Wheat Curl Mite Resistance: Interactions of Mite Feeding With Wheat Streak Mosaic Virus Infection

Murugan, M.; Sotelo-Cardona, Paola; Duraimurugan, P.; Whitfield, Anna E.; Schneweis, Derek J.; Starkey, Sharon; Smith, C. Michael

doi:10.1603/ec11112

Cited by 30 publications

(22 citation statements)

References 38 publications

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“…Siriwetwiwat (2006) observed increased wheat curl mite densities on WSMV-infected wheat plants compared with noninfected plants. Murugan et al (2011) also observed significant wheat curl mite population increase on WSMV-infected susceptible cultivars compared with noninfected plants, but this increase was not observed for WSMV-resistant cultivars. However, TriMV-infected wheat plants had a 20-25% reduction in the number of plants with successful population establishment from single mite transfers compared with noninfected plants (McMechan et al 2014).…”

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confidence: 80%

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The Effect of Temperature, Relative Humidity, and Virus Infection Status on off-host Survival of the Wheat Curl Mite (Acari: Eriophyidae)

2015

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confidence: 80%

“…WSMVinfected wheat has been shown to enhance the reproductive capability of wheat curl mite (Siriwetwiwat 2006, Murugan et al 2011). In the current study, WSMV infection did not affect off-host survival.…”

Section: Discussionmentioning

confidence: 99%

The Effect of Temperature, Relative Humidity, and Virus Infection Status on off-host Survival of the Wheat Curl Mite (Acari: Eriophyidae)

2015

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“…Plants in Experiment I were grown in pots containing Sungrow Metro-Mix 350 (Sun Gro Horticulture, Agawan, MA, USA) and plants in Experiments II and III were grown in pots containing Pro-Mix 'BX' (Premier ProMix, Lansing, MI, USA). All plants were fertilized once with 20-20-20 (N-P-K) and grown at 22 ± 2 • C, 40-50% relative humidity, and a photoperiod of 14:10 (light:dark) hours, which are optimum conditions for plant and mite growth and development [12,36,37]. Experiments I and III were conducted in a greenhouse and Experiment II was conducted in a growth chamber.…”

Section: Plant Materialsmentioning

confidence: 99%

Resistance to Wheat Curl Mite in Arthropod-Resistant Rye-Wheat Translocation Lines

et al. 2017

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Abstract:The wheat curl mite, Aceria toschiella (Keifer), and a complex of viruses vectored by A. toschiella substantially reduce wheat yields in every wheat-producing continent in the world. The development of A. toschiella-resistant wheat cultivars is a proven economically and ecologically viable method of controlling this pest. This study assessed A. toschiella resistance in wheat genotypes containing the H13, H21, H25, H26, H18 and Hdic genes for resistance to the Hessian fly, Mayetiola destructor (Say) and in 94M370 wheat, which contains the Dn7 gene for resistance to the Russian wheat aphid, Diuraphis noxia (Kurdjumov). A. toschiella populations produced on plants containing Dn7 and H21 were significantly lower than those on plants of the susceptible control and no different than those on the resistant control. Dn7 resistance to D. noxia and H21 resistance to M. destructor resulted from translocations of chromatin from rye into wheat (H21-2BS/2RL, Dn7-1BL/1RS). These results provide new wheat pest management information, indicating that Dn7 and H21 constitute resources that can be used to reduce yield losses caused by A. toschiella, M. destructor, D. noxia, and wheat streak mosaic virus infection by transferring multi-pest resistance to single sources of germplasm.

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“…Wheat streak mosaic (WSM), caused by Wheat streak mosaic virus (WSMV) is a viral disease that affects wheat (Triticum aestivum L.), barley (Hordeum vulgare L.), oat (Avena sativa L.), maize (Zea mays L.), millet (Panicum setaria), and numerous other grasses over large geographical areas around the world [1][2][3][4][5][6][7][8]. This virus is vectored by the wheat curl mite (Aceria tosichella Keifer) [2] that has several grass species hosts besides wheat [2,9].…”

Section: Introductionmentioning

confidence: 99%

“…Recent studies indicated that infected wheat has less root and shoot biomass than uninfected plant, resulting in severe decrease in water-use efficiency [10,12,13]. WSM has been estimated to decrease annual wheat yields by approximately 5% per year, but local disease epidemics can be highly destructive and result in total crop loss [1][2][3]6,7,16,19].…”

Section: Introductionmentioning

confidence: 99%

Remote Monitoring of Wheat Streak Mosaic Progression Using Sub-Pixel Classification of Landsat 5 TM Imagery for Site Specific Disease Management in Winter Wheat

Mırık¹,

Ansley²,

Price³

et al. 2013

ARS

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Wheat streak mosaic (WSM), caused by Wheat streak mosaic virus is a viral disease that affects wheat (Triticum aestivum L.), other grains, and numerous grasses over large geographical areas around the world. To improve disease management and crop production, it is essential to have adequate methods for monitoring disease epidemics at various scales and multiple times. Remote sensing has become an essential tool for monitoring and quantifying crop stress due to biotic and abiotic factors. The objective of our study was to explore the utility of Landsat 5 TM imagery for detecting, quantifying, and mapping the occurrence of WSM in irrigated commercial wheat fields. The infection and progression of WSM was biweekly assessed in the Texas Panhandle during the 2007-2008 crop years. Diseased-wheat was separated from uninfected wheat on the images using a sub-pixel classifier. The overall classification accuracies were >91% with kappa coefficient between 0.80 and 0.94 for disease detection were achieved. Omission errors varied between 2% and 14%, while commission errors ranged from 1% to 21%. These results indicate that the TM image can be used to accurately detect and quantify disease for site-specific WSM management. Remote detection of WSM using geospatial imagery may substantially improve monitoring, planning, and management practices by overcoming some of the shortcomings of the ground-based surveys such as observer bias and inaccessibility. Remote sensing techniques for accurate disease mapping offer a unique set of advantages including repeatability, large area coverage, and cost-effectiveness over the ground-based methods. Hence, remote detection is particularly and practically critical for repeated disease monitoring and mapping over time and space during the course of a growing season.

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Wheat Curl Mite Resistance: Interactions of Mite Feeding With Wheat Streak Mosaic Virus Infection

Cited by 30 publications

References 38 publications

The Effect of Temperature, Relative Humidity, and Virus Infection Status on off-host Survival of the Wheat Curl Mite (Acari: Eriophyidae)

The Effect of Temperature, Relative Humidity, and Virus Infection Status on off-host Survival of the Wheat Curl Mite (Acari: Eriophyidae)

Resistance to Wheat Curl Mite in Arthropod-Resistant Rye-Wheat Translocation Lines

Remote Monitoring of Wheat Streak Mosaic Progression Using Sub-Pixel Classification of Landsat 5 TM Imagery for Site Specific Disease Management in Winter Wheat

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