A genetic resource for early-morning flowering trait of wild rice Oryza officinalis to mitigate high temperature-induced spikelet sterility at anthesis

doi:10.1093/aob/mcq124

. 2010 Sep;106(3):515-20.

doi: 10.1093/aob/mcq124. Epub 2010 Jun 21.

A genetic resource for early-morning flowering trait of wild rice Oryza officinalis to mitigate high temperature-induced spikelet sterility at anthesis

Tsutomu Ishimaru¹, Hideyuki Hirabayashi, Masashi Ida, Toshiyuki Takai, Yumiko A San-Oh, Satoshi Yoshinaga, Ikuo Ando, Tsugufumi Ogawa, Motohiko Kondo

Affiliations

PMID: 20566680
PMCID: PMC2924824
DOI: 10.1093/aob/mcq124

A genetic resource for early-morning flowering trait of wild rice Oryza officinalis to mitigate high temperature-induced spikelet sterility at anthesis

Tsutomu Ishimaru et al. Ann Bot. 2010 Sep.

. 2010 Sep;106(3):515-20.

doi: 10.1093/aob/mcq124. Epub 2010 Jun 21.

Authors

Tsutomu Ishimaru¹, Hideyuki Hirabayashi, Masashi Ida, Toshiyuki Takai, Yumiko A San-Oh, Satoshi Yoshinaga, Ikuo Ando, Tsugufumi Ogawa, Motohiko Kondo

Affiliation

¹ National Institute of Crop Science, National Agricultural and Food Research Organization, 2-1-18 Kannondai, Tsukuba, Ibaraki, Japan. cropman@affrc.go.jp

PMID: 20566680
PMCID: PMC2924824
DOI: 10.1093/aob/mcq124

Abstract

Background and aims: High temperatures over 32-36 degrees C at anthesis induce spikelet sterility in rice. The use of a germplasm with an early-morning flowering (EMF) trait has been hypothesized as a way of avoiding this problem. In this study, the effect of the EMF trait on avoiding high temperature-induced sterility at anthesis by flowering at a cooler temperature in the early morning was evaluated.

Methods: The EMF trait was introgressed from wild rice (Oryza officinalis) into the rice cultivar 'Koshihikari' (O. sativa). First, spikelets of the EMF line and Koshihikari were subjected to rising temperatures during the daytime in the greenhouse to test for differences in spikelet sterility. Secondly, spikelets of both plants were exposed to 26, 34 and 38 degrees C at anthesis and to 38 degrees C beginning at least 1 h after flowering, in the growth chambers at 70 % relative humidity, to test for differences in tolerance to high temperatures.

Key results: Spikelets of the EMF line started and completed flowering a few hours earlier than Koshihikari. In a greenhouse experiment, spikelets of Koshihikari opened after the air temperature reached 35 degrees C, but those of the EMF line could open at cooler temperatures. Under these conditions, spikelet sterility significantly increased in Koshihikari, but did not in the EMF line. The number of sterile spikelets increased as their flowering time was delayed in Koshihikari. Furthermore, the chamber experiments revealed that 60 % of the spikelets from both lines were sterile when exposed to 38 degrees C at anthesis, indicating that tolerance of high temperature was similar in both genotypes.

Conclusions: Reduced sterility in the EMF line subjected to rising temperatures at anthesis in the greenhouse was attributed to an earlier flowering time compared with Koshihikari. The EMF trait of wild rice is effective in mitigating anticipated yield loss due to global warming by escaping high-temperature stress at anthesis during the daytime.

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Figures

**Fig. 1.**
Percentages of sterile spikelets in a panicle. Entire, total number of spikelets per panicle; Primary, spikelets on primary rachis branches; Secondary, spikelets on secondary rachis branches. **, Significant at the 1 % level; ns, non-significant at the 5 % level by t-test. Bars indicate s.e.

**Fig. 2.**
Hourly changes in percentages of opened spikelets in a single day.

**Fig. 3.**
Hourly changes in percentages of sterile spikelets in a single day. The spikelets used in this experiment were the same as for Fig. 2. The values were calculated for the hour when the percentage of opened spikelets was >10 % in a single day: 1100–1400 h and 1000–1300 h for Koshihikari under control and greenhouse conditions, 0700–1100 h and 0700–1000 h for the EMF line under control and greenhouse conditions, respectively. The difference of mean values in a single day was analysed by Tukey's test. Bars indicate the s.e. Different letters above the bars indicate the significant difference at the 1 % level. The experiment was repeated on another day with a similar result.

**Fig. 4.**
Percentages of sterile spikelets after temperature treatment at anthesis or beginning at least 1 h after flowering in growth chambers. Temperature treatments at anthesis, or treatment applied at least 1 h after flowering, as indicated on axis. Bars indicate the s.e.; ns, non-significant at the 5 % level by t-test.

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References

1. Baker JT, Allen LH, Boote KJ. Temperature effects on rice at elevated CO2 concentration. Journal of Experimental Botany. 1992;43:959–964.
1. Hasegawa T, Yoshimoto M, Kuwagata T, Ishigooka Y, Kondo M, Ishimaru T. The impact of global warming on rice production: lessons from spikelet sterility observed under the record hot summer of 2007. NIAES Annual Report 2008. 2009:23–25.
1. Horie T. Predicting the effects of climatic variation and elevated CO2 on rice yield in Japan. Journal of Agricultural Metrology. 1993;48:567–574.
1. IPCC. Working Group II. 4th Assessment Report, ‘Impacts, Adaptation and Valnerability’. 2007 http://www.ipcc-wg2.org/ . 7 October 2007.
1. Jagadish SVK, Craufurd PQ, Wheeler TR. High temperature stress and spikelet fertility in rice (Oryza sativa L.) Journal of Experimental Botany. 2007;58:1627–1635. - PubMed

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[1] Baker JT, Allen LH, Boote KJ. Temperature effects on rice at elevated CO2 concentration. Journal of Experimental Botany. 1992;43:959–964.

[2] Baker JT, Allen LH, Boote KJ. Temperature effects on rice at elevated CO2 concentration. Journal of Experimental Botany. 1992;43:959–964.

[3] Hasegawa T, Yoshimoto M, Kuwagata T, Ishigooka Y, Kondo M, Ishimaru T. The impact of global warming on rice production: lessons from spikelet sterility observed under the record hot summer of 2007. NIAES Annual Report 2008. 2009:23–25.

[4] Hasegawa T, Yoshimoto M, Kuwagata T, Ishigooka Y, Kondo M, Ishimaru T. The impact of global warming on rice production: lessons from spikelet sterility observed under the record hot summer of 2007. NIAES Annual Report 2008. 2009:23–25.

[5] Horie T. Predicting the effects of climatic variation and elevated CO2 on rice yield in Japan. Journal of Agricultural Metrology. 1993;48:567–574.

[6] Horie T. Predicting the effects of climatic variation and elevated CO2 on rice yield in Japan. Journal of Agricultural Metrology. 1993;48:567–574.

[7] IPCC. Working Group II. 4th Assessment Report, ‘Impacts, Adaptation and Valnerability’. 2007 http://www.ipcc-wg2.org/ . 7 October 2007.

[8] IPCC. Working Group II. 4th Assessment Report, ‘Impacts, Adaptation and Valnerability’. 2007 http://www.ipcc-wg2.org/ . 7 October 2007.

[9] Jagadish SVK, Craufurd PQ, Wheeler TR. High temperature stress and spikelet fertility in rice (Oryza sativa L.) Journal of Experimental Botany. 2007;58:1627–1635. - PubMed

[10] Jagadish SVK, Craufurd PQ, Wheeler TR. High temperature stress and spikelet fertility in rice (Oryza sativa L.) Journal of Experimental Botany. 2007;58:1627–1635. - PubMed

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A genetic resource for early-morning flowering trait of wild rice Oryza officinalis to mitigate high temperature-induced spikelet sterility at anthesis

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A genetic resource for early-morning flowering trait of wild rice Oryza officinalis to mitigate high temperature-induced spikelet sterility at anthesis

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