盐碱胁迫对粳稻种质资源穗部形态建成的影响
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1.宁夏大学 农学院/宁夏优势特色作物现代分子育种重点实验室;2.1宁夏大学 农学院/宁夏优势特色作物现代分子育种重点实验室, 2塔里木大学农学院

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国家自然科学基金资助项目(32260492);宁夏自然科学基金优秀青年项目(2022AAC05011);国家重点研发计划项目课题(2021YFD1900603)


Effects of Saline-alkaline Stress on the Morphogenesis of Panicle of Japonica Rice Germplasm
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1.College of Agriculture, Ningxia University/Key Laboratory of Modern Molecular Breeding for Dominant and Characteristic Crops in Ningxia , Yinchuan;2.College of Agriculture, Ningxia University/Key Laboratory of Modern Molecular Breeding for Dominant and Characteristic Crops in Ningxia

Fund Project:

National Natural Science Foundation of China (32260492), Natural Science Foundation of Ningxia Outstanding Youth Project (2022AAC05011), National Key Research and Development Project(2021YFD1900603)

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    摘要:

    盐碱胁迫是制约水稻高产稳产的重要限制因素之一。解析不同盐碱逆境对水稻穗部形态的影响,筛选耐盐碱水稻种质,对耐盐碱水稻育种具有重要意义。本研究以正常稻田土为对照(CK),设置两种不同类型盐碱土的逆境胁迫,处理Ⅰ以盐胁迫为主,处理Ⅱ以碱胁迫为主。通过测定164份粳稻种质资源的11个穗部性状,利用相关性分析、主成分分析、线性回归分析和通径分析等多元统计学方法,综合评价了不同盐碱逆境下粳稻种质穗部性状的优劣。结果表明:在两种盐碱处理下,粳稻种质的7个穗部性状,即穗长、每穗粒数、穗着粒密度、一次枝梗粒数、一次枝梗数、二次枝梗粒数和二次枝梗数相较于CK均显著降低。处理Ⅰ的穗长、每穗粒数、二次枝梗着粒密度、二次枝梗粒数和二次枝梗数均显著高于处理Ⅱ。在不同处理条件下,11个穗部性状之间的相关性存在一定的差异,处理Ⅰ和处理Ⅱ的千粒重与结实率呈极显著正相关(p<0.01),而CK条件下相关性未达到显著水平。CK、处理Ⅰ和处理Ⅱ的穗部性状主成分分析均提取到了3个主成分,累计贡献率分别为80.4%、86.4%和83.9%。结合主成分和线性回归分析,确定每穗粒数、穗着粒密度、一次枝梗粒数和一次枝梗数4个指标可作为评价盐碱土条件下粳稻穗部形态的重要指标。基于穗部性状的综合D值,筛选到辽粳1201、平粳8号、丰稻508、松820、宁恢1号5份耐盐碱种质,可作为复杂盐碱环境下水稻株型育种的重要材料。

    Abstract:

    Saline-alkaline stress is a critical limiting factor for high-yield and stable production of rice. Elucidating the effects of different Saline-alkali soils on rice panicle morphology, and screening saline-alkali-tolerant rice germplasm accessions are of great significance to the breeding of saline-alkali tolerant rice varieties. In the present study, normal paddy soil was used as control (CK), with two different types of saline-alkali soil being used as experimental treatments. Treatment I focused on salt stress, while treatment II focused on alkali stress. A total of 164 japonica rice germplasm were examined for 11 panicle traits. Then, multivariate statistical methods, such as correlation analysis, principal component analysis (PCA), linear regression analysis (LRA) and path analysis were used to comprehensively evaluated the panicle traits of these japonica rice germplasm under different saline and alkaline adversities. The results indicated that under the two saline-alkali treatments, spike length (SL), grain number per panicle (GNP), grain density (GD), grain number of primary branch (GNPB), primary branch number (PBN), grain number of secondary branch (GNSB), and secondary branch number (SBN), were significantly reduced compared to CK. Compared with treatment II, Treatment I showed significantly increased in SL, GNP, secondary branch grain density (SBGD), GNSB, and SBN. Under different treatment conditions, variations in the correlation among 11 panicle traits were noted. Particularly, there was a significant positive correlation (p<0.01) between the thousand grain weight (TGW) and seed setting rate (SSR) under the two saline-alkali conditions, while there was no significant correlation under CK condition. PCA with 11 evaluation index from CK, treatment I and treatment II suggested three major components, with cumulative contribution rate of 80.4%, 86.4% and 83.9%, respectively. Using LRA and PCA, GNP, GD, GNPB and PBN were selected as the key indexes for evaluating panicle morphology of japonica rice under saline-alkali condition. Five saline-alkali-tolerant japonica rice accessions, namely Liaogeng 1201, Pinggeng 8, Fengdao 508, Song 820, and Ninghui 1, identified through a comprehensive evaluation value D of panicle traits can be used as valuable assets for rice-plant-architecture breeding under intricate saline-alkali environments.

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  • 收稿日期:2024-03-20
  • 最后修改日期:2024-05-17
  • 录用日期:2024-05-20
  • 在线发布日期: 2024-10-28
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