推迟播期是否能提高四川盆地机插稻的蒸煮食味品质？

doi:10.1016/j.jia.2024.03.023

Journal of Integrative Agriculture ›› 2025, Vol. 24 ›› Issue (9): 3368-3383.DOI: 10.1016/j.jia.2024.03.023

推迟播期是否能提高四川盆地机插稻的蒸煮食味品质？

收稿日期:2023-10-08 修回日期:2024-03-06 接受日期:2024-02-01 出版日期:2025-09-20 发布日期:2025-08-11

Can a delayed sowing date improve the eating and cooking quality of mechanically transplanted rice in the Sichuan Basin, China?

Yuxin He^{1, 2*}, Fei Deng^1,
2*#, Chi Zhang^{1, 2*}, Qiuping Li^{1, 2}, Xiaofan Huang^1,
2, Chenyan He^{1, 2}, Xiaofeng Ai^{1, 2}, Yujie Yuan^1,
2, Li Wang^{1, 2}, Hong Cheng^{1, 2}, Tao Wang^{1, 2}, Youfeng Tao^{1, 2}, Wei Zhou^{1, 2}, Xiaolong Lei^{1, 3}, Yong Chen^{1, 2}, Wanjun Ren^{1, 2#}

¹State Key Laboratory of Crop Gene Exploration and Utilization in Southwest China/Key Laboratory of Crop Eco-Physiology and Farming System in Southwest China, Ministry of Agriculture and Rural Affairs, Chengdu 611130, China
²College of Agronomy, Sichuan Agricultural University, Chengdu 611130, China
³College of Mechanical and Electrical Engineering, Sichuan Agricultural University, Ya’an 625014, China

Received:2023-10-08 Revised:2024-03-06 Accepted:2024-02-01 Online:2025-09-20 Published:2025-08-11
About author:#Correspondence Fei Deng, E-mail: ddf273634096@163.com; Wanjun Ren, E-mail: rwjun@126.com * These authors contributed equally to this study.
Supported by:
This work was supported by the National Natural Science Foundation of China (U20A2022 and 32372217), the National Key Research and Development Program of China (2022YFD2300700), and the Free Exploration Program of State Key Laboratory of Crop Gene Exploration and Utilization in Sichuan Basin, China (SKL-ZY202216).

摘要/Abstract

摘要：

在水稻生产中，调整播期是一种普遍使用的措施以适应高温环境。然而，推迟播期对稻米品质的影响可能因品种和生态条件而异。糊化特性常被人们用来评价稻米的蒸煮食味品质。为进一步明确推迟播期对稻米糊化特性的影响，本研究以宜香优2115、F优498和川优6203等3个水稻品种为研究对象，于2018和2019年在四川盆地的大邑、安州、南部和射洪等4个生态点设置了不同播期试验，共设置正常播期1（CS1）、正常播期2（CS2，比CS1晚播10 d）、推迟播期1 (DS1，比CS1晚播30 d)和推迟播期2（DS2，比CS2晚播30 d）等4个处理。研究结果表明，较CS1和CS2处理，DS1和DS2处理显著提高了稻米的直链淀粉含量，但降低了蛋白质含量、峰值黏度、热浆黏度和冷胶黏度。除2018年CS2和DS1处理间差异不显著外，DS1和DS2处理使崩解值降低了2.15–11.19%，消减值则增加了23.46–108.47%。然而，推迟播期处理对稻米糊化特性的影响因生态点和品种而存在明显差异。2019年，DS1和DS2处理导致大邑、安州、南部和射洪生态点崩解值分别降低了2.35–9.33%、2.61–8.61%、10.03–17.78%和2.06–8.93%，消减值则分别增加了2.32–60.93%、63.74–144.24%、55.46–91.63%和-8.28–65.37%。相关分析结果表明，峰值黏度和热浆黏度与抽穗后的平均、最高和最低温度呈显著正相关关系。将抽穗后的平均、最高和最低温度控制在25.9、31.2和 22.3℃以上，有利于稻米相对崩解值的提高和相对消减值的降低，进而提高稻米的蒸煮食味品质。综上，推迟播期处理可能会导致四川盆地机插稻食味品质变劣，而将抽穗后的平均温度控制在25.9℃以上有利于稻米蒸煮食味品质的提升。

Abstract:

Adjustment of the sowing date is a widely used measure in rice production for adapting to high-temperature conditions. However, the impact of a delayed sowing date (DS) on rice quality may vary by variety and ecological conditions. In this study, we conducted experiments using four different sowing dates, the conventional sowing date 1 (CS1), CS2 (10 d later than CS1), DS1 (30 d later than CS1), and DS2 (30 d later than CS2), and three rice varieties, i.e., Yixiangyou 2115, Fyou 498, and Chuanyou 6203. This experiment was conducted at four sites in the Sichuan Basin in 2018 and 2019 to evaluate the influence of DS on the pasting properties of rice, which are a proxy for the eating and cooking quality (ECQ). In DS1 and DS2, the rice had a significantly greater amylose content (AC) but a lower protein content (PC), peak viscosity (PKV), cool paste viscosity (CPV), and hot paste viscosity (HPV) than in CS1 and CS2. Moreover, except for CS2 and DS1 in 2018, DS1 and DS2 led to 2.15–11.19% reductions in breakdown viscosity (BDV) and 23.46–108.47% increases in setback viscosity (SBV). However, the influence of DS on rice pasting properties varied by study site and rice variety. In 2019, DS1 and DS2 led to BDV reductions of 2.35–9.33, 2.61–8.61, 10.03–17.78, and 2.06–8.93%, and SBV increases of 2.32–60.93, 63.74–144.24, 55.46–91.63, and –8.28–65.37% at the Dayi, Anzhou, Nanbu, and Shehong (except for SBV in CS2 and DS1) sites, respectively. DS resulted in greater reductions in PKV, HPV, CPV, and BDV and greater increases in the AC and SBV for Yixiangyou 2115 than for Chuanyou 6203 and Fyou 498. The correlation analysis indicated that PKV and HPV were significantly and positively related to the mean, maximum, and minimum temperatures after heading. These temperatures must be greater than 25.9, 31.2, and 22.3°C, respectively, to increase the relative BDV and reduce the relative SBV of rice, thereby enhancing ECQ. In conclusion, DS might contribute to a significant deterioration in ECQ in machine-transplanted rice in the Sichuan Basin. A mean temperature above 25.9°C after heading is required to improve the ECQ of rice.

Key words: eating and cooking quality , rice , sowing date , pasting characteristics , temperature

Yuxin He, Fei Deng, Chi Zhang, Qiuping Li, Xiaofan Huang, Chenyan He, Xiaofeng Ai, Yujie Yuan, Li Wang, Hong Cheng, Tao Wang, Youfeng Tao, Wei Zhou, Xiaolong Lei, Yong Chen, Wanjun Ren. 推迟播期是否能提高四川盆地机插稻的蒸煮食味品质？[J]. Journal of Integrative Agriculture, 2025, 24(9): 3368-3383.

Yuxin He, Fei Deng, Chi Zhang, Qiuping Li, Xiaofan Huang, Chenyan He, Xiaofeng Ai, Yujie Yuan, Li Wang, Hong Cheng, Tao Wang, Youfeng Tao. Wei Zhou, Xiaolong Lei, Yong Chen, Wanjun Ren. Can a delayed sowing date improve the eating and cooking quality of mechanically transplanted rice in the Sichuan Basin, China?[J]. Journal of Integrative Agriculture, 2025, 24(9): 3368-3383.

参考文献

Ahmed N, Tetlow I J, Nawaz S, Iqbal A, Mubin M, Rehman S, Butt A, Lightfoot D A, Maekawa M. 2015. Effect of high temperature on grain filling period, yield, amylose content and activity of starch biosynthesis enzymes in endosperm of basmati rice. Journal of the Science of Food and Agriculture, 95, 2237–2243.

Bae J, Hong J S, Baik M, Choi H, Choi H, Kim H. 2020. Impact of starch granule-associated surface and channel proteins on physicochemical properties of corn and rice starches. Carbohydrate Polymers, 250, 116908.

Bin Rahman A N M Rubaiyath, Zhang J. 2022. Trends in rice research: 2030 and beyond. Food and Energy Security, 12, e390.

Chen H, Chen D, He L H, Wang T, Lu H, Yang F, Deng F, Chen Y, Tao Y F, Li M, Li G Y, Ren W J. 2021. Correlation of taste values with chemical compositions and Rapid Visco Analyser profiles of 36 indica rice (Oryza sativa L.) varieties. Food Chemistry, 349, 129176.

Chen H, Yang G T, Xiao Y, Zhang G H, Yang G X, Wang X C, Hu Y G. 2023. Effects of nitrogen and phosphorus fertilizer on the eating quality of indica rice with different amylose content. Journal of Food Composition and Analysis, 118, 105167.

Deng F, He L H, Chen D, Zhang C, Tian Q L, Wu Z Y, Li Q P, Zeng Y L, Zhong X Y, Chen H, Wang L, Ren W J. 2022a. Growth characteristics and grain yield of machine-transplanted medium indica hybrid rice with high daily yield. Journal of Integrative Agriculture, 21, 2547–2558.

Deng F, Lu H, Yuan Y J, Chen H, Li Q P, Wang L, Tao Y F, Zhou W, Cheng H, Chen Y, Lei X L, Li G Y, Li M, Ren W J. 2023. Accurate prediction of the eating and cooking quality of rice using artificial neural networks and the texture properties of cooked rice. Food Chemistry, 407, 135176.

Deng F, Zhang C, He L H, Liao S, Li Q P, Li B, Zhu S L, Gao Y T, Tao Y F, Zhou W, Lei X L, Wang L, Hu J F, Chen Y, Ren W J. 2022b. Delayed sowing date improves the quality of mechanically transplanted rice by optimizing temperature conditions during growth season. Field Crops Research, 281, 108493.

Devi L M, Badwaik L S. 2022. Variety difference in physico-chemical, cooking, textural, pasting and phytochemical properties of pigmented rice. Food Chemistry Advances, 1, 100059.

Dhaliwal Y S, Nagi H P S, Sidhub G S, Sekhon A K S. 1986. Physicochemical, milling and cooking quality of rice as affected by sowing and transplanting dates. Journal of the Science of Food and Agriculture, 9, 881–887.

Fan X L, Li Y Q, Zhang C Q, Lia E P, Che Z Z, Li Q F, Zhang Z W, Zhu Y, Sun X S, Liu Q Q. 2019. Effects of high temperature on the fine structure of starch during the grain-filling stages in rice: Mathematical modeling and integrated enzymatic analysis. Journal of the Science of Food and Agriculture, 99, 2865–2873.

Fan X L, Li Y Q, Zhu Y, Wang J D, Zhao J, Sun X S, Pan Y T, Bian X Y, Zhang C Q, Zhao D S, Liu Q Q. 2020. Characterization of physicochemical qualities and starch structures of two indica rice varieties tolerant to high temperature during grain filling. Journal of Cereal Science, 93, 102966.

Fan X L, Zhao J, Sun X S, Zhu Y, Li Q F, Zhang L, Zhao D S, Huang L C, Zhang C Q, Liu Q Q. 2022. Exogenous melatonin improves the quality performance of rice under high temperature during grain filling. Agronomy, 12, 949.

Gautam H, Fatma M, Sehar Z, Mir I R, Khan N A. 2022. Hydrogen sulfide, ethylene, and nitric oxide regulate redox homeostasis and protect photosynthetic metabolism under high temperature stress in rice plants. Antioxidants, 11, 1478.

Hsu Y, Tseng M, Wu Y, Lin M, Wei F, Hwu K, Hsing Y, Lin Y. 2014. Genetic factors responsible for eating and cooking qualities of rice grains in a recombinant inbred population of an inter-subspecific cross. Molecular Breeding, 34, 655–673.

Hu Y J, Xue J T, Li L, Cong S M, Yu E W, Xu K, Zhang H C. 2021. Influence of dynamic high temperature during grain filling on starch fine structure and functional properties of semi-waxy japonica rice. Journal of Cereal Science, 101, 103319.

Huang M, Cao J L, Zhang R C, Chen J N, Cao F B, Liu L S, Fang S L, Zhang M. 2022. Delayed sowing does not improve palatability-related traits in high-quality rice. Food Chemistry Advances, 1, 100096.

Kaewmungkun K, Tongmark K, Chakhonkaen S, Sangarwut N, Wasinanon T, Panyawut N, Ditthab K, Sikaewtung K, Qi Y, Dapha S, Panya A, Phonsatta N, Muangprom A. 2023. Development of new aromatic rice lines with high eating and cooking qualities. Journal of Integrative Agriculture, 22, 679–690.

Li G H, Chen T Y, Xu K, Liu Y Y, Dai Q G, Huo Z Y, Wei H Y. 2021. Early sowing increases grain yield and cooking and eating quality of machine-transplanted rice in eastern China. Crop Science, 61, 4383–4401.

Li Q P, Deng F, Zeng Y L, Li B, He C Y, Zhu Y Y, Zhou X, Zhang Z N, Wang L, Tao Y F, Zhang Y, Zhou W, Cheng H, Chen Y, Lei X L, Ren W J. 2022. Low light stress increases chalkiness by disturbing starch synthesis and grain filling of rice. International Journal of Molecular Sciences, 23, 9153.

Lin C J, Li C Y, Lin S K, Yang F H, Huang J J, Liu Y H, Lur H S. 2010. Influence of high temperature during grain filling on the accumulation of storage proteins and grain quality in rice (Oryza sativa L.). Journal of Agricultural and Food Chemistry, 58, 10545–10552.

Lü G H, Wu Y F, Bai W B, Ma B, Wang C Y, Song J Q. 2013. Influence of high temperature stress on net photosynthesis, dry matter partitioning and rice grain yield at flowering and grain filling stages. Journal of Integrative Agriculture, 12, 603–609.

Makino A, Suzuki Y, Ishiyama K. 2022. Enhancing photosynthesis and yield in rice with improved N use efficiency. Plant Science, 325, 111475.

Matsue Y, Takasaki K, Abe J. 2021. Water management for improvement of rice yield, appearance quality and palatability with high temperature during ripening period. Rice Science, 28, 409–416.

Müller A, Coradi P C, Nunes M T, Grohs M, Bressiani J, Teodoro P E, Anschau K F, Flores E M M. 2021. Effects of cultivars and fertilization levels on the quality of rice milling: A diagnosis using near-infrared spectroscopy, X-ray diffraction, and scanning electron microscopy. Food Research International, 147, 110524.

Nakamura S, Katsura J, Maruyama Y, Ohtsubo K I. 2021. Evaluation of hardness and retrogradation of cooked rice based on its pasting properties using a novel RVA testing. Foods, 10, 987.

Rajinder-Pal, Mahajan G, Sardana V, Sharma N, Chauhan B S. 2018. Grain quality of dry-seeded rice in response to sowing dates and genotypes. International Journal of Plant Production, 12, 95–106.

Shahid M, Nayak A K, Tripathi R, Katara J L, Bihari P, Lal B, Gautam P. 2018. Boron application improves yield of rice cultivars under high temperature stress during vegetative and reproductive stages. International Journal of Biometeorology, 62, 1375–1387.

Shi P H, Tang L, Lin C B, Liu L L, Wang H H, Cao W X, Zhu Y. 2015. Modeling the effects of post-anthesis heat stress on rice phenology. Field Crops Research, 177, 26–36.

Siddik M A, Zhang J, Chen J, Qian H, Jiang Y, Raheem A K, Deng A, Song Z, Zheng C, Zhang W. 2019. Responses of indica rice yield and quality to extreme high and low temperatures during the reproductive period. European Journal of Agronomy, 106, 30–38.

Sun Q, Liu X Y, Zhang S Y, Zhang J G. 2011. Current situation, pressure and development countermeasures on chinese rice industry. North Rice, 4, 69–71. (in Chinese)

Tang S, Zhao Y F, Ran X, Guo H, Yin T Y, Shen Y Y, Liu W Z, Ding Y F. 2022. Exogenous application of methyl jasmonate at the booting stage improves rice’s heat tolerance by enhancing antioxidant and photosynthetic activities. Agronomy, 12, 1573.

Tao K Y, Li C, Yu W W, Gilbert R G, Li E P. 2019. How amylose molecular fine structure of rice starch affects functional properties. Carbohydrate Polymers, 204, 24–31.

Tong H, Duan H, Wang S J, Su J P, Sun Y, Liu Y Q, Tang L, Liu X J, Chen W F. 2022. Moderate drought alleviates the damage to grain quality at high temperatures by improving the starch synthesis of inferior grains in japonica rice. Journal of Integrative Agriculture, 21, 3094–3101.

Tu D B, Jiang Y, Salah A, Xi M, Cai M L, Cheng B, Sun X S, Cao C G, Wu W G. 2023. Variation of rice starch structure and physicochemical properties in response to high natural temperature during the reproductive stage. Frontiers in Plant Science, 14, 1136347.

Tu D B, Jiang Y, Zhang L J, Cai M L, Li C F, Cao C G. 2022. Effect of various combinations of temperature during different phenological periods on indica rice yield and quality in the Yangtze River Basin in China. Journal of Integrative Agriculture, 21, 2900–2909.

Wang F B, Wan C Z, Niu H F, Qi M Y, Li G, Zhang F, Hu L B, Ye Y X, Wang Z X, Pei B L, Chen X H, Yuan C Y. 2023. OsMas1, a novel maspardin protein gene, confers tolerance to salt and drought stresses by regulating ABA signaling in rice. Journal of Integrative Agriculture, 22, 341–359.

Wang L, Deng F, Ren W J, Yang W Y. 2013. Effects of shading on starch pasting characteristics of indica hybrid rice (Oryza sativa L.). PLoS ONE, 8, e68220.

Wang L H, Zhang J N, Zhang X X, Sun H F, Zhou H L, Zhou S. 2023. Research progress of rice taste quality and its influencing factors in China. Acta Agriculturae Shanghai, 39, 148–154. (in Chinese)

Ward R, Spohr L, Snell P. 2019. Rice grain quality: An Australian multi-environment study. Crop and Pasture Science, 70, 946.

Xiang G Y, Li J T, Lin Q L, Zhang Y L, Ding Y Q, Guo X F, Pan Q R, Liu Q X, Fu X J, Yang Y, Han W F, Fang Y. 2023. The effect of heat-moisture treatment changed the binding of starch, protein and lipid in rice flour to affect its hierarchical structure and physicochemical properties. Food Chemistry (X), 19, 100785.

Xu C S, Lu B, Liang L M, Yang F, Ding C, Yan F Y, Zhou Y, Jiang Z R, Liu Z H, Ding Y F, Li W W, Li G H. 2022. Delayed sowing date improves rice cooking and taste quality by regulating the quantity and quality of grains located on secondary branches. Agronomy (Basel), 12, 1316.

Yan C J, Song S H, Wang W B, Wang C L, Li H B, Wang F, Li S Y, Sun X G. 2020. Screening diverse soybean genotypes for drought tolerance by membership function value based on multiple traits and drought-tolerant coefficient of yield. BMC Plant Biology, 20, 321.

Yang J, Duan L C, He H H, Li Y C, Li X X, Liu D, Wang J J, Jin G H, Huang S. 2022. Application of exogenous KH2PO4 and salicylic acid and optimization of the sowing date enhance rice yield under high-temperature conditions. Journal of Plant Growth Regulation, 41, 1532–1546.

Yao D P, Wu J, Luo Q H, Li J W, Zhuang W, Xiao G, Deng Q Y, Lei D Y, Bai B. 2020. Influence of high natural field temperature during grain filling stage on the morphological structure and physicochemical properties of rice (Oryza sativa L.) starch. Food Chemistry, 310, 125817.

Yao D P, Wu J, Luo Q H, Shen H, Zhuang W, Xiao G, Li J W, Li Y G, Deng Q Y, Lei D Y, Bai B. 2021. Comprehensive evaluation of high temperature tolerance of six rice varieties during grain-filling period based on key starch physicochemical indexes. LWT-Food Science and Technology, 148, 111804.

Zhao C F, Yue H L, Huang S J, Chen T, Zhu Z, Zhao Q. 2019. Eating quality and physicochemical properties in nanjing rice varieties. Scientia Agricultura Sinica, 52, 909–920. (in Chinese)

Zhou N B, Zhang J, Fang S L, Wei H Y, Zhang H C. 2021. Effects of temperature and solar radiation on yield of good eating-quality rice in the lower reaches of the Huai River Basin, China. Journal of Integrative Agriculture, 20, 1762–1774.

推迟播期是否能提高四川盆地机插稻的蒸煮食味品质？

Can a delayed sowing date improve the eating and cooking quality of mechanically transplanted rice in the Sichuan Basin, China?

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