importance are: (i) Bactrocera kirki (no common name), (ii) Bactrocera xanthodes (the Pacific fruit fly), (iii) Bactrocera passiflorae (Fijian fruit fly), (iv) Bactrocera distincta, and (v) Bactrocera species near passiflorae. Bactrocera gnetum and Bactrocera obscura are not of economic importance.

Scientific Name

Bactrocera distincta, Bactrocera kirki, Bactrocera gnetum, Bactrocera obscura, Bactrocera passiflorae, Bactrocera species near passiflorae, and Bactrocera xanthodes. Bactrocera xanthodes is closely related to three other species: Bactrocera paraxanthodea in New Caledonia, and Bactrocera neoxanthodes in Vanuatu, and a species not yet described from Samoa.

Distribution

The SPC Pacific Fruit Fly Project records seven species in Fiji (http://www.spc.int/lrd/country-profiles/fiji ):

The distribution of the Fiji fruit flies elsewhere in the Pacific is:

Bactrocera kirki: American Samoa, French Polynesia (not Marquesas), Niue, Fiji (Rotuma), Samoa, Tonga, and Wallis and Futuna.
Bactrocera passiflorae (Fiji fruit fly): Fiji (excluding Rotuma), Niue, Tonga (Niua islands), and Wallis and Futuna.
Bactrocera xanthodes (Pacific fruit fly): American Samoa, Cook Islands, Fiji, French Polynesia (Austral Islands), Niue, Samoa, Tonga, and Wallis and Futuna.
Bactrocera species near passiflorae: It is a light coloured form of Bactrocera passiflorae which occurs in the northern interior of Viti Levu and the Lau group (but not Rotuma), and also in Tokelau, Tonga (Niuas islands) and Tuvalu.
Bactrocera distincta: American Samoa, Fiji, Futuna, Samoa, Tonga.
Bactrocera obscura: Not recorded.
Bactrocera gnetum: Not recorded.

Hosts

The hosts of the species of economic importance are:

Bactrocera kirki infests: guava, mango, avocado, Pacific lychee (Pometia pinnata), and Indian or tropical almond (Terminalia catappa).
Bactrocera passiflorae infests: guava, Indian or tropical almond (Terminalia catappa), rose apple (Syzygium jambos), kumquat, orange, manderin, pomelo, mango, Malay apple (Syzygium malaccense), Pacific lychee (Pometia pinnata), Amaroria soulameiodes, Ochrosia oppositifolia, Cerbera manghas, Barringtonia edulis, and Tahitian chestnut (Inocarpus fagifer).
Bactrocera xanthodes infests: breadfruit, jackfruit and papaya.
Bactrocera species near passiflorae infests: Ochrosia oppositifolia. Its economic impact has not been assessed.
Bactrocera distincta infests: sapodilla only.
Bactrocera gnetum infests: Gnetum gnemon (commonly called two-leaf; it is used as a cabbage).
Bactrocera obscura infests: not recorded.

Symptoms & Life Cycle

Bactrocera kirki is black with yellow markings near the head and wings (Photo 1). The abdomen is glossy black with orange-brown bands in the middle, from top to bottom. Mating occurs late morning or early afternoon.
Bactrocera passiflorae is native to Fiji. It is black, a little smaller than a house fly with yellow markings on each side of the thorax (the part of the body behind the head), and on a triangular area at the back of the thorax. The wings are clear except for the dark margin at the front of the wings (Photo 2).
Bactrocera xanthodes is a little larger than a house fly. It is brown-orange with three yellow stripes on the uppersurface of the middle part, the thorax (Photos 3&4). This fruit fly is found in villages, towns and coastal areas, but not forests. Mating occurs at dusk.
Bactrocera species near passiflorae is similar to Bactrocera passiflorae except that the abdomen has many pale markings.

Adult flies pierce the fruits with their ovipositors to lay eggs under the skin (Photo 4&5). As the eggs are laid, bacteria are also inserted into the fruit; these rot the fruit and provide the larvae or maggots (Photo 6) with the food that they need.

The eggs hatch in about 2 days, and fruits start to rot about 3 days later. At 5 to 7 days after egg laying, rots are obvious. When completely rotted, the fruits fall to the ground, and the maggots enter the soil and pupate (Photo 7) until the adults emerge. Emergence is 18 to 20 days after the eggs were laid.

Fruit flies find the fruits to lay in by their colour, shape and the smell of the fruit, leaves and the bacteria on them.

The fruit flies feed on the juices from fruit, nectar from flowers, honeydew from insects, bird faeces and bacteria. Young females need protein foods before they become sexually mature and able to lay viable eggs.

Impact

Three species are of major economic importance: Bactrocera passiflorae,  Bactrocera xanthodes, and Bactrocera kirki. They lay eggs in a wide range of fruits which subsequently develop bacterial rots upon which the larvae or maggots feed. The rotting causes the fruits to fall. Bactrocera kirki is present only on Rotuma, but is a major threat to the fresh fruit and vegetable industry of other Fiji islands.

Damage assessment on Bactrocera passiflorae in Viti Levu shows that it infests 60% of ripe kumquats, 40-90% of ripe guavas, 62% of ripe kavikas (Syzygium malaccense), and 20-25% of ripe mangoes. Fleshy vegetables are virtually free from fruit fly infestation.

Detection & Inspection

Look for a black fly with yellow markings on each side of the thorax, closest to the head and wings and orange-brown longitudinal bands in the middle of the abdomen (Bactrocera kirki); a black fly with yellow markings on each side of the thorax near the wings, and a triangular area at the rear of the thorax (Bactrocera passiflorae); and a slender, almost translucent, light brown-orange fly with three yellow stripes (Bactrocera xanthodes). Male Bactrocera kirki and Bactrocera passiflorae are attracted to Cue-lure. Male Bactrocera xanthodes are attracted to methyl eugenol. Males of the light coloured form of Bactrocera passiflorae - are also attracted to Cue-lure.

Management

QUARANTINE
There is need for vigilance and public awareness programs to prevent Bactrocera kirki spreading from Rotuma to Viti Levu and Vanua Levu, as well as the entry of exotic fruits fly species. Routinely, traps should be placed in villages, airports and seaports, some baited with Cue-lure, others with methy eugenol plus insecticides, and checked monthly.

NATURAL ENEMIES
In general, predators (spiders, ants, assassin bugs and carabid beetles) have had little effect on populations of fruit flies. Parasitoids, too, have only been found at low levels in Pacific island countries, and introducing others is probably not worthwhile. The egg/larval parasite, Opius oophilus, was introduced into Fiji from Hawaii in 1951 (with three other Opius species), but it is not as effective as it was in Hawaii where it was introduced against the Oriental fruit fly, Bactrocera dorsalis. In Fiji, rates of parasitism rarely exceed 25% except in cherry guava, and according to Swaine (1971)1 infestations of Bactrocera passiflorae and Bactrocera xanthodes, still occur in native fruits and guava.

CULTURAL CONTROL
An integrated approach to fruit fly management is needed which combines bagging of fruit, fruit production during times of low fruit fly populations, the use of less susceptible varieties, hygiene measures, and protein bait sprays.

Before planting:

During growth:

After harvest:

RESISTANT VARIETIES
Some fruit varieties have been tested and found to be "non-hosts" for fruit flies, for instance, the chilli varieties 'Hot Rod' and 'Red Fire" in Fiji. Also, pineapples are non-hosts for fruit flies in Fiji at any stage. Other crops that may be non-hosts or low risk are squash, pumpkin, zucchini, cucumber, and some varieties of watermelon, rockmelon, limes and papaya at colour break. Check with the agriculture authorities for the latest tests that have been done, and lists of appropriate varieties.

CHEMICAL CONTROL
Female fruit flies need protein for their eggs to mature properly. Protein bait sprays make use of this need by combining a protein source with an insecticide. In Pacific island countries, the protein is either a commercial autolysed yeast product (MPPIL, Mauri's Pinnacle Protein Insect Lure) - broken up yeast cells in which the proteins have been converted into simpler compounds using enzymes - or protein autolysate from brewery yeast waste. In Tonga, the product is known as Royal Tongalure.

If MPPIL is used, place 50 ml MPPIL concentrate and 4 ml malathion 50% emulsifiable concentrate into a bottle and make it up to 1 litre with water. If Royal Tongalure is used, replace the MPPL, with 100 ml of Royal Tongalure in the MPPIL recipe above.

The bait solutions are sprayed at a rate of 50 ml per m2 on each tree in the orchard, and on surrounding trees. On capsicum, chillies and cucurbits, 20-25 litres per hectare are applied as a spray to every third row.

A third product called Bactrogel has been developed; this is a powder containing fipronil. Add 50 g Bactrogel to 9.7 litres water, stir to dissolve, and add 300 ml protein bait concentrate, and again stir to dissolve. Much smaller amounts are needed compared to the other two. Apply 10 ml to lower surface of leaves on each tree. For vegetables, spray 5-10 ml at 4 m intervals along rows, and every 2-3 rows, depending on spacing. Small, hand-held sprayers can be used which deliver a coarse straight jet of liquid.


AUTHOR Grahame Jackson
1Information from Swaine G (1971) Agricultural Zoology in Fiji. Her Majesty's Stationery Office. London; and (information and photos) Fruit flies in Fiji Islands (2000), SPC Pest Advisory Leaflet 28; and from Fruit fly control methods for Pacific island countries and territories (2001), SPC Pest Advisory Leaflet 40. 

Produced with support from the Australian Centre for International Agricultural Research under project PC/2010/090: Strengthening integrated crop management research in the Pacific Islands in support of sustainable intensification of high-value crop production, implemented by the University of Queensland and the Secretariat of the Pacific Community.



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