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Erturk E.,
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Dwivedi S. L.,
Nigam S. N., Rao R. C. Nageswara
Crop Science. 2000 40(5). p.1223
Reference Module in Food Science (2016)
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NIGAM S N,
RAO R C NAGESWARA,
WYNNE J C,
WILLIAMS J H,
FITZNER M, NAGABHUSHANAM G V S
Annals of Applied Biology. 1994 125(3). p.541
Advances in Agronomy Volume 55 (1995)
Advances in Agronomy Volume 116 (2012)
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Kendabie Presidor,
Jørgensen Søren T.,
Massawe Festo,
Fernandez Jose,
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Food and Energy Security. 2020 9(4).
Encyclopedia of Food Grains (2016)
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Summerfield R. J.,
Lawn R. J.,
QI A.,
Ellis R. H.,
Roberts E. H.,
Chay P. M.,
Brouwer J. B.,
Rose J. L.,
Shanmugasundaram S.,
Yeates S. J., Sandover S.
Experimental Agriculture. 1993 29(3). p.253
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DWIVEDP S L,
NIGAM S N,
CHANDRA S., RAMRAJ V M
Annals of Applied Biology. 1998 133(2). p.237
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Wallace D. H.,
Zobel R. W., Yourstone K. S.
Theoretical and Applied Genetics. 1993 86(1). p.17
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Wright G. C.,
Dieters M. J.,
George D. L.,
Hunter M. N.,
Tatnell J. R., Fleischfresser D. B.
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Bambara groundnut: an exemplar underutilised legume for resilience under climate change
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Ho Wai Kuan,
Chai Hui Hui,
Gao Xiuqing,
Kundy Aloyce C.,
Mateva Kumbirai I.,
Zahrulakmal Muhammad,
Hahiree Mohd Khairul Izwan Mohd,
Kendabie Presidor,
Licea Luis C. S.,
Massawe Festo,
Mabhaudhi Tafadzwanashe,
Modi Albert T.,
Berchie Joseph N.,
Amoah Stephen,
Faloye Ben,
Abberton Michael,
Olaniyi Oyatomi, Azam-Ali Sayed N.
Planta. 2019 250(3). p.803
