Tidskrift/serie: Data Sheets on Quarantine Pests
Utgivare: CAB International in association with EPPO
Redaktör: Smith I.M. (EPPO), McNamara D.G. (EPPO), Scott P.R. (CABI), Harris K.M. (CABI)
Utgivningsår: 1992
Nr/avsnitt:
Författare: Anonymous
Adress:
Ingår i...: Quarantine Pests for Europe
Titel: Opogona sacchari
Huvudspråk: Engelska
Målgrupp: Rådgivare
Opogona sacchari (Bojer)
Alucita sacchari Bojer
Tinea subcervinella Walker
Opogona subcervinella (Walker)
Insecta: Lepidoptera: Tineidae
Banana moth (English)
Teigne du bananier (French)
Traça da banana (Portuguese)
OPOGSC
No. 154
I/A2
O. sacchari has a wide host range, and is found mainly in the tropics on bananas, pineapples, bamboo, maize and sugarcane, in the field and on various stored tubers. In glasshouses in European countries, it has been found infesting various tropical or subtropical ornamentals, including mainly Cactaceae, Dracaena, Strelitzia and Yucca, but also occasionally Alpinia, Begonia, Bougainvillea, Bromeliaceae, Chamaedorea and other palms, Cordyline, Dieffenbachia, Euphorbia pulcherrima, Ficus, Gloxinia, Heliconia, Hippeastrum, Maranta, Philodendron, Sansevieria and Saintpaulia, and also Capsicum and aubergines. In import inspections, it is mainly Dracaena and Yucca which have been found to be infested.
O. sacchari originates in the humid tropical and subtropical regions of Africa, where it is not a significant pest. It first attracted attention as a serious pest on bananas in the Canary Islands in the 1920s. In the 1970s, it was introduced into Brazil and Central America, and also started to appear in the EPPO region (see below).
Italy (since the 1970s, fairly widely established in glasshouses in the south; Carrai & Loi, 1987; EPPO Reporting Service No. 487), Portugal (Azores, Madeira), Spain (Canary Islands). Outbreaks in other European countries (Belgium, Denmark, Finland, France, Germany, Greece (Mourikis & Vassilaina- Alexopoulou, 1981), Netherlands, UK) have been eradicated.
Perez-Padron & Carnero-Hernandez (1984) refer to introduction of O. sacchari into the Canary Islands from southern China, early in the 19th century. No other recent publication suggests that the pest is present in Asia, so this record should probably be considered unconfirmed.
Widespread in sub-Saharan Africa; also Madagascar, Mauritius, Réunion, Rodrigues Island and Seychelles.
USA (Florida, since 1986; Heppner et al., 1987).
Widespread (introduced).
Brazil.
Present.
At 15°C, the life cycle of O. sacchari lasts approximately 3 months: eggs hatch in 12 days; larval development requires 50 days; the pupal stage lasts 20 days; the adult lives 6 days (Veenenbos, 1981). This period may be considerably reduced under warmer conditions, allowing up to eight generations per year (Giannotti et al., 1977; Heppner et al., 1987). The female lays eggs in crevices in plant tissue, in groups of about five eggs, 50-200 in total, by means of a long ovipositor. The larvae, which burrow in the plant tissue, are extremely mobile and avoid light. They are very voracious.
In banana, the fruiting head is normally infested (Suplicy & Sampaio, 1982), but in ornamental plants the larvae mostly burrow in the stem (woody or fleshy plants like cacti, Dracaena) or sometimes leaves and petioles (Begonia, Saintpaulia). Seedlings may be severely attacked (Aguilar & Martinez, 1982).
As a tropical pest, O. sacchari cannot apparently survive outdoor conditions in winter over most of the EPPO region. Its presence in the Atlantic Islands of Portugal and Spain suggests that it might survive in parts of the Iberian peninsula and North Africa. Billen (1987) has reviewed the taxonomy, biology, distribution and control of O. sacchari and refers to the existence of several species with similar biology in Africa, possibly to be regarded as members of the same complex.
The early stages of larval tunnelling in woody or fleshy stems are practically undetectable. At a later stage, fleshy plants (cacti) may be completely hollowed out. In woody plants such as Dracaena and Yucca the larvae live on dead and living portions of the cortex and pith, and infested tissues may feel soft. Leaves wilt because the caterpillars destroy the xylem, and, in an advanced stage, leaves may fall and the plant may collapse. In Chamaedorea palms, the larvae typically feed at the base of the plant where the aerial roots enter the soil (Heppner et al., 1987).
The larvae, dirty-white and somewhat transparent (so that the intestines can be seen), have a bright reddish-brown head with one lateral ocellus at each side and clearly visible brownish thoracic and abdominal plates. They typically measure 21-26 mm in length with a diameter of 3 mm. The presence of older larvae can be detected by characteristic masses of bore-meal and frass at the openings of bore-holes.
The pupae are brown and less than 10 mm long and are formed in a cocoon, spun at the end of a mine, measuring 15 mm. As maturation approaches, the pupae work themselves partially out of the tissue to allow emergence of the adult. Two bent hooks, characteristic of the species, show at the end of the abdomen on the abandoned protruding pupal skin.
The adult is nocturnal, 11 mm long with a wingspan of 18-25 mm, bright yellowish-brown. The forewings may show longitudinal darker brown banding, and in the male a dark-brown spot towards the apex. The hindwings are paler and brighter (Süss, 1974; Aguilar & Martinez, 1982). At rest, the long antennae point forwards.
O. sacchari can disperse itself by flight within glasshouses or over short distances in the field. In international trade it is liable to be carried in propagation material of host plants, for example cuttings of Dracaena. Although there is some risk of the pest being present in imported banana fruits, there is very little chance that this pathway could lead to establishment in glasshouses.
O. sacchari is a serious pest of bananas in the Canary Islands and Brazil (Sampaio et al., 1983). Though widespread in Africa, its impact is relatively minor there since bananas are not a major export crop. It has not been recorded in North Africa, and could be a threat to the increasing production of bananas under polythene in Morocco and Spain. Elsewhere in the EPPO region, it presents a risk principally for woody or perennial ornamentals grown in glasshouses, and could not survive outdoors.
Eradication by chemical treatment and sanitation has proved possible in several northern European countries, but not in Italy, where the pest is established in greenhouses. The adult moths can be controlled by fogging with permethrin (two or three times per week, for 4 weeks) or by placing dichlorvos strips (one strip per 30 m3, for 3 months). The aim is to kill all adults before they can lay eggs. When an affected greenhouse is cleared and replanted, the soil should be steamed (or removed) to eliminate any residual pupae. Billen (1987) has reviewed the chemical control methods tried out in greenhouses in various European countries. Sex pheromones are under study in Italy (Rotundo & Tremblay, 1982).
O. sacchari, originally on the EPPO A1 list (OEPP/EPPO, 1988), has been on the A2 list since its establishment in Italy. CPPC and NAPPO also regard it as a quarantine pest. It is a troublesome greenhouse pest which should not be allowed to establish in new areas; fortunately, it can be controlled and has not yet established outdoors.
O. sacchari is difficult to intercept at import inspection. The EPPO specific quarantine requirement is still under study. Fumigation is liable to cause problems with phytotoxicity, but has been used for unrooted Dracaena canes (48 g/m3 methyl bromide for 2 h; OEPP/EPPO, 1984). Imported planting material should preferably come from glasshouses where the pest is absent, or treated against, and should be kept under supervision after import. Eradication (by a 3-month insecticide treatment programme - see Pest significance above) has proved possible in some situations but is costly and troublesome. Banana fruit constitutes a very minor risk.
Aguilar, J.; Martinez, M. (1982) Opogona sacchari présent dans les cultures sous serres en France. Bulletin de la Société Entomologique de France 87, 28-30.
Billen, W. (1987) [Information on the banana shoot borer Opogona sacchari]. Gesunde Pflanzen 39, 458-465.
Carrai, C.; Loi, G. (1987) [Opogona sacchari, a lepidopteran pest of ornamentals]. Informatore Fitopatologico 37 (2), 28-32.
Giannotti, O.; Oliveira, B.S.; Ioneda, T.; Fell, D. (1977) [Observations on the development and sexual behaviour of Opogona sacchari in the laboratory]. Arquivos do Instituto Biológico Sao Paulo 44, 209-212.
Heppner, J.B.; Pena, J.E.; Glenn, H. (1987) The banana moth Opogona sacchari in Florida. Entomology Circular No. 293. Division of Plant Industry, Florida Department of Agriculture and Consumer Services, Gainesville, USA.
Mourikis, P.A.; Vassilaina-Alexopoulou, P. (1981) Data on the biology of Opogona sacchari, a new pest for ornamental plants in Greece. Annales de l'Institut Phytopathologique Benaki N.S. 13, 59-64.
OEPP/EPPO (1984) Quarantine procedures No. 14. Methyl bromide fumigation of Dracaena and Yucca cuttings against Opogona sacchari. Bulletin OEPP/EPPO Bulletin 14, 594.
OEPP/EPPO (1988) Data sheets on quarantine organisms No. 154, Opogona sacchari. Bulletin OEPP/EPPO Bulletin 18, 513-516.
Perez-Padron, F.; Carnero-Hernandez, A. (1984) [An introduction to current knowledge of the species Opogona sacchari (Bojer) (Lepidoptera: Tineidae)]. Bolet¡m da Sociedade Portuguesa de Entomologia 11-17, 185-194.
Rotundo, G.; Tremblay, E. (1982) [Preliminary observations on the sexual pheromone of Opogona sacchari]. Bollettino del Laboratorio di Entomologia Agraria Filippo Silvestri di Portici 39, 123-132.
Sampaio, A.S.; Myazaki, I.; Suplicy, N.; Oliveira, D.A. (1983) [Infestation levels of Opogona sacchari in banana plantations in the coastal area of Sao Paulo State, Brazil]. Biológico Sao Paulo 49 (2), 27-33.
Suplicy, N.; Sampaio, A.S. (1982) [Banana pests]. Biológico Sao Paulo 48 (7), 169-182.
Süss, L. (1974) [Opogona sacchari, a new insect pest of glasshouse ornamentals]. Bollettino di Zoologia Agraria e di Bachicoltura Milano Serie 2 12, 1-28.
Veenenbos, J.A.J. (1981) Opogona sacchari, a pest risk from imports of ornamental plants of tropical origin. Bulletin OEPP/EPPO Bulletin 11, 235-238.