文章摘要
江 定,李光光,黄剑锋,郑岩松.苦瓜苗期对高温胁迫的生理响应及耐热性初步评价[J].广东农业科学,2023,50(9):155-164
查看全文    HTML 苦瓜苗期对高温胁迫的生理响应及耐热性初步评价
Physiological Response of Bitter Gourd Seedlings to High Temperature Stress and Preliminary Evaluation of Heat Resistance
  
DOI:10.16768/j.issn.1004-874X.2023.09.016
中文关键词: 苦瓜  苗期  耐热性  相对电导率  抗氧化酶活性  隶属函数法
英文关键词: bitter gourd  seedlings  heat resistance  relative electrical conductivity  antioxidant enzyme activity  membership function method
基金项目:广州市科技计划项目(202206010173);广州市财政农业科研项目(穗财编〔2023〕1 号)
作者单位
江 定,李光光,黄剑锋,郑岩松 广州市农业科学研究院广东 广州 510335 
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中文摘要:
      【目的】研究高温胁迫对不同苦瓜材料苗期的生理响应情况,初步评价不同苦瓜材料的耐热性,为耐热苦瓜品种的选育提供理论依据。【方法】以 10 份苦瓜高代自交系(KG1~KG10)和 6 份杂交种(KG11~KG16)为供试材料,对不同苦瓜材料苗期进行白天 40 ℃ /12h、夜间 25 ℃ /12h 高温循环处理 3 d 后,测定苦瓜叶片相对电导率(REC)、丙二醛(MDA)和脯氨酸(Pro)含量及抗氧化酶活性等指标,并通过隶属函数法对这 16份苦瓜材料的耐热性进行初步评价。【结果】高温处理与常温相比,16 份苦瓜材料苗期叶片的 REC 上升,其中增幅显著的苦瓜材料有 KG1、KG2、KG9、KG10、KG11、KG13、KG14、KG15 和 KG16;MDA 含量除 KG1、KG2 上升外,其他 14 份苦瓜材料都下降,其中降幅显著的苦瓜材料有 KG3、KG4、KG5、KG6、KG8、KG10、KG11、KG12、KG13、KG14、KG15 和 KG16;Pro 含量也是有升有降,其中有 6 份苦瓜材料叶片 Pro 含量增加,增幅显著的苦瓜材料有 KG1、KG2、KG3、KG4 和 KG10;而叶片 Pro 含量呈现下降的 10 份苦瓜材料中,降幅显著的苦瓜材料有 KG6、KG7、KG8、KG9、KG11、KG14、KG15 和 KG16。在抗氧化酶活性方面,16 份苦瓜材料叶片的过氧化物酶(POD)活性均显著上升,而超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性则有升有降,其中 KG5 和 KG14 的 SOD 活性下降,其他 14 份苦瓜材料 SOD 活性有不同程度的增加,增幅显著的苦瓜材料 有 KG1、KG2、KG3、KG4、KG6、KG7、KG8、KG9、KG10、KG11、KG12、KG15 和 KG16;KG8、KG10、KG12 和 KG16 的 CAT 活性显著增加,其他 12 份苦瓜材料 CAT 活性有不同程度的下降,降幅显著的苦瓜材料有 KG1、KG2、KG3、KG4、KG5、KG7、KG9、KG11、KG13 和 KG14。通过隶属函数法综合评价,初步判定供试 16 份苦瓜材料的耐热能力依次为:KG1>KG2>KG16>KG11>KG10>KG3>KG9>KG12>KG15>KG4>KG13>KG8>KG6>KG5>KG7>KG14。【结论】不同苦瓜材料苗期受高温胁迫后,6 个耐热性评价生理指标均发生不同变化,进一步表明这 6 个生理指标与苦瓜耐热性存在不同程度相关性,初步评价供试苦瓜材料中耐热能力较好的 KG1、KG2、KG16、KG11 和 KG10 具有潜在应用价值,可在后续耐热苦瓜育种中加以利用。
英文摘要:
      【Objective】To study the physiological response of different bitter gourd materials at seedling stages to high temperature stress, preliminarily evaluate the heat resistance of this materials, and provide theoretical basis for the subsequent breeding of heat-resistant varieties of bitter gourd. 【Method】This study used 10 high-generation inbred lines (KG1-KG10) and 6 hybrid varieties (KG11-KG16) of bitter gourd as test materials. Different bitter gourd materials were subjected to high temperature cycling at 40 ℃ /12h during the day and 25 ℃ /12h at night for 3 days. The relative electrical conductivity (REC), malondialdehyde (MDA) content, proline (Pro) content, and antioxidant enzyme activity of seedling bitter gourd leaves were measured. And the heat resistance of these 16 bitter gourd materials was preliminarily evaluated using the membership function method. 【Result】The relative electrical conductivity (REC) of the leaves of 16 bitter gourd materials increased during the seedling stage under high temperature compared with normal temperature conditions. Among them, the bitter gourd materials with significant differences in increase were KG1, KG2, KG9, KG10, KG11, KG13, KG14, KG15, and KG16. Except for KG1 and KG2, the content of malondialdehyde (MDA) in the other 14 bitter gourd materials decreased. Among them, the bitter gourd materials with significant differences in decrease amplitude were KG3, KG4, KG5, KG6, KG8, KG10, KG11, KG12, KG13, KG14, KG15, and KG16. The content of proline (Pro) also increased and decreased, with 6 bitter gourd materials showing an increase in Pro content in their leaves. The bitter gourd materials with significant differences in increase were KG1, KG2, KG3, KG4, and KG10; However, 10 bitter gourd materials showed a decrease in Pro content in their leaves, KG6, KG7, KG8, KG9, KG11, KG14, KG15, and KG16 showed significant decrease . Among the antioxidant enzyme activities, the peroxidase (POD) activity of leaves of 16 bitter gourd materials increased significantly, while the activities of superoxide dismutase (SOD) and catalase (CAT) increased and decreased. The SOD activity of bitter gourd materials KG5 and KG14 decreased, while the SOD activity of the other 14 bitter gourd materials increased to varying degrees. The bitter gourd materials with significant differences in increase were KG1, KG2, KG3, KG4, KG6, KG7, KG8, KG9, KG10, KG11, KG12, KG15, and KG16; The CAT activity of bitter gourd materials KG8, KG10, KG12, and KG16 significantly increased, while the CAT activity of the other 12 bitter gourd materials decreased to varying degrees. The bitter gourd materials with significant differences in decline were KG1, KG2, KG3, KG4, KG5, KG7, KG9, KG11, KG13, and KG14. Through comprehensive evaluation using the membership function method, it was preliminarily determined that the heat resistance of these 16 bitter gourd materials is in the following order:KG1>KG2>KG16>KG11>KG10>KG3>KG9>KG12>KG15>KG4>KG13>KG8>KG6>KG5>KG7>KG14. 【Conclusion】Different bitter gourd materials have undergone different changes in six physiological indicators under high temperature stress, further indicating that these six physiological indexes have varying degrees of correlation with the heat resistance of bitter gourd. Preliminary evaluation showed that the KG1, KG2, KG16, KG11, and KG10 bitter gourd materials with better heat resistance have potential application value and can be utilized in subsequent bitter gourd heat resistance breeding.
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