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ABSTRACT: Background
Reduction in rice yield caused by high temperature-induced spikelet sterility has been a serious concern in rice production. To date, several screening methods have been used, although their reproducibility is sometimes poor due to artifacts mainly caused by varietal differences in heading dates and panicle heights (i.e., the distance from the lamps).Methods
We have developed a novel assay system for heat-induced spikelet sterility by using artificial rice paddies in phytotrons to conduct a highly reproducible assay throughout a year. Plants restricted to the main culm were treated under a series of heat conditions, and height uniformity of each plant was ensured by using height-adjustable pots.Results
Results suggested that a 3-day heat treatment of 35 °C-day/29 °C-night cycles was the most suitable condition. Under the treatment, two distinct groups were identified among nine heat tolerant cultivars, with no varietal difference in panicle temperature, indicating that the system is capable of eliminating the varietal difference in panicle temperature.Conclusions
It is concluded that the assay system would be a powerful tool for selecting heat tolerant varieties, as well as the analysis of genetic factors from various cultivars, eliminating potential artifacts.
SUBMITTER: Hakata M
PROVIDER: S-EPMC5424382 | biostudies-literature | 2017
REPOSITORIES: biostudies-literature
Hakata Makoto M Wada Hiroshi H Masumoto-Kubo Chisato C Tanaka Ryo R Sato Hiroyuki H Morita Satoshi S
Plant methods 20170510
<h4>Background</h4>Reduction in rice yield caused by high temperature-induced spikelet sterility has been a serious concern in rice production. To date, several screening methods have been used, although their reproducibility is sometimes poor due to artifacts mainly caused by varietal differences in heading dates and panicle heights (i.e., the distance from the lamps).<h4>Methods</h4>We have developed a novel assay system for heat-induced spikelet sterility by using artificial rice paddies in p ...[more]