Translocation and Distribution of Carbon-Nitrogen in Relation to Rice Yield and Grain Quality as Affected by High Temperature at Early Panicle Initiation Stage

IF 5.6 2区 农林科学 Q1 AGRONOMY Rice Science Pub Date : 2023-11-01 DOI:10.1016/j.rsci.2023.06.003
Ji Dongling , Xiao Wenhui , Sun Zhiwei , Liu Lijun , Gu Junfei , Zhang Hao , Matthew Tom Harrison , Liu Ke , Wang Zhiqin , Wang Weilu , Yang Jianchang
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Abstract

Due to climate change, extreme heat stress events have become more frequent, adversely affecting rice yield and grain quality. The accumulation and translocation of dry matter and nitrogen substances are essential for rice yield and grain quality. To assess the impact of high temperature stress (HTS) at the early panicle initiation (EPI) stage on the accumulation, transportation, and distribution of dry matter and nitrogen substances in various organs of rice, as well as the resulting effects on rice yield and grain quality, pot experiments were conducted using an indica rice cultivar Yangdao 6 (YD6) and a japonica rice cultivar Jinxiangyu 1 (JXY1) under both normal temperature (32 ºC / 26 ºC) and high temperature (38 ºC / 29 ºC) conditions. The results indicated that exposure to HTS at the EPI stage significantly decreased rice yield by reducing spikelet number per panicle, grain-filling rate, and grain weight. However, it improved the nutritional quality of rice grains by increasing protein and amylose contents. The reduction in nitrogen and dry matter accumulation accounted for the changes in spikelet number per panicle, grain-filling rate, and grain size. Under HTS, the decrease in nitrogen accumulation accompanied by the reduction in dry matter may be due to the down-regulation of leaf net photosynthesis and senescence, as evidenced by the decrease in nitrogen content. Furthermore, the decrease in sink size limited the translocation of dry matter and nitrogen substances to grains, which was closely related to the reduction in grain weight and the deterioration of grain quality. These findings significantly contribute to our understanding of the mechanisms of HTS on grain yield and quality formation from the perspective of dry matter and nitrogen accumulation and translocation. Further efforts are needed to improve the adaptability of rice varieties to climate change in the near future.

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穗初萌发期高温对水稻产量和品质碳氮转运和分配的影响
由于气候变化,极端热胁迫事件日益频繁,对水稻产量和粮食品质产生不利影响。干物质和氮物质的积累和转运对水稻产量和籽粒品质至关重要。为评价穗初形成期高温胁迫对水稻各器官干物质和氮物质积累、运输和分配的影响,以及对水稻产量和籽粒品质的影响。以籼稻杨稻6号(YD6)和粳稻金稻1号(JXY1)为材料,在常温(32ºC / 26ºC)和高温(38ºC / 29ºC)条件下进行盆栽试验。结果表明,水稻EPI期高温胁迫通过降低每穗粒数、籽粒灌浆速率和籽粒重显著降低水稻产量。然而,它通过增加蛋白质和直链淀粉含量来改善稻米的营养品质。氮素和干物质积累的减少是每穗小穗数、灌浆速率和籽粒大小变化的主要原因。高温胁迫下,干物质减少的同时,氮素积累的减少可能是由于叶片净光合作用和衰老的下调,表现为氮素含量的降低。此外,库大小的减小限制了干物质和氮物质向籽粒的转运,这与籽粒重的减少和籽粒品质的恶化密切相关。这些发现有助于我们从干物质和氮积累与转运的角度理解高温胁迫对粮食产量和品质形成的影响机制。在不久的将来,需要进一步努力提高水稻品种对气候变化的适应性。
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来源期刊
Rice Science
Rice Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
8.90
自引率
6.20%
发文量
55
审稿时长
40 weeks
期刊介绍: Rice Science is an international research journal sponsored by China National Rice Research Institute. It publishes original research papers, review articles, as well as short communications on all aspects of rice sciences in English language. Some of the topics that may be included in each issue are: breeding and genetics, biotechnology, germplasm resources, crop management, pest management, physiology, soil and fertilizer management, ecology, cereal chemistry and post-harvest processing.
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