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Journal Article 2017

Autor: Hickey, J.M. Chiurugwi, T. Mackay, I. Powell, Wayne Eggen, A. Kilian, A. Jones, Christopher S. Canales, C. Grattapaglia, D. Bassi, F. Atlin, G. Gorjanc, G. Dawson, I. Rabbi, Ismail Y. Ribaut, J.M. Rutkoski, J. Benzie, John A.H. Lightner, J. Mwacharo, Joram M. Parmentier, J. Robbins, K. Skot, L. Wolfe, M. Rouard, M. Clark, M. Amer, P. Gardiner, Peter R. Hendre, P. Mrode, Raphael A. Sivasankar, Shoba Rasmussen, S. Groh, S. Jackson, V. Thomas, W. Beyene, Y.

The rate of annual yield increases for major staple crops must more than double relative to current levels in order to feed a predicted global population of 9 billion by 2050. Controlled hybridization and selective breeding have been used for centuries to adapt plant and animal species for human ...

Enlace original: https://cgspace.cgiar.org/handle/10568/83533

Investigación en Agricultura
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Hickey, J.M.Chiurugwi, T.Mackay, I.Powell, WayneEggen, A.Kilian, A.Jones, Christopher S.Canales, C.Grattapaglia, D.Bassi, F.Atlin, G.Gorjanc, G.Dawson, I.Rabbi, Ismail Y.Ribaut, J.M.Rutkoski, J.Benzie, John A.H.Lightner, J.Mwacharo, Joram M.Parmentier, J.Robbins, K.Skot, L.Wolfe, M.Rouard, M.Clark, M.Amer, P.Gardiner, Peter R.Hendre, P.Mrode, Raphael A.Sivasankar, ShobaRasmussen, S.Groh, S.Jackson, V.Thomas, W.Beyene, Y.[Genomic prediction unifies animal and plant breeding programs to form platforms for biological discovery]Genomic prediction unifies animal and plant breeding programs to form platforms for biological discovery
Journal Article 2011

Autor: Roux, N. Rouard, M. Huang, X.L. Smith, M.
Enlace original: https://cgspace.cgiar.org/handle/10568/42410

Investigación en Agricultura
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Roux, N.Rouard, M.Huang, X.L.Smith, M.[Opportunities for bridging the gap between genomics and genetic improvement in Musa spp]Opportunities for bridging the gap between genomics and genetic improvement in Musa spp
Poster 2016

Autor: Zorrilla-Fontanesi, Y. Rouard, M. Cenci, A. Kissel, E. Roux, N. Swennen, R.L. Carpentier, S.C.

Drought is a complex phenomenon that is relevant for many crops. Performing high-throughput transcriptomics in non-model crops is challenging. The non-model crop where our workflow has been tested on is banana (Musa spp.), which ranks among the top ten staple foods (total production over 145 mill...

Enlace original: https://cgspace.cgiar.org/handle/10568/77311

Investigación en Agricultura
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Zorrilla-Fontanesi, Y.Rouard, M.Cenci, A.Kissel, E.Roux, N.Swennen, R.L.Carpentier, S.C.[How do roots respond to osmotic stress? A transcriptomic approach to address this question in a non-model crop]How do roots respond to osmotic stress? A transcriptomic approach to address this question in a non-model crop

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