Your search keyword '"M. I. Vales"' showing total 16 results

1. Echo Russet: A Russet Potato Variety with a High Yield of Marketable Tubers, High Processing Quality, and Few Tuber Defects

Author

N. Baley, V. Sathuvalli, B. A. Charlton, C. C. Shock, S. Yilma, R. Qin, E. Feibert, M. I. Vales, R. G. Novy, J. L. Whitworth, C. Brown, D. A. Navarre, J. C. Stark, M. J. Pavek, N. R. Knowles, L. O. Knowles, J. M. Blauer, T. L. Brandt, Yi Wang, M. Thornton, R. R. Spear, and N. Olsen

Subjects

Plant Science, Agronomy and Crop Science

Published

2022

2. Vanguard Russet: A Fresh Market Potato Cultivar with Medium-Early Maturity and Long Dormancy

Author

M. I. Vales, D. C. Scheuring, J. W. Koym, D. G. Holm, S. Y. C. Essah, R. G. Wilson, J. K. Sidhu, R. G. Novy, J. L. Whitworth, J. C. Stark, R. R. Spear, V. Sathuvalli, C. C. Shock, B. A. Charlton, S. Yilma, N. R. Knowles, M. J. Pavek, C. R. Brown, D. A. Navarre, M. Feldman, C. M. Long, and J. C. Miller

Subjects

Plant Science, Agronomy and Crop Science

Published

2022

3. TerraRossa: A Mid-Season Specialty Potato with Red Flesh and Skin and Resistance to Common Scab and Golden Cyst Nematode

Author

B. A. Charlton, Charles R. Brown, K. A. Rykbost, Duroy A. Navarre, Jeffrey C. Stark, Sastry S. Jayanty, Clinton C. Shock, D. C. Hane, Launa L. Hamlin, J. Debons, M. J. Pavek, Vidyasagar Sathuvalli, N. R. Knowles, J. C. Miller, Erik B.G. Feibert, Xiaohong Wang, Richard G. Novy, M. I. Vales, Richard A. Quick, David G. Holm, Jonathan L. Whitworth, A. R. Mosley, S. R. James, and S. Yilma

Subjects

0106 biological sciences, biology, Globodera rostochiensis, Flesh, Common scab, 04 agricultural and veterinary sciences, Plant Science, Plant disease resistance, biology.organism_classification, Streptomyces scabies, 040401 food science, 01 natural sciences, Horticulture, 0404 agricultural biotechnology, Phytophthora infestans, Blight, Cultivar, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

TerraRossa (POR01PG20–12) is a mid-season specialty potato, released by Oregon State University, and is a product of the Northwest Potato Variety (Tri-State) Development Program. This cultivar is unique among commercially available potato cultivars in that plants produce small- to medium-sized smooth, oblong- to long-shaped tubers with red skin and red flesh. Total tuber yields of TerraRossa are similar to Dark Red Norland and less than Red La Soda. Average tuber size (136 g) is less than both of the comparison cultivars, reflecting inherent differences in tuber size distribution. TerraRossa tubers have total antioxidant levels higher than traditional white fresh varieties and comparable to the All Blue purple potato, known for its high antioxidant levels. Sensory evaluations of TerraRossa tubers indicated that it has good culinary attributes following boiling, baking, and microwaving. Potato chips made from TerraRossa tubers retained their unique red color, which represents a novelty in the chipping industry. TerraRossa could be a good candidate for the organic sector due to its tolerance to common scab (Streptomyces scabies) and tuber late blight (Phytophthora infestans) and its resistance to golden cyst nematode (Globodera rostochiensis). Due to its high yields, high chipping quality, good culinary properties, high antioxidant content and disease resistance, TerraRossa is a good candidate for opening new specialty type markets, adding diversity to the marketplace.

Published

2018

4. Sage Russet: a New High Yielding Russet Potato Variety with Cold-Sweetening Resistance, High Vitamin C and Protein Contents and Excellent Fresh Pack and Processing Potential

Author

S. R. James, Nora Olsen, Erik B.G. Feibert, Jonathan L. Whitworth, Clint C. Shock, D. C. Hane, Joseph J. Pavek, S. Yilma, K. A. Rykbost, R. G. Novy, Dennis L. Corsini, J. C. Stark, A. R. Mosley, M. J. Pavek, Brian A. Charlton, N. R. Knowles, M. I. Vales, Charles R. Brown, Vidyasagar Sathuvalli, and T. L. Brandt

Subjects

0106 biological sciences, Common scab, SAGE, fungi, food and beverages, 04 agricultural and veterinary sciences, Plant Science, Biology, 040401 food science, 01 natural sciences, High yielding, Sweetening, Fusarium wilt, Crop, 0404 agricultural biotechnology, Agronomy, High nitrogen, Blight, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Sage Russet was released in 2009 by Oregon State University, in cooperation with the USDA-ARS and the Agricultural Experiment Stations of Idaho and Washington. It is a product of the Northwest Potato Variety (Tri-State) Development Program. Sage Russet has a medium-early maturity and produces long, somewhat flattened tubers with medium russeting of the skin. Total yields of Sage Russet are similar to those of Russet Burbank and Ranger Russet, but are significantly higher than those of Russet Norkotah. Sage Russet has significantly higher U.S. No.1 yields than Russet Burbank, Russet Norkotah, and Ranger Russet. It can be grown as an early or late crop with high U.S. No.1 yields and minimal internal defects. It achieved very high merit scores in processing and fresh market in Western Regional trials and can be considered for both markets. Sage Russet has a medium to high fertility requirements with high nitrogen use efficiency and medium storage capability. Sage Russet has moderate specific gravity and produces lighter fry color than the industry standard varieties. The color of fried strips following tuber storage at 4.4 °C and 7.2 °C is significantly lighter for Sage Russet than the control varieties, indicating good cold sweetening resistance. Chemical analyses have shown that Sage Russet has higher protein and vitamin C content than control varieties. Sage Russet is moderately resistant to early dying, early blight, and common scab, is resistant to tuber late blight, but susceptible to Fusarium wilt and is prone to shatter bruise.

Published

2017

5. Yukon Nugget: a Mid-Season Yellow Skin, Yellow Flesh Specialty Potato with Extreme Resistance to Potato Virus X

Author

N. R. Knowles, R. Navarre, Richard G. Novy, Jonathan L. Whitworth, Vidyasagar Sathuvalli, J. Debons, Jeffrey C. Stark, S. Yilma, Erik B.G. Feibert, Clinton C. Shock, B. A. Charlton, M. J. Pavek, M. I. Vales, Charles R. Brown, and Richard A. Quick

Subjects

0106 biological sciences, Resistance (ecology), biology, Flesh, Powdery scab, 04 agricultural and veterinary sciences, Plant Science, Skin yellow, Plant disease resistance, Potato virus X, biology.organism_classification, 01 natural sciences, Horticulture, Botany, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Blight, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Yukon Nugget is a mid-season specialty potato with yellow flesh, yellow skin and distinct red eyes. Yukon Nugget was developed to provide the potato industry with an alternative to Yukon Gold. The overall tuber size profile of Yukon Nugget is smaller and more uniform than Yukon Gold and it typically produces an average of four more tubers per plant than Yukon Gold. Yukon Nugget tubers are ideal for boiling, baking, and microwaving, and have culinary and nutritional qualities generally similar to Yukon Gold. Yukon Nugget has extreme resistance to Potato Virus X due to presence of PVX resistance allele Rx1. It also has moderate resistance to powdery scab and tuber late blight. Yukon Nugget has less vascular and stem end discoloration and less hollow heart than Yukon Gold. Yukon Nugget is similar to Yukon Gold in terms of susceptibility to several major potato diseases, such as PVY, PLRV, and foliage late blight. It was released in 2013 by the Agricultural Experiment Stations of Oregon, Idaho and Washington and the USDA-ARS, and is a product of the Pacific Northwest (Tri-State) Potato Variety Development Program.

Published

2016

6. Purple Pelisse: A Specialty ‘Fingerling’ Potato with Purple Skin and Flesh and Medium Specific Gravity

Author

M. I. Vales, A. R. Mosley, B. A. Charlton, M. J. Pavek, D. C. Hane, Jeffrey C. Stark, Clinton C. Shock, Erik B.G. Feibert, Richard G. Novy, S. R. James, S. Yilma, Jonathan L. Whitworth, D. Culp, E. Karaagac, N. R. Knowles, and Charles R. Brown

Subjects

biology, Common scab, Flesh, Plant Science, biology.organism_classification, medicine.disease_cause, Horticulture, Potato virus Y, Seedling, Pollen, medicine, Fresh market, Purple color, Agronomy and Crop Science, Specific gravity

Abstract

Purple Pelisse is a specialty ‘fingerling’ potato with purple skin and dark purple flesh. It has medium maturity and sets a large number of smooth, small, fingerling-shaped tubers. The tubers have medium specific gravity and high levels of antioxidants. This potato variety is mainly intended for the fresh market but it can also be used for processing; chips made from Purple Pelisse tubers retain their bright purple color and have a pleasant taste. Purple Pelisse is moderately resistant to common scab and potato virus Y and susceptible to most of the other common potato diseases. Purple Pelisse resulted from a cross between NDOP5847-1 and bulked pollen of red-fleshed potatoes. It was first selected from seedling tubers planted and grown at Madras, Oregon in 2001 and was subsequently evaluated for six additional years in public and industry trials throughout the western U.S, including Western Regional Red/Specialty Trials in 2006 and 2007. Purple Pelisse was officially released as a variety in 2009 by the Pacific Northwest (Tri-State) Potato Variety Development Program.

Published

2012

7. Identification of dominant and recessive genes for resistance to Fusarium wilt in pigeonpea and their implication in breeding hybrids

Author

Rajeev K. Varshney, M. I. Vales, Rakesh Kumar, R. Sultana, Rachit K. Saxena, Rakesh K. Srivastava, Meenakshi Sharma, Kulbhushan Saxena, and Suresh Pande

Subjects

Resistance (ecology), biology, food and beverages, Plant Science, Horticulture, biology.organism_classification, Fusarium wilt, Cajanus, Agronomy, Genotype, Genetics, Epistasis, Cultivar, Chemical control, Agronomy and Crop Science, Hybrid

Abstract

Fusarium wilt is an important disease of pigeonpea [Cajanus cajan (L.) Millsp.] and it can cause severe yield losses. Chemical control of this disease is difficult and expensive; therefore, cultivation of resistant varieties/hybrids is the most efficient strategy for enhancing the production. In the present study, by using a wilt susceptible cytoplasmic-nuclear male-sterile line and four wilt resistant fertility restorers, one dominant and one recessive gene with dominant suppressive epistatic effects were found responsible for controlling resistance to Fusarium wilt. Considering the annual losses and wide spread nature of wilt diseases in pigeonpea, it is imperative that all the inbred and hybrid cultivars have high level of resistance to this disease. The presence of dominant gene for resistance will increase the efficiency of breeding wilt resistant cultivars because it will yield greater proportion of resistant genotypes in segregating generations. In hybrid breeding also, the presence of dominant gene for wilt resistance will be an advantage. The transfer of this gene in female hybrid parents will ease the breeding of wilt resistant hybrids because this will allow the use of both wilt resistant as well as susceptible restorers in generating wilt resistant hybrid combinations.

Published

2012

8. Owyhee Russet: A Variety with High Yields of U.S. No. 1 Tubers, Excellent Processing Quality, and Moderate Resistance to Fusarium Dry Rot (Fusarium solani var. coeruleum)

Author

Joseph J. Pavek, T. L. Brandt, E. Karaagac, Dennis L. Corsini, N. R. Knowles, D. C. Hane, Jonathan L. Whitworth, M. I. Vales, Richard G. Novy, Clinton C. Shock, B. A. Charlton, S. R. James, Charles R. Brown, L. D. Leroux, D. Culp, S. Yilma, Nora Olsen, Jeffrey C. Stark, M. J. Pavek, A. R. Mosley, and Erik B.G. Feibert

Subjects

Common scab, Plant Science, Fusarium dry rot, Biology, Sweetening, chemistry.chemical_compound, Agronomy, Metribuzin, chemistry, Fusarium solani var. coeruleum, Yield (wine), Fresh market, Blight, Agronomy and Crop Science

Abstract

Owyhee Russet (AO96160-3) originated from a cross between A89384-10 and A89512-3 in 1996. Owyhee Russet was released in 2009 by Oregon State University, in cooperation with the USDA-ARS and the Agricultural Experiment Stations of Idaho and Washington and is a product of the Northwest Potato Variety (Tri-State) Development Program. Owyhee Russet has semi-erect medium sized vines with medium to late maturity. The tubers are long, with a tan skin, medium russeting, and attractive tuber appearance for fresh market. Owyhee Russet was evaluated in several locations across the Northwest for more than 15 years. Total yield of Owyhee Russet is similar to that of Russet Burbank and Ranger Russet but significantly higher than Russet Norkotah. U.S. No.1 tuber yield of Owyhee Russet is significantly higher than Russet Burbank and Russet Norkotah, resulting in substantially higher marketable yield. Owyhee Russet tubers have significantly higher specific gravity than Russet Burbank and Russet Norkotah. Fry color following tuber storage at 4°C and 9°C is significantly lighter for Owyhee Russet than the comparison varieties. Relative strengths include high yield with a very high proportion of U.S. No.1 tubers, good tuber appearance and excellent processing quality, resistance to cold sweetening, common scab and Fusarium dry rot. Weaknesses include susceptibility to foliar and tuber late blight and susceptibility to metribuzin herbicide injury. Allelic patterns of five SSR markers have shown that Owyhee Russet has a distinctive DNA genetic fingerprint from its russet type reference varieties which are Ranger Russet, Russet Burbank, and Russet Norkotah.

Published

2012

9. Palisade Russet: A Late Blight Resistant Potato Cultivar Having a Low Incidence of Sugar Ends and High Specific Gravity

Author

Joseph J. Pavek, M. I. Vales, S. R. James, Michael K. Thornton, B. A. Charlton, Sanjay K. Gupta, Jonathan L. Whitworth, M. J. Pavek, S. Yilma, Richard G. Novy, Nora Olsen, Jeffrey C. Stark, Héctor Lozoya-Saldaña, Charles R. Brown, T. L. Brandt, N. R. Knowles, Dennis L. Corsini, and D. C. Hane

Subjects

biology, Agronomy, Phytophthora infestans, Blight, Organic production, Plant Science, Cultivar, Verticillium wilt, biology.organism_classification, Sugar, Agronomy and Crop Science, Palisade, Specific gravity

Abstract

Palisade Russet is a medium-late maturing, lightly russeted potato cultivar notable for its resistance to late blight (Phytophthora infestans) infection of foliage and tuber. Palisade Russet is suitable for processing with low tuber glucose concentrations observed following long-term storage at a temperature as low as 5.6°C with consistently acceptable fry color scores (USDA value ≤2.0) following storage at temperatures of 5.6 to 8.9°C. Reducing sugars are also maintained uniformly throughout the tuber, resulting in a low incidence of sugar ends in French fries relative to standard processing cultivars such as Russet Burbank and Ranger Russet. Palisade Russet has shown high specific gravities in western production regions of the U.S. which may limit its acceptance by the western processing industry. However, in potato production regions with inherently low specific gravities, Palisade Russet could have potential as a processing cultivar. In full-season trials conducted in Idaho, Oregon, and Washington over a 5 year period, the average total yield of Palisade Russet across all three states was very similar to yields observed for Ranger Russet and Russet Burbank. However, the U.S. No. 1 yield of Palisade Russet was 3% and 31% higher relative to Ranger Russet and Russet Burbank, respectively. In addition to late blight, Palisade Russet is also resistant to Verticillium wilt, black dot, and pink rot, and has a moderate level of resistance to net necrosis, PVY, and early blight of both the foliage and tuber. The disease resistances of Palisade Russet make it a good candidate for organic production, or for use by growers seeking reduced pesticide inputs. Palisade Russet displays a low incidence of second growth and growth cracks, especially relative to Russet Burbank, and is intermediate between Ranger Russet and Russet Burbank for incidence of hollow heart/brown center. Blackspot bruise expression for Palisade Russet is less pronounced than for either Ranger Russet or Russet Burbank, however it is slightly more susceptible to shatter bruise. Palisade Russet was released in 2011 by the USDA-ARS and the Agricultural Experiment Stations of Idaho, Oregon, and Washington, and is a product of the Pacific Northwest Potato Variety (Tri-State) Development Program.

Published

2011

10. Clearwater Russet: A Dual-Purpose Potato Cultivar with Cold Sweetening Resistance, High Protein Content, and Low Incidence of External Defects and Sugar Ends

Author

Sanjay K. Gupta, Charles R. Brown, Joseph J. Pavek, T. L. Brandt, S. R. James, N. R. Knowles, Clint C. Shock, M. I. Vales, Richard G. Novy, Jonathan L. Whitworth, Dennis L. Corsini, M. J. Pavek, D. C. Hane, Steve L. Love, Nora Olsen, Brian A. Charlton, and Jeffrey C. Stark

Subjects

Common scab, Plant Science, Biology, biology.organism_classification, Sweetening, Protein content, Horticulture, Agronomy, Potato virus Y, Blight, Cultivar, Verticillium wilt, Sugar, Agronomy and Crop Science

Abstract

Clearwater Russet is a medium-late maturing, russet-skinned, potato cultivar suitable for processing or fresh pack. It is notable for having a low incidence of external defects that contributes to its high U.S. No 1 yield relative to the dual-purpose industry standard, Russet Burbank. Clearwater Russet also maintains low glucose concentrations in its tubers during long-term storage making it an exceptional processing variety. With its low incidence of sugar ends and cold-induced sweetening resistance, Clearwater Russet can be stored at a temperature of 7.2°C for up to 250 days without the need for reconditioning; fry color from this storage regime is consistently ≤1.0 (USDA Fry Color Scale). This cultivar is also notable for its high tuber protein content, which was 33% greater than that of Russet Burbank. In full-season trials conducted over a 3-year period in California, Colorado, Idaho, Oregon, and Washington, Clearwater Russet had total yields slightly lower than Ranger Russet and Russet Burbank, but averaged 1% and 33% higher U.S. No. 1 yields, respectively, across all states. Average specific gravity of Clearwater Russet is comparable to Ranger Russet and significantly higher than Russet Burbank. Clearwater Russet is resistant to potato virus X (PVX) and tuber late blight and is moderately resistant to Verticillium wilt, common scab, and the common strain of potato virus Y (PVYO). Symptoms of infection with two necrotic strains of PVY were not observed in tubers of Clearwater Russet or Russet Burbank, but were observed in Ranger Russet. Blackspot bruise reaction for Clearwater Russet is less pronounced than for either Ranger Russet or Russet Burbank. The incidence of hollow heart in Clearwater Russet is intermediate between Ranger Russet and Russet Burbank. Internal brown spot has been noted as a problem for Clearwater Russet in the Columbia Basin of Oregon, but has not been observed as problematic in other growing regions. Clearwater Russet was released in 2008 by the USDA-ARS and the Agricultural Experiment Stations of Idaho, Oregon, and Washington, and is a product of the Pacific Northwest Potato Variety (Tri-State) Development Program.

Published

2010

11. Classic Russet: A Potato Cultivar with Excellent Fresh Market Characteristics and High Yields of U.S. No. 1 Tubers Suitable for Early Harvest or Full-Season Production

Author

Richard G. Novy, Dennis L. Corsini, T. L. Brandt, S. R. James, D. C. Hane, Charles R. Brown, Joseph J. Pavek, Steve L. Love, Jonathan L. Whitworth, M. J. Pavek, Nora Olsen, N. R. Knowles, M. I. Vales, Brian A. Charlton, and Jeffrey C. Stark

Subjects

biology, Common scab, Plant Science, biology.organism_classification, Protein content, Horticulture, Agronomy, Potato virus Y, Fresh market, Blight, Cultivar, Verticillium wilt, Dry rot, Agronomy and Crop Science

Abstract

Classic Russet is a medium maturing potato cultivar with rapid tuber bulking making it suitable for early harvest, as well as full-season production. Classic Russet is notable for its attractive tubers with medium russet skin and excellent culinary characteristics. It resulted from a 1995 cross between Blazer Russet and Summit Russet and was released in 2009 by the USDA-ARS and the Agricultural Experiment Stations of Idaho, Oregon and Washington and is a product of the Northwest Potato Variety (Tri-State) Development Program. Classic Russet also shows potential as an early season processing cultivar, with fry color comparable to Russet Burbank and Ranger Russet. Classic Russet total yields were comparable to Russet Norkotah and Ranger Russet in early harvest trials and comparable to Ranger Russet and Russet Burbank in full season trials. When averaged across sites in early harvest or full season trials, U.S. No. 1 yields of Classic Russet were generally greater than those of Russet Norkotah, Ranger Russet, and Russet Burbank. Protein content for Classic Russet is relatively high, averaging 22% higher than Ranger Russet, 32% higher than Russet Burbank and 24% higher than Russet Norkotah. Specific gravity of Classic Russet in early harvest trials was comparable to Russet Norkotah but lower than Ranger Russet and was similar to Russet Burbank in full season trials. The incidence of hollow heart in Classic Russet is low, similar to that of Ranger Russet. It is less susceptible to blackspot bruise than Russet Burbank, Ranger Russet and Russet Norkotah but shatter bruise can be a concern if not matured properly prior to harvest. Classic Russet is moderately resistant to common scab and dry rot and is moderately susceptible to foliar and tuber infections of early blight and symptoms of corky ringspot. It is susceptible to Verticillium wilt, soft rot, foliar and tuber late blight, PLRV and PLRV net necrosis, and the common strain of potato virus Y (PVY°).

Published

2010

12. Highland Russet: A Full Season, Processing Variety with High Yields of Uniform U.S. No. 1 Tubers

Author

D. C. Hane, R. G. Novy, Dennis L. Corsini, Nora Olsen, Steven L. Love, Brian A. Charlton, Jeffrey C. Stark, Jonathan L. Whitworth, S. R. James, M. J. Pavek, Charles R. Brown, T. L. Brandt, N. R. Knowles, Joseph J. Pavek, and M. I. Vales

Subjects

biology, Common scab, Powdery scab, Plant Science, Fusarium dry rot, Plant disease resistance, biology.organism_classification, Horticulture, Agronomy, Potato virus Y, Blight, Cultivar, Verticillium wilt, Agronomy and Crop Science

Abstract

Highland Russet is a late-season potato variety with light russet skin notable for its high yield of uniform U.S. No. 1 tubers, and good processing and culinary qualities. It resulted from a 1990 cross between Ranger Russet and Russet Legend and has been evaluated for over 15 years in public and industry trials throughout the western U.S. Highland Russet was released in 2006 by the USDA-ARS and the Agricultural Experiment Stations of Idaho, Oregon and Washington and is a product of the Northwest Potato Variety (Tri-State) Development Program. It is suitable for processing into French fries and other frozen potato products and due to its large blocky shape, recovers a high proportion of fries per unit weight of tubers. Fry color and processing ratings for Highland Russet were similar to Ranger Russet and Russet Burbank but fry color uniformity was higher than either of the standard varieties. In full-season trials conducted over a three-year period in the states of Idaho, Oregon, Washington, Colorado, and California; Highland Russet averaged 7% and 9% higher total yields and 21% and 52% higher U.S. No. 1 yields than Ranger Russet and Russet Burbank, respectively. It has moderately high specific gravity, with values similar to Ranger Russet and higher than Russet Burbank. Highland Russet is moderately resistant to Verticillium wilt and powdery scab root galling, as well as to tuber infections of late blight. It is also moderately resistant to common strains of potato virus Y (PVYO) but is susceptible to PVYNTN. It is moderately susceptible to pink rot, common scab, powdery scab of the tuber and early blight of the tuber, as well as to Pectobacterium soft rot and Fusarium dry rot. Highland Russet is susceptible to foliar late blight, PLRV infection, Root-knot nematode and corky ringspot but is moderately resistant to PLRV net necrosis. The incidence of hollow heart in Highland Russet is low, similar to that of Ranger Russet and lower than Russet Burbank, Blackspot bruise reaction of Highland Russet is similar to Russet Burbank but it is less susceptible to shatter bruise.

Published

2009

13. Characterization of Resistance to Corky Ringspot Disease in Potato: A Case for Resistance to Infection by Tobacco Rattle Virus

Author

S. R. James, James M. Crosslin, Charles R. Brown, M. I. Vales, Stephen L. Love, Richard G. Novy, H. Mojtahedi, Brian A. Charlton, and Philip B. Hamm

Subjects

Spraing, biology, fungi, food and beverages, Plant Science, Plant disease resistance, biology.organism_classification, Virology, Virus, Tobacco rattle virus, Plant virus, Solanum, Tobravirus, Agronomy and Crop Science, Solanaceae

Abstract

Corky ringspot disease (spraing) is incited by the tobacco rattle virus (TRV) transmitted by stubby root nematode (Paratrichodorus spp.). The resulting damage consists of internal and skin surface necrotic blemishes which render the tubers unmarketable. Resistance to the disease has been extensively documented in breeding programs. High levels of resistance are known for a number of varieties and breeding lines. Because tubers that are symptomless but virus infected have been documented, the nature of resistance is a point of debate. In two field locations where a total of 1,259 tubers of resistant breeding lines were RT-PCR tested, 5.6 and 2.0% of symptomless tubers gave positive PCR tests in the different fields. Nearly all of these were from three clones that would have been classified as susceptible by symptoms in later testing. Taken as a whole 58% of the symptomatic tubers gave positive PCR tests. Standard commercial susceptible cultivars showed 34% symptomless tubers with positive PCR results. We have shown here that tubers of most resistant lines are not positive for the virus when asymptomatic tubers are tested by RT-PCR, while symptomatic tubers are mostly positive. Within selected resistant materials, clones with the highest level of asymptomatic positives also showed susceptible responses as assessed by visual ranking in later tests. Although RT-PCR fails to amplify from symptomatic tubers in some cases, the results of this study suggest that most resistant breeding lines do not test positive as latent carriers of the virus. Therefore, lack of symptoms appears to be an expression of resistance to infection by TRV.

Published

2009

14. Premier Russet: A Dual-Purpose, Potato Cultivar with Significant Resistance to Low Temperature Sweetening During Long-Term Storage

Author

S. R. James, Clinton C. Shock, T. L. Brandt, D. C. Hane, Nora Olsen, Joseph J. Pavek, Dennis L. Corsini, Stephen L. Love, Jeffrey C. Stark, B. A. Charlton, M. J. Pavek, M. I. Vales, N. R. Knowles, Charles R. Brown, Jonathan L. Whitworth, and Richard G. Novy

Subjects

Dual purpose, biology, Powdery scab, Plant Science, biology.organism_classification, Sweetening, Horticulture, Potato virus Y, Botany, Blight, Dormancy, Cultivar, Verticillium wilt, Agronomy and Crop Science

Abstract

Premier Russet is a russet-skinned, high yielding potato cultivar suitable for processing or fresh-pack. Premier Russet is notable for its resistance to the accumulation of reducing sugars in its tubers. This characteristic allows tubers of Premier Russet to be stored at temperatures as low as 5.6°C for 250 days without the need for reconditioning prior to processing. The low temperature sweetening resistance of Premier Russet allows for its storage at colder temperatures which contributes to prolonged tuber dormancy and quality, and to a reduction in the incidence and severity of storage diseases associated with the higher storage temperatures typically used for industry-standard cultivars such as Russet Burbank and Ranger Russet. Premier Russet was released in 2006 by the USDA-ARS and the Agricultural Experiment Stations of Idaho, Oregon, and Washington, and is a product of the Northwest Potato Variety (Tri-State) Development Program. In full-season trials conducted over a 3-year period in the states of Idaho, Oregon, Washington, Colorado, California, New Mexico, and Texas, Premier Russet averaged 5% and 4% higher yields than Ranger Russet and Russet Burbank, respectively, and had a higher percentage of US No. 1 yield than either cultivar. Specific gravity of Premier Russet is consistently greater than that of Ranger Russet or Russet Burbank. Premier Russet is resistant to common and powdery scab, very resistant to the common strain of potato virus Y (PVYO), and moderately resistant to Verticillium wilt, early blight of the foliage and tuber, Pectobacterium (Erwinia) soft rot, and to galling of roots by powdery scab. Blackspot bruise reaction for Premier Russet is similar to that of Ranger Russet. The incidence of hollow heart in Premier Russet is higher than that of Ranger Russet or Russet Burbank. Cultural recommendations to manage hollow heart in Premier Russet are provided.

Published

2008

15. Effect of population size on the estimation of QTL: a test using resistance to barley stripe rust

Author

F. Capettini, Xianming Chen, Chris-Carolin Schön, H. F. Utz, M. I. Vales, Ann Corey, Patrick M. Hayes, K. Richardson, Christopher C. Mundt, J. S. Sandoval-Islas, and Diane E. Mather

Subjects

Washington, Quantitative Trait Loci, Population, Breeding, Quantitative trait locus, Biology, Pathosystem, Genetics, education, Mexico, Genotyping, Crosses, Genetic, Plant Diseases, Population Density, Analysis of Variance, education.field_of_study, Basidiomycota, Population size, Chromosome Mapping, food and beverages, Hordeum, Small population size, General Medicine, Immunity, Innate, Doubled haploidy, Hordeum vulgare, Agronomy and Crop Science, Biotechnology

Abstract

The limited population sizes used in many quantitative trait locus (QTL) detection experiments can lead to underestimation of QTL number, overestimation of QTL effects, and failure to quantify QTL interactions. We used the barley/barley stripe rust pathosystem to evaluate the effect of population size on the estimation of QTL parameters. We generated a large (n = 409) population of doubled haploid lines derived from the cross of two inbred lines, BCD47 and Baronesse. This population was evaluated for barley stripe rust severity in the Toluca Valley, Mexico, and in Washington State, USA, under field conditions. BCD47 was the principal donor of resistance QTL alleles, but the susceptible parent also contributed some resistance alleles. The major QTL, located on the long arm of chromosome 4H, close to the Mlo gene, accounted for up to 34% of the phenotypic variance. Subpopulations of different sizes were generated using three methods-resampling, selective genotyping, and selective phenotyping-to evaluate the effect of population size on the estimation of QTL parameters. In all cases, the number of QTL detected increased with population size. QTL with large effects were detected even in small populations, but QTL with small effects were detected only by increasing population size. Selective genotyping and/or selective phenotyping approaches could be effective strategies for reducing the costs associated with conducting QTL analysis in large populations. The method of choice will depend on the relative costs of genotyping versus phenotyping.

Published

2005

16. Identification and mapping of genetic loci affecting the free-threshing habit and spike compactness in wheat (Triticum aestivum L.)

Author

Christy J. W. Watson, M. I. Vales, Chatchawan Jantasuriyarat, and Oscar Riera-Lizarazu

Subjects

Genetic Markers, Genetics, education.field_of_study, DNA, Plant, biology, Glume, Population, Chromosome Mapping, food and beverages, Locus (genetics), General Medicine, Quantitative trait locus, biology.organism_classification, Phenotype, Quantitative Trait, Heritable, Gene mapping, Inbred strain, Genetic marker, Triticeae, education, Agronomy and Crop Science, Crosses, Genetic, Triticum, Biotechnology

Abstract

Recombinant inbred lines of the International Triticeae Mapping Initiative (ITMI) mapping population were used to localize genetic loci that affect traits related to the free-threshing habit (percent threshability, glume tenacity, and spike fragility) and to spike morphology (spike length, spikelet number, and spike compactness) of wheat ( Triticum aestivum L.). The ITMI population was planted in three environments during 1999 and 2000, and phenotypic and genotypic data were used for composite interval mapping. Two quantitative trait loci (QTL) that consistently affected threshability-associated traits were localized on chromosomes 2D and 5A. Coincident QTL on the short arm of 2D explained 44% of the variation in threshability, 17% of the variation in glume tenacity, and 42% of the variation in rachis fragility. QTL on chromosomes 2D probably represent the effect of Tg, a gene for tenacious glumes. Coincident QTL on the long arm of 5A explained 21% and 10% of the variation in glume tenacity and rachis fragility, respectively. QTL on 5A are believed to represent the effect of Q. Overall, free-threshing-related characteristics were predominantly affected by Tg and to a lesser extent by Q. Other QTL that were significantly associated with threshability-related traits in at least one environment were localized on chromosomes 2A, 2B, 6A, 6D, and 7B. Four QTL on chromosomes 1B, 4A, 6A, and 7A consistently affected spike characteristics. Coincident QTL on the short arm of chromosome 1B explained 18% and 7% of the variation in spike length and spike compactness, respectively. QTL on the long arm of 4A explained 11%, 14%, and 12% of the variation in spike length, spike compactness, and spikelet number, respectively. A QTL on the short arm of 6A explained 27% of the phenotypic variance for spike compactness, while a QTL on the long arm of 7A explained 18% of the variation in spikelet number. QTL on chromosomes 1B and 6A appear to affect spike dimensions by modulating rachis internode length, while QTL on chromosomes 4A and 7A do so by affecting the formation of spikelets. Other QTL that were significantly associated with spike morphology-related traits, in at least one environment, were localized on chromosomes 2B, 3A, 3D, 4D, and 5A.

Published

2003