A trait – environment relationship approach to participatory plant breeding for organic agriculture

Rolhauser, Andrés Guillermo; Windfeld, Emma; Hanson, Solveig; Wittman, Hannah; Thoreau, Chris; Lyon, Alexandra; Isaac, Marney E.

doi:10.1111/nph.18203

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Rolhauser, A. G.; Windfeld, E.; Hanson, S.; Wittman, H.; Thoreau, C.; Lyon, A. & Isaac, M. E. (2022)"A trait – environment relationship approach to participatory plant breeding for organic agriculture". New Phytologist,235, (3),p.1018-1031

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Título en inglés:

A trait – environment relationship approach to participatory plant breeding for organic agriculture

Autor/es:

Rolhauser, Andrés Guillermo; Windfeld, Emma; Hanson, Solveig; Wittman, Hannah; Thoreau, Chris; Lyon, Alexandra; Isaac, Marney E.

Filiación:

Rolhauser, Andrés Guillermo. University of Toronto Scarborough. Department of Physical and Environmental Sciences. Toronto, Canadá.
Rolhauser, Andrés Guillermo. Universidad de Buenos Aires. Facultad de Agronomía. Departamento de Métodos Cuantitativos y Sistemas de Información. Buenos Aires, Argentina.
Rolhauser, Andrés Guillermo. Universidad de Buenos Aires. Facultad de Agronomía. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA). Buenos Aires, Argentina.
Rolhauser, Andrés Guillermo. CONICET – Universidad de Buenos Aires. Facultad de Agronomía. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA). Buenos Aires, Argentina.
Windfeld, Emma. University of Toronto. Department of Geography. Toronto, Canadá.
Windfeld, Emma. University of Calgary. Simpson Centre. School of Public Policy. Calgary, Canadá.
Hanson, Solveig. University of British Columbia. Center for Sustainable Food Systems. Vancouver, Canadá.
Wittman, Hannah. University of British Columbia. Center for Sustainable Food Systems. Vancouver, Canadá.
Thoreau, Chris. University of British Columbia. Center for Sustainable Food Systems. Vancouver, Canadá.
Lyon, Alexandra. University of British Columbia. Center for Sustainable Food Systems. Vancouver, Canadá.
Lyon, Alexandra. Kwantlen Polytechnic University. Department of Sustainable Agriculture and Food Systems. Richmond, Canadá.
Isaac, Marney E. University of Toronto Scarborough. Department of Physical and Environmental Sciences. Toronto, Canadá.
Isaac, Marney E. University of Toronto. Department of Geography. Toronto, Canadá.

Año:

2022

Título revista:

New Phytologist

ISSN:

0028-646X

Volumen:

235

Número:

Páginas:

1018-1031

DOI:

10.1111/nph.18203

Temas:

CROP PERFORMANCE; DAUCUS CAROTA; FUNCTIONAL TRAITS; LEAF TRAITS; LINEAR MIXED MODEL; ROOT TRAITS; SELECTION; SOIL NUTRIENTS

Idioma:

Inglés

Material asociado:

Material Complementario:http://ri.agro.uba.ar/files/intranet/articulo/2022rolhauser-c1.pdf

URL al Editor:

https://www.wiley.com/

URL al registro:

http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2022rolhauser

Url al documento en Intranet FAUBA:

http://ri.agro.uba.ar/files/intranet/articulo/2022rolhauser.pdf

Resumen:

The extent of intraspecific variation in trait – environment relationships is an open question with limited empirical support in crops. In organic agriculture, with high environmental heterogeneity, this knowledge could guide breeding programs to optimize crop attributes. We propose a three - dimensional framework involving crop performance, crop traits, and environmental axes to uncover the multidimensionality of trait – environment relationships within a crop. We modeled instantaneous photosynthesis (Asat) and water - use efficiency (WUE) as functions of four phenotypic traits, three soil variables, five carrot (Daucus carota) varieties, and their interactions in a national participatory plant breeding program involving a suite of farms across Canada. We used these interactions to describe the resulting 12 trait – environment relationships across varieties. We found one significant trait – environment relationship for Asat [taproot tissue density – soil phosphorus], which was consistent across varieties. For WUE, we found that three relationships [petiole diameter – soil nitrogen, petiole diameter – soil phosphorus, and leaf area–soil phosphorus] varied significantly across varieties. As a result, WUE was maximized by different combinations of trait values and soil conditions depending on the variety. Our three - dimensional framework supports the identification of functional traits behind the differential responses of crop varieties to environmental variation and thus guides breeding programs to optimize crop attributes from an eco - evolutionary perspective.

Citación:

---------- APA ----------

Rolhauser, A. G.; Windfeld, E.; Hanson, S.; Wittman, H.; Thoreau, C.; Lyon, A. & Isaac, M. E. (2022). A trait – environment relationship approach to participatory plant breeding for organic agriculture. New Phytologist,235, (3),p.1018-1031
10.1111/nph.18203

---------- CHICAGO ----------

Rolhauser, Andrés Guillermo,Windfeld, Emma,Hanson, Solveig,Wittman, Hannah,Thoreau, Chris,Lyon, Alexandra, et al.. 2022. "A trait – environment relationship approach to participatory plant breeding for organic agriculture". New Phytologist 235, no.3:1018-1031.
Recuperado de http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2022rolhauser