Prospects for Integrated Control of Olive Fruit Fly Are Promising in California
UC Agriculture & Natural Resources California Agriculture
Title Prospects for integrated control of olive fruit fly are promising in California
Permalink https://escholarship.org/uc/item/9ms408vz
Journal California Agriculture, 57(1)
ISSN 0008-0845
Authors Collier, Timothy R. Van Steenwyk, Robert A.
Publication Date 2003
Peer reviewed
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RESEARCH ARTICLE ▲
Prospects for integrated control of Jack Kelly Clark olive fruit fly are promising in California
California’s olive industry, which produces table olives and oil, is threatened by the olive fruit fly. A combination of biological and chemical controls may be necessary to achieve effective control.
Timothy R. Collier Robert A. Van Steenwyk counties, including Tulare County in erated in olive oil production. How- ▼ the southern Central Valley. By 2001, ever, the presence of larvae and associ- the olive fruit fly had spread north of ated microorganisms raises oil acidity The recent invasion of California by the San Francisco Bay along the coast and thereby reduces the quality of the the olive fruit fly has the potential and to olive production areas in Glenn, oil. Untreated, olive fruit fly may infest to devastate commercial olive Butte and Tehama counties in the more than 90% of olive fruit (Sharaf production throughout the state. northern Central Valley. It now occurs 1980; Kapatos and Fletcher 1984). in at least 37 counties in California. Fortunately, much is known about Biology, life cycle and population The invasion of California by the ol- this pest in Europe, and prospects ive fruit fly has been both rapid and The olive fruit fly, Bactrocera oleae for olive fruit fly control in Calif- troublesome for the state’s olive indus- (Gmelin), belongs to the Tephritidae ornia are good. Effective manage- try. In 2001, California growers pro- family of flies, which contains many ment is likely to result from careful duced 99% of the commercial olives notorious pests. Olive fruit flies are dis- monitoring and properly timed grown in the United States, 134,000 tinguished from many other tephritid chemical control. Suppression of tons of olives on 36,000 acres for a total fruit fly species by black spots on the olive fruit fly populations on value of $90 million (USDA 2002). The wingtips and the lack of wing banding ornamental and residential olive olive fruit fly poses a serious economic seen on other tephritid species, such as trees using biological control may threat to both table olive and olive oil the apple maggot, walnut husk fly and also contribute to overall control. production in California. In the Medi- Mediterranean fruit fly. An adult olive terranean region, it has been one of the fruit fly is about the size of a housefly, he olive fruit fly was first observed most devastating olive pests for more approximately 5 millimeters or three- Tin California in October 1998, when than 2000 years. Infestation of olive sixteenths-inch long. Females can be a single female fly was captured in a fruit by the larvae causes premature distinguished from males by the ovi- McPhail trap in west Los Angeles. Over fruit drop and reduces fruit quality for positor, a pointed structure at the end the next 2 months, 126 olive fruit flies both table olive and olive oil produc- of the female’s abdomen. Females use were trapped in Los Angeles County. tion (Michelakis and Neuenschwander the ovipositor to pierce olive fruit and Malathion was applied in and around 1983). In table olives, the presence of a lay eggs just under the skin. Usually, the capture sites, but by fall 1999 the fly few larvae can lead to rejection of an only one egg is laid per fruit, but mul- had spread to seven new California entire crop. Some infestation can be tol- tiple eggs may be laid in varieties that
28 CALIFORNIA AGRICULTURE, VOLUME 57, NUMBER 1 Jack Kelly Clark
produce large fruit. Large-fruited vari- eties are, in fact, preferred over smaller- fruited varieties for egg laying. Under laboratory conditions, an individual fe- male olive fruit fly may lay 10 to 40 eggs per day and a few hundred eggs in her lifetime (Tzanakakis 1989). The main host plant of the olive fruit fly is the cultivated olive, Olea europea The adult olive fruit fly is three-sixteenth-inch long with black spots on the wingtips. L., though other trees in the genus Olea may also be attacked. The most detailed As the new crop of olives develops have been an effect of reproductive dia- information about olive fruit fly popu- over the summer, female flies “break” pause, which may be prolonged under lation ecology comes from a series of reproductive diapause, produce eggs hot and dry conditions even when ripe studies in an unsprayed olive grove in and become attracted to olive fruit. olive fruit are present (Fletcher et al. Corfu, Greece (Fletcher et al. 1978; They lay eggs in the ripening, suscep- 1978). We might therefore expect dra- Fletcher and Kapatos 1981; Kapatos tible olive fruit starting in July, when matic differences in population dynam- and Fletcher 1984). Olive fruit fly dy- the pits begin to harden. Multiple gen- ics in the various olive production areas namics are likely to be similar in Cali- erations of the fly may occur over the in California, such as in cool, coastal fornia, although this remains to be ensuing summer and fall. Larvae pro- San Luis Obispo County versus rela- determined. Adult flies first emerge in duced during the summer and early fall tively hot, inland Tulare County. Such the spring (March to May). This genera- pupate in the fruit and emerge later in phenological differences are likely to tion attacks olives remaining on the the season. Larvae produced during the have important implications for con- tree from the previous season. During late fall pupate in the soil, where they trol, but have not yet been investigated early summer when temperatures are spend the winter. Although the olive in California. high, days are long and few mature fruit fly does not have a true diapause, Monitoring and chemical control fruit remain on the trees, adult female development is sufficiently slowed dur- olive fruit flies enter a state of repro- ing the winter, that pupae produced in Adult olive fruit fly populations are ductive diapause in which they have late fall do not emerge until the follow- typically monitored using yellow sticky few or no mature eggs (Fletcher et al. ing spring. Olive fruit flies also over- traps baited with sex pheromone and/ 1978). This period is thought to be a winter as adults and to a lesser extent or ammonium bicarbonate. Sex phero- time of adult dispersal. In Corfu, as eggs and larvae in unharvested fruit mone is attractive to male flies whereas Greece, marked females dispersed an (Kapatos and Fletcher 1984). ammonium bicarbonate is primarily at- average of 440 feet per day during early The phenology of the olive fruit fly tractive to females. Female fruit flies summer, while males averaged 340 feet seems to be influenced by weather. Hot need protein for egg production and (Fletcher and Kapatos 1981). and dry summer conditions may re- are attracted to ammonia, a volatile duce the buildup of populations on the compound associated with protein de- new crop. During a cool summer in composition. Both sexes are attracted to Corfu, Greece, for example, the number the trap’s yellow color. Trap catches of larvae peaked at about 11,000 per may vary in response to numerous Jack Kelly Clark tree in mid-August and then peaked variables, including temperature, hu- again in late September at 18,000 per midity, physiological status of the fly tree (Kapatos and Fletcher 1984). In the and, of course, population size following year the summer was consid- (Economopoulos 1979). Nevertheless, erably hotter, and after an early peak of monitoring populations using sticky about 8,000 larvae per tree in late July, traps can be useful in timing insecticide fewer than 4,000 larvae per tree were applications. Such practice is widely observed for the remainder of the year. used in Europe, where insecticide ap- Olive fruit fly females lay their eggs under This observation may have reflected plications are made on the basis of the skin of fruit. The larva, above, infest that egg and larval fruit flies experience threshold trap counts. mature olives with brown internal decay, causing premature fruit drop and high mortality during hot, dry weather In Europe, the olive fruit fly is largely potentially contaminating entire crops. (Kapatos and Fletcher 1984). There may controlled using full cover sprays or bait
http://danr.ucop.edu/calag • JANUARY-MARCH 2003 29 Jack Kelly Clark
Since the olive fruit fly was discovered in California in 1998, it has spread quickly to at least 37 counties. This persistent pest has damaged olive crops for several thousand years in the Szepligeti, which was introduced into Mediterranean. In San Diego County, a row of olive trees is infested. Italy from Africa in 1914 (Clausen 1978). P. concolor was later introduced to France and Greece, and most re- sprays containing organophosphate cally applied weekly from pit harden- cently in California. This species is be- insecticides, either dimethoate or ing (mid-June) until harvest (mid- lieved to be relatively ineffective as a fenthion (P. Vergoulas, personal com- September). Because olives grown for biological control agent in Europe. One munication). One or more cover sprays oil production are harvested later than reason for its poor performance may be may be applied during a season. Be- table olives, additional GF-120 applica- a lack of synchronization between the cause of different preharvest interval tions may be required. Spinosad bait life cycles of the parasitoid and fly requirements, fenthion is applied early sprays have been used on an experi- (Clausen 1978). Olive fruit fly larvae are in the season and dimethoate later. Bait mental basis in Greece and shown to typically unavailable for parasitism sprays are typically applied repeatedly be as effective as organophosphate when female P. concolor emerge in the over the season, with the number of ap- insecticide-bait sprays. The efficacy of spring. Whether this species is similarly plications depending on location, trap GF-120 under California conditions has limited in California or even has be- counts and whether the fruit is in- not yet been demonstrated. come successfully established here has tended for oil or table olives. In cooler Another promising method of olive not yet been determined. areas (such as Crete and Croatia), seven fruit fly control is the use of attract- There is still great potential for bio- insecticide-bait applications are made and-kill stations, which consist of a yel- logical control of olive fruit fly. Several per year versus only two to three appli- low plywood, paper or cardboard panel parasitoid species — including at least cations in hot, dry locations (such as impregnated with a pyrethroid insecti- six additional braconid wasps (K. central Greece and Spain; P. Vergoulas, cide (deltamethrin) and baited with sex Hoelmer, personal communication) — personal communication). Bait sprays pheromone and/or ammonium bicar- are known to attack the pest in Africa capitalize on fruit flies’ attraction to bonate (Broumas et al. 2002; Haniotakis but have not yet been established in Eu- protein, a major component of the bait. et al. 1986). Attracted by the phero- rope or California (Wharton and The flies feed on the insecticide in the mone, ammonia and/or yellow color, Gilstrap 1983). Researchers from the bait and die. flies land on the pyrethroid-impregnated U.S. Department of Agriculture and Recently, the insecticide spinosad panel and receive a lethal dose of insec- California Department of Food and Ag- has emerged as a replacement for orga- ticide. Attract-and-kill stations are not riculture are currently working toward nophosphate insecticides in bait sprays sticky and so are effective for an ex- importing natural enemies for biologi- worldwide. Because neither fenthion tended period of time. They have cal control in California. It is hoped that nor dimethoate is registered for olive shown good efficacy for olive fruit fly one or more parasitoid species will lead fruit fly control in California, spinosad management in Greece (Broumas et al. to some degree of effective control. To- is used exclusively here. Spinosad is a 2002; Haniotakis et al. 1986). Manufac- tal economic control in commercial ol- microbially derived compound that has tured attract-and-kill stations are not ive groves may be difficult due to the low toxicity to vertebrates but high tox- yet registered for use in California. commercial requirement of very low in- icity to a number of fruit fly pests. festation levels. However, introduced Prospects for biological control Spinosad mixed with a new fruit-fly natural enemies may be important in bait developed by Dow AgroSciences In the Mediterranean and sub- suppressing populations on untreated, is currently registered in California Saharan Africa, the olive fruit fly is at- residential trees, which undoubtedly under the trade name GF-120 on an tacked by a number of parasitoid spe- serve as a source reservoir of adult flies emergency exemption (section 18). In cies. The best-known is a braconid that disperse into commercial groves. California table olives, GF-120 is typi- wasp, Psyttalia (or Opius) concolor (continued on back cover)
30 CALIFORNIA AGRICULTURE, VOLUME 57, NUMBER 1 OLIVE FRUIT FLY (continued from page 30)
ment of olive fruit fly will ultimately be (Diptera, Tephritidae), in Corfu. Zeitschrift Management in California achieved through the development of fur Angewandte Entomologie 97:360–70. Michelakis SE, Neuenschwander P. 1983. Since the outbreak was discovered, an integrated pest management pro- Estimates of the crop losses caused by Dacus the California Department of Food and gram that combines sound monitoring, oleae (Gmel.)(Diptera, Tephritidae) in Crete, Agriculture has spent about $1.5 mil- and implementation of chemical and Greece. In: Cavalloro R (ed.). Fruit Flies of lion on olive fruit fly control and biological control. Economic Importance. Rotterdam: AA Balkema. p 603–11. $150,000 for monitoring. In November Sharaf NS. 1980. Life history of the olive 2002, California olive growers re- fruit fly, Dacus olea (Gmel.)(Diptera: quested about $900,000 in federal fund- T.R. Collier was Postgraduate Research Tephritidae), and its damage to olive fruit in Tripolitania. Zeitschrift fur Angewandte ing for trapping activities and a Entomologist, Department of Environmen- Entomologie 89:390–400. computer-based information-sharing tal Sciences, Policy and Management Tzanakakis ME. 1989. Small scale rearing. system, as well as research on biologi- (ESPM), UC Berkeley, and is now Assis- In: Robinson AS, Hooper G (eds.). Fruit Flies: cal control, integrated pest manage- tant Professor, Department of Renewable Their Biology, Natural Enemies and Control. Amsterdam: Elsevier. p 105–18. ment, and fly behavior and biology. Resources, University of Wyoming; and [USDA] U.S. Department of Agriculture. The California Olive Committee re- R.A. Van Steenwyk is Cooperative Exten- 2002. National Agricultural Statistics Service. cently received a $250,000 research sion Entomologist, ESPM, UC Berkeley. Agricultural Statistics. www.usda.gov/nass/ grant to determine the pest’s seasonal pubs/agr02/acro02.htm. References Wharton RA, Gilstrap FE. 1983. Key to population dynamics. and status of opiine braconid (Hymenop- Research on the olive fruit fly in Broumas T, Haniotakis G, Liaropoulo C, tera) parasitoids used in biological control California is still in its infancy. Much is et al. 2002. The efficacy of an improved of Ceratitis and Dacus s. l. (Diptera: form of the mass-trapping method, for the Tephritidae). Annals Entomol Soc Am known about the fly in Europe, particu- control of the olive fruit fly, Bactrocera 76:721–42. larly in Greece. California growers and oleae (Gmelin)(Dipt., Tephritidae): Pilot- researchers can benefit greatly from scale feasibility studies. J Applied Entomol 126:217–23. this wealth of information. Neverthe- Clausen CP. 1978. Introduced Parasitoids less, conditions in California are differ- and Predators of Arthropod Pests and COMINGUP ent, and much research remains to be Weeds: A World Review. US Department of Agriculture Handbook 480. Washington, DC. Soil quality and sustainability done. Because insect pests are most ef- Economopoulos AP. 1979. Attraction of Soil is the basic building block for fectively managed using carefully Dacus oleae (Gmelin)(Diptera, Tephritidae) maintaining healthy and sustainable to odor and color traps. Zeitschrift fur timed insecticide applications, research natural ecosystems and agricultural is needed on the phenology of the olive Angewandte Entomologie 88:90–7. Fletcher BS, Kapatos E. 1981. Dispersal of production. In the next issue of fruit fly in California, particularly in ar- the olive fruit fly, Dacus oleae, during the California Agriculture, UC scientists eas with different environmental condi- summer period on Corfu. Entomologia examine how California’s soil quality is affected by crops, tillage, grazing and tions. In addition, the optimal timing Experimentalis et Applicata 29:1–8. Fletcher BS, Pappas S, Kapatos E. 1978. other land uses. and concentration of GF-120 applica- Changes in the ovaries of olive flies (Dacus tions have not yet been determined in oleae [Gmelin]) during the summer, and Also coming up: California, nor has the potential use of their relationship to temperature, humid- ▼ ity and fruit availability. Ecol Entomol attract-and-kill stations been explored. Managing walnut pests 3:99–107. ▼ Finally, the importation of effective bio- Haniotakis GE, Kozyrakis E, Bonatsos C. logical control organisms may be valu- 1986. Control of the olive fruit fly, Dacus Consumer attitudes about able, particularly in the suppression of oleae Gmel. (Dipt., Tephritidae) by mass genetically modified foods trapping: Pilot scale feasibility study. J Ap- ▼ residential populations. Potential plied Entomol 101:343–52. The California wine industry agents must be evaluated, screened and Kapatos ET, Fletcher BS. 1984. The phe- released. We feel that effective manage- nology of olive fly, Dacus oleae Gmel.
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