Articles citing this paper
Resistance to Phytophthora medicaginis Hansen and Maxwell in wild Cicer species and its use in breeding root rot resistant chickpea (Cicer arietinum L.)
E. J. Knights A B , R. J. Southwell A , M. W. Schwinghamer A and S. Harden A
+ Author Affiliations
- Author Affiliations
A NSW Department of Primary Industries, 4 Marsden Park Road, Calala, NSW 2340, Australia.
B Corresponding author. Email: ted.knights@dpi.nsw.gov.au
Australian Journal of Agricultural Research 59(4) 383-387 https://doi.org/10.1071/AR07175
Submitted: 30 April 2007 Accepted: 14 January 2008 Published: 8 April 2008
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Coyne Clarice J.,
Ambrose Mike J.,
Maxted Nigel,
Schaefer Hanno,
Blair Matthew W.,
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Greene Stephanie L.,
Nelson Matthew N.,
Besharat Naghmeh,
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Toker Cengiz,
Saxena Rachit K.,
Roorkiwal Manish,
Pandey Manish K.,
Hu Jinguo,
Li Ying H.,
Wang Li X.,
Guo Yong,
Qiu Li J.,
Redden Robert J., Varshney Rajeev K.
Critical Reviews in Plant Sciences. 2015 34(1-3). p.43
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Srivastava R. K.,
Pande S.,
Rathore A.,
Jadhav D. R.,
Sharma M.,
Gaur P. M., Mallikarjuna N.
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Clewett Timothy G.,
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Marques Edward,
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Ellis T.H. Noel,
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Vance Lisa,
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Shin Min‐Gyoung,
Chang Peter L.,
von Wettberg Eric J. B.,
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Cook Douglas R., Penmetsa R. Varma
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Euphytica. 2015 204(2). p.257
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