The Barley Jointworm, Harmolita hordei (Harr.) (Hymenoptera: Chalcidoidea), in Prince Edward Island

1963 ◽  
Vol 95 (1) ◽  
pp. 28-35 ◽  
Author(s):  
F. M. Cannon
Keyword(s):  
Biological Control ◽  
Plant Tissue ◽  
Prince Edward Island ◽  
Control Agent ◽  
Complete Loss ◽  
The Other ◽  
Natural Control ◽  
Northeastern Part ◽  
Grain Crop

AbstractThe barley jointworm, Harmolita hordei (Harr.), was first discovered at a point in the northeastern part of Prince Edward Island in 1946. It spread quite rapidly along the northern coastline of the province and more slowly southward, and today infestations may be found in most areas of the province. Inland movement of the pest did not start until about 1955 and since that time infestations have generally been lighter than they were previously.H. hordei overwinters as mature larvae in galls in barley stubble left in fields after the grain is harvested. Adults emerge the following year during late June and early July and oviposit in the stems of young barley plants, usually when the plants are six to eight inches high. Eggs are almost always laid just above the lower nodes or joints, either on the main or on tillering stems. The adults live for four to eight days. The larvae develop inside the stems and the plant tissue around them develops into hard, woody galls. The larvae mature in three to four weeks and, thereafter, remain dormant inside the galls in the stems until the following year. Infested barley plants are stunted and heads may fail to develop or, if formed, contain small, shrivelled kernels. In severely infested fields, the grain crop is considered a complete loss.There are six speoies of parasites known to attack H. hordei in Prince Edward Island, and all of them are chalcids that closely resemble the pest. Parasite eggs are deposited in the stem with the host and the larvae attack and destroy H. hordei larvae and then complete their development inside the galls. In addition to biological control by natural parasites, the other major natural control agent is considered to be weather, combinations of moisture, humidity, and temperature. However, further investigations are necessary to establish the influence of these different factors.

A laboratory investigation of Paulinia acuminata (DeGeer) (Orthoptera: Acrididae) as a biological control agent for Salvinia molesta

1979 ◽  
Vol 69 (1) ◽  
pp. 111-114 ◽  
Author(s):  
I. F. Chisholm
Keyword(s):  
Biological Control ◽  
Growth Rate ◽  
Plant Tissue ◽  
Feeding Rate ◽  
Consumption Rate ◽  
Biological Control Agent ◽  
Control Agent ◽  
Salvinia Molesta ◽  
Population Densities ◽  
Lake Kariba

AbstractThe feeding rate of nymphs of Paulinia acuminata (Deg.) on Salvinia molesta was studied in the laboratory using single nymphs on different numbers of Salvinia leaves. Each successive instar ate more plant tissue, but at population densities likely to occur in nature it was unlikely that consumption rate could match the natural Salvinia growth rate. The controlling effect of Paulinia on Salvinia in Lake Kariba, Rhodesia, may therefore be negligible.

Pathogenicity of Metarhizium anisopliae and Beauveria bassiana against Phyllophaga crinita and Anomala flavipennis (Coleoptera: Scarabaeidae)

2005 ◽  
Vol 40 (1) ◽  
pp. 67-73 ◽  
Author(s):  
L. A. Rodríguez-del-Bosque ◽  
F. Silvestre ◽  
V. M. Hernández ◽  
H. Quiroz ◽  
J. E. Throne
Keyword(s):  
Biological Control ◽  
Beauveria Bassiana ◽  
Metarhizium Anisopliae ◽  
Biological Control Agent ◽  
Challenge Test ◽  
Control Agent ◽  
The Other ◽  
White Grub ◽  
Test Protocol ◽  
Lethal Time

Five isolates of Beauveria bassiana (Balsamo) Vuillemin and 3 isolates of Metarhizium anisopliae (Metschnikoff) Sorokin were tested against third-instar larvae of Phyllophaga crinita (Burmeister) and Anomala flavipennis Burmeister under laboratory conditions using the “maximum challenge test” protocol. The M. anisopliae strains were more virulent than the B. bassiana strains, with the isolates MAGL3N and MAGL4N of M. anisopliae causing the highest mortality in both white grub species. Regardless of scarab species, mortality caused by MAGL3N was >63% after 4 days and >96% after 10 days. The other strain of M. anisopliae, MAGC2N, also caused high mortality in A. flavipennis, but at a slower rate than MAGL3N. Median lethal time (LT50) for MAGL3N was 2.9 days for P. crinita and 3.0 d for A. flavipennis. The LT50 for MAGL4N was 5.3 d for P. crinita and 7.6 d for A. flavipennis while the LT50 for MAGC2N was 4.4 d for A. flavipennis. Metarhizium anisopliae is a potential biological control agent for P. crinita and A. flavipennis and should be further investigated for possible development.

scholarly journals Coccophagus scutellaris(Hymenoptera: Aphelinidae): A Highly Effective Biological Control Agent of Soft Scale Insects (Hemiptera: Coccidae) in Egypt

2011 ◽  
Vol 2011 ◽  
pp. 1-6 ◽  
Author(s):  
Shaaban Abd-Rabou
Keyword(s):  
Biological Control ◽  
Maximum Rate ◽  
Biological Control Agent ◽  
Control Agent ◽  
The Other ◽  
Scale Insects ◽  
Northern Coast ◽  
Soft Scale ◽  
Coccus Hesperidum ◽  
Saissetia Oleae

About 953000 individuals of the cosmopolitan parasitoid,Coccophagus scutellaris(Dalman) (Hymenoptera: Aphelinidae), were released and evaluated during 2009-2010 for the control of the following soft scale insects (Hemiptera: Coccidae) infesting the following economic crops in Egypt:Ceroplastes ruscion citrus in Beni Seuf,Ceroplastes floridensisComstock on citrus in Gharbiya,Coccus hesperidumL. on guava in Giza,Pulvinaria floccifera(Westwood) on mango in Sharqiya,Pulvinaria psidiiMaskell on mango in Ismailia,Saissetia coffeae(Walker) on olive in Marsa Matruh, andSaissetia oleae(Oliver) on olive in the Northern Coast. The population ofC. scutellarisshowed a significant correlation with the build up of the population of the soft scale insects population in all of the release sites studied. The maximum rate of parasitism of the other species of parasitoids associated with soft scale insects at the release sites decreased after the release ofC. scutellaris.

The Propagation of insect Parasites on unnatural Hosts

1945 ◽  
Vol 35 (3) ◽  
pp. 219-226 ◽  
Author(s):  
F. J. Simmonds
Keyword(s):  
Biological Control ◽  
Larval Stage ◽  
Plant Tissue ◽  
The Other ◽  
Single Generation ◽  
Large Numbers ◽  
Natural Hosts ◽  
Control Work ◽  
Insect Parasites ◽  
Heavy Mortality

When an insect parasite successfully attacks a host in the natural environment, the criterion of success being the development of the parasite progeny to maturity, the species attacked is described as a “natural host.” Parasites are used in biological control work with respect to their natural hosts. However, when the mass breeding of parasites for field distribution has to be carried out, the provision of natural hosts in sufficient quantity is in many cases difficult or impossible, unless they can be easily obtained in large numbers from the field. But some of these hosts have only a single generation a year. Others live in the larval stage in parts of growing plants which cannot be satisfactorily handled so as to produce mass infestations; on the other hand, attempts to rear such insects on detached fragments of plant tissue often result in heavy mortality. Other hosts which are very satisfactory for parasite propagation in some respects, become very susceptible to epidemics of disease when kept in large numbers in confinement. Even without these difficulties, the propagation in the laboratory of large numbers of natural hosts is often tedious and expensive.

scholarly journals Detection of a Tasmanian strain of the biological control agent Enoggera nassaui Girault (Hymenoptera Pteromalidae) using mitochondrial COI

2004 ◽  
Vol 57 ◽  
pp. 252-256 ◽  
Author(s):  
B.D. Murphy ◽  
M.K. Kay ◽  
G.R. Allen
Keyword(s):  
Biological Control ◽  
New Zealand ◽  
Biological Control Agent ◽  
Mitochondrial Gene ◽  
Egg Parasitoid ◽  
Control Agent ◽  
The Other ◽  
Mitochondrial Coi ◽  
Genetic Source ◽  
Climatic Range

Paropsis charybdis (Coleoptera Chrysomelidae) an Australian pest of Eucalyptus in New Zealand is subject to biological control by Enoggera nassaui (Hymenoptera Pteromalidae) a solitary egg parasitoid sourced from Western Australia ( Perth Strain) in 1987 Erratic control in inland regions of New Zealand led to the introduction and release in 2000 of two Tasmanian E nassaui strains to attempt expansion of the climatic range of biocontrol Samples recovered a year later were analysed using partial sequences of the Cytochrome oxidase I (COI) mitochondrial gene to test for establishment This method detected a haplotype corresponding with a Tasmanian (Florentine Valley) strain However as sequences could not be obtained from original Perth strain stocks some doubt remains as to the genetic source of the other current E nassaui populations in New Zealand COI proved adept at distinguishing between different parasitoid populations and shows promise for similar studies

scholarly journals The Asian Chestnut Gall Wasp in Italy: Surveys on its Native and Exotic Parasitoids as Well as on Chestnut Cultivar Susceptibility

2019 ◽  
pp. 1-8
Author(s):  
M. Bracalini ◽  
F. Croci ◽  
A. Turchi ◽  
E. Giordani ◽  
R. Tiberi ◽  
...  
Keyword(s):  
Biological Control ◽  
Native Species ◽  
Biological Control Agent ◽  
Control Agent ◽  
The Other ◽  
Parasitoid Species ◽  
Gall Wasp ◽  
Native Parasitoids ◽  
Torymus Sinensis ◽  
Cultivar Susceptibility

In the context of biological control against the Asian chestnut gall wasp Dryocosmus kuriphilus Yasumatsu (Hymenoptera: Cynipidae) in Italy, the aim of this study was to survey its native parasitoids as well as the exotic Torymus sinensis Kamijo which had been introduced and released as a biological control agent. Furthermore, both parasitism and pest susceptibility of local chestnut trees were investigated. Surveys were carried out in 2014 in the Municipality of Sambuca Pistoiese (Pistoia), in a chestnut forest which included three cultivars: Nerattino, Carpinese, and Pastinese. On a total of 35 trees, selected among the three cultivars, 24 current-year shoots were randomly collected and examined in the laboratory. After the damage by the cynipid had been assessed, leaf samples were used for molecular analyses. Galls were also collected on the 35 selected trees both for dissection and to rear parasitoid specimens in the laboratory. The three cultivars were confirmed by genetic tests. The Carpinese cultivar resulted to be the most damaged, with highest percentage of attacked shoots (84.38%). Moreover it was also the cultivar with the lower parasitism rate (about 16%). From reared galls seven parasitoid species emerged, all belonging to the superfamily of Chalcidoidea. Exception made for the non-native T. sinensis, the other six were native species associated to oak gall wasps.  Native parasitoids were more scarcely present, while the exotic T. sinensis amounted for the 84.27% of all emerged parasitoids. Our results confirm how chestnut susceptibility to D. kuriphilus varies depending on the cultivar. Overall, the Nerattino cultivar resulted as the best among the three examined: it was subject to a less intense attack than the other cultivars, and the resulting smaller galls were more effectively exploited by parasitoids.

scholarly journals An Insight into the Role of Trissolcus mitsukurii as Biological Control Agent of Halyomorpha halys in Northeastern Italy

Insects ◽  
2020 ◽  
Vol 11 (5) ◽  
pp. 306 ◽  
Author(s):  
Davide Scaccini ◽  
Martina Falagiarda ◽  
Francesco Tortorici ◽  
Isabel Martinez-Sañudo ◽  
Paola Tirello ◽  
...  
Keyword(s):  
Biological Control ◽  
Biological Control Agent ◽  
Field Performance ◽  
Egg Parasitoid ◽  
Control Agent ◽  
The Other ◽  
Invasive Pest ◽  
Halyomorpha Halys ◽  
Wide Range ◽  
Northeastern Italy

Sustainable strategies such as classical or augmentative biological control are currently being evaluated for the long-term management of the alien invasive pest Halyomorpha halys (Stål) (Hemiptera: Pentatomidae). A three-year study carried out in northeastern Italy was performed to investigate the distribution and field performance of the H. halys egg parasitoid Trissolcus mitsukurii (Ashmead) (Hymenoptera: Scelionidae), in comparison with other parasitoid species. In the study area, adventive populations of T. mitsukurii were present since 2016, representing the earliest detection of this species in Europe. Trissolcus mitsukurii was the most abundant parasitoid and showed a higher “parasitoid impact” (i.e., number of parasitized eggs over the total number of field-collected eggs) compared to the other species, i.e., Anastatus bifasciatus (Geoffroy) (Hymenoptera: Eupelmidae), Trissolcus basalis (Wollaston) and Trissolcus kozlovi Rjachovskij (Hymenoptera: Scelionidae). The hyperparasitoid Acroclisoides sinicus (Huang and Liao) (Hymenoptera: Pteromalidae) was also recorded. Phylogenetic analysis of T. mitsukurii population distinguished two clades, one covering samples from Italy, Japan and China, the other from South Korea. The present study provides promising results for the biological control of a pest that is having a dramatic impact on a wide range of crops worldwide.

Notes on the Life History of Aleochara bilineata (Gyll.) (Coleoptera: Staphylinidae), and on Its Potential Value as a Control Agent for the Cabbage Maggot, Hylemya brassicae (Bouché) (Diptera: Anthomyiidae)

1962 ◽  
Vol 94 (4) ◽  
pp. 417-424 ◽  
Author(s):  
D. C. Read
Keyword(s):  
Prince Edward Island ◽  
Life Histories ◽  
Economic Value ◽  
Control Agent ◽  
Natural Control ◽  
Aleochara Bilineata ◽  
Potential Value ◽  
History Of ◽  
Hylemya Brassicae ◽  
Cabbage Maggot

The rove beetle, Aleochara bilineata Gyll., is known as a predator and a parasite of the cabbage maggot, Hylemya brassicae (Bouché), in most areas where the latter is an economic pest of cruciferous crops (Wishart, 1957; Wishart et al., 1956, 1957; Hughes, 1959). However, although A. bilineata is an extremely prolific insect (Colhoun, 1953; Wishart et al., 1956), in that the adult beetles destroy root maggot eggs and larvae and the parasite larvae destroy root magpt pupae, little has been reported concerning the economic value of the predator-parasite as a natural control agent. Preliminary studies in Prince Edward Island indicated that the predator destroved large numbers of root maggots but it did not appear to sive economic control (Read, 1960). Details of the biology of this predator have been presented by Colhoun (1953). This is a report of studies conducted to determine the potential value of A. bilineata as a natural control agent, and includes observations on the comparative life histories of host and parasite and notes on predation and parasitism in the greenhouse and on parasitism in the field.

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