Autor:
Eeuwijk, F. van
Bustos-Korts, D.
Millet, E.J.
Boer, M.
Kruijer, W.
Thompson, A.
Malosetti, M.
Iwata, H.
Quiróz, R.
Kuppe, C.
Muller, O.
Blazakis, K.N.
Yu, K.
Tardieu, F.
Chapman, S.
New types of phenotyping tools generate large amounts of data on many aspects of plant physiology and morphology with high spatial and temporal resolution. These new phenotyping data are potentially useful to improve understanding and prediction of complex traits, like yield, that are characteriz...
Enlace original:
https://cgspace.cgiar.org/handle/10568/99155
Eeuwijk, F. van
,
Bustos-Korts, D.
,
Millet, E.J.
,
Boer, M.
,
Kruijer, W.
,
Thompson, A.
,
Malosetti, M.
,
Iwata, H.
,
Quiróz, R.
,
Kuppe, C.
,
Muller, O.
,
Blazakis, K.N.
,
Yu, K.
,
Tardieu, F.
,
Chapman, S.
,
[Modelling strategies for assessing and increasing the effectiveness of new phenotyping techniques in plant breeding.]
,
Modelling strategies for assessing and increasing the effectiveness of new phenotyping techniques in plant breeding.
