Lisa Neven scite author profile

Key Words quarantine pests, phytosanitary measures, probit 9 alternatives, generic treatments, systems approach ■ Abstract With world trade in agricultural commodities increasing, the introduction of exotic insects into new areas where they become pests will increase. The development and application of quarantine treatments or other mitigation approaches to prevent pest introduction in traded commodities raise many research and regulatory issues. The probit 9 standard for quarantine treatment efficacy has given way to riskbased alternatives. Varietal testing may have merit for some treatments or commodities but not for others. Development of generic treatments to control broad groups of insects or insects in all commodities can expedite new trade in agricultural products. Area-wide pest management programs lower pest levels before harvest and improve the quarantine security provided by any postharvest treatments. Systems approaches capitalize on cumulative pest mortality from multiple control components to achieve quarantine security in an exported commodity. Certain quarantine treatment technologies such as irradiation are not universally accepted, which is slowing their adoption. Standardized phytosanitary measures and research protocols are needed to improve the flow of information when countries propose to trade in a regulated commodity.

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Neo-sex chromosomes and adaptive potential in tortricid pests

Nguyen

Sýkorová

Šíchová

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

114

133

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Changes in genome architecture often have a significant effect on ecological specialization and speciation. This effect may be further enhanced by involvement of sex chromosomes playing a disproportionate role in reproductive isolation. We have physically mapped the Z chromosome of the major pome fruit pest, the codling moth, Cydia pomonella (Tortricidae), and show that it arose by fusion between an ancestral Z chromosome and an autosome corresponding to chromosome 15 in the Bombyx mori reference genome. We further show that the fusion originated in a common ancestor of the main tortricid subfamilies, Olethreutinae and Tortricinae, comprising almost 700 pest species worldwide. The Z-autosome fusion brought two major genes conferring insecticide resistance and clusters of genes involved in detoxification of plant secondary metabolites under sex-linked inheritance. We suggest that this fusion significantly increased the adaptive potential of tortricid moths and thus contributed to their radiation and subsequent speciation.adaptive evolution | leaf-rollers | performance genes | sex chromosome-autosome fusion | sex-linkage

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Characterization of a spinach gene responsive to low temperature and water stress

et al. 1993

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The characterization of a cDNA for an 85 kDa spinach protein, CAP85 (cold acclimation protein) that is responsive to cold acclimation and water stress is described. Both transcript and protein levels are increased during cold acclimation and water stress. A novel characteristic of CAP85 is the presence of an 11 amino acid, lysine-rich repeat, common to Group 2 LEAs (late embryogenesis abundant proteins), which is included within a larger repeating motif present in 11 copies. Two other motifs of 8 and 16 residues are also found in three and four copies, respectively. CAP85 like other dehydrins and cold-regulated polypeptides remains soluble upon boiling. Protein blot analyses indicate that CAP85 protein is expressed in all aerial tissues as well as in roots. RNA blots show the presence of mRNA for the 85 kDa protein in leaf, petiole, and root tissue. Cell fractionation studies suggest that CAP85 is predominantly found in the cytosol.

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Lisa Neven

Physiological responses of insects to heat

Current Trends in Quarantine Entomology

Neo-sex chromosomes and adaptive potential in tortricid pests

Characterization of a spinach gene responsive to low temperature and water stress

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