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AuthorUllah, Najeeb
AuthorChristopher, Jack
AuthorFrederiks, Troy
AuthorMa, Shangyu
AuthorTan, Daniel KY
AuthorChenu, Karine
Available date2023-05-10T07:29:02Z
Publication Date2023-03-01
Publication NameEuropean Journal of Agronomy
Identifierhttp://dx.doi.org/10.1016/j.eja.2023.126757
ISSN11610301
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85146851002&origin=inward
URIhttp://hdl.handle.net/10576/42532
AbstractWheat is highly sensitive to heat shocks and their timing. Hence, field-based ranking for heat tolerance may be confounded by phenological variations at the time of heat events. A photoperiod-extension method (PEM) was developed, allowing screening of wheat genotypes at matched developmental stages despite phenological variations. Paired trials were conducted to compare PEM and conventional field screening. In the PEM, artificial lighting was installed at one end of each row, inducing a gradient of flowering times. Individual stems or plot quadrats of each genotype were tagged at flowering. Late-sown plants experienced significantly more heat and greater grain yield reductions than early sown plants. Strong correlations between trials experiencing a similar degree of heat were found both for individual grain weight (IGW) and total grain weight with the PEM, either with individual stem tagging or quadrat tagging. By contrast, correlations for IGW and yield in these environments were either poor or negative for conventional trials. With the PEM, strong genetic correlations were found between irrigated environments of similar heat stress, with respective r correlations ranged from 0.46 to 0.8 for IGW; and 0.54–0.75 for total grain weight. By contrast these correlations were substantially weaker for conventional yield plots (average r values ranged from 0.11 to 0.53 for IGW; and 0.05–0.36 for grain yield. The quadrat sampling appeared overall more suitable for high-throughput phenotyping. The method promises to improve the efficiency of heat tolerance field screening, particularly when comparing genotypes of different maturity types.
SponsorThe research was made possible thanks to the support of The University of Queensland and the Queensland Government, Department of Agriculture and Fisheries. Najeeb Ullah was supported by a Queensland Government, Advance Queensland Fellowship. We acknowledge the assistance of Ian Broad (Department of Agriculture and Fisheries Queensland) with operating of weather stations across the studied sites, Brian Collins (James Cook University) for data analysis and Thaís Helena Godoy Sanches for sample processing and data collection.
Languageen
PublisherElsevier
SubjectBreeding
Crop improvement
Genotype x environment interaction
Heat stress
Phenotyping
Photoperiod extension
TitleA robust field-based method to screen heat tolerance in wheat
TypeArticle
Volume Number144
dc.accessType Open Access


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