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A wiring diagram to integrate physiological traits of wheat yield potential

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A wiring diagram to integrate physiological traits of wheat yield potential. / Reynolds, Matthew Paul; Slafer, Gustavo Ariel; Foulkes, John Michael et al.
In: Nature Food, Vol. 3, No. 5, 24.05.2022, p. 318-324.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Reynolds, MP, Slafer, GA, Foulkes, JM, Griffiths, S, Murchie, EH, Carmo-Silva, E, Asseng, S, Chapman, SC, Sawkins, M, Gwyn, J & Flavell, RB 2022, 'A wiring diagram to integrate physiological traits of wheat yield potential', Nature Food, vol. 3, no. 5, pp. 318-324. https://doi.org/10.1038/s43016-022-00512-z

APA

Reynolds, M. P., Slafer, G. A., Foulkes, J. M., Griffiths, S., Murchie, E. H., Carmo-Silva, E., Asseng, S., Chapman, S. C., Sawkins, M., Gwyn, J., & Flavell, R. B. (2022). A wiring diagram to integrate physiological traits of wheat yield potential. Nature Food, 3(5), 318-324. https://doi.org/10.1038/s43016-022-00512-z

Vancouver

Reynolds MP, Slafer GA, Foulkes JM, Griffiths S, Murchie EH, Carmo-Silva E et al. A wiring diagram to integrate physiological traits of wheat yield potential. Nature Food. 2022 May 24;3(5):318-324. doi: 10.1038/s43016-022-00512-z

Author

Reynolds, Matthew Paul ; Slafer, Gustavo Ariel ; Foulkes, John Michael et al. / A wiring diagram to integrate physiological traits of wheat yield potential. In: Nature Food. 2022 ; Vol. 3, No. 5. pp. 318-324.

Bibtex

@article{c80c91c60f0d4719bb739480a9f39e1f,
title = "A wiring diagram to integrate physiological traits of wheat yield potential",
abstract = "As crop yields are pushed closer to biophysical limits, achieving yield gains becomes increasingly challenging and will require more insight into deterministic pathways to yields. Here, we propose a wiring diagram as a platform to illustrate the interrelationships of the physiological traits that impact wheat yield potential and to serve as a decision support tool for crop scientists. The wiring diagram is based on the premise that crop yield is a function of photosynthesis (source), the investment of assimilates into reproductive organs (sinks) and the underlying processes that enable expression of both. By illustrating these linkages as coded wires, the wiring diagram can show connections among traits that may not have been apparent, and can inform new research hypotheses and guide crosses designed to accumulate beneficial traits and alleles in breeding. The wiring diagram can also serve to create an ever-richer common point of reference for refining crop models in the future.",
keywords = "Agronomy and Crop Science, Animal Science and Zoology, Food Science",
author = "Reynolds, {Matthew Paul} and Slafer, {Gustavo Ariel} and Foulkes, {John Michael} and Simon Griffiths and Murchie, {Erik Harry} and Elizabete Carmo-Silva and Senthold Asseng and Chapman, {Scott C.} and Mark Sawkins and Jeff Gwyn and Flavell, {Richard Bailey}",
year = "2022",
month = may,
day = "24",
doi = "10.1038/s43016-022-00512-z",
language = "English",
volume = "3",
pages = "318--324",
journal = "Nature Food",
publisher = "Springer Nature",
number = "5",

}

RIS

TY - JOUR

T1 - A wiring diagram to integrate physiological traits of wheat yield potential

AU - Reynolds, Matthew Paul

AU - Slafer, Gustavo Ariel

AU - Foulkes, John Michael

AU - Griffiths, Simon

AU - Murchie, Erik Harry

AU - Carmo-Silva, Elizabete

AU - Asseng, Senthold

AU - Chapman, Scott C.

AU - Sawkins, Mark

AU - Gwyn, Jeff

AU - Flavell, Richard Bailey

PY - 2022/5/24

Y1 - 2022/5/24

N2 - As crop yields are pushed closer to biophysical limits, achieving yield gains becomes increasingly challenging and will require more insight into deterministic pathways to yields. Here, we propose a wiring diagram as a platform to illustrate the interrelationships of the physiological traits that impact wheat yield potential and to serve as a decision support tool for crop scientists. The wiring diagram is based on the premise that crop yield is a function of photosynthesis (source), the investment of assimilates into reproductive organs (sinks) and the underlying processes that enable expression of both. By illustrating these linkages as coded wires, the wiring diagram can show connections among traits that may not have been apparent, and can inform new research hypotheses and guide crosses designed to accumulate beneficial traits and alleles in breeding. The wiring diagram can also serve to create an ever-richer common point of reference for refining crop models in the future.

AB - As crop yields are pushed closer to biophysical limits, achieving yield gains becomes increasingly challenging and will require more insight into deterministic pathways to yields. Here, we propose a wiring diagram as a platform to illustrate the interrelationships of the physiological traits that impact wheat yield potential and to serve as a decision support tool for crop scientists. The wiring diagram is based on the premise that crop yield is a function of photosynthesis (source), the investment of assimilates into reproductive organs (sinks) and the underlying processes that enable expression of both. By illustrating these linkages as coded wires, the wiring diagram can show connections among traits that may not have been apparent, and can inform new research hypotheses and guide crosses designed to accumulate beneficial traits and alleles in breeding. The wiring diagram can also serve to create an ever-richer common point of reference for refining crop models in the future.

KW - Agronomy and Crop Science

KW - Animal Science and Zoology

KW - Food Science

U2 - 10.1038/s43016-022-00512-z

DO - 10.1038/s43016-022-00512-z

M3 - Journal article

VL - 3

SP - 318

EP - 324

JO - Nature Food

JF - Nature Food

IS - 5

ER -