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Effect of rust (Phakopsora pachyrhizi) on soybean yield and quality in south-eastern Queensland
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Missaoui Ali M.,
Phillips Daniel V.,
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Designing Soybeans for 21st Century Markets (2012)
Effect of rust (Uromyces viciae‐fabae) on yield components of faba bean
SACHE I., ZADOKS J. C.
Plant Pathology. 1995 44(4). p.675
Prediction of the in planta Phakopsora pachyrhizi secretome and potential effector families
de Carvalho Mayra C. da C. G.,
Costa Nascimento Leandro,
Darben Luana M.,
Polizel‐Podanosqui Adriana M.,
Lopes‐Caitar Valéria S.,
Qi Mingsheng,
Rocha Carolina S.,
Carazzolle Marcelo Falsarella,
Kuwahara Márcia K.,
Pereira Goncalo A. G.,
Abdelnoor Ricardo V.,
Whitham Steven A., Marcelino‐Guimarães Francismar C.
Molecular Plant Pathology. 2017 18(3). p.363
Investigating Potential Water Quality Impacts of Fungicides Used to Combat Soybean Rust in Indiana
Deb Debjani,
Engel Bernard A.,
Harbor Jon,
Hahn Leighanne,
Jae Lim Kyoung, Zhai Tong
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Volker Römheld, Günter Neumann
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Pivonia S., Yang X. B.
Plant Disease. 2004 88(5). p.523
Soybean rust severity, rate of rust development, and tolerance as influenced by maturity period and season
Kawuki R.S.,
Tukamuhabwa P., Adipala E.
Crop Protection. 2004 23(5). p.447
Yield Loss Associated with Soya Bean Rust (Phakopsora pachyrhizi Syd.) in Uganda
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Adipala E., Tukamuhabwa P.
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Schneider Katherine T.,
van de Mortel Martijn,
Bancroft Timothy J.,
Braun Edward,
Nettleton Dan,
Nelson Rex T.,
Frederick Reid D.,
Baum Thomas J.,
Graham Michelle A., Whitham Steven A.
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Meyer Jenelle D.F.,
Silva Danielle C.G.,
Yang Chunling,
Pedley Kerry F.,
Zhang Chunquan,
van de Mortel Martijn,
Hill John H.,
Shoemaker Randy C.,
Abdelnoor Ricardo V.,
Whitham Steven A., Graham Michelle A.
Plant Physiology. 2009 150(1). p.295
Pest Management in Soybean (1992)
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Liu Jian-Zhong,
Graham Michelle A.,
Pedley Kerry F., Whitham Steven A.
Briefings in Functional Genomics. 2015 14(4). p.283
Soybean Resistance to Phakopsora pachyrhizi as Affected by Acibenzolar‐S‐Methyl, Jasmonic Acid and Silicon
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Rodrigues Fabrício Ávila,
Diniz Ana Paula Cardoso,
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Journal of Phytopathology. 2014 162(2). p.133
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Bencke-Malato Marta,
Cabreira Caroline,
Wiebke-Strohm Beatriz,
Bücker-Neto Lauro,
Mancini Estefania,
Osorio Marina B,
Homrich Milena S,
Turchetto-Zolet Andreia Carina,
De Carvalho Mayra CCG,
Stolf Renata,
Weber Ricardo LM,
Westergaard Gastón,
Castagnaro Atílio P,
Abdelnoor Ricardo V,
Marcelino-Guimarães Francismar C,
Margis-Pinheiro Márcia, Bodanese-Zanettini Maria Helena
BMC Plant Biology. 2014 14(1).
Soybean Rust Resistance Derived from Glycine tomentella in Amphiploid Hybrid Lines
Patzoldt M. E.,
Tyagi R. K.,
Hymowitz T.,
Miles M. R.,
Hartman G. L., Frederick R. D.
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van de Mortel Martijn,
Recknor Justin C.,
Graham Michelle A.,
Nettleton Dan,
Dittman Jaime D.,
Nelson Rex T.,
Godoy Cláudia V.,
Abdelnoor Ricardo V.,
Almeida Álvaro M. R.,
Baum Thomas J., Whitham Steven A.
Molecular Plant-Microbe Interactions®. 2007 20(8). p.887
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Stone Christine L,
McMahon Michael B,
Fortis Laurie L,
Nuñez Alberto,
Smythers Gary W,
Luster Douglas G, Frederick Reid D
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Potassium silicate and calcium silicate on the resistance of soybean to Phakopsora pachyrhizi infection
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Yang X. B.,
Dowler W. M., Tschanz A. T.
Journal of Phytopathology. 1991 133(3). p.187
Effects of Silicon Applications on Soybean Rust Development Under Greenhouse and Field Conditions
Lemes E. M.,
Mackowiak C. L.,
Blount A.,
Marois J. J.,
Wright D. L.,
Coelho L., Datnoff L. E.
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Phytopathology®. 2006 96(4). p.400
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Smith James R.,
Ray Jeffery D.,
Gillen Anne M., Frederick Reid D.
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Phytopathology®. 2007 97(11). p.1428
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Agronomy Journal. 2008 100(5). p.1360
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King Zachary R.,
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Wood E. Dale,
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Walker David R.,
McDonald Samuel C.,
Harris Donna K.,
Roger Boerma H.,
Buck James W.,
Sikora Edward J.,
Weaver David B.,
Wright David L.,
Marois James J., Li Zenglu
Theoretical and Applied Genetics. 2022 135(9). p.3073
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Abdel‐Haleem Hussein,
Buck James W.,
Phillips Daniel V.,
Li Zenglu, Boerma H. Roger
Crop Science. 2015 55(6). p.2589
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Srivastava Pratibha,
George Sheeja,
Marois James J.,
Wright David L., Walker David R.
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Pandey Ajay K.,
Yang Chunling,
Zhang Chunquan,
Graham Michelle A.,
Horstman Heidi D.,
Lee Yeunsook,
Zabotina Olga A.,
Hill John H.,
Pedley Kerry F., Whitham Steven A.
Molecular Plant-Microbe Interactions®. 2011 24(2). p.194
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Hossain M. M.,
Akamatsu H.,
Morishita M.,
Mori T.,
Yamaoka Y.,
Suenaga K.,
Soares R. M.,
Bogado A. N.,
Ivancovich A. J. G., Yamanaka N.
Plant Pathology. 2015 64(1). p.147
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