Academic literature on the topic 'Epiphyas postvittana'

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Journal articles on the topic "Epiphyas postvittana"

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Thrimawithana, Amali H., Chen Wu, John T. Christeller, Robert M. Simpson, Elena Hilario, Leah K. Tooman, Doreen Begum, et al. "The Genomics and Population Genomics of the Light Brown Apple Moth, Epiphyas postvittana, an Invasive Tortricid Pest of Horticulture." Insects 13, no. 3 (March 7, 2022): 264. http://dx.doi.org/10.3390/insects13030264.

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The light brown apple moth, Epiphyas postvittana is an invasive, polyphagous pest of horticultural systems around the world. With origins in Australia, the pest has subsequently spread to New Zealand, Hawaii, California and Europe, where it has been found on over 500 plants, including many horticultural crops. We have produced a genomic resource, to understand the biological basis of the polyphagous and invasive nature of this and other lepidopteran pests. The assembled genome sequence encompassed 598 Mb and has an N50 of 301.17 kb, with a BUSCO completion rate of 97.9%. Epiphyas postvittana has 34% of its assembled genome represented as repetitive sequences, with the majority of the known elements made up of longer DNA transposable elements (14.07 Mb) and retrotransposons (LINE 17.83 Mb). Of the 31,389 predicted genes, 28,714 (91.5%) were assigned to 11,438 orthogroups across the Lepidoptera, of which 945 were specific to E. postvittana. Twenty gene families showed significant expansions in E. postvittana, including some likely to have a role in its pest status, such as cytochrome p450s, glutathione-S-transferases and UDP-glucuronosyltransferases. Finally, using a RAD-tag approach, we investigated the population genomics of this pest, looking at its likely patterns of invasion.
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Poulton, J., N. P. Markwick, V. K. Ward, and V. Young. "Host range testing of a nucleopolyhedrovirus of the lightbrown apple moth Epiphyas postvittana." New Zealand Plant Protection 60 (August 1, 2007): 26–32. http://dx.doi.org/10.30843/nzpp.2007.60.4629.

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Epiphyas postvittana nucleopolyhedrovirus (EppoNPV) has considerable potential as a biocontrol agent or biopesticide for control of lightbrown apple moth Epiphyas postvittana a pest of horticultural crops in New Zealand and a market access problem in export fruit To obtain regulatory approval for EppoNPV in either role EppoNPV must not negatively impact on nontarget organisms In this study eight nontarget insect species from one hymenopteran and five lepidopteran families were inoculated with EppoNPV at high titre (109 PIB/ml) Larval survival growth rates pupation and pupal weights were measured and larvae examined for EppoNPV Minor differences in one parameter were found in Helicoverpa armigera and Cydia pomonella but no viral infection Growth and survival were compromised in virusfed individuals in only one species Tyria jacobaeae The majority of T jacobaeae larvae had high microsporidal infections and EppoNPV polyhedra were found in only one larva suggesting a very low likelihood of field infectivity
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Lo, P. L., I. C. Newman, L. M. Cole, D. J. Rogers, and G. M. Burnip. "Control of Epiphyas postvittana (lightbrown apple moth Lepidoptera Tortricidae) on grapevines with tebufenozide." New Zealand Plant Protection 67 (January 8, 2014): 168–74. http://dx.doi.org/10.30843/nzpp.2014.67.5748.

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Feeding by leafroller larvae damages grape bunches and makes them susceptible to Botrytis cinerea disease Leafroller infestation of foliage and bunches and the incidence of botrytis was measured on vineyards in Gisborne Hawkes Bay and Marlborough over 2 years Fortyfour blocks received no leafrolleractive insecticides while 22 were sprayed once preflowering with the selective insect growth regulator tebufenozide Tebufenozide very effectively reduced infestations and gave seasonlong control On leaves untreated blocks averaged 14 leafrollers/search compared with 4 on sprayed blocks Comparative figures for fruit at harvest were 18/100 bunches and 3/100 respectively There was a trend for lower botrytis incidence in blocks where tebufenozide was used Over 99 of the leafrollers reared were Epiphyas postvittana Parasitism of larvae and pupae at 67 on leaves and 50 in bunches was similar in untreated and treated blocks Epiphyas postvittana in vineyards is easily managed using tebufenozide which did not compromise biological control
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Gatehouse, H. S., N. P. Markwick, J. Poulton, V. K. Ward, V. Young, S. Wilson, R. Dellow, et al. "Effects of EppoNPV infection on gene expression in Epiphyas postvittana larvae." New Zealand Plant Protection 60 (August 1, 2007): 33–41. http://dx.doi.org/10.30843/nzpp.2007.60.4630.

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The nucleopolyhedrovirus EppoNPV can control larvae of the leafroller Epiphyas postvittana in the field but has varying effects on New Zealands other leafroller pests An understanding of the infection process at the genetic/molecular level within the leafroller complex may lead to strategies to enhance the effectiveness of the virus Microarray technology was used to examine the effects of viral infection on gene expression levels in E postvittana gut tissue The results show that a 5 day infection with EppoNPV caused a significant downregulation of several E postvittana genes many of which were consistent with a response to injury or stress or with the triggering of apoptosis (such as components of the oxidative phosphorylation pathway) The majority of the expressed viral sequences detected are structural genes and genes associated with late gene expression These data provide a basis from which to compare EppoNPV infection in other less susceptible leafroller species
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Maguire, Terry, Penelope Harrison, Otto Hyink, James Kalmakoff, and Vernon K. Ward. "The inhibitors of apoptosis of Epiphyas postvittana nucleopolyhedrovirus." Journal of General Virology 81, no. 11 (November 1, 2000): 2803–11. http://dx.doi.org/10.1099/0022-1317-81-11-2803.

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In this study, four inhibitor of apoptosis genes (iaps) in the genome of Epiphyas postvittana nucleopolyhedrovirus (EppoMNPV) that are homologous to iap-1, iap-2, iap-3 and iap-4 genes of other baculoviruses have been identified. All four iap genes were sequenced and the iap-1 and iap-2 genes were shown to be functional inhibitors of apoptosis. The iap-1, iap-2 and iap-3 genes contain two baculovirus apoptosis inhibitor repeat motifs and a C3HC4 RING finger-like motif. The activity of the iap genes was tested by transient expression in Spodoptera frugiperda (Sf-21) cells treated with the apoptosis-inducing agents actinomycin D, cycloheximide, anisomycin, tumour necrosis factor-α and UV light. The iap-2 gene prevented apoptosis induced by all agents tested, indicating activity towards a conserved component(s) of multiple apoptotic pathways. However, the iap-2 gene was unable to function in the absence of a gene immediately upstream of iap-2 that has homology to the orf69 gene of Autographa californica MNPV. The use of a CMV promoter rescued the apoptosis inhibition activity of the iap-2 gene, indicating that the upstream orf69 homologue is associated with expression of iap-2. The iap-1 gene was able to delay the onset of apoptosis caused by all of the induction agents tested but, unlike iap-2, was unable to prevent the development of an apoptotic response upon prolonged exposure of cells to the apoptosis induction agents. No anti-apoptotic activity was observed for the iap-3 and iap-4 genes of EppoMNPV.
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Hyink, Otto, Ross A. Dellow, Michael J. Olsen, Katherine M. B. Caradoc-Davies, Kylie Drake, Elisabeth A. Herniou, Jennifer S. Cory, David R. O’Reilly, and Vernon K. Ward. "Whole genome analysis of the Epiphyas postvittana nucleopolyhedrovirus." Journal of General Virology 83, no. 4 (April 1, 2002): 957–71. http://dx.doi.org/10.1099/0022-1317-83-4-957.

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The nucleotide sequence of the Epiphyas postvittana nucleopolyhedrovirus (EppoMNPV) genome has been determined and analysed. The circular dsDNA genome contains 118584 bp, making it the smallest group I NPV sequenced to date. The genome has a G+C content of 40·7% and encodes 136 predicted open reading frames (ORFs), five homologous repeat regions and one unique repeat region. Of the genome, 92·9% encodes predicted ORFs and 2·2% is in repeat regions; the remaining 4·9% of the genome comprises nonrepeat intergenic regions. EppoMNPV encodes homologues of 126 Orgyia pseudotsugata MNPV (OpMNPV) ORFs and 120 Autographa californica MNPV ORFs, with average identities of 64·7 and 53·5%, respectively. Between the four sequenced group I NPVs, 117 ORFs are conserved, whereas 86 ORFs are conserved between all fully sequenced NPVs. A total of 62 ORFs is present in all baculoviruses sequenced to date, with EppoMNPV lacking a homologue of the superoxide dismutase (sod) gene, which has been found in all other fully sequenced baculoviruses. Whole genome phylogenetic analyses of the ten fully sequenced baculoviruses using the sequences of the 62 shared genes, gene content and gene order data sets confirmed that EppoMNPV clusters tightly with OpMNPV in the group I NPVs. The main variation between EppoMNPV and OpMNPV occurs where extra clusters of genes are present in OpMNPV, with sod occurring in one such cluster. EppoMNPV encodes one truncated baculovirus repeated ORF (bro) gene. The only repeated ORFs are the four iap genes. Eight, randomly distributed, unique ORFs were identified on EppoMNPV, none of which show any significant homology to genes in GenBank.
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Suckling, D. M., J. Khoo, and D. J. Rogers. "Dynamics of Azinphosmethyl Resistance in Epiphyas postvittana (Lepidoptera: Tortricidae)." Journal of Economic Entomology 82, no. 4 (August 1, 1989): 1003–10. http://dx.doi.org/10.1093/jee/82.4.1003.

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Markwick, Ngaire, Sally Graves, Fiona M. Fairbairn, Lisa C. Docherty, Joanne Poulton, and Vernon K. Ward. "Infectivity of Epiphyas postvittana nucleopolyhedrovirus for New Zealand leafrollers." Biological Control 25, no. 2 (October 2002): 207–14. http://dx.doi.org/10.1016/s1049-9644(02)00059-2.

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Brockerhoff, E. G., H. Jactel, A. C. Leckie, and D. M. Suckling. "Species composition and abundance of leafrollers in a Canterbury pine plantation." New Zealand Plant Protection 55 (August 1, 2002): 85–89. http://dx.doi.org/10.30843/nzpp.2002.55.3924.

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Several leafroller species (Tortricidae) are known to occasionally cause considerable defoliation in Pinus radiata plantation forests We conducted pheromone trapping for five indigenous species Ctenopseustis herana Ctenopseustis obliquana Planotortrix excessana Planotortrix notophaea and Planotortrix octo and the exotic Epiphyas postvittana to determine their abundance in 20 P radiata stands in Eyrewell Forest North Canterbury Trapping from December 2001 to February 2002 indicated that E postvittana and C obliquana were very abundant (with mean catches of 077 and 044 moths/trap/day respectively) while the other species were rarely caught Results for the native leafrollers differ considerably from those reported from other plantation forests and other habitats in Canterbury such as apple orchards where P octo and C herana are generally more common
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Paull, C. A., N. A. Schellhorn, and A. D. Austin. "Response to host density by the parasitoid Dolichogenidea tasmanica (Hymenoptera: Braconidae) and the influence of grapevine variety." Bulletin of Entomological Research 104, no. 1 (October 23, 2013): 79–87. http://dx.doi.org/10.1017/s0007485313000527.

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AbstractNatural enemies that respond to prey in a density-dependent manner may be able to quickly suppress pest populations before they reach economically damaging levels. Although it is primarily the combination of a natural enemy's functional response and a population numerical response that will influence the maximum number of pests attacked, other factors may influence a density-dependent response. We conducted large-scale field experiments, both artificially inoculating grapevines with larvae and using naturally occurring populations, to quantify and characterize the response of a parasitoid, Dolichogenidea tasmanica (Cameron) (Hymenoptera: Braconidae) to different densities of its host, the pest of grapevines, Epiphyas postvittana (Walker) (Lepidoptera: Tortricidae). We showed that the response of D. tasmanica to the density of E. postvittana was inversely density-dependent, and that the degree of parasitism was consistently and significantly higher in the grape variety Cabernet Sauvignon compared with Chardonnay. While the significant effect of variety on the degree of parasitism may provide an option for increasing the parasitism of E. postvittana by D. tasmanica, it also highlights how differences in host plant can influence trophic interactions.
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Dissertations / Theses on the topic "Epiphyas postvittana"

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Hyink, Otto, and n/a. "Genes that define the Nucleopolyhedrovirus of Epiphyas postvittana." University of Otago. Department of Microbiology & Immunology, 2005. http://adt.otago.ac.nz./public/adt-NZDU20060808.143556.

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The nucleopolyhedrovirus of Epiphyas postvittana (EppoMNPV) is being studied as a potential biological control agent for leafroller insects in New Zealand. The aims of this project were for the identification of putative genes that are unique to, variant in or missing from, the EppoMNPV genome and the subsequent analysis of at least one of these genes. The purpose of this was to identify and characterise genes potentially involved in the specific host range and virulence of EppoMNPV. This was achieved in two steps. Three genome regions lacking linearity between EppoMNPV and the closely related OpMNPV were previously identified and the targeted sequencing of these three regions was the first aim of this project. The collation of the entire genome sequence of EppoMNPV and comparison to the genome sequences of 22 other baculoviruses completed the identification of genes that are unique to, variant in or missing from EppoMNPV. The EppoMNPV genome was found to be 118,584 bp in size encoding 136 putative proteins. A total of 29 genes were found to be common to all baculoviruses, while the lepidopteran baculoviruses share a total of 62 genes. The genome of EppoMNPV encodes four putative unique genes, the sequence of which offers no clues as to possible function. EppoMNPV lacks a homologue of the superoxide dismutase gene common to all other lepidopteran baculoviruses The EppoMNPV IE2 homologue was identified as a 311 amino acid protein with a truncation in the N-terminal region. We hypothesised that this truncation would lead to a loss of function, which could contribute to the virulence and/or host range of EppoMNPV For this reason, the characterisation of the EppoMNPV IE2 was taken up as the second part of this project. A comparative study between the AcMNPV and EppoMNPV IE2 proteins identified no differences in function between these two proteins in Sf21 cells. The EppoMNPV IE2 was capable of trans-activating three constitutive promoters and localised to discrete nuclear bodies. Cell cycle arrest was not achieved by either IE2 protein in our cell culture system. The role of four sequence motifs common to all IE2 proteins was studied with the aid of mutational analysis. Mutation of arginine and acidic rich sequences of EppoMNPV IE2 showed only a slight decrease in trans-activation activity while mutation of the RING-finger and coiled-coil motifs reduced trans-activation to less than half that of wild type IE2. Mutation of the coiled-coil motif resulted in reduced amounts of protein localising to discrete nuclear regions. A series of deletion mutants from the N- and C-termini of EppoMNPV IE2 identified that the C-terminal 111 amino acids of EppoMNPV IE2 was sufficient for nuclear targeting. Deletion of the C-terminal 19 amino acids resulted in an IE2 mutant completely defective in both localisation and transactivation. This demonstrates that localisation to discrete nuclear regions is essential for EppoMNPV IE2 to act as a transactivator.
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Begum, Mahmuda. "Habitat manipulation to enhance biological control of lightbrown apple moth (Epiphyas postvittana) /." Connect to full text, 2004. http://hdl.handle.net/2123/690.

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Begum, Mahmuda. "Habitat manipulation to enhance biological control of light brown apple moth (Epiphyas Postvittana)." Thesis, The University of Sydney, 2004. http://hdl.handle.net/2123/690.

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Trichogramma carverae Oatman and Pinto is mass-released for biological control of the leafroller pest, light brown apple moth, Epiphyas postvittana (Walker) in Australian vineyards. Parasitoid performance can, however, be constrained by a lack of suitable adult food and no information is available on the effect of nectar on the parasitism and longevity of T. carverae. To address this, the effect of alyssum, Lobularia maritima (L.) flowers on E. postvittana parasitism was studied in a vineyard experiment with and without releases of T. carverae. Egg parasitoid activity was assessed with E. postvittana egg 'sentinel cards' and no parasitism was recorded in plots without T. carverae releases. Where T. carverae were released, there was no significant enhancement of parasitism by the presence of L. maritima flowers. Three hypotheses were subsequently tested to account for the lack of an effect: (i) T. carverae does not benefit from L. maritima nectar, (ii) T. carverae was feeding on nectar from other flowering plants (weeds) present in the vineyard, (iii) T. carverae was feeding on sugars from ripe grapes. A growth-cabinet experiment using potted L. maritima plants with and without flowers did not support hypothesis one. No parasitism was recorded after day two for T. carverae caged without flowers whilst parasitism occured until day eight in the presence of flowers. A laboratory experiment with common vineyard weeds (Trifolium repens, Hypochoeris radicata, Echium plantagineum) as well as L. maritima did not support hypothesis one but gave partial support to hypothesis two. Survival of T. carverae was enhanced to a small but statistically significant extent in vials with intact flowers of L. maritima, white clover (T. repens) and catsear (H. radicata) but not in vials with flowering shoots of these species from which flowers and flowering buds had been removed. Paterson's curse (E. plantagineum) flowers had no effect on T. carverae survival. In a laboratory study, punctured grapes significantly enhanced T. carverae survival compared with a treatment without grapes, supporting hypothesis three. Trichogramma carverae performance in the field experiment was probably also constrained by relatively cool and wet weather. Further work on the enhancement of T. carverae efficacy by L. maritima and other carbohydrate sources is warranted. Greenhouse and field experiments were conducted to investigate whether T. carverae benefit from different groundcover plant species. Ten T. carverae adults (<24h after eclosion) were caged with different groundcover species and a control with no plant materials. Epiphyas postvittana egg sentinel cards were used to measure parasitism and longevity was recorded visually. Survival and realised parasitism of T. carverae was significantly higher in L. maritima than in Brassica juncea, Coriandrum sativum, shoots of these species from which flowers had been removed and nil control treatments. A similar experiment with Fagopyrum esculentum (with- and without-flowers) and a control treatment showed that survival was significantly higher in intact F. esculentum than in without-flower and control treatments. There was no significant treatment effect on parasitism in the early stages of that experiment, though parasitism was recorded in the presence of F. esculentum flowers for 12 days, compared with 6 days in other treatments. Higher parasitism was observed in intact Borago officinalis than in the flowerless shoot, water only and no plant material control treatments in a third experiment. There was no significant treatment effect on parasitism. Fitted exponential curves for survival data differed significantly in curvature in the first, second and third experiments but the slope was a non-significant parameter in the second and third experiments. In a second series of laboratory experiments, one male and one female T. carverae were caged with groundcover species to investigate male and female longevity and daily fecundity. Both male and female longevity in F. esculentum and L. maritima treatments were significantly higher than on shoots of these species from which flowers had been removed, and than in the control treatments. Daily fecundity was significantly greater in the intact L. maritima treatment than in all other treatments. Fitted exponential curves for daily fecundity differed significantly in position and slope but not in curvature. There was no significant treatment effect on longevity or parasitism when a male and female were caged with intact B. juncea, B. officinalis or without-flower of these species, nor in the treatment with no plant materials. No parasitism was observed in a survey of naturally occurring egg parasitoids on two sites close to Orange and Canowindra in New South Wales, illustrating the importance of mass releases of T. carverae in biological control of E. postvittana. In an experiment on the Canowindra site, parasitism was significantly higher on day one and day two after T. carverae release when with-flower treatments were compared with without-flower treatments. Parasitism was significantly higher in the F. esculentum treatment than in C. sativum, L. maritima, vegetation without-flowers and control treatments on these dates. On day five, parasitism was higher in C. sativum than in all other treatments. There was no significant increase in parasitism in a second experiment conducted on the Orange site. Coriandrum sativum, F. esculentum and L. maritima appear to be suitable adult food sources for T. carverae and offer some scope for habitat manipulation in vineyards The adults of many parasitoid species require nectar for optimal fitness but very little is known about flower recognition. Flight cage experiments showed that the adults of T. carverae benefited from L. maritima bearing white flowers to a greater extent than was the case for light pink, dark pink or purple flowered cultivars, despite all cultivars producing nectar. Survival and realised parasitism on non-white flowers were no greater than when the parasitoids were caged on L. maritima shoots from which flowers had been removed. The possibility that differences between L. maritima cultivars were due to factors other than flower colour, such as nectar quality, was excluded by dyeing white L. maritima flowers by placing the roots of the plants in 5% food dye (blue or pink) solution. Survival of T. carverae was lower on dyed L. maritima flowers than on undyed white flowers. Mixing the same dyes with honey in a third experiment conducted in the dark showed that the low level of feeding on dyed flowers was unlikely to be the result of olfactory or gustatory cues. Flower colour appears, therefore, to be a critical factor in the choice of plants used to enhance biological control, and is likely to also be a factor in the role parasitoids play in structuring invertebrate communities. Provision of nectar producing plants to increase the effectiveness of biological control is one aspect of habitat manipulation, but care needs to be taken to avoid the use of plant species that may benefit pest species. Greenhouse experiments were conducted to investigate whether the adult E. postvittana and larvae benefit from nectar producing groundcover species. Newly emerged E. postvittana adults were caged with different groundcover species and a honey-based artificial adult diet. The longevity of male and female E. postvittana when caged with shoots of borage (B. officinalis) and buckwheat (F. esculentum) bearing flowers was as long as when fed a honey-based artificial diet. This effect was not evident when caged with shoots of these plants from which flowers had been removed. Longevity was significantly lower than in the artificial diet treatment when caged with coriander (C. sativum) or alyssum (L. maritima) irrespective of whether flowers were present or not. There was no significant treatment effect on the lifetime fecundity of E. postvittana. A second experiment with mustard (B. juncea) (with- and without-flowers), water only and honey-based artificial adult diet showed no significant treatment effects on the longevity of male and female E. postvittana or on the lifetime fecundity of E. postvittana. The anomalous lack of a difference between the water and honey-based diet treatments precludes making conclusions on the value of B. juncea for E. postvittana. Two greenhouse experiments were conducted to evaluate the effects of groundcover species on the larval development of E. postvittana. In the first experiment, larval mortality was significantly higher in C. sativum, and L. maritima than in B. juncea, B. officinalis and white clover (T. repens) a known host of E. postvittana. Coriandrum sativum and L. maritima extended the larval period. In B. juncea and B. officinalis, mortality did not differ from that in T. repens. In F. esculentum, larval mortality was significantly higher than in T. repens. A short larval period was observed on B. juncea, B. officinalis and F. esculentum. Fitted exponential curves for larval mortality differed significantly in curvature between plant treatments. Similarly, successful pupation was significantly lower in C. sativum, F. esculentum and L. maritima than in T. repens. The percentage of successful pupation in B. juncea and B. officinalis did not differ from F. esculentum and T. repens. Fitted exponential curves for pupation differed significantly in curvature. A similar trend was observed in a second experiment with potted plants. The overall results suggest that C. sativum and L. maritima denied benefit to E. postvittana adults and larvae, so could be planted as vineyard groundcover with minimal risk of exacerbating this pest. Overall results suggest that T. carverae require nutrients to reach their full reproductive potential and flowers provide such nutrients. Lobularia maritima and C. sativum may be considered 'selective food plants' for T. carverae whereas F. esculentum appears to be a 'non-selective food plant'; both T. carverae and E. postvittana benefited from it. Fruits such as grapes can be used as food resources in habitat manipulation and this merits further research. This result also suggests that within species flower colour is an important factor for flower selection in habitat manipulation.
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4

Begum, Mahmuda. "Habitat manipulation to enhance biological control of light brown apple moth (Epiphyas Postvittana)." University of Sydney. Rural Management, 2004. http://hdl.handle.net/2123/690.

Full text
Abstract:
Trichogramma carverae Oatman and Pinto is mass-released for biological control of the leafroller pest, light brown apple moth, Epiphyas postvittana (Walker) in Australian vineyards. Parasitoid performance can, however, be constrained by a lack of suitable adult food and no information is available on the effect of nectar on the parasitism and longevity of T. carverae. To address this, the effect of alyssum, Lobularia maritima (L.) flowers on E. postvittana parasitism was studied in a vineyard experiment with and without releases of T. carverae. Egg parasitoid activity was assessed with E. postvittana egg �sentinel cards� and no parasitism was recorded in plots without T. carverae releases. Where T. carverae were released, there was no significant enhancement of parasitism by the presence of L. maritima flowers. Three hypotheses were subsequently tested to account for the lack of an effect: (i) T. carverae does not benefit from L. maritima nectar, (ii) T. carverae was feeding on nectar from other flowering plants (weeds) present in the vineyard, (iii) T. carverae was feeding on sugars from ripe grapes. A growth-cabinet experiment using potted L. maritima plants with and without flowers did not support hypothesis one. No parasitism was recorded after day two for T. carverae caged without flowers whilst parasitism occured until day eight in the presence of flowers. A laboratory experiment with common vineyard weeds (Trifolium repens, Hypochoeris radicata, Echium plantagineum) as well as L. maritima did not support hypothesis one but gave partial support to hypothesis two. Survival of T. carverae was enhanced to a small but statistically significant extent in vials with intact flowers of L. maritima, white clover (T. repens) and catsear (H. radicata) but not in vials with flowering shoots of these species from which flowers and flowering buds had been removed. Paterson�s curse (E. plantagineum) flowers had no effect on T. carverae survival. In a laboratory study, punctured grapes significantly enhanced T. carverae survival compared with a treatment without grapes, supporting hypothesis three. Trichogramma carverae performance in the field experiment was probably also constrained by relatively cool and wet weather. Further work on the enhancement of T. carverae efficacy by L. maritima and other carbohydrate sources is warranted. Greenhouse and field experiments were conducted to investigate whether T. carverae benefit from different groundcover plant species. Ten T. carverae adults (<24h after eclosion) were caged with different groundcover species and a control with no plant materials. Epiphyas postvittana egg sentinel cards were used to measure parasitism and longevity was recorded visually. Survival and realised parasitism of T. carverae was significantly higher in L. maritima than in Brassica juncea, Coriandrum sativum, shoots of these species from which flowers had been removed and nil control treatments. A similar experiment with Fagopyrum esculentum (with- and without-flowers) and a control treatment showed that survival was significantly higher in intact F. esculentum than in without-flower and control treatments. There was no significant treatment effect on parasitism in the early stages of that experiment, though parasitism was recorded in the presence of F. esculentum flowers for 12 days, compared with 6 days in other treatments. Higher parasitism was observed in intact Borago officinalis than in the flowerless shoot, water only and no plant material control treatments in a third experiment. There was no significant treatment effect on parasitism. Fitted exponential curves for survival data differed significantly in curvature in the first, second and third experiments but the slope was a non-significant parameter in the second and third experiments. In a second series of laboratory experiments, one male and one female T. carverae were caged with groundcover species to investigate male and female longevity and daily fecundity. Both male and female longevity in F. esculentum and L. maritima treatments were significantly higher than on shoots of these species from which flowers had been removed, and than in the control treatments. Daily fecundity was significantly greater in the intact L. maritima treatment than in all other treatments. Fitted exponential curves for daily fecundity differed significantly in position and slope but not in curvature. There was no significant treatment effect on longevity or parasitism when a male and female were caged with intact B. juncea, B. officinalis or without-flower of these species, nor in the treatment with no plant materials. No parasitism was observed in a survey of naturally occurring egg parasitoids on two sites close to Orange and Canowindra in New South Wales, illustrating the importance of mass releases of T. carverae in biological control of E. postvittana. In an experiment on the Canowindra site, parasitism was significantly higher on day one and day two after T. carverae release when with-flower treatments were compared with without-flower treatments. Parasitism was significantly higher in the F. esculentum treatment than in C. sativum, L. maritima, vegetation without-flowers and control treatments on these dates. On day five, parasitism was higher in C. sativum than in all other treatments. There was no significant increase in parasitism in a second experiment conducted on the Orange site. Coriandrum sativum, F. esculentum and L. maritima appear to be suitable adult food sources for T. carverae and offer some scope for habitat manipulation in vineyards The adults of many parasitoid species require nectar for optimal fitness but very little is known about flower recognition. Flight cage experiments showed that the adults of T. carverae benefited from L. maritima bearing white flowers to a greater extent than was the case for light pink, dark pink or purple flowered cultivars, despite all cultivars producing nectar. Survival and realised parasitism on non-white flowers were no greater than when the parasitoids were caged on L. maritima shoots from which flowers had been removed. The possibility that differences between L. maritima cultivars were due to factors other than flower colour, such as nectar quality, was excluded by dyeing white L. maritima flowers by placing the roots of the plants in 5% food dye (blue or pink) solution. Survival of T. carverae was lower on dyed L. maritima flowers than on undyed white flowers. Mixing the same dyes with honey in a third experiment conducted in the dark showed that the low level of feeding on dyed flowers was unlikely to be the result of olfactory or gustatory cues. Flower colour appears, therefore, to be a critical factor in the choice of plants used to enhance biological control, and is likely to also be a factor in the role parasitoids play in structuring invertebrate communities. Provision of nectar producing plants to increase the effectiveness of biological control is one aspect of habitat manipulation, but care needs to be taken to avoid the use of plant species that may benefit pest species. Greenhouse experiments were conducted to investigate whether the adult E. postvittana and larvae benefit from nectar producing groundcover species. Newly emerged E. postvittana adults were caged with different groundcover species and a honey-based artificial adult diet. The longevity of male and female E. postvittana when caged with shoots of borage (B. officinalis) and buckwheat (F. esculentum) bearing flowers was as long as when fed a honey-based artificial diet. This effect was not evident when caged with shoots of these plants from which flowers had been removed. Longevity was significantly lower than in the artificial diet treatment when caged with coriander (C. sativum) or alyssum (L. maritima) irrespective of whether flowers were present or not. There was no significant treatment effect on the lifetime fecundity of E. postvittana. A second experiment with mustard (B. juncea) (with- and without-flowers), water only and honey-based artificial adult diet showed no significant treatment effects on the longevity of male and female E. postvittana or on the lifetime fecundity of E. postvittana. The anomalous lack of a difference between the water and honey-based diet treatments precludes making conclusions on the value of B. juncea for E. postvittana. Two greenhouse experiments were conducted to evaluate the effects of groundcover species on the larval development of E. postvittana. In the first experiment, larval mortality was significantly higher in C. sativum, and L. maritima than in B. juncea, B. officinalis and white clover (T. repens) a known host of E. postvittana. Coriandrum sativum and L. maritima extended the larval period. In B. juncea and B. officinalis, mortality did not differ from that in T. repens. In F. esculentum, larval mortality was significantly higher than in T. repens. A short larval period was observed on B. juncea, B. officinalis and F. esculentum. Fitted exponential curves for larval mortality differed significantly in curvature between plant treatments. Similarly, successful pupation was significantly lower in C. sativum, F. esculentum and L. maritima than in T. repens. The percentage of successful pupation in B. juncea and B. officinalis did not differ from F. esculentum and T. repens. Fitted exponential curves for pupation differed significantly in curvature. A similar trend was observed in a second experiment with potted plants. The overall results suggest that C. sativum and L. maritima denied benefit to E. postvittana adults and larvae, so could be planted as vineyard groundcover with minimal risk of exacerbating this pest. Overall results suggest that T. carverae require nutrients to reach their full reproductive potential and flowers provide such nutrients. Lobularia maritima and C. sativum may be considered �selective food plants� for T. carverae whereas F. esculentum appears to be a �non-selective food plant�; both T. carverae and E. postvittana benefited from it. Fruits such as grapes can be used as food resources in habitat manipulation and this merits further research. This result also suggests that within species flower colour is an important factor for flower selection in habitat manipulation.
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5

Dridi, Kaouther. "Evolution moléculaire et structurale des membres de la famille génique des lipases pancréatique." Thesis, Aix-Marseille, 2013. http://www.theses.fr/2013AIXM4019.

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Helicoverpa armigera et Epiphyas postvittana, deux insectes nuisibles pour l'agriculture, ont développé des résistances contre la plupart des insecticides connus. Les lipides étant les constituants majeurs de leur régime alimentaire, les fonctions digestives des lipases deviennent alors une cible privilégiée pour l'élaboration de nouveaux insecticides. L'identification récente de gènes codant pour l'expression de protéines potentiellement actives et inactives apparentées aux lipases pancréatiques (PLRP) dans le tractus digestif de ces deux insectes et dont le niveau de transcription varie en fonction de leur régime alimentaire a ouvert un nouveau champ de recherche. Dans le but de contribuer à cette thématique, nous avons construit cinq lipases recombinantes d'E. postvittana (EpLIPs) et testé leur expression dans trois systèmes différents (E.coli, P.pastoris et bacculovirus). Le tractus digestif de Helicoverpa armigera a été étudié par chromatographie échangeuse d'ions et les différentes protéines séparées ont été testées en spectrométrie de masse et sur pHstat pour l'activité. Les résultats obtenus ont permis de mettre en évidence, pour la première fois, la présence à la fois d'une lipase active et d'une lipase inactive dans le tractus digestif d'un lépidoptère. Par ailleurs, la caractérisation biochimique d'un mutant GPLRP2-Δ β9 a été faite dans le but de comprendre l'effet de cette boucle, partiellement délétée dans les lipases d'insectes, dans la spécificité du substrat. Nous avons pu montrer que cette boucle β9 est essentielle pour la stabilisation de la chaîne acyle durant la réaction de lipolyse
Helicoverpa armigera and Epiphyas postvittana, two major pest crops, have developed resistances against most of the known insecticides. Lipids being a major component of insect diet, digestive function of lipase are a target of choice for new insecticide design. The recent identification of active and inactive pancreatic lipase related protein (PLRP) genes in those two insects midgut, with a level of transcription depending on the diet, opened the field of insect digestive lipase study. In order to contribute to this thematic, we built five recombinants lipase from E. postvittana (EpLIPs) and tested their expression in three different systems (E.coli, P.pastoris and bacculovirus). Protein structure prediction of EpLIPs allowed us to develop some functional hypothesis enlightening the role of inactive lipase in lipid transport. H. armigera midgut contents were separated through a one step purification chromatography and the different fractions were tested for activity and mass spectrometry. The results obtained gave the first evidence of the presence of both an active and an inactive lipase in lepidopteran midgut. In addition to this work, a biochemical characterisation of a β9 GPLRP2 mutant was carried out to understand the effect of this loop, partially deleted in insect lipase, in substrate specificity. The result shows that β9 loop is essential for stabilizing the leaving acyl chain during the lipolysis reaction
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6

Begum, Doreen Shabana. "Identification and analysis of olfactory receptors from the light brown apple moth, (Epiphyas postvittana)." Thesis, University of Auckland, 2011. http://hdl.handle.net/2292/6560.

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Olfaction or the sense of smell is one of the major modes of communication in moths, playing an integral part in the moths' ability to locate mates for reproduction, location of host plants and oviposition sites. Some of the key players of the moths' olfactory system include general odorant binding proteins and olfactory receptors (OR). The aim of this study was to investigate the molecular mechanisms of olfaction in the light brown apple moth, Epiphyas postvittana. These data will contribute to the development of new pest control strategies for the moth and the development of olfactory biosensors. E. postvittana OR1 (EpOR1) is closely related to the pheromone receptors (PR) of other lepidopterans, but is expressed at similar levels in male and female antennae. Functional analysis in Sf9 cells demonstrated that it binds important plant semiochemicals but not pheromone. EpOR1 is sensitive to methyl salicylate, recognising this odorant to a low concentration of 10-15M. EpOR1 also binds a range of terpenes which showed Hill slopes ranging from 0.33--3.2. E. postvittana GOBP2 (EpGOBP2) was expressed in bacteria and purified to homogeneity. Binding analysis revealed it was able to bind octanol, α-farnesene, methyl salicylate, nerol, eucalyptol, geranyl acetate and pentyl acetate, but not citral, geranial and geraniol. EpGOBP2 was able to replace DMSO as a solubilising agent for methyl salicylate and geranyl acetate in a functional assay of EpOR1 in Sf9 cells. The sensitivity of EpOR1 for these two ligands in vitro was enhanced in the presence of EpGOBP2 [EC50 of EpOR1 with methyl salicylate in DMSO is (1.8 ± 0.9) x 10-12M and EC50 of EpOR1 with methyl salicylate in the presence on EpGOBP2 is (1.19 ± 0.82) x 10-13M], suggesting that EpGOBP2 might not only be acting as a solubilising agent but also as an activated ligand. Forty-nine new ORs were identified by deep transcriptomic sequencing and light coverage genome scanning of E. postvittana bringing the total number of ORs identified to date for this species to 52. Phylogenetic analysis revealed that associated with lineage, 24 ORs had one-to-one orthologs with ORs from the silkworm, Bombyx mori, while 28 E. postvittana ORs were expansions compared with B. mori. EpOR1 and EpOR6 are the most closely related E. postvittana ORs to other moth pheromone receptors. However, EpOR1 binds plant semiochemicals and not pheromone components and EpOR6 remains to be functionally annotated. Tissue expression analysis of 26 of the ORs revealed that three (EpOR30, 33 and 34) are more than 600 times more highly expressed in male than female antennae, making them good candidates for being the pheromone receptors of E. postvittana. Functional analysis of these ORs will reveal their role(s) in E. postvittana olfaction.
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7

Paull, Cate. "The ecology of key arthropods for the management of Epiphyas postvittana (Walker) (Lepidoptera: Tortricidae) in Coonawarra vineyards, South Australia." 2008. http://hdl.handle.net/2440/47971.

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There is currently little knowledge about the dynamics of invertebrates in Australian viticultural ecosystems. This study was conducted in Coonawarra vineyards over three seasons (years) and has focused on identifying natural enemies, their seasonal phenology, multiple species interactions, and potential for the suppression of the pest lepidopteran Epiphyas postvittana (Tortricidae). The work presented in this thesis shows that endemic natural enemies have far greater potential to control E. postvittana than has been realised. An initial survey identified a diverse and abundant range of potential natural enemies. Of these, the species most likely to attack E. postvittana include a predatory mite Anystis baccarum and a number of hymenopteran parasitoids. The most abundant parasitoid in the vineyards was a braconid, Dolichogenidea tasmanica. Understanding the characteristic behaviour of parasitoids in response to host density can help to gauge their potential for pest suppression. The results of large-scale field experiments showed that the response of D. tasmanica to the density of E. postvittana was inversely density-dependent, and that parasitism was consistently higher in Cabernet Sauvignon compared with Chardonnay varieties. Despite the fact that interactions among multiple species of natural enemies can increase or decrease pest suppression, particularly when they share a common prey/host, few multispecies interactions have been investigated. Laboratory studies identified a novel interaction between the predatory mite A. baccarum an abundant predator in the vine canopy, the parasitoid D. tasmanica and host E. postvittana larvae. Although A. baccarum readily ate E. postvittana eggs and free roaming larvae, they could not access larva in their silk leaf rolls. However, the addition of D. tasmanica significantly increased predation of E. postvittana larvae, by altering the behaviour of host larvae and increasing their vulnerability to the mite. Experiments conducted at a landscape level in the Coonawarra showed that D. tasmanica was also present in habitat other than vineyards including native vegetation. However, it was not present in highly disturbed habitats. Although the exact mechanism for this remains unknown, results indicate that viticultural practices and resources in the surrounding landscape can influence the presence of parasitoids. Together, the findings presented in this thesis make a significant contribution towards developing sustainable pest management in Australian viticulture.
http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1320930
Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Sciences, 2008
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8

Paull, Cate. "The ecology of key arthropods for the management of Epiphyas postvittana (Walker) (Lepidoptera: Tortricidae) in Coonawarra vineyards, South Australia." Thesis, 2008. http://hdl.handle.net/2440/47971.

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Abstract:
There is currently little knowledge about the dynamics of invertebrates in Australian viticultural ecosystems. This study was conducted in Coonawarra vineyards over three seasons (years) and has focused on identifying natural enemies, their seasonal phenology, multiple species interactions, and potential for the suppression of the pest lepidopteran Epiphyas postvittana (Tortricidae). The work presented in this thesis shows that endemic natural enemies have far greater potential to control E. postvittana than has been realised. An initial survey identified a diverse and abundant range of potential natural enemies. Of these, the species most likely to attack E. postvittana include a predatory mite Anystis baccarum and a number of hymenopteran parasitoids. The most abundant parasitoid in the vineyards was a braconid, Dolichogenidea tasmanica. Understanding the characteristic behaviour of parasitoids in response to host density can help to gauge their potential for pest suppression. The results of large-scale field experiments showed that the response of D. tasmanica to the density of E. postvittana was inversely density-dependent, and that parasitism was consistently higher in Cabernet Sauvignon compared with Chardonnay varieties. Despite the fact that interactions among multiple species of natural enemies can increase or decrease pest suppression, particularly when they share a common prey/host, few multispecies interactions have been investigated. Laboratory studies identified a novel interaction between the predatory mite A. baccarum an abundant predator in the vine canopy, the parasitoid D. tasmanica and host E. postvittana larvae. Although A. baccarum readily ate E. postvittana eggs and free roaming larvae, they could not access larva in their silk leaf rolls. However, the addition of D. tasmanica significantly increased predation of E. postvittana larvae, by altering the behaviour of host larvae and increasing their vulnerability to the mite. Experiments conducted at a landscape level in the Coonawarra showed that D. tasmanica was also present in habitat other than vineyards including native vegetation. However, it was not present in highly disturbed habitats. Although the exact mechanism for this remains unknown, results indicate that viticultural practices and resources in the surrounding landscape can influence the presence of parasitoids. Together, the findings presented in this thesis make a significant contribution towards developing sustainable pest management in Australian viticulture.
Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Sciences, 2008
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9

Retallack, Mary Joy. "The potential functional diversity offered by native insectary plants to support populations of predatory arthropods in Australian vineyards." Thesis, 2019. http://hdl.handle.net/2440/120158.

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This study investigated the role that native insectary plants can play in promoting predatory arthropods, and thereby to enhance biological control of vineyard pests in Australia. I also set out to clarify if light brown apple moth (LBAM), Epiphyas postvittana (Walker) (Lepidoptera: Tortricidae) is the main lepidopteran pest of grapevines in vineyards. Economic damage is caused to grapevines each season by pest species and E. postvittana is considered the dominant insect pest in Australian vineyards. However, recent observations suggested that species of tortricids other than E. postvittana may also act as pests. I investigated which tortricids are present in local vineyards, and whether the diversity of tortricids varied significantly among vineyards. I used molecular methods to determine the species of tortricids present in the canopies of grapevines over two growing seasons. This study confirms that E. postvittana is the most common tortricid pest in South Australian vineyards. Acropolitis rudisana (Walker) (Lepidoptera: Tortricidae), lucerne leafroller, Merophyas divulsana (Walker) (Lepidoptera: Tortricidae), and cotton tipworm, Crocidosema plebejana (Zeller) (Lepidoptera: Tortricidae) are also present in grapevine canopies but have not been reported previously. I also sought to determine if three native candidate native insectary plants, Christmas bush, Bursaria spinosa (Cav.) (Apiales: Pittosporaceae), prickly tea-tree, Leptospermum continentale (Forst. and G.Forst) (Myrtales: Myrtaceae), and wallaby grasses, Rytidosperma ssp. (DC) (Poales: Poaceae) have the capacity to support populations of predatory arthropods throughout the year, and if they may also provide habitat for economically damaging vineyards pests. Surveys were conducted in Adelaide Hills, Barossa Valley and Eden Valley vineyards over a 12-month period. The data were analysed to answer the following questions. What is the biological and functional diversity associated with each plant species? What are the features of an effective, functional native insectary plant assemblage for use in and around vineyards? What is the level of similarity and dissimilarity between the arthropod faunas of each plant species? Each plant species was found to support diverse predator species, which should attack a range of other arthropod pests across their life stages. It may also be possible to increase the functional diversity of predatory arthropods by more than three times when B. spinosa or L. continentale is incorporated into a landscape containing vineyards. Rytidosperma ssp. provides valuable complementary habitat for predatory species other than those commonly found in association with the woody perennials. When Rytidosperma ssp. are included in a viii plant assemblage with each woody plant species, this could result in an average net increase in predator morphospecies richness of at least 27%. Species distribution modelling was used to examine the potential range of each plant species under different climatic conditions. The insectary plants are naturally adapted to all of the major wine growing regions within Australia. Vineyard managers are encouraged to explore the use of B. spinosa, L. continentale and Rytidosperma ssp. as insectary plants in their vineyards. This information could help wine grape growers to manage pests like LBAM, save time and money by producing grapes with lower pest incidence, while enhancing the biodiversity of their vineyards.
Thesis (Ph.D.) -- University of Adelaide, School of Agriculture, Food & Wine, 2019
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Conference papers on the topic "Epiphyas postvittana"

1

Yazdani, Maryam. "Dolichogenidea tasmanica(Hymenoptera: Braconidae) as apotential biocontrol agent of light brown apple moth (LBAM), Epiphyas postvittana(Lepidoptera: Tortricidae)." In 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.111777.

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