Your search keyword '"Redak, Richard A"' showing total 6 results

1. Efficient CRISPR/Cas9-mediated genome modification of the glassy-winged sharpshooter Homalodisca vitripennis (Germar).

Author

de Souza Pacheco, Inaiara, Doss, Anna-Louise A., Vindiola, Beatriz G., Brown, Dylan J., Ettinger, Cassandra L., Stajich, Jason E., Redak, Richard A., Walling, Linda L., and Atkinson, Peter W.

Subjects

GENETIC techniques, GENETIC models, CRISPRS, GENOMES, INSECT pests, EYE color, MUTAGENESIS

Abstract

CRISPR/Cas9 technology enables the extension of genetic techniques into insect pests previously refractory to genetic analysis. We report the establishment of genetic analysis in the glassy-winged sharpshooter (GWSS), Homalodisca vitripennis, which is a significant leafhopper pest of agriculture in California. We use a novel and simple approach of embryo microinjection in situ on the host plant and obtain high frequency mutagenesis, in excess of 55%, of the cinnabar and white eye pigmentation loci. Through pair matings, we obtained 100% transmission of w and cn alleles to the G3 generation and also established that both genes are located on autosomes. Our analysis of wing phenotype revealed an unexpected discovery of the participation of pteridine pigments in wing and wing-vein coloration, indicating a role for these pigments beyond eye color. We used amplicon sequencing to examine the extent of off-target mutagenesis in adults arising from injected eggs, which was found to be negligible or non-existent. Our data show that GWSS can be easily developed as a genetic model system for the Hemiptera, enabling the study of traits that contribute to the success of invasive pests and vectors of plant pathogens. This will facilitate novel genetic control strategies. [ABSTRACT FROM AUTHOR]

Published

2022

2. Climate and seasonal effects on phenology and biological control of giant whitefly Aleurodicus dugesii (Hemiptera: Aleyrodidae) with parasitoids in southern California, USA.

Author

Schoeller, Erich N. and Redak, Richard A.

Abstract

The invasive giant whitefly Aleurodicus dugesii Cockerell (Hemiptera: Aleyrodidae), a pest of many important crops and ornamentals, has established throughout southern California, USA. The parasitoids Encarsia noyesi Hayat (Hymenoptera: Aphelinidae), Idioporous affinis LaSalle and Polaszek (Hymenoptera: Pteromalidae), and Entedononecremnus krauteri Zolnerowich and Rose (Hymenoptera: Eulophidae) were introduced as part of a classical biological control program against giant whitefly. Populations of giant whitefly can still reach high numbers, however, despite biological control efforts. Seasonal variation in giant whitefly population densities and parasitoids' species-specific parasitism rates across three climates types in southern California were examined by repeated censuses during 2015–2016 in order to identify potential underlying factors influencing giant whitefly population dynamics. Giant whitefly population densities did not vary between southern California climate types, but varied seasonally, with the highest observed population densities in the spring. Parasitism rates of all three parasitoids also varied seasonally, with total parasitism reaching a peak in late summer and declining until the start of spring. Only I. affinis parasitism rates varied between climate types. Parasitism rates of I. affinis were the highest of the three parasitoid species observed, followed by E. noyesi and E. krauteri. Potential explanations for these findings and their impact on giant whitefly control are discussed. [ABSTRACT FROM AUTHOR]

Published

2020

3. Trapping for Sirex Woodwasp in Brazilian Pine Plantations: Lure, Trap Type and Height of Deployment.

Author

Batista, Elder S. P., Redak, Richard A., Busoli, Antonio Carlos, Camargo, Mariane B., and Allison, Jeremy Dean

Subjects

*SIRICIDAE, *INTRODUCED species, *WOOD borers, *SIREX noctilio, *PEST control, *FOREST insect control

Abstract

The Sirex woodwasp, Sirex noctilio (Hymenoptera: Siricidae) is considered a secondary pest of pine in its native range but has caused considerable economic losses in pine plantation forests in the southern hemisphere. In Brazil, trap trees are the primary tool used for early detection purposes but these are costly, labor-intensive to install and require stressing trees by herbicide application. Flight intercept traps baited with synthetic blends of host volatiles are an attractive alternative but have performed poorly in some settings. This study was carried out to look for alternatives to trap trees for use in Brazilian pine plantations for early detection of S. noctilio. Four field experiments were conducted in two consecutive flight seasons (2015-16 and 2016-17), in planted loblolly pine (Pinus taeda) stands, to compare captures among flight intercept traps baited with different lures, deployed at different heights and among different intercept trap designs. Two experiments compared different host volatile lures and a significant treatment effect was observed in one. No effect of trap design or height was observed. [ABSTRACT FROM AUTHOR]

Published

2018

4. Probable Site of Sex Pheromone Emission in Female Vine and Obscure Mealybugs (Hemiptera: Pseudococcidae).

Author

Waterworth, Rebeccah, Redak, Richard, and Millar, Jocelyn

Subjects

*INSECT pheromones, *PSEUDOCOCCUS, *PLANOCOCCUS, *BIOLOGICAL assay, *SCANNING electron microscopy, *INSECT behavior

Abstract

In laboratory bioassays, male Pseudococcus viburni (Signoret) and Planococcus ficus Signoret were attracted to body sections of females that included the metathoracic legs. Extracts of the metathoracic legs of female P. ficus were much more attractive to males than extracts of the other legs, and males exhibited copulatory behavior towards these extracts. Scanning electron microscopy showed the presence of translucent pores on the coxae of mature but not immature females. Collectively, the data suggest that the female-produced sex pheromones of these species are released from the metathoracic legs, probably from the translucent pores. [ABSTRACT FROM AUTHOR]

Published

2012

5. Arthropods and Multispecies Habitat Conservation Plans: Are We Missing Something?

Author

Redak, Richard A.

Subjects

ARTHROPODA, HABITAT conservation, NATURE conservation, ARACHNIDA, RARE animals, ENVIRONMENTAL management

Abstract

Arthropods constitute well over one-half of the species of higher life on the planet and are the dominant terrestrial life form on the planet. Unfortunately, very little is known about most arthropod species. There are an estimated 163,487 species of insects in North America, of which only 66% are taxonomically known. Similarly, there are an estimated 35,514 species of North American arachnids, of which only 9316 are described; over 73% have yet to be discovered and described. Without the basic taxonomic and life history knowledge for most of the terrestrial species (i.e., arthropods) of North American ecosystems, land managers are faced with the challenge of developing, selecting, and managing biotic reserves and habitat conservation plans for which they know very little about the majority of organisms found within such reserves or covered by such plans. With respect to arthropods, this challenge includes taking into account poorly described species being used as political tools to stop development (as opposed to actually protecting a truly endangered species), thus confounding the habitat conservation planning process and ensuring that “surprises” in the form of new listings will occur within any multispecies habitat plan. Finally, using various scenarios and assumptions, estimates of the true number of endangered insects and arachnids are provided to illustrate the fact that the suspected number of threatened, endangered, and extinct species is probably low by at least an order of magnitude. [ABSTRACT FROM AUTHOR]

Published

2000

6. Foraging ecology of the California gnatcatcher deduced from fecal samples.

Author

Burger, Jutta C., Patten, Michael A., Rotenberry, John T., and Redak, Richard A.

Abstract

The California gnatcatcher is a threatened species essentially restricted to coastal sage scrub habitat in southern California. Its distribution and population dynamics have been studied intensely, but little is known about its diet. We identified arthropod fragments in 33 fecal samples of the California gnatcatcher to gain insight into its foraging ecology and diet. Fecal samples were collected from adult males, adult females, fledglings, and nestlings. Leaf- and planthoppers (Homoptera) and spiders (Araneae) predominated numerically in samples. Spider prey was most diverse, with eight families represented. True bugs (Hemiptera) and wasps, bees, and ants (Hymenoptera) were only minor components of the gnatcatcher diet. Gnatcatcher adults selected prey to feed their young that was larger than expected given the distribution of arthropod size available in their environment, and chicks were provisioned with larger prey items and significantly more grasshoppers and crickets (Orthoptera) and spiders than adults consumed themselves. Both adults and young consumed more sessile than active prey. Further studies are needed to determine whether arthropods sampled in coastal sage scrub that are common in fecal samples are good indicators of California gnatcatcher habitat. [ABSTRACT FROM AUTHOR]

Published

1999