3erpentinea -0 leaf Miner Damage spinach losses in 1956 recall cyclic attacks by pests and need of both insecticides and natural enemies for control

W. H. Lange, A. A. Grigarick, and E. C. Carlron

A small leaf-mining agromyzid of On some host plants, and when several omnivorous tastes- langei larvae work in the same leaf, blotch Frick-caused a 50% loss to fall spinach mines develop, and entire leaves turn in the Salinas Valley in 1956. The unof- white and wither. Mining may occur in ficial allowable tolerance for larvae could the pods of peas, and stem mining may not be met in many instances with as cause the complete collapse of small many as six weekly applications of com- plants. bination phosphate and chlorinated hy- The mature larva, when 2 nini to 4 inm drocarbon insecticides at a total cost of lonq, cuts an escape slit at the end of $60 an acre. the mine and pupates on the leaf-in Widespread leaf miner attacks appear certain species as in Liriomyza picteih- to be cyclic in nature, although localized or at the base of the plants. or in the soil, attacks by certain species occur prac- as in L. langei. tically every year. Evidence indicates a The period of development varies with flareup about 1938, one in 1948, and a species, host, and time of year. A typical more limited epidemic in 1956. In 1945 life history consumes from 17 to 30 days Mines of the pea leaf miner on leaf-abovb a 10-acre field of spinach at Salinas was and on pad-below--sf pea. in the summer and 50 to 65 days in the lost because of a localized attack. winter and spring. There are five to six Leaf miners are generations a year in subject to explosive most species, and all population buildups stages may overwin- -biological explo- ter, but largely as sions-as there is pupae and adults. often a delicate bal- Adults may start ance between cli- feeding on new matic influences, growth in January parasites, available and February. Pop- hosts, and the repro- ulations of usu- ductive potential of the leaf miners. ally increase as summer and fall progress Below-Feeding puncturer and miner of pea leaf Climate exerts an important over-all miner on spinach. and more available hosts are present. effect in determining the abundance of The most important species of serpen- leaf miners. Favorable conditions OC- tine leaf miners attacking spinach in the curred in the Salinas Valley in 1956. coastal districts is the pea leaf miner- Winding mines inside the leaves, stems Liriomyza langei Frick-which has been -or pods-of the plant attacked are called L. flaueola Fallen or L. orbona characteristic of serpentine leaf miners (Meig.) . and caused by boring larvae. Other species attacking spinach are The adult serpentine leaf miners are the bean leaf miner-L. pictella (Thom- small, black and yellow flies ranging son) -which has been called L. subpu- from 1/1,,” to %6” long. The members sib Frost, a valley species; Phytomyza of the genus Lirzomyza-which contains atricornis Meigen-which mines spinach, most of the agriculturally important lettuce, and composites in the Salinas species-have a yellow mark on the pos- and other areas; and the spinach leaf terior part of the thorax between the miner-Pegomyia hyoscyami (Panz.) - places of attachment of the wings. The which forms large blotch mines and has adult females puncture holes in the leaves mature larvae %’’ long. for feeding and for egg deposition. Many Other economic species include the more feeding than egg punctures usually leaf miner-Liriomyzu bras- occur. The punctures turn light-colored sicae (Riley) ; the tomato leaf miner- and give the leaves a white, stippled ap- L. munda Frick (mss.) ; a grass leaf pearance. Eggs are placed under the miner-L. flaueola (Fall.) ; and a miner epidermis of the leaf through slits made of alfalfa and other legumes-L. con- on the upper or lower surfaces of the gesta (Becker) . A miner of cabbage in leaves. The slits are ovate in shape, range northern California is Scaptomyza ter- from 0.25 to 0.35 millimeter-mm- minalis (Lowe). Two miners of weeds long, and are laid parallel to the leaves. are often confused with Liriomyza: Ha- The diameter of the mine increases as the plomyza minutu (Frost), a miner of larva grows. Continued on next page

CALIFORNIA AC R ICU LTURE, MARCH, 1957 9 LEAF MINER nia was widespread 011 spinach, melons, n?oving into the fields from outsicle. odd- tomatoes, alfalfa, lettuce, sugar beets. Continued from preceding page itig to those escaping destruction. cultivated flowers, potato, beans, weeds. The best solution to the leaf miner Chenopodiurn spp.; and H. togata ( Me- black-eyed peas, and mustard. An attack control problem seems to lie in the judi- lander ), a common miner of Arnararithus of Liriomyza larigei occurred on sugar cious use of insecticides in such a way SPP. beets in the Salinas Valley in 1948, sup- as to more fully utilize the natural ene- The pea leaf miner has a history of posedly correlated with the widespread mies. damage to spinach. peas, peppers, lettuce, use of DDT for leafhopper control. The most effective wasp parasites of carrots. onions. cruciferous crops, asters. Spinach. lettuce, and onions were at- the pea leaf miner are Solerroius irrler- sugar beets, celery, and beans. Cage tests tacked in 19.56. naedius ( Girault) , S. begirri Ashmead), have verified the following additional Often. localized outbreaks can be cor- larval parasites in the family Eulophidae, hosts: cineraria. zinnia. stock. guayule, related with parasite relationships. the and Halticoptera aerrea (Walker I. a lar- cabbage. Brussels sprouts, kohlrabi, use of excessive amounts of insecticides destructive to the natural enemies, and Adult female of Liriomyza langei. Adult male of Liriomyza langei. the availability of suitable host plants.

Puparium, above, and mature larva, below, of pea leaf miner.

In one instance in the Salinas Valley, the reduction of Liriornyia langei was the re- sult of a maximum diurnal temperature val parasite that emerges through the . turnip. , okra. pars- of 105" F, an unusual temperature for pupae. Other parasites include Mesora nip, radish. dandelion, endive, chicory, coastal conditions. sp,, and Opius sp.. and Chrysocharis rutabagas. and tomato. Larkspur is not Parasites often control leaf miner in- airrsliei Crawford, and C. parksi Craw- attacked. The pea variety Green Admiral festations, but they can not be depended ford. A combined parasitism of to is tolerant of attack because of its growth upon-as seeins to be the case for cur- 90;: is not unusual. habit, whereas the usual hamper types rently used insecticides-to control niin- The best chemical control program de- of peas are severely damaged. Weeds ers to a degree sufficient to meet existing pends upon the species. crop. and local- such as Cherropodimi and Arnararrthus mnggot tolerances. tinder extremely high ity, but certain insecticides have shown are commonly selected. population levels the flies are continually Continued on next page The bean leaf miner on the other hand selects beans. melons, castor beans. cow- Damage of the pea leaf miner to leaves of sugar beets. peas. and alfalfa, but it can occur on spinach in certain valley areas. In 1948 leaf miner trouble in Califor-

Mines of the tomato leaf miner in leaves of tomato plont.

4 CALIFORNIA AGRICULTURE, MARCH. 1951 New Carnation Pests bud mite and leaf miner found in California may cause serious problems

A. Earl Pritchard

Carriation bud mites are exceedingly tin) and they prefer to live within the new shoots. between the bases of the leaves and stem, and under the flower calyxes. Their presence in large numbers is detected by somewhat greasy. dis- torted, and stunted new growth. Because of the secretive habits of the bud mite, it has been very difficult to control. Parathion, chlorobenzilate. and Kelthane have given good control of ex- posed mites. but repeated applications of these chemicals sene only to keep down mite populations. Leaf injury caused by the maggots of the carnation leaf miner. In recent experimental plots at Red- wood City, two new cheiiiicals have Carnation growers in California- shown greater protiiise for hud mite con- constantl! coml)atirig spider mites. trol. One of these is Diazinon and the thrips and aphids. and occasional infes- other is I'hostex. an experimental cheiiii- tations of carnation bud moth or meal) - cal. bugs-base tho new pests to fight. Excellent kill was ohtained with wet- Distorted terminal shoots iniured by the The carnation Iiud mite-Aceria pam- talile powder of Iliazition applied at a carnation bud mite. clian/hi Keifer-was first discovered in rate of three pounds of a 2.5'' niaterial California in 1952. A suhsequerit collcc- per 100 gallons of water and 25' emul- The native home of this pest is not tion from Mar) land constitutes the onl) sifiable l'hostex used at a rate of one pint known. hut it was first found in several other known record of this pest in the per 100 gallons of water. The addition nurseries in San Mateo County in 1956. western hemisphere. It is probable that of four ounces of a comtiiercial spreader The maggots of this tin). black and yel- the mite as introduced from Europe. to the Diaziiion spray caused a rather low fl) tunnel within the leaves. niaking The original infestation was found in even tlistrihution of the residue over the serpentine mines. As far as is known. Sarita Barhara County, and a state-u ide leaves arid possibly enhanced the per- at the present time. onl) carnations sene sur\e! I)! the State Departinelit of Agri- forinatice. I'hostex. when used as a 25:' as a host. culture shobced the pest to he present also \%ettahlepowder at a rate of three poutids A 2'' parathion dust has given good in Los Angeles and Orange counties. per 100 gallons of water, was inferior to control of the adult flies as the) emerge. Iluring 19.56. infested nurseries were the other chemicals. No plant injury was Applications are made at 10- to 14-day inter\ als. found in the Sari Francisco Ray area. in incurred in these tests. ___ -- Alaineda. Santa Clara. and Sat1 Mateo The other new carnation pest is the A. Enrl I'ritchnrd is Associnte I'rolcssor of counties carnation leaf miner-Liriornyzz n. sp. Entoniolog), 1 fnitwsitt oi (.olriornia, Ser6elq. no beneficial effect and usuall) a dele- iwnts. sjsteinic materials. hits. and and possihle chemical residue proldenis. terious effect on parasites in addition to other controls needs investigating. How- DDT or related materials should not lie rather poor control of miners. Such iri- ever. riiild atid warm fall atid winter con- used. If dieldrin. aldrin, or heptachlor is secticides include DDT. DDD. niethox) - ditions tend to increase riuriibers of flies used early, it should he coiiilined with a chlor. perthane. TEPP. rotetione, and on all host plants. Sugar beets, weeds. phosphate. toxapheiie. DDT was found to affect the and lettuce are sources of flies and para- The use of more than two or three in- larval parasites. Solenotus spp.. more sites. secticide applications is not usually cco- than Halhoptera, due to differences in Insecticides should not lie applied nomically feasible, and-under high leaf the hiolog) of these species. Other ma- earl) in the growth of spinach, so as to miner population coriditions-ma? not terials--parathion. meth) I parathion. allow parasites to get started on the first allow the spinach to meet urioficial allow- EPR, aldrin, dieldrin, heptachlor. en- generation of leaf miners. Where flies are able larval tolerances. drin. isodrin. chlordane. and lead ar- ahundant-and insecticides are neces- Ic'. H. Lrrnge is Associnte I'roiessor oi En- senate-may or may not affect parasites. sary-parathion applied as a 2:; dust tomology, linitwsity CJ~Californin, I)ni-is. but are more effectke in controlling the at 4.5 pounds per acre, or the equivalent leaf niiner. as a spray, at ahout the rosette stage. A. A. Grignrick is Senior Laboratory Tech- nicinn. Entomology, llniiwsity of Calijornin, More work is needed to determine the is usually effective when followed t)) Dnois. best use of insecticides and still preserve one or two additional applications at i- E. 0'. Cnrlson is Associate Specialist in En- natural enemies. The use of seed treat- 10-day intervals, depending upon growth tomology, 1 /nit:arsity 0.i Cnliiornia, Ibis.

CALI FORK I A ACR I CU LTU R E, MARCH, 1957 5