A note onSaissetia oleae and its natural enemies in Iran

A cursory survey made in the Rudbar area and on the Caspian coast in Iran revealed that two species ofChalcidoidea, five species of Coccinellids, one Nitidulid and one Neuropteron attackedSaissetia oleae (Ol.). Of thesePullus sp. andScymnus sp. (Coccinellidae) were common and appeared to be important biological control agents.     

Studies onPrays acmonias [Lep.: Yponomeutidae] and its natural enemies in Pakistan

A survey forPrays acmonias Meyr. and its natural enemies was made in the northern hills in Pakistan. It attackedViburnum spp. in the Murree hills, Azad Kashmir and Swat. Its populations were generally low at most localities.Deraecoris sp.,Haplothrips sp. (egg predators),Apanteles sp. nr.dilectus Hal.,Elasmus hyblaeae Ferrière,Elachertus sp.,Euderus sp. andSympiesis sp. (larval parasites),Sphedanolestes sp. (larval predator),Aspergillus flavus Link andStreptococcus sp. (pathogens) attackedP. acmonias. Among theseApanteles was more common throughout the distribution area of the host and destroyed up to 13% host larvae. It appears to be a possibly promising parasite for trials in areas wherePrays spp. are pests. However, it did not parasitizePrays oleae (Bern.).

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Résumé Cette chenille qui attaque lesViburnum spp. dans les collines du Nord du Pakistan s'y trouve généralement en faibles densités.Deraecoris sp.,Haplothrips sp. (prédateurs des œufs),Apanteles sp. nr.dilectus Hal.,Elaemus hyblaeae Ferrière,Elachertus sp.,Euderus sp. etSympiesis sp. (parasites des larves),Sphedanolestes sp. (prédateur des larves),Aspergillus flavus Link etStreptococcus sp. (germes pathogènes) sont les ennemis naturels deP. acmonias. Le plus commun estApanteles, qui peut détruire jusqu'à 13% des chenilles. Il peut être un parasite intéressant pour la lutte contre desPrays spp., mais il ne parasite pasPrays oleae (Perm.).

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This work was sponsored by the Food and Agriculture Organisation of the United Nations as a part of the project entitled “Research on the control of olive pests and diseases in continental Greece, Crete and Corfu”.     

Natural enemies ofChenopodium spp. in Pakistan with notes onTrioza Chenopodii [Hem.: Psyllidae], a promising biocontrol agent

Investigations on the natural enemies ofChenopodium spp. in Pakistan showed that 40 insects and a fungus were associated with this weed. Of these, 3 insects,Trioza chenopodii Reuter,Gasteroclisus auriculatus Sahlb.Hayhustria? atriplicis (L.) and a fungusPhysoderma pulposum have some potential as beneficial control agents.T. chenopodii was the most effective destroyer of the weed. It developed 5 generations per year and was restricted to the generaChenopodium, Atriplex andHalimione.     

The establishment ofMetaphycus helvolus (Compere) [Hym. Encyrtidae] onSaissetia oleae (Bern.) [Hom. Coccidae] in olive groves in Greece

Résumé Une souche pure de l'EncyrtideMetaphycus helvolus Compere a été importée de Californie par airfret et directement relachée sur des Oliviers attaqués par la CochenilleSaissetia oleae Bern. près de Chania (Crète) en octobre 1962. En dépit du très rigoureux hiver qui suivit et, malgré les applications périodiques d'insecticides dirigées contre d'autres ravageurs, le parasite introduit est maintenant bien établi. En un an, le nombre desSaissetia fut notablement réduit dans le site du lacher originel; en 1964 et 1965, la Cochenille y était pratiquement inexistante. Une légère recrudescence de la population de Cochenille s'est manifestée en automne 1966 mais les Insectes étaient bien parasités. Fin 1966 et début 1967,M. helvolus s'était spontanément installé jusqu'à 24 km du point d'introduction et se rencontrait dans l'ensemble de la zone de Chania. L'espèce s'est probablement dispersée au-delà mais l'échantillonnage n'a pas été réalisé dans d'autres zones. L'espèce endémiqueMetaphycus flavus How. n'a pas été retrouvée en 1966–1967 dans la zone de Chania alors que ce parasite était commun auparavant. Il a été apparemment remplacé parM. helvolus.

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This study was made possible by financial support from the Greek Ministry of Agriculture within the framework of a project for the control of olive pests. The contribution of the second author was made possible by his appointment as a Fulbright Research Scholar at the Benaki Phytopathological Institute, Kiphissia, Athens, Greece. Support for a portion of these studies was given by NSF Grant G-20870. The authors gratefully acknowledge the help of Mr. N. Psyllakis of the Agricultural Research Station of Chania, who made some of the recovery attempts. Especial thanks are due to Mr. Howard Lorbeer, Manager of the Fillmore Citrus Protective District Insectary, who furnished theM. helvolus for our studies.     

Interaction betweenRastrococcus invadens [Hom.: Pseudococcidae] and two natural enemies

Two natural enemies of the mealybugRastrococcus invadens, the parasitoidGyranussoidea tebygi and the pathogenHirsutella cryptosclerotium were tested. Levels of parasitism by the parasitoid were reduced by the pathogen but overall mortality of the mealybug was greater both when agents were acting together.      

Mass breeding of two species ofSaissetia [Hom.: Coccidae] for propagation of their parasitoids

Potato sprouts detached from soil are most suitable for mass rearingSaissetia oleae (Olivier),S. coffeae (Walker) and their parasitoids, since the duration of development of the coccids is short, and they can be grown easily with their natural enemies in closed containers under controlled conditions.S. oleae served for propagation ofMetaphycus affinisstanleyi Compere,M. helvolus (Compere),M. bartletti Annecke & Mynhardt,M. lounsburyi (Howard), whilstS. coffeae was better suited forScutellista cyanea Motschulsky. The ornamental plantAdhatoda vasica Nees, citron melon and squash fruits served for rearingS. coffeae, while oleander was used for breedingS. oleae and its parasitoids during the ebb of the culture on potato sprouts.     

Insect natural enemies of coffee green scales [Hemiptera: Coccidae] in Kenya and their potential for biological control ofCoccus celatus andC. viridis in Papua New Guinea

Coffee green scales,Coccus celatus De Lotto andC. viridis (Green), are major pests of coffee in Papua New Guinea (PNG). Surveys for insect natural enemies of coffee green scales were conducted in Kenya to find species suitable for introduction to PNG. Natural enemy communities in Kenya were found to be diverse, particularly those located in the central highlands where 3 primary parasitoids,Metaphycus stanleyi Compere,M. baruensis Noyes andDiversinervus stramineus Compere (Encyrtidae), were dominant onC. celatus andC. alpinus De Lotto. It is suggested that these 3 parasitoids may be potential biological control agents forC. celatus. Several insect predators were found associated withC. celatus in the central highlands but most were only common in ant-free scale populations. An aphelinid primary parasitoid,Coccophagus rusti Compere, was the only natural enemy ofC. viridis located. This species, however, could be of potential as a biological control agent, especially in view of its previous use in biological control against soft scales.      

The natural enemies of the armored scale lady-beetleChilocorus bipustulatus [Col. Coccinellidae]

The most common parasite ofC. bipustulatus larvae and pupae in Israel isH. flaminius [Hym., Encyrtidae]. A theory of the survival of hyperparasites through a mechanism which prevents overlapping of appearance was presented. The parasites, predators and pathogens which were found as well as those reviewed in the literature explain the low value ofC. bipustulatus in biological control of scale-insects in groves.

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Résumé Le parasite le plus commun des larves et des nymphes deC. bipustulatus en Israel estHomalotylus flaminius (Encyrtidae). Il a été montré expérimentalement que deux autres espèces,Achrysopophagus aegyptiacus etPachyneuron siculum, sont des hyperparasites des larves deH. flaminius. Il est présenté une théorie de la survie des hyperparasites à l'aide d'un mécanisme qui empêche les chevauchements d'apparition. Les autres hyménoptères parasites nouveaux, les fourmis les fourmilions et les champignons pathogènes ont une importance secondaire dans la réduction des populations deC. bipustulatus. Les parasites, prédateurs et pathogènes que nous avons trouvés aussi bien que ceux mentionnés dans la littérature expliquent la faible valeur deC. bipustulatus pour la lutte biologique contre les cochenilles en vergers.

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Research financed in part by grant No. FG.-Is-227, U.S.D.A.     

TheSitona [Col.: Curculionidae] species occurring onMedicago and their natural enemies in the Mediterranean region

TwentySitona species were found in the Mediterranean region during surveys on 17 volunteer and/or cultivated species ofMedicago. The distribution of the weevils was analyzed using the 3 concepts of abundance, constancy and dominance. EightSitona species were consistently recorded on lucerne and medics; of these, 3 were “constants” and only 2,S. humeralis Stephens andS. lineatus Linnaeus, also “dominants” in the sites investigated. Sixteen species of natural enemies were identified (table 4), including 3 egg predators, 3 egg parasitoids, 1 entomogenous fungus, 2 nematodes and 5 parasitoids of adult weevils. The effect of each organism on theSitona population numbers was slight, not exceeding in most cases an average mortality of 15%. At high host densities however, the braconidMicroctonus aethiopoides Loan which is the preponderant parasitoid, caused estimated mortalities up to 80% during a single weevil generation. Noticeable changes in the relative importance of the natural enemies were observed between the areas surveyed, with onlyM. aethiopoides and the mymarid egg parasitoidPatasson lameerei Debauche occurring widely. Moroccan, French and Greek strains of these 2 parasitoids were forwarded to Australia for the biological control ofS. humeralis there.     

Interactions betweenAulonium ruficorne [Coleoptera: Colydiidae] and other natural enemies of bark beetles [Coleoptera: Scolytidae]

The within tree distribution of some common natural enemies of bark beetles in pine plantations in Israel and some aspects of their feeding habits were studied with special emphasis on the potential impact on the predatorAulonium ruficorne Olivier. A total of 12 predators and 2 parasite species were found associated withA. ruficorne in the natural enemy complex of bark beetles on pines. No secondary parasites were detected. The anthocoridScoloposcelis pulchella (Zetterstedt) and the dipteranMedetera striata Parent were observed feeding on immature stages ofA. ruficorne in the absence of scolytids. The associated Coleoptea:Nemosema elongatum F.,Rhizophagus bipustulatus L.,Corticeus spp.,Plastysoma spp. andPlegaderus discisus Erickson are thought to compete withA. ruficorne on larvae and pupae of bark beetles when the latter are in limited quantities (especially in the lower section of the tree). The parasites, mainlyMetacolus unifasciatuss Forster andDendrosoter caenopachoides Ruschka are assumed to compete withA. ruficorne during the larval period in the smooth bark section of the stem. Competition might occur mainly during spring and fall. Deutonymphs of the miteIpiduropoda sellnicki were detected on the abdomen ofA. ruficorne adults. Larvae of the predator were rarely infected in the field by the bacteriaSerratia sp. while laboratory cultures suffered high rate of mortality caused by this pathogen.      

Note on the natural enemies ofPsylla hyalina [Homoptera: Psyllidae] onAlbizia lebbeck

A survey of the natural enemies associated withPsylla hyalina infestingAlbizia lebbeck has revealed 2 primary parasitoids, 1 hyperparasitoid, 5 coccinellids, 1 lygaeid and 3 fungal pathogens, all being new records forP. hyalina.      

A survey of black scale,Saissetia oleae [Hom.: Coccidae] parasitoids [Hym.: Chalcidoidea] in southern California

A survey of black scaleSaissetia oleae (Olivier) parasitoids present in southern California was conducted between September 1987 and September 1989. From 308 collections of black scale-infested citrus, olive, and oleander twigs from 19 sites in southern California, 1,610 specimens were collected. Nine primary and six secondary parasitoid species were identified. Four primary species were abundant in southern California:Metaphycus bartletti Annecke & Mynhardt,M. helvolus (Compere),Scutellista caerulea (Fonscolombe) (=S. cyanea Motschulsky), andDiversinervus elegans Silvestri. The most common secondary parasitoids wereMarietta mexicana (Howard),Cheiloneurus noxius Compere, andTetrastichus minutus (Howard). In the coastal region of southern California,M. bartletti was the most abundant parasitoid, followed in order byD. elegans, S. Caerulea, andM. helvolus. In the intermediate and interior regions,M. helvolus was most abundant.D. elegans was second most abundant in the intermediate region, but was rare in the interior region.M. bartletti was second in abundance in the interior region and third in the intermediate region.      

Pesticide-induced mortality of natural enemies of the onion maggot,Delia antiqua [Dip.: Anthomyiidae]

Pesticide-induced differential mortality betweenDelia antiqua(MEIGEN)and several other organisms associated with its natural control [D. platura(MEIGEN),Coenosia tigrina (F.),Entomophtora muscae (COHN), andAphaereta pallipes (SAY)] were evaluated under simulated field conditions. Direct and residual differential mortalities were described for 3 herbicides (Chloro-IPC, nitrofen, and CDAA), 3 fungicides (maneb, chlorothalonil, and copper sulfate), and 1 insecticide (malathion). The recommended field application rates of these chemicals produced high positive differential mortality levels betweenD. antiqua and some of the natural mortality agents. Chloro-IPC, a preplant and midseason herbicide, induced 100% mortality ofA. pallipes over the 3-day residual test period. Modifications in behavioral orientation and death patterns ofD. antiqua adults infected withE. muscae were also noted in malathion-treated flies such that subsequent conidial dispersal was highly restricted. Michigan Agricultural Experimental Station Journal Article Number 10133.     

The phenology of the San Jose scaleQuadraspidiotus perniciosus [Hom.: Diaspididae] and its association with its natural enemies on almond trees in northern Greece

The phenology of the San Jose scale was studied in a heavily-infested almond orchard in northern Greece. It appears that the scale there completes 3 generations per year. The majority of the population hibernates as 1^st instar larvae. A series of releases were made using the introduced Hymenoptera parasiteProspaltella perniciosi Tower. Sampling results showed a very high mortality of the San Jose scale, Apart from the percentage due to climatic factors, the remainder is a result of the action of natural enemies. A considerable part of this action is attributable to the local entomophagous insects and especially the predators, of whichCybocephalus fodori Endrody-Younga appears to be the key species. The rest is attributable to the action of the released populations ofP. perniciosi. The main part of this paper was presented during the International Symposium held in Budapest (15–20 August 1983).     

Contribution to the knowledge of the natural enemies ofBissetia steniellus (Hampson) [Lep.: Pyralidae]

Résumé La recherche des ennemis naturels deBissetia steniellus (Hampson) [Lep. Pyralidae] gravement nuisible à la canne à sucre dans la province du Punjab, a permis de découvrir six espèces parasites des chenilles et deux autres parasites des chrysalides. Aucune de ces espèces n'avait été trouvée auparavant sur cet h?te. L'auteur suggère l'extension de cette étude en vue de vérifier le r?le du BraconideStenobracon deesae Cameron vis-à-vis de ce Lépidoptère d'une part, et de rechercher au Vietnam de nouveaux parasites de cette espèce pour leur introduction ultérieure en Inde d'autre part.

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This research has been financed in part by a grant made by the United States Department of Agriculture under P.L. 480.     

Natural enemies ofLymantria dispar [Lep.: Lymantriidae] eggs in Central Pennsylvania,U.S.A., and a review of the world literature on natural enemies ofL. dispar eggs

We present the results of a survey for natural enemies of eggs of the gypsy moth,Lymantria dispar (L.)(Lep.: Lymantriidae), in central Pennsylvania, along with a review of the world literature on the natural enemies of gypsy moth eggs. In Pennsylvania, the parasites wereOoencyrtus kuvanae (Howard)(Hym.: Encyrtidae) (by far the most abundant),Dibrachys cavus (Walker)(Hym.: Pteromalidae), andPediobius sp.(Hym.: Eulophidae). The predators were primarily ants(Hym.: Formicidae), but other predators included beetle larvae(Col.: Cantharidae, Dermestidae, Trogositidae), lacewing larvae(Neur.: Chrysopidae), bugs(Hem.: Pentatomidae), and mites(Acari). The parasiteO. kuvanae was in turn preyed upon by spiders(Araneida) and aPhymata sp.(Hem.: Phymatidae). Total predation of gypsy moth eggs averaged 11%, occurring at a constant rate of ca 0.6% per week throughout the summer and autumn. The greatest predation occurred nearer the ground with no differences among either aspect on the tree or tree species on which the egg mass was located. A negative association was discovered betweenO. kuvanae andD. cavus, but not betweenO. kuvanae andPediobius sp. Throughout the world, gypsy moth egg parasites and hyperparasites have been recorded from 6 different hymenopterous families; egg predators have been found in 13 families representing 5 orders of arthropods. Vertebrate predators of gypsy moth eggs are in 6 families of birds and 3 families of mammals.

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Résumé Nous présentons ici les résultats d'une enquête sur les ennemis naturels des œufs deLymantria dispar (L.)(Lep. Lymantriidae) dans la Pennsylvanie centrale, ainsi qu'une revue de la littérature sur les ennemis naturels des œufs deL. dispar. L'ennemi naturel le plus abondant estOoencyrtus kuvanae (Howard)(Hym. Encyrtidae); parmi les autres parasites en Pennsylvanie, on compteDibrachys cavus (Walker)(Hym. Pteromalidae) et une espèce dePediobius (Hym. Eulophidae). Les prédateurs des œufs sont principalement des fourmis(Hym. Formicidae), des larves de coléoptères(Col.: Cantharidae, Dermestidae, Trogositidae), des larves d'hémérobe(Neu. Chrysopidae), des punaises(Hem. Pentatomidae) et des acariens(Acari). Des araignées(Araneida) et une espèce dePhymata (Hem. Phymatidae) sont également prédateurs deO. kuwanae. La perte totale des œufs du disparate est en moyenne de 11%, selon un taux constant d'environ 0,6% par semaine pendant l'été et l'automne, la prédation la plus importante a lieu près du sol, sans qu'il y ait de relation avec l'orientation des œufs sur l'arbre, ou l'espèce d'arbre sur lequel se trouvent les œufs. Une association négative a été découverte entreO. kuwanae etD. cavus, mais pas entreo. kuwanae etPediobius. Dans le monde les parasites d'œufs deL. dispar et les hyperparasites ont été signalés de 6 familles d'hyménoptères, les prédateurs d'œufs ont été trouvés dans 13 familles de 5 ordres d'arthropodes. Les vertébrés prédateurs des œufs appartiennent à 6 familles d'oiseaux et 3 familles de mammifères.

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This work was supported under Regional Project NE-84 (revised), “Behavior and Interrelationships of the Gypsy Moth, its Natural'Enemies and Insecticides”, and conducted under Experiment Station Project No. 2044. Authorized for publication as paper no. 6306 in the Journal Series of the Pennsylvania Agricultural Experiment Station.     

Inundative biological control of velvetleaf,Abutilon theophrasti [Malvaceae] withNiesthrea louisianica [Hem.: Rhopalidae]

Niesthrea louisianica Sailer (Rhopalidae) is native from Arizona to Florida north to New York and West to Iowa in the Mississippi Valley. Immatures and adults feed on seeds of malvaceous plants. Velvetleaf,Abutilon theophrasti Medic. (Malvaceae), is a major exotic weed of corn, soybeans, cotton, and sorghum, and is among the hosts forN. louisianica. A laboratory colony ofN. louisianica was established in 1984 using imbibed velvetleaf seeds as the food source. The colony was expanded in 1985 to support field releases in velvetleaf infested fields in the Midwest and New York State. Approximately 83,000 adultN. louisianica were released in 5 States. The insects reproduced and were found more than a kilometer from the release point at some release sites. In areas of establishment, a significant reduction in seed viability was recorded.      

Alaboratory evaluation ofAnthocoris nemorum andA. nemoralis [Hem.: Anthocoridae] as predators ofPhorodon humuli [Hom.: Aphididae]

Anthocoris nemorum (L.) andA. nemoralis (F.) were reared on apterous hop aphids,Phorodon humuli (Schrank), at 20±0.5°C.A. nemorum andA. nemoralis killed an average of 255 and 174 aphids respectively during nymphal development, and the adults killed 37 and 33 per day respectively. Small anthocorid nymphs selectively killed small aphids but adult anthocorids and 5th instar nymphs killed aphids of every size. Mean development times from emergence to final moult were 22 and 16 days forA. nemorum andA. nemoralis respectively.     

Effect of temperature on development and survival ofPristhesancus plagipennis [Hem.: Reduviidae]

The effect of temperature on the rate of development ofPristhesancus plagipennis Walker was determined by rearing individuals under a range of constant temperatures (22.5–35°C). Rates of development changed in a linear fashion from 22.5–30°C. Estimates of lower developmental thresholds were obtained for egg (13.1°C), nymphal (15.5°C) and egg to adult development (15.4°C). Fastest rates of nymphal and egg development occurred at 30 and 32.5°C, respectively. A requirement of 845.7 DD (degree days) was estimated for development from egg to adult. Nymphal survivorship was highest between 25 and 30°C.

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Résumé L'effet de la température sur la vitesse de développement dePristhesancus plagipennis a été déterminé par élevage des insectes dans une gamme de températures constantes allant de 22,5 à 35°C. La vitesse de développment est une fonction linéaire de la température entre 22,5 et 30°C. Le seuil théorique de développement a été estimé à 13,1°C pour l'œuf, 15,5°C pour la nymphe et 15,4°C pour le développement larvaire. Les plus grandes vitesses de développement de l'œuf et de la larve ont été obtenues respectivement à 30 et 32,5°C. 845,7 degrés-jours sont nécessaires pour le développement de l'œuf à l'adulte. La survie des nymphes a été la plus élevée entre 25 et 30°C.

     

Notes on natural enemies attackingLepidosaphes species [Homoptera: Diaspididae] associated withCitrus in Costa Rica

Aphytis lepidosaphes Compere (Hymenoptera: Aphelinidae) parasitize two species ofLepidosaphes onCitrus in Costa Rica.Zagloba beaumonti andPentilia discors (Col.: Coccinellidae) also feed on both species.