Articles citing this paper
Blackleg disease on oilseed Brassica in Australia: a review
PA Salisbury, DJ Ballinger, N Wratten, KM Plummer and BJ Howlett
35(5) pp.665 - 672
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SIVASITHAMPARAM KRISHNAPILLAI,
BARBETTI MARTIN J., LI HUA
Annals of Botany. 2005 96(3). p.363
Epidemiology of Blackleg (Leptosphaeria maculans) of Canola (Brassica napus) in Relation to Maturation of Pseudothecia and Discharge of Ascospores in Western Australia
Khangura R.,
Speijers J.,
Barbetti M. J.,
Salam M. U., Diggle A. J.
Phytopathology®. 2007 97(8). p.1011
Blackleg disease of canola mitigated by resistant cultivars and four-year crop rotations in western Canada
Kutcher H. R.,
Brandt S. A.,
Smith E. G.,
Ulrich D.,
Malhi S. S., Johnston A. M.
Canadian Journal of Plant Pathology. 2013 35(2). p.209
Molecular characterization of disease resistance in Brassica juncea – The current status and the way forward
Inturrisi Fabian C.,
Barbetti Martin J.,
Tirnaz Soodeh,
Patel Dhwani A.,
Edwards David, Batley Jacqueline
Plant Pathology. 2021 70(1). p.13
Detection, prevalence and severity of upper canopy infection on mature Brassica napus plants caused by Leptosphaeria maculans in Australia
Sprague Susan J.,
Marcroft Stephen J.,
Lindbeck Kurt D.,
Ware Andrew H.,
Khangura Ravjit K., Van de Wouw Angela P.
Crop and Pasture Science. 2018 69(1). p.65
Assessment of Genetic Variation Among Leptosphaeria maculans Isolates Using Pathogenicity Data and AFLP Analysis
Pongam Patchara,
Osborn Thomas C., Williams Paul H.
Plant Disease. 1999 83(2). p.149
Biology of Brassica Coenospecies (1999)
Plants and BioEnergy (2014)
Pathogenicity of Leptosphaeria maculans Isolates on a Brassica napus-B. juncea Recombinant Line
Somda Irénée,
Delourme Régine,
Renard Michel, Brun Hortense
Phytopathology®. 1999 89(2). p.169
Camelina (Camelina sativa(L.) Crantz) as an alternative oilseed: molecular and ecogeographic analyses
Francki Michael,
Ghamkhar Kioumars,
Croser Janine,
Aryamanesh Nader,
Campbell Margaret,
Kon’kova Nina, Francis Clive
Genome. 2010 53(7). p.558
Dissemination of Information About Management Strategies and Changes in Farming Practices for the Exploitation of Resistance to Leptosphaeria maculans (Phoma Stem Canker) in Oilseed Rape Cultivars
Gladders P.,
Evans N.,
Marcroft S., Pinochet X.
European Journal of Plant Pathology. 2006 114(1). p.117
Pterostilbene Is a Potential Candidate for Control of Blackleg in Canola
Koh Joshua C. O.,
Barbulescu Denise M.,
Salisbury Phil A.,
Slater Anthony T., Sarrocco Sabrina
PLOS ONE. 2016 11(5). p.e0156186
The myrosinase‐glucosinolate system in the interaction between Leptosphaeria maculans and Brassica napus
Andreasson Erik,
Wretblad Sofia,
Granér Georg,
Wu Xiaoming,
Zhang Jiaming,
Dixelius Christina,
Rask Lars, Meijer Johan
Molecular Plant Pathology. 2001 2(5). p.281
Continuing innovation in Australian canola breeding
Salisbury Phillip A.,
Cowling Wallace A., Potter Trent D.
Crop and Pasture Science. 2016 67(4). p.266
Reaction of wild crucifers toLeptosphaeria maculans, the causal agent of blackleg of crucifers
Chen C.Y., Séguin-Swartz G.
Canadian Journal of Plant Pathology. 1999 21(4). p.361
Molecular Mechanism of Crucifer’s Host-Resistance (2021)
Establishing the relationship of ascospore loads with blackleg (Leptosphaeria maculans) severity on canola (Brassica napus)
Wherrett A. D.,
Sivasithamparam K., Barbetti M. J.
Australian Journal of Agricultural Research. 2004 55(8). p.849
The fungicide fluquinconazole applied as a seed dressing to canola reducesLeptosphaeria maculans(blackleg) severity in south-eastern Australia
Marcroft S. J., Potter T. D.
Australasian Plant Pathology. 2008 37(4). p.396
Stabilization of Resistance to Leptosphaeria maculans in Brassica napus–B. juncea Recombinant Lines and Its Introgression into Spring-Type Brassica napus
Chèvre A.-M.,
Brun H.,
Eber F.,
Letanneur J.-C.,
Vallee P.,
Ermel M.,
Glais I.,
Li Hua,
Sivasithamparam K., Barbetti M. J.
Plant Disease. 2008 92(8). p.1208
Effect of root rot and stem canker caused by Leptosphaeria maculans on yield of Brassica napus and measures for control in the field
Sprague S. J.,
Kirkegaard J. A.,
Howlett B. J., Graham J.
Crop and Pasture Science. 2010 61(1). p.50
Potential for using host resistance to reduce production of pseudothecia and ascospores of Leptosphaeria maculans, the blackleg pathogen of Brassica napus
J. Marcroft S.,
Sprague S. J.,
Salisbury P. A., Howlett B. J.
Plant Pathology. 2004 53(4). p.468
Genomic Prediction and Genetic Correlation of Agronomic, Blackleg Disease, and Seed Quality Traits in Canola (Brassica napus L.)
Fikere Mulusew,
Barbulescu Denise M.,
Malmberg M. Michelle,
Maharjan Pankaj,
Salisbury Phillip A.,
Kant Surya,
Panozzo Joe,
Norton Sally,
Spangenberg German C.,
Cogan Noel O. I., Daetwyler Hans D.
Plants. 2020 9(6). p.719
Occurrence of a New Subclade of Leptosphaeria biglobosa in Western Australia
Vincenot L.,
Balesdent M. H.,
Li H.,
Barbetti M. J.,
Sivasithamparam K.,
Gout L., Rouxel T.
Phytopathology®. 2008 98(3). p.321
Molecular Mechanism of Crucifer’s Host-Resistance (2021)
Genome analysis of the fungal plant pathogen, Leptosphaeria maculans using pulsed field gel electrophoresis
Howlett Barbara J.
ELECTROPHORESIS. 1997 18(9). p.1544
Identification and Characterization of a New Fungal Pathogen Causing Twisted Leaf Disease of Sugarcane in China
Lin Zhenyue,
Wei Jingjing,
Zhang Muqing,
Xu Shiqiang,
Guo Qiang,
Wang Xin,
Wang Jihua,
Chen Baoshan,
Que Youxiong,
Deng Zuhu,
Chen Rukai, Powell Charles A.
Plant Disease. 2015 99(3). p.325
LAMP Detection and Identification of the Blackleg Pathogen Leptosphaeria biglobosa ‘brassicae’
Du Ran,
Huang Yongju,
Zhang Jing,
Yang Long,
Wu Mingde, Li Guo-qing
Plant Disease. 2021 105(10). p.3192
World-Wide Importance of Phoma Stem Canker (Leptosphaeria maculans and L. biglobosa) on Oilseed Rape (Brassica napus)
Fitt B. D. L.,
Brun H.,
Barbetti M. J., Rimmer S. R.
European Journal of Plant Pathology. 2006 114(1). p.3
Encyclopedia of Applied Plant Sciences (2003)
Challenges for crop production and management from pathogen biodiversity and diseases under current and future climate scenarios – Case study with oilseed Brassicas
Barbetti Martin J.,
Banga Surinder S., Salisbury Phillip A.
Field Crops Research. 2012 127 p.225
Sustainable strategies for managing Brassica napus (oilseed rape) resistance to Leptosphaeria maculans (phoma stem canker) (2006)
Identification of genomic regions associated with resistance to blackleg (Leptosphaeria maculans) in canola using genome wide association study
Mansouripour Seyedmojtaba,
Oladzad Atena,
Shahoveisi Fereshteh,
Rahman Md. Mukhlesur,
del Río Mendoza Luis E.,
Mamidi Sujan, Moghaddam Samira Mafi
European Journal of Plant Pathology. 2021 161(3). p.693
Crop sequences in Western Australia: what are they and are they sustainable? Findings of a four-year survey
Harries Martin,
Anderson Geoffrey C., Hüberli Daniel
Crop and Pasture Science. 2015 66(6). p.634
Concomitant inoculation of an avirulent strain of Leptosphaeria maculans prevents break-down of a single dominant gene-based resistance in Brassica napus cv. Surpass 400 by a virulent strain
Li Hua,
Barbetti M.J., Sivasithamparam K.
Field Crops Research. 2006 95(2-3). p.206
Microsatellite and Minisatellite Analysis of Leptosphaeria maculans in Australia Reveals Regional Genetic Differentiation
Hayden Helen L.,
Cozijnsen Anton J., Howlett Barbara J.
Phytopathology®. 2007 97(7). p.879
Epidemiology and management of blackleg of canola in response to changing farming practices in Australia
Van de Wouw Angela P.,
Marcroft Stephen J.,
Sprague Susan J.,
Scanlan Jack L.,
Vesk Peter A., Idnurm Alexander
Australasian Plant Pathology. 2021 50(2). p.137
Leptosphaeria maculans, the Causal Agent of Blackleg Disease of Brassicas
Howlett Barbara J,
Idnurm Alexander, Pedras M.Soledade C
Fungal Genetics and Biology. 2001 33(1). p.1
Blackleg disease of canola in Australia
Van De Wouw A. P.,
Marcroft S. J., Howlett B. J.
Crop and Pasture Science. 2016 67(4). p.273
Major Gene and Polygenic Resistance to Leptosphaeria maculans in Oilseed Rape (Brassica napus)
Delourme R.,
Chèvre A. M.,
Brun H.,
Rouxel T.,
Balesdent M. H.,
Dias J. S.,
Salisbury P.,
Renard M., Rimmer S. R.
European Journal of Plant Pathology. 2006 114(1). p.41
Exposure of biosynthesized nanoscale ZnO to Brassica juncea crop plant: morphological, biochemical and molecular aspects
Mazumder Jahirul Ahmed,
Khan Ehasanullah,
Perwez Mohammad,
Gupta Meetu,
Kumar Sanjay,
Raza Khalid, Sardar Meryam
Scientific Reports. 2020 10(1).
Sustainable strategies for managing Brassica napus (oilseed rape) resistance to Leptosphaeria maculans (phoma stem canker) (2006)
Assessing progress in breeding to improve grain yield, quality and blackleg (Leptosphaeria maculans) resistance in selected Australian canola cultivars (1978–2012)
Potter Trent,
Burton Wayne,
Edwards Jan,
Wratten Neil,
Mailer Rod,
Salisbury Phil, Pearce Amanda
Crop and Pasture Science. 2016 67(4). p.308
Identification and mapping of a third blackleg resistance locus inBrassica napusderived fromB. rapasubsp.sylvestris
Gustafson Perry,
Yu Fengqun,
Lydiate Derek J., Rimmer S. Roger
Genome. 2008 51(1). p.64
Impact of Soil Type and Placement of Xyway LFR Fungicide on Germination and Growth of Corn Seedlings Under a Controlled Setting
Kleczewski Nathan M.
Plant Health Progress. 2024 25(1). p.90
Identification of two novel genes for blackleg resistance in Brassica napus
Yu F.,
Lydiate D. J., Rimmer S. R.
Theoretical and Applied Genetics. 2005 110(5). p.969
Sustainable strategies for managing Brassica napus (oilseed rape) resistance to Leptosphaeria maculans (phoma stem canker) (2006)
Splash dispersal of Leptosphaeria maculans pycnidiospores and the spread of blackleg on oilseed rape
Travadon R.,
Bousset L.,
Saint‐Jean S.,
Brun H., Sache I.
Plant Pathology. 2007 56(4). p.595
Ascospore Discharge, Leaf Infestation and Variations in Pathogenicity as Criteria to Predict Impact of Leptosphaeria maculans on Oilseed Rape
Thürwächter F.,
Garbe V., Hoppe H. ‐H.
Journal of Phytopathology. 1999 147(4). p.215
Effect of blackleg and sclerotinia stem rot on canola yield in the high rainfall zone of southern New South Wales, Australia
Kirkegaard John A,
Robertson Michael J.,
Hamblin Peter, Sprague Susan J.
Australian Journal of Agricultural Research. 2006 57(2). p.201
Development of Drought‐Tolerant Canola (Brassica napus L.) through Genetic Modulation of ABA‐mediated Stomatal Responses
Wan Jiangxin,
Griffiths Rebecca,
Ying Jifeng,
McCourt Peter, Huang Yafan
Crop Science. 2009 49(5). p.1539
Genomics of Crucifer’s Host-Resistance (2021)
Pathogenic variability ofLeptosphaeria maculansin western Canada
Kutcher H. R.,
Keri M.,
McLaren D. L., Rimmer S. R.
Canadian Journal of Plant Pathology. 2007 29(4). p.388
Assessment of genetic diversity in Australian canola (Brassica napus L.) cultivars using SSR markers
Wang J.,
Kaur S.,
Cogan N. O. I.,
Dobrowolski M. P.,
Salisbury P. A.,
Burton W. A.,
Baillie R.,
Hand M.,
Hopkins C.,
Forster J. W.,
Smith K. F., Spangenberg G.
Crop and Pasture Science. 2009 60(12). p.1193
Epidemiology and management of Leptosphaeria maculans (phoma stem canker) on oilseed rape in Australia, Canada and Europe
West J. S.,
Kharbanda P. D.,
Barbetti M. J., Fitt B. D. L.
Plant Pathology. 2001 50(1). p.10
Genetic Control and Host Range of Avirulence Toward Brassica napus Cultivars Quinta and Jet Neuf in Leptosphaeria maculans
Balesdent M. H.,
Attard A.,
Ansan-Melayah D.,
Delourme R.,
Renard M., Rouxel T.
Phytopathology®. 2001 91(1). p.70
Expression of resistance to Leptosphaeria maculans in Brassica napus double haploid lines in France and Australia is influenced by location
Delourme R.,
Brun H.,
Ermel M.,
Lucas M.O.,
Vallee P.,
Domin C.,
Walton G.,
Li Hua,
Sivasithamparam K., Barbetti M.J.
Annals of Applied Biology. 2008 153(2). p.259
Blackleg Sporacle: A Model for Predicting Onset of Pseudothecia Maturity and Seasonal Ascospore Showers in Relation to Blackleg of Canola
Salam M. U.,
Khangura R. K.,
Diggle A. J., Barbetti M. J.
Phytopathology®. 2003 93(9). p.1073
Genomic Prediction Using Prior Quantitative Trait Loci Information Reveals a Large Reservoir of Underutilised Blackleg Resistance in Diverse Canola (Brassica napus L.) Lines
Fikere Mulusew,
Barbulescu Denise M.,
Malmberg Michelle M.,
Shi Fan,
Koh Joshua C.O.,
Slater Anthony T.,
MacLeod Iona M.,
Bowman Phillip J.,
Salisbury Phillip A.,
Spangenberg German C.,
Cogan Noel O.I., Daetwyler Hans D.
The Plant Genome. 2018 11(2).
Agricultural selection and presence–absence variation in spring-type canola germplasm
Mason Annaliese S.,
Chauhan Pratibha,
Banga Shashi,
Banga Surinder S.,
Salisbury Phil,
Barbetti Martin J., Batley Jacqueline
Crop and Pasture Science. 2018 69(1). p.55
Stability of QTL for Field Resistance to Blackleg across Two Genetic Backgrounds in Oilseed Rape
Pilet M.L.,
Duplan G.,
Archipiano M.,
Barret P.,
Baron C.,
Horvais R.,
Tanguy X.,
Lucas M.O.,
Renard M., Delourme R.
Crop Science. 2001 41(1). p.197
Camelina (Camelina sativa (L.) Crantz): agronomic potential in Mediterranean environments and diversity for biofuel and food uses
Campbell M. C.,
Rossi A. F., Erskine W.
Crop and Pasture Science. 2013 64(4). p.388
Genetic diversity of isolates of the Leptosphaeria maculans species complex from Australia, Europe and North America using amplified fragment length polymorphism analysis
Purwantara Agus,
Barrins Joseph M.,
Cozijnsen Anton J.,
Ades Peter K., Howle Barbara J.
Mycological Research. 2000 104(7). p.772
Agricultural Applications (2002)
Response ofBrassica napusandB. junceagermplasm from Australia, China and India to Australian populations ofLeptosphaeria maculans
Li C. X.,
Wratten N.,
Salisbury P. A.,
Burton W. A.,
Potter T. D.,
Walton G.,
Li Hua,
Sivasithamparam K.,
Banga Surinder S.,
Banga Shashi,
Singh D.,
Liu S. Y.,
Fu T. D., Barbetti M. J.
Australasian Plant Pathology. 2008 37(2). p.162
Qualitative and quantitative factors affecting the relationship between Canola leaf spot epidemic and stem base canker (Leptosphaeria maculans) in Argentina
Edwards Molina J. P.,
Escande A.,
Cendoya G., Quiroz F.
Australasian Plant Pathology. 2017 46(5). p.453
Usefulness of winter canola (Brassica napus) race-specific resistance genes against blackleg (causal agent Leptosphaeria maculans) in southern Australian growing conditions
Light K. A.,
Gororo N. N., Salisbury P. A.
Crop and Pasture Science. 2011 62(2). p.162
A Canola Cultivar‐Testing Dataset Used to Calculate Stress Tolerance Indices and Crossover Interactions
Zeleke K. T., Luckett D. J.
Agronomy Journal. 2017 109(1). p.143
New root diseases of canola in Australia
Li M.,
Murray G. M., Ash G. J.
Australasian Plant Disease Notes. 2007 2(1). p.93
Brassicaceae Fungi and Chromista Diseases: Molecular Detection and Host–Plant Interaction
Mourou Marwa,
Raimondo Maria,
Lops Francesco, Carlucci Antonia
Plants. 2023 12(5). p.1033
Identifying resistance genes to Leptosphaeria maculans in Australian Brassica napus cultivars based on reactions to isolates with known avirulence genotypes
Marcroft Steve J.,
Elliott Vicki L.,
Cozijnsen Anton J.,
Salisbury Phillip A.,
Howlett Barbara J., Van de Wouw Angela P.
Crop and Pasture Science. 2012 63(4). p.338
Genetic variation for fusarium crown rot tolerance in durum wheat
Kadkol Gururaj Pralhad,
Meza Jess,
Simpfendorfer Steven,
Harden Steve,
Cullis Brian, Sarrocco Sabrina
PLOS ONE. 2021 16(2). p.e0240766
ABA Is Required for Leptosphaeria maculans Resistance via ABI1- and ABI4-Dependent Signaling
Kaliff Maria,
Staal Jens,
Myrenås Mattias, Dixelius Christina
Molecular Plant-Microbe Interactions®. 2007 20(4). p.335
Blackleg Yield Losses and Interactions with Verticillium Stripe in Canola (Brassica napus) in Canada
Wang Yixiao,
Strelkov Stephen E., Hwang Sheau-Fang
Plants. 2023 12(3). p.434
Genomic advances will herald new insights into the Brassica: Leptosphaeria maculans pathosystem
Hayward A.,
McLanders J.,
Campbell E.,
Edwards D., Batley J.
Plant Biology. 2012 14(s1). p.1
Analysis of quantitative adult plant resistance to blackleg in Brassica napus
Dandena Hanna B.,
Zhang Qiang,
Zhou Tengsheng,
Hirani Arvind H.,
Liu Zhen,
Fernando Dilantha W. G.,
Duncan Robert W., Li Genyi
Molecular Breeding. 2019 39(9).
Genetic map construction and QTL mapping of resistance to blackleg (Leptosphaeria maculans) disease in Australian canola (Brassica napus L.) cultivars
Kaur S.,
Cogan N. O. I.,
Ye G.,
Baillie R. C.,
Hand M. L.,
Ling A. E.,
Mcgearey A. K.,
Kaur J.,
Hopkins C. J.,
Todorovic M.,
Mountford H.,
Edwards D.,
Batley J.,
Burton W.,
Salisbury P.,
Gororo N.,
Marcroft S.,
Kearney G.,
Smith K. F.,
Forster J. W., Spangenberg G. C.
Theoretical and Applied Genetics. 2009 120(1). p.71
Development of Plant–Fungal Endophyte Associations to Suppress Phoma Stem Canker in Brassica
Roodi Davood,
Millner James P.,
McGill Craig R.,
Johnson Richard D.,
Hea Shen-Yan,
Brookes Jenny J.,
Glare Travis R., Card Stuart D.
Microorganisms. 2021 9(11). p.2387
