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You searched for: Subject blight Remove constraint Subject: blight Subject term blight Remove constraint Subject term: blight Subject term Sclerotinia minor Remove constraint Subject term: Sclerotinia minor
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1. An assessment of environmental conditions preceding outbreaks of Sclerotinia blight of peanut in Virginia

Author:
Phipps, P.M.
Source:
Peanut science 1995 v.22 no.2 pp. 90-93
ISSN:
0095-3679
Subject:
Arachis hypogaea; Sclerotinia minor; blight; environmental factors; rain; canopy; air temperature; soil temperature; epidemiology; Virginia
DOI:
10.3146/i0095-3679-22-2-3

2. Analysis of Gene Expression Profiles in Leaf Tissues of Cultivated Peanuts and Development of EST-SSR Markers and Gene Discovery

Author:
Guo Baozhu; Chen Xiaoping; Hong Yanbin; Liang Xuanqiang; Dang Phat; Brenneman Tim; Holbrook Corley; Culbreath Albert; National High Technology Research and Development Program of China; Science Foundation of Guangdong province
Source:
International journal of plant genomics 2009 v.2009 pp. -
ISSN:
1687-5370
Subject:
cultivars; microsatellite repeats; blight; alleles; Mycosphaerella arachidis; oxalate oxidase; peanuts; Mycosphaerella berkeleyi; expressed sequence tags; Sclerotinia minor; mutation; leaf spot; genetic databases; stem rot; tissues; foliar diseases; Athelia rolfsii; Tomato spotted wilt orthotospovirus; leaves
Abstract:
... Peanut is vulnerable to a range of foliar diseases such as spotted wilt caused by Tomato spotted wilt virus (TSWV), early (Cercospora arachidicola) and late (Cercosporidium personatum) leaf spots, southern stem rot (Sclerotium rolfsii), and sclerotinia blight (Sclerotinia minor). In this study, we report the generation of 17,376 peanut expressed sequence tags (ESTs) from leaf tissues of a peanut c ...
DOI:
10.1155/2009/715605
PubMed:
19584933
PubMed Central:
PMC2703745

3. Characterization of Sclerotinia minor populations in Texas peanut fields

Author:
F. K. Crutcher; M. A. Henry‐Gregory; H. H. Wilkinson; S. E. Duke; T. Wheeler; C. M. Kenerley
Source:
Plant pathology 2018 v.67 no.4 pp. 839-847
ISSN:
0032-0862
Subject:
Sclerotinia minor; aggression; air temperature; apothecia; ascospores; blight; environmental factors; fungicide resistance; fungicides; genetic variation; genotype; pathogens; peanuts; phenotype; summer; Texas
Abstract:
... In the summer of 2004 an epidemic of sclerotinia blight of peanut, a disease caused by Sclerotinia minor, occurred in Texas in fields where the disease was never previously detected. The disease was observed on many plants within one of the fields (>3000 disease foci), although most foci were <1 m. It is hypothesized that these observations were inconsistent with the recent introduction of a monoc ...
DOI:
10.1111/ppa.12792

4. Comparison of Sclerotinia minor Inocula for Differentiating the Reaction of Peanut Genotypes to Sclerotinia Blight

Author:
Faske, T.; Melouk, H.A.; Payton, M.E.
Source:
Peanut science 2006 v.33 no.1 pp. 7-11
ISSN:
0095-3679
Subject:
Arachis hypogaea; peanuts; Sclerotinia minor; blight; fungal diseases of plants; genotype; germplasm screening; disease resistance; inoculation methods; inoculum; sclerotia; mycelium; stems
Abstract:
... Efficacy of four types of Sclerotinia minor inocula were compared for disease incidence, lesion development, and differentiating a disease response on susceptible and moderately resistant peanut genotypes. Inocula were evaluated on intact and detached peanut main stem tissue. Three inocula lacked an exogenous nutrient source, which included germinating sclerotia produced on peanut stem, 3-day-old ...
Handle:
10113/14277
DOI:
10.3146/0095-3679(2006)33[7:COSMIF]2.0.CO;2

5. Crop rotation and tillage systems as a proactive strategy in the control of peanut fungal soilborne diseases

Author:
Silvina Vargas Gil; José M. Meriles; Ricardo Haro; Cristiano Casini; Guillermo J. March
Source:
BioControl 2008 v.53 no.4 pp. 685-698
ISSN:
1386-6141
Subject:
Actinomycetales; Fusarium solani; Gliocladium; Sclerotinia minor; Trichoderma; agrochemicals; beneficial microorganisms; biological control; blight; corn; crop rotation; disease incidence; management systems; no-tillage; pathogens; peanuts; population; population dynamics; reduced tillage; rhizosphere; root rot; soil fungi; soil sampling; soil-borne diseases; soybeans; strains
Abstract:
... Soil management practices can affect the population dynamics of soil microbial communities. Cultural practices can be adequately combined to benefit natural populations of microorganisms that may have a role in biological control (actinomycetes, Trichoderma spp., and Gliocladium spp.), thus contributing to the management of peanut fungal soilborne diseases in a sustainable manner within ecological ...
DOI:
10.1007/s10526-007-9105-1

6. Discovery and characterization of a molecular marker for Sclerotinia minor (Jagger) resistance in peanut

Author:
Chenault, Kelly D.; Maas, Andrea L.; Damicone, John P.; Payton, Mark E.; Melouk, Hassan A.
Source:
Euphytica 2009 v.166 no.3 pp. 357-365
ISSN:
0014-2336
Subject:
Arachis hypogaea; peanuts; disease resistance; Sclerotinia minor; blight; fungal diseases of plants; genetic markers; microsatellite repeats; polymerase chain reaction; DNA primers; genotype
Abstract:
... The production of cultivated peanut, an important agronomic crop throughout the United States and the world, is consistently threatened by various diseases and pests. Sclerotinia minor Jagger (S. minor), the causal agent of Sclerotinia blight, is a major threat to peanut production in the Southwestern US, Virginia and North Carolina. Although information on the variability of morphological traits ...
Handle:
10113/27152
DOI:
10.1007/s10681-008-9816-0

7. Disease and yield responses to fungicides among peanut cultivars differing in reaction to Sclerotinia blight

Author:
Damicone, J.P.; Jackson, K.E.
Source:
Peanut science 1996 v.23 no.2 pp. 81-85
ISSN:
0095-3679
Subject:
cultivars; plant diseases and disorders; blight; chemical control; iprodione; Sclerotinia minor; disease control; varietal resistance; crop yield; split application; disease resistance; Arachis hypogaea; incidence; disease incidence
DOI:
10.3146/i0095-3679-23-2-3

8. Disease evaluations and agronomic traits of advanced peanut breeding lines in 2012

Author:
Rebecca S. Bennett; Kelly D. Chamberlin
Source:
Partners in Progress - Peanut Research at Oklahoma State University 2013 v. no. pp. 11-14
Subject:
cultivars; blight; peanuts; seeds; Sclerotinia minor; agronomic traits; crop yield; environmental factors; disease resistance; seed quality; Athelia rolfsii; breeding lines; disease incidence; Virginia
Abstract:
... A total of 38 peanut cultivars and high-oleic advanced breeding lines were evaluated in small field plots in 2012 for yield, seed grade and size, and resistance to Sclerotinia minor and Sclerotium rolfsii. Among the 14 Spanish entries, the cultivar Tamnut 06 (3258 lbs/acre) and breeding line 140-1OL (3477 lbs/A) had the highest yield. Tamnut 06 and 140-1OL, in addition to Tamspan 90, also had sign ...
Handle:
10113/58231

9. Effect of Anti-Fungal Transgene(s) on Agronomic Traits of Transgenic Peanut Lines Grown under Field Conditions

Author:
Chenault, K.D.; Melouk, H.A.; Payton, M.E.
Source:
Peanut science 2006 v.33 no.1 pp. 12-19
ISSN:
0095-3679
Subject:
weight; peanuts; blight; transgenes; seeds; transgenic plants; fungal diseases of plants; pods; Sclerotinia minor; beta-glucanase; disease resistance; yield components; field experimentation; Arachis hypogaea; chitinase; Oklahoma
Abstract:
... Agronomic traits may become adversely affected when field crops are transformed with foreign genes which confer resistance to plant pathogens. Field testing of such transformed plant lines is necessary to determine if desirable yield components have been retained through the transformation and regeneration process. Thirty-four peanut lines, thirty-two of which are transgenic containing anti-fungal ...
Handle:
10113/14280
DOI:
10.3146/0095-3679(2006)33[12:EOATOA]2.0.CO;2

10. Effect of Sclerotinia minor Infection Loci on Peanut Production Parameters

Author:
Chenault, K.D.; Melouk, H.A.; Payton, M.E.
Source:
Peanut science 2006 v.33 no.1 pp. 36-40
ISSN:
0095-3679
Subject:
crop quality; blight; peanuts; seeds; fungal diseases of plants; Sclerotinia minor; crop yield; seasonal variation; pathogenesis; Arachis hypogaea; Oklahoma
Abstract:
... Fungal diseases of peanut, such as Sclerotinia blight caused by Sclerotinia minor, are responsible for increased production costs and yield losses of up to 50% for peanut producers in the Southwestern U.S., North Carolina, and Virginia. The literature is replete with information on the pathology, epidemiology, and control of S. minor infection of peanut, however little is known about the physical ...
Handle:
10113/20130
DOI:
10.3146/0095-3679(2006)33[36:EOSMIL]2.0.CO;2

11. Effect of crop pruning on Sclerotinia blight of peanut

Author:
Bailey, J.E.; Brune, P.D.
Source:
Plant disease 1997 v.81 no.9 pp. 990-995
ISSN:
0191-2917
Subject:
chlorothalonil; blight; chemical control; copper hydroxide; canopy; cultural control; fungal diseases of plants; microclimate; iprodione; Sclerotinia minor; disease control; crop yield; pruning; Arachis hypogaea; incidence; disease incidence
Abstract:
... Sclerotinia blight of peanut, incited by Sclerotinia minor, causes serious losses when cool, moist conditions prevail in the plant canopy. The effects of altering canopy structure by pruning were investigated in this study. Disease incidence was used to calculate area under the disease progress curve (AUDPC) for field plots receiving various shoot-pruning treatments. In 1990, pruned plots and ipro ...
DOI:
10.1094/PDIS.1997.81.9.990

12. Evaluating Isolate Aggressiveness and Host Resistance from Peanut Leaflet Inoculations with Sclerotinia minor

Author:
Hollowell, J.E.; Shew, B.B.; Isleib, T.G.
Source:
Plant disease 2003 v.87 no.4 pp. 402-406
ISSN:
0191-2917
Subject:
Sclerotinia minor; aggression; blight; breeding; cultivars; greenhouses; leaves; mycelium; pathogens; peanuts; plant pathology; sand; screening; North Carolina; Oklahoma; Texas; Virginia
Abstract:
... Sclerotinia minor is a major pathogen of peanut in North Carolina, Virginia, Oklahoma, and Texas. Partial resistance to S. minor has been reported based on field screening, but field performance is not always correlated with laboratory or greenhouse evaluations of resistance. More efficient screening methods and better understanding of the mechanisms contributing to Sclerotinia blight resistance a ...
DOI:
10.1094/PDIS.2003.87.4.402

13. Evaluation of application timing and efficacy of the fungicides fluazinam and boscalid for control of Sclerotinia blight of peanut

Author:
Smith, D.L.; Hollowell, J.E.; Isleib, T.G.; Shew, B.B.
Source:
Crop protection 2008 v.27 no.3-5 pp. 823-833
ISSN:
0261-2194
Subject:
Arachis hypogaea; peanuts; Sclerotinia minor; blight; fungal diseases of plants; disease control; fungicides; application timing; greenhouse experimentation; field experimentation; North Carolina
Abstract:
... Sclerotinia blight of peanut (Arachis hypogaea) is caused by the soilborne fungus Sclerotinia minor. Management of Sclerotinia blight of peanut requires an integrated approach that includes rotation with non-hosts, resistant cultivars, cultural practices, and fungicides. Greenhouse experiments compared fluazinam and boscalid and investigated pre- and post-inoculation applications of fungicide or n ...
DOI:
10.1016/j.cropro.2007.11.010

14. First Report of Sclerotinia minor Infecting Eclipta prostrata in Texas

Author:
J. E. Woodward; P. A. Dotray; J. M. Cason; T. A. Baughman
Source:
Plant health progress 2017 v.18 no.4 pp. 219-220
ISSN:
1535-1025
Subject:
Eclipta prostrata; Sclerotinia minor; blight; fungal diseases of plants; pathogenicity; peanuts; plant pathogenic fungi; weed hosts; Texas
Abstract:
... Symptomatic Eclipta prostrate plants exhibiting symptoms of Sclerotinia blight were collected from a peanut field near Stephenville, TX. Pathogenicity tests demonstrated that isolates obtained were pathogenic on both E. prostrate and peanut. While E. prostrate has been reported as a weed host of Sclerotinia minor, this to our knowledge is the first reported occurrence of the disease in Texas. ...
DOI:
10.1094/PHP-07-17-0041-BR

15. First report of stem and leaf blight caused by Sclerotinia minor on Geranium carolinianum in North Carolina

Author:
Hollowell, J.E.; Shew, B.B.
Source:
Plant disease 2004 v.88 no.3 pp. 312
ISSN:
0191-2917
Subject:
Geranium carolinianum; weeds; fallow; Sclerotinia minor; plant pathogenic fungi; fungal diseases of plants; blight; alternative hosts; disease reservoirs; host plants; host range; North Carolina
Abstract:
... The soilborne fungus Sclerotinia minor Jagger is a major pathogen of peanut (Arachis hypogaea L.) in North Carolina and overwinters in soil, on crop debris, or on winter annual weed species (1). Bleached stems and small, black sclerotia are typically seen on peanut plants infected by S. minor. Carolina geranium (Geranium carolinianum L.) is one of several winter annual weed species found during wi ...
DOI:
10.1094/PDIS.2004.88.3.312B

16. Identification of QTLs associated with Sclerotinia blight resistance in peanut (Arachis hypogaea L.)

Author:
Yuya Liang; John M. Cason; Michael R. Baring; Endang M. Septiningsih
Source:
Genetic resources and crop evolution 2021 v.68 no.2 pp. 629-637
ISSN:
0925-9864
Subject:
Arachis hypogaea; DNA; Sclerotinia minor; blight; chromosome mapping; cultivars; disease resistance; evolution; leaf spot; peanuts; phenotypic variation; quantitative trait loci; Texas
Abstract:
... Sclerotinia blight caused by Sclerotinia minor (Jagger) is a significant threat to peanut production; therefore varietal improvement toward this disease is needed. To date, there have been no reported quantitative trait locus (QTL) associated with Sclerotinia blight resistance in peanut. Hence, the objective of this study was to identify QTLs for Sclerotinia blight resistance. A total of 90 F₂:₆ r ...
DOI:
10.1007/s10722-020-01012-4

17. Integrated management of sclerotinia blight in peanut: utilizing canopy morphology, mechanical pruning, and fungicide timing

Author:
Butzler, T.M.; Bailey, J.; Beute, M.K.
Source:
Plant disease 1998 v.82 no.12 pp. 1312-1318
ISSN:
0191-2917
Subject:
Arachis hypogaea; Sclerotinia minor; blight; integrated pest management; cultural control; pruning; canopy; chemical control; fungicides; microclimate; soil temperature; crop yield; incidence; genotype; disease control; plant diseases and disorders; disease incidence; North Carolina
Abstract:
... Sclerotinia blight of peanut, caused by Sclerotinia minor, generally becomes severe only after vines meet in the row middles and a dense canopy develops. Dense foliage appears to support a microclimate conducive to the colonization of peanut limbs by S. minor. Removal of excess foliage before and during a Sclerotinia blight epidemic on the susceptible genotype NC 7 has been shown to reduce the rat ...
DOI:
10.1094/PDIS.1998.82.12.1312

18. Mechanisms of Resistance to Sclerotinia minor in selected Peanut Genotypes

Author:
G. F. Chappell; B. B. Shew; J. M. Ferguson; M. K. Beute
Source:
Crop science 1995 v.35 no.3 pp. 692-696
ISSN:
0011-183X
Subject:
Arachis hypogaea; Sclerotinia minor; blight; disease resistance; genetic resistance; defense mechanisms; stems; correlation; field experimentation; genotype; laboratory techniques
Abstract:
... Sclerotinia minor (Jagger) Kohn is serious and increasingly prevalent pathogen of peanut (Arachis hypogaea L.). Peanut stem tissues were reported to differ in their resistance to S. minor, but field performance is not always correlated with laboratory evaluations of resistance to Sclerotinia diseases in other crops. Differences in genotype performance in field and laboratory results may reflect di ...
DOI:
10.2135/cropsci1995.0011183X003500030007x

19. Molecular diagnosis to identify new sources of resistance to sclerotinia blight in groundnut (Arachis hypogaea L.)

Author:
Engin Yol; Hari D. Upadhyaya; Bulent Uzun
Source:
Euphytica 2015 v.203 no.2 pp. 367-374
ISSN:
0014-2336
Subject:
Arachis hypogaea; Sclerotinia minor; blight; disease resistance; fungi; genes; genetic markers; genotype; germplasm; germplasm screening; microsatellite repeats; pathogens; peanuts; plant breeding
Abstract:
... Sclerotinia blight, caused by soil-borne fungus Sclerotinia minor Jagger, is one of the destructive diseases in groundnut. Pathogen affected plants usually displays lesions, wilt and collapse which cause high yield losses. Traditional field screening is time and resources consuming. Molecular markers associated with resistance genes offer an alternative selection technique which is relatively easy ...
DOI:
10.1007/s10681-014-1282-2

20. Phytopathogens of hazelnut (Corylus Avellana L.) in Southern Chile

Author:
J. C. Guerrero; S. F. Perez; E. Q. Ferrada; L. Q. Cona; E. T. Bensch
Source:
Acta horticulturae 2014 no.1052 pp. 269-273
ISSN:
0567-7572
Subject:
Agrobacterium; Alternaria alternata; Apple mosaic virus; Armillaria mellea; Aspergillus niger; Botryodiplodia; Botrytis cinerea; Corylus avellana; Diaporthe; Diplodia; Fusarium; Macrophomina phaseolina; Neonectria; Penicillium; Phytophthora; Pseudomonas syringae pv. syringae; Rhizopus stolonifer; Sclerotinia minor; Trichothecium roseum; Xanthomonas arboricola; bacteria; blight; branches; climatic factors; cultivars; dieback; galls; hazelnuts; orchards; pathogenicity; plant pathogenic fungi; root rot; roots; soil; wood; Chile
Abstract:
... European hazelnut is distributed in Chile from Del Maule region to the region of Los Lagos, with around of 10,000 ha planted and with projection for the year 2020 of 20,000 ha. To know phytosanitary aspects of the hazelnut commercial orchards according to different soil and climatic conditions is a basic and fundamental aspect in decision taking in a context of phythosanitary integrated plant mana ...

21. Planting Density Influences Disease Incidence and Severity of Sclerotinia Blight in Peanut

Author:
Andrea L. Maas; Kenton E. Dashiell; Hassan A. Melouk
Source:
Crop science 2006 v.46 no.3 pp. 1341-1345
ISSN:
0011-183X
Subject:
Arachis hypogaea; peanuts; plant density; disease incidence; disease severity; Sclerotinia minor; plant pathogenic fungi; blight; disease control; field experimentation; disease resistance; cultivars; Oklahoma
Abstract:
... Sclerotinia blight, caused by Sclerotinia minor Jagger, has become one of the major limiting factors in peanut (Arachis hypogaea L.) production. The objectives of this research were to evaluate the effects of plant spacing on disease incidence and severity of Sclerotinia blight in peanut research plots, to measure the level of apparent resistance at different seeding rates, and to determine which ...
Handle:
10113/3494
DOI:
10.2135/cropsci2005.10-0335

22. Progress in breeding Sclerotinia blight-resistant runner-type peanut

Author:
Goldman, J.J.; Smith, O.D.; Simpsom, C.E.; Melouk, H.A.
Source:
Peanut science 1995 v.22 no.2 pp. 109-113
ISSN:
0095-3679
Subject:
Arachis hypogaea; Sclerotinia minor; blight; disease resistance; genetic resistance; plant breeding; germplasm; screening; field experimentation; population; Texas
DOI:
10.3146/i0095-3679-22-2-7

23. Registration of High-Oleic Peanut Germplasm Line ARSOK-S1 (TX996784) with Enhanced Resistance to Sclerotinia Blight and Pod Rot

Author:
K. D. Chamberlin; J. P. Damicone; M. R. Baring; M. D. Burow; C. B. Godsey; R. S. Bennett; H. A. Melouk; C. E. Simpson
Source:
Journal of plant registrations 2015 v.9 no.1 pp. 103-107
ISSN:
1936-5209
Subject:
Agricultural Research Service; Arachis hypogaea; Pythium myriotylum; Sclerotinia minor; Thanatephorus cucumeris; backcrossing; blight; disease resistance; fungal diseases of plants; germplasm; peanuts; plant pathogenic fungi; plant rots; Oklahoma; Texas
Abstract:
... The high-oleic spanish peanut (Arachis hypogaea L. subsp. fastigiata var. vulgaris) germplasm line ARSOK-S1 (Reg. No. GP-237, PI 670132) was developed cooperatively by the USDA–ARS, Texas A&M AgriLife Research, and Oklahoma State University and was released in 2013. ARSOK-S1 (tested early as TX996784) is the product of a fourth backcross between the recurrent parent ‘Tamspan 90’ and F435-1-1, the ...
Handle:
10113/61769
DOI:
10.3198/jpr2013.08.0044crg

24. Registration of ‘Bailey’ Peanut

Author:
Thomas G. Isleib; Susana R. Milla-Lewis; Harold E. Pattee; Susan C. Copeland; M. Carolina Zuleta; Barbara B. Shew; Joyce E. Hollowell; Timothy H. Sanders; Lisa O. Dean; Keith W. Hendrix; Maria Balota; Jay W. Chapin
Source:
Journal of plant registrations 2011 v.5 no.1 pp. 27-39
ISSN:
1940-3496
Subject:
Cylindrocladium; Arachis hypogaea subsp. hypogaea; blight; peanuts; testa; branching; Cercosporidium; breeding; Sclerotinia minor; leaf spot; stem rot; growth habit; Orthotospovirus; Cercospora; Athelia rolfsii; leaves; pods; Virginia; North Carolina
Abstract:
... ‘Bailey’ (Reg. No. CV-111, PI 659502) is a large-seeded virginia-type peanut (Arachis hypogaea L. subsp. hypogaea var. hypogaea) with partial resistance to five diseases that occur commonly in the Virginia-Carolina production area: early leaf spot (caused by Cercospora arachidicola Hori), late leaf spot [caused by Cercosporidium personatum (Berk. & M.A. Curtis) Deighton], Cylindrocladium black rot ...
DOI:
10.3198/jpr2009.12.0742crc

25. Registration of ‘OLé’ Peanut

Author:
K. D. Chamberlin; R. S. Bennett; J. P. Damicone; C. B. Godsey; H. A. Melouk; K. Keim
Source:
Journal of plant registrations 2015 v.9 no.2 pp. 154-158
ISSN:
1936-5209
Subject:
Agricultural Research Service; Arachis hypogaea; Pythium myriotylum; Sclerotinia minor; Thanatephorus cucumeris; blight; breeding; disease control; disease resistance; fungal diseases of plants; genes; host-pathogen relationships; input costs; males; peanuts; pedigree; plant pathogenic fungi; plant rots; population; screening; Oklahoma
Abstract:
... OLé (Reg. No. CV-128, PI 674164) peanut (experimental designation ARSOK-S140-1OL) is a high-oleic spanish-type (Arachis hypogaea L. subsp. fastigiata var. vulgaris) that was cooperatively released by the USDA–ARS and the Oklahoma Agricultural Experiment Station in 2014. OLé is the product of the cross ‘Tamspan 90’ × F435. The male parent, F435, is the original donor of the high-oleic genes. Pedigr ...
Handle:
10113/61762
DOI:
10.3198/jpr2014.10.0072crc

26. Registration of ‘Red River Runner’ Peanut

Author:
Hassan A. Melouk; Kelly Chamberlin; Chad B. Godsey; John Damicone; Mark D. Burow; Michael R. Baring; Charles E. Simpson; Kenton E. Dashiell; Mark Payton
Source:
Journal of plant registrations 2013 v.7 no.1 pp. 22-25
ISSN:
1936-5209
Subject:
peanuts; Sclerotinia minor; crossing; crop yield; oleic acid; Arachis hypogaea subsp. hypogaea; blight; disease resistance; profits and margins; cultivars; seeds; agricultural experiment stations; progeny; germplasm releases; lipid content; crop quality; Agricultural Research Service; agronomic traits; breeding lines; crops; Texas; Oklahoma
Abstract:
... ‘Red River Runner’ (Reg. No. CV-116, PI 665474) peanut (Arachis hypogaea L. subsp. hypogaea var. hypogaea) is a high-oleic-oil cultivar with the experimental designation TX994313 that was cooperatively developed and released by the USDA-ARS, Texas AgriLife Research, and the Oklahoma Agricultural Experiment Station in 2011. Sustainable peanut production in the southwestern United States is driven b ...
Handle:
10113/56824
DOI:
10.3198/jpr2012.03.0174crc

27. Registration of ‘Titan’ Peanut

Author:
Maria Balota; R. Walton Mozingo; Terry A. Coffelt; Thomas G. Isleib; Bruce R. Beahm; Hugh G. Pittman; Frank S. Bryant; Pamela A. Copeland; Carolyn J. Daughtrey; Brenda C. Kennedy; Frederick M. Shokes; Robert D. Ashburn; David L. Whitt; Doug A. Redd
Source:
Journal of plant registrations 2011 v.5 no.3 pp. 282-288
ISSN:
1936-5209
Subject:
Cylindrocladium; cultivars; Arachis hypogaea subsp. hypogaea; blight; peanuts; seeds; Sclerotinia minor; Orthotospovirus; pods; Virginia; South Carolina; North Carolina
Abstract:
... ‘Titan’ (Reg. No. CV-112, PI 660127) virginia-type peanut (Arachis hypogaea L. subsp. hypogaea var. hypogaea), which was developed and tested as VT 9506083-3 by the Virginia Tech was released in May 2010. In Virginia, Titan was tested from 1997 to 2005 at several locations throughout the peanut-growing area of Virginia, North Carolina, and South Carolina. In 2007 and 2008, it was tested in Virgini ...
DOI:
10.3198/jpr2010.09.0531crc

28. Response to oxalic acid as a resistance assay for Sclerotinia minor in peanut

Author:
Rebecca S Bennett; M. E. Payton; K. D. Chamberlin
Source:
Peanut science 2015 v.42 no.1 pp. 56-64
ISSN:
0095-3679
Subject:
Sclerotinia minor; blight; breeding; breeding lines; cultivars; discoloration; disease resistance; fungal diseases of plants; genotype; host-pathogen relationships; oxalic acid; peanuts; plant pathogenic fungi; screening; stems; wilting
Abstract:
... Response to oxalic acid was evaluated as an assay for screening peanut breeding lines for resistance to Sclerotinia blight caused by Sclerotinia minor. Detached stems of six runner- and seven spanish-type peanut genotypes, varying in resistance to Sclerotinia blight, were placed in 0, 20, and 50 mM oxalic acid. Wilt severity and length of stem discoloration were rated 12, 18, and 24 hr after immer ...
Handle:
10113/61761
DOI:
10.3146/PS14-4.1

29. Sclerotinia Blight Resistance in the US Peanut Mini-Core Collection

Author:
Rebecca S. Bennett; Kelly D. Chamberlin; John P. Damicone
Source:
Crop science 2018 v.58 no.3 pp. 1306-1317
ISSN:
0011-183X
Subject:
Arachis hypogaea; Sclerotinia minor; blight; cultivars; disease incidence; disease resistance; germplasm conservation; growth chambers; microsatellite repeats; peanuts; seed quality; seeds; United States
Abstract:
... Germplasm collections are valuable sources of desirable traits such as disease resistance, but many accessions have yet to be characterized. Seventy-one accessions of the US peanut (Arachis hypogaea L.) mini-core were evaluated from 2013 to 2015 for yield, seed quality characteristics, Sclerotinia blight (caused by Sclerotinia minor Jagger) resistance in the field, and for a Sclerotinia resistance ...
DOI:
10.2135/cropsci2017.09.0591

30. Screening US peanut mini-core accessions for resistance to Sclerotinia blight caused by Sclerotinia sclerotiorum

Author:
S. Dura; P. Lujan; N. Puppala; S. Sanogo; R. Steiner
Source:
Canadian journal of plant science 2020 v.101 no.1 pp. 53-60
ISSN:
1918-1833
Subject:
Sclerotinia minor; Sclerotinia sclerotiorum; blight; crop management; cultivars; disease severity; greenhouses; inoculation methods; peanuts
Abstract:
... Sclerotinia blight is a destructive disease of peanut caused by Sclerotinia sclerotiorum (Lib.) de Bary and Sclerotinia minor Jagger. Crop management practices are routinely used to control Sclerotinia blight, however, development of resistant cultivars together with crop management practices may provide a lasting solution to control the disease in peanut fields. In this study, 95 accessions of Un ...
DOI:
10.1139/cjps-2020-0082

31. Screening of the Argentinean INTA peanut core collection with a molecular marker associated with resistance to Sclerotinia minor Jaggar

Author:
Chamberlin Kelly D.; Baldessari Jorge J.; Mamani Eva M. C.; Moreno Maria V.
Source:
Peanut science 2020 v.47 no.1 pp. 9-16
ISSN:
0095-3679
Subject:
Arachis hypogaea; Sclerotinia minor; blight; fungal diseases of plants; genetic markers; genetic resistance; genotype; genotype-phenotype correlation; genotyping; germplasm conservation; microsatellite repeats; peanuts; phenotype; phenotypic selection; plant disease resistance; plant germplasm; plant pathogenic fungi; Argentina
Abstract:
... Cultivated peanut, the third most important oilseed in the world, is consistently threatened by various diseases and pests. Sclerotinia minor Jagger (S. minor), the causal agent of Sclerotinia blight, is a major threat to peanut production in many countries and can reduce yield by up to 50% in severely infested fields. Host plant resistance will provide the most effective solution to managing Scle ...
Handle:
10113/7071212
DOI:
10.3146/PS19-15.1

32. Significance of insensitivity of Sclerotinia minor to iprodione in control of Sclerotinia blight of peanut

Author:
Smith, F.D.T.; Phipps, P.M.; Stipes, R.J.; Brenneman, T.B.
Source:
Plant disease 1995 v.79 no.5 pp. 517-523
ISSN:
0191-2917
Subject:
plant diseases and disorders; blight; iprodione; strain differences; Sclerotinia minor; disease control; fungicide resistance; Arachis hypogaea
Abstract:
... Four hundred isolates of Sclerotinia minor were obtained from diseased peanut plants (Arachis hypogaea) in field plots untreated or treated three times with iprodione (1.12 kg/ha) in 1987. On glucose-yeast extract agar containing iprodione at 2 microgram ml, only 67%. the isolates grew. These isolates produced more mycelial growth than corresponding isolates not previously exposed to the fungicide ...
DOI:
10.1094/PD-79-0517

33. Weed Species as Hosts of Sclerotinia minor in Peanut Fields

Author:
Hollowell, J.E.; Shew, B.B.; Cubeta, M.A.; Wilcut, J.W.
Source:
Plant disease 2003 v.87 no.2 pp. 197-199
ISSN:
0191-2917
Subject:
Arabidopsis thaliana; Cardamine; Cerastium fontanum; Conyza canadensis; Coronopus; Lamium; Oenothera laciniata; Sclerotinia minor; Sinapis arvensis subsp. arvensis; Stellaria media; annual weeds; blight; hosts; pathogenicity; peanuts; plant pathology; sclerotia; stems; North Carolina
Abstract:
... Bleached stems and sclerotia were observed on winter annual weed species growing in harvested peanut fields in northeastern North Carolina in March 2001. Each field had a history of Sclerotinia blight caused by Sclerotinia minor. Symptomatic plants were collected and brought back to the laboratory for identification and isolation. S. minor was isolated and Koch's postulates were fulfilled to confi ...
DOI:
10.1094/PDIS.2003.87.2.197