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The Global ETD Search service is a free service for researchers
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Showing 101 to 110 of 267 (0.115 seconds)Spelling suggestions: "subject:"insect investigations"" "subject:"lnsect investigations""
| 101 |
Chemical Control of the Sweetpotato Whitefly in CottonWatson, Theo F. 03 1900 (has links)
Both registered and experimental insecticides were evaluated for effectiveness against the sweetpotato whitefly in several field experiments at Yuma, Arizona. Best results were obtained with combinations of two insecticides, particularly a pyrethriod and an organophosphate, rather than with individual materials. Results of these experiments indicate that unusually heavy infestations can be currently controlled even though sustained use of these insecticides would probably lead quickly to the development of resistance.
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| 102 |
Sweetpotato Whitefly (Bemisia tabaci Gennadius) Control: Field Studies with Insecticides on Cotton in the Imperial Valley, CAChu, C. C., Henneberry, T. J., Akey, D. H. 03 1900 (has links)
Insecticides and insecticide mixtures were evaluated for sweetpotato whitefly (Bemisia tabaci Gennadius) control on cotton in the Imperial Valley, CA in 1992. Seasonal average number of large immatures was 1.6/cm² leaf disk from plots treated with a mixture of Danitol and Orthene as compared to 4. 5/cm² on leaf disks from untreated control plots. Lint yield was 1232 lbs/ac compared to other treatments which ranged from 551 to 976 lbs /ac.
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| 103 |
Sweetpotato Whitefly Control: Enhancement of the Repellency of OilsButler, George D. Jr., Henneberry, T. J. 03 1900 (has links)
The repellency to adult SPW of 1% Saf -T -Side and 1% Natur'1 Oil was enhanced by the addition of Butracide + Pounce, Butracide + Pyrellin, or a pyrethrum + diatomaceous earth. Several materials containing pyrethrum appeared to improve the repellency of 2% Saf -T -Side. The number of eggs laid was correlated with the number of adults observed on the plants, thus emphasizing the importance of the repellency of SPW adults. Three oils at 1% concentration gave a high mortality of SPW nymphs. Several materials killed nymphs when applied with a fine spray, simulating the deposit of a mist blower.
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| 104 |
Sweetpotato Whitely Control on Cotton by Treating Only the Field EdgesEl-Lissy, Osama, Antilla, Larry, Butler, George D. Jr. 03 1900 (has links)
The edges of one of each of five pairs of long staple cotton fields were treated for sweetpotato whiteflies. Treated fields had 61% fewer eggs and 53% fewer nymphs than untreated fields. Adult populations were reduced 64% in the treated fields at the edges. In the center of treated fields adult populations remained low and unchanged but in untreated fields there was a 70% increase. According to minicard tests, cotton from treated fields was not sticky but cotton from untreated fields was sticky. Thus, populations of whiteflies and their damage can be significantly reduced by treating only the periphery of cotton fields at the onset of infestation. The treating of only 12 to 15% of the acreage greatly reduces costs and preserves the untreated center for beneficial insects.
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| 105 |
The Effect of Water Stress on Two Short-Season Cultivars of Cotton, Gossypium hisutum L., and the Sweetpotato Whitefly, Bemisia tabaci GennFlint, Hollis M., Wilson, F. D., Hendrix, D., Leggett, J., Naranjo, J., Henneberry, T. J., Radin, J. W. 03 1900 (has links)
Deltapine 50 (DP -50) and Stoneville 506 (ST -506), short season cultivars of upland cotton, Gossvpium hirsutum L., were grown under weekly or biweekly irrigation schedules in 0.2 ha plots in a split plot design at Maricopa, AZ. The seasonal average numbers of sweetpotato whitefly eggs and nymphs were 24% greater on leaves of plants irrigated biweekly. The leaves of ST-506 had 26% greater numbers of eggs and nymphs than did leaves of DP -50. Samples of lint from the two cultivars irrigated biweekly had 32 % more sugar than did lint from the cultivars irrigated weekly (weekly = 0.28 ± 0.02% , biweekly = 0.41% ± 0.03% sugar). Our results indicate that the numbers of immature sweetpotato whitefly on cotton plants can be reduced by 47% by selecting a less susceptible cultivar and avoiding plant water stress.
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| 106 |
Sweetpotato Whitefly Natural Enemies: Parasite Surveys in Urban Areas and Cotton Fields and Identification of a New PredatorButler, George D. Jr., Henneberry, T. J. 03 1900 (has links)
Surveys for adult sweetpotato whitefly parasites on ornamentals in urban areas and in cultivated cotton fields show high parasite activity in urban areas vs. activity in cultivated cotton fields. A previously unreported Drapetis spp. fly was identified and found to occur in cotton fields in several areas in the state.
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| 107 |
Differentiation of Sweet Potato Whitefly Biotypes Using RAPD-PCRGawel, N. J., Bartlett, A. C. 03 1900 (has links)
RAPD -PCR was used to detect differences at the DNA level between the A and B forms of B. tabaci. All twenty of the RAPD primers tested distinguished readily between the forms. These primers also distinguished between the forms at the egg and nymph stage. Genetic similarity statistics indicate that these two forms of B. tabaci were no more closely related to each other than to bayberry whitefly (Parabemisia mvricae) or bandedwinged whitefly (Trialeurodes abutilonea). DNA from B. tabaci collected from 11 locations around the world was also analyzed. These insects could be classified into six distinct groups, suggesting there are more than two variant forms of B. tabaci. A comprehensive examination of all variant types of B. tabaci will have to be conducted before a concise definition of the taxonomic relationship between the 'A' and 'B' forms can be determined.
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| 108 |
Sweetpotato Whitefly Parasites Abundant in Some Cotton Fields During OctoberButler, George D. Jr., El-Lissy, Osama, Antilla, Larry 03 1900 (has links)
Surveys of whitefly parasites in cotton showed few or none were present during July and October in some areas, preliminary observations of sticky traps show that large numbers of parasites were present in some fields during October.
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| 109 |
Sweetpotato Whitefly in ArizonaEllsworth, P. C., Diehl, J. P., Silvertooth, J. C., Brown, P. W., Watson, T. F., Hood, L. R., Husman, S. H., Thacker, G. W., Clark, L. J., Cluff, R. E., Doerge, T. A., Howell, D. R., McCloskey, W. B., Stedman, S. W., Trondstad, R. E., Wade, J. C. 03 1900 (has links)
Whitefly management has become a complex objective in Arizona in the past several years. A tremendous amount of research and extension effort is now focused on this significant pest. The purpose of this paper is to describe the position and guidelines of the University of Arizona's Cotton Team regarding the Sweetpotato Whitefly. The information presented is credited to no single source, but represents a collection of information from numerous research and extension scientists within and outside of the U of A system and careful analyses of the presently available data on whitefly management dynamics. Where possible, only the results of research are reported and suggestions based only on experience or speculation are duly noted.
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| 110 |
Trap Crops as a Component of a Community-Wide Pink Bollworm Control ProgramThacker, Gary W., Moore, Leon, Ellsworth, Peter C. 03 1900 (has links)
Trap crops were employed against the pink bollworm (PBW) as a part of a community-wide IPM program in Pima County, AZ. Levels of PBW larvae in the early squares of the trap crops were extraordinarily high, indicating that the trap crops were drawing overwintered PBW moths in from wide areas. This concentrated the overwintered moths in small areas where they could be easily and economically destroyed.
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