昆虫学报 ›› 2023, Vol. 66 ›› Issue (4): 510-521.doi: 10.16380/j.kcxb.2023.04.008

• 研究论文 • 上一篇    下一篇

氯化钙和水杨酸单独以及复合浸种处理对水稻抗褐飞虱的影响

邓倩倩1,2,3, 叶茂1,2,3,*, 吴小保1,2,3, 朱忠艳1,2,3, 陈丽娜1,2,3, 谢晶1,2,3   

  1. (1. 贵州大学昆虫研究所, 贵阳 550025; 2. 贵州山地农业病虫害重点实验室, 贵阳 550025; 3. 农业部贵阳作物有害生物科学观察实验站, 贵阳 550025)
  • 出版日期:2023-04-20 发布日期:2023-06-01

Effects of single and combined seed soaking treatments with CaCland SA on rice resistance to Nilaparvata lugens (Hemiptera: Delphacidae)

DENG Qian-Qian1,2,3, YE Mao1,2,3,*, WU Xiao-Bao1,2,3, ZHU Zhong-Yan1,2,3, CHEN Li-Na1,2,3, XIE Jing1,2,3#br#   

  1. (1. Institute of Entomology, Guizhou University, Guiyang 550025, China; 2. Guizhou Provincial Key Laboratory for Agricultural Pest Management of the Mountainous Regions, Guiyang 550025, China; 3. Scientific Observing and Experimental Station of Crop Pests in Guiyang, Ministry of Agriculture, Guiyang 550025, China)
  • Online:2023-04-20 Published:2023-06-01

摘要:  【目的】探究氯化钙(calcium chloride, CaCl2)和水杨酸(salicylic acid, SA)单独以及复合浸种对水稻抗褐飞虱Nilaparvata lugens的影响。【方法】分别用20 mmol/L CaCl2溶液(CaCl2)和1 mmol/L SA溶液(SA)单独以及复合(SA+CaCl2)浸泡水稻种子48 h,以蒸馏水浸种为对照,待水稻长至分蘖期,检测褐飞虱3龄若虫取食胁迫下经不同浸种处理的水稻植株叶鞘中防御基因转录因子基因OsWRKY70和OsWRKY53、水杨酸信号转导通路关键调控基因OsNPR1及合成水杨酸关键基因OsPAL1的相对表达量,防御酶苯丙氨酸解氨酶(phenylalanine ammonia lyase, PAL)、过氧化物酶(peroxidase, POD)、多酚氧化酶(polyphenol oxidase, PPO)和β-1,3-葡聚糖酶(β-1,3 glucanase, β-1,3-GA)活性,以及褐飞虱在各浸种处理的水稻植株上的存活率和发育历期。【结果】没有褐飞虱取食的情况下,经CaCl2和SA单独以及复合浸种处理的水稻叶鞘中各防御基因表达量均无显著差异;而褐飞虱3龄若虫取食胁迫对照水稻叶鞘中OsWRKY53, OsNPR1和OsPAL1表达量在褐飞虱取食180 min时较未取食处理的对照水稻叶鞘中的显著增加;经CaCl2浸种处理的水稻叶鞘中OsNPR1和OsPAL1表达量分别在褐飞虱取食90和120 min时最高,均显著高于相同时间点对照水稻叶鞘中的,OsWRKY70表达量在各取食时间都高于SA单独以及与CaCl2复合浸种的水稻叶鞘中的;经SA浸种处理的水稻叶鞘中OsWRKY53和OsPAL1分别在褐飞虱取食180和90 min时显著高于其他浸种处理的水稻叶鞘中的;而经SA+CaCl2浸种处理水稻叶鞘中OsWRKY53表达量在褐飞虱取食90和120 min时显著高于其他浸种处理的
水稻叶鞘中的,OsNPR1表达量在褐飞虱取食60和180 min时显著高于其他浸种处理的水稻叶鞘中的,OsPAL1表达量在各取食时间都显著低于其他浸种处理的水稻叶鞘中的。对酶活性的影响方面,无褐飞虱取食的情况下,经CaCl2浸种处理的水稻叶鞘中PAL和β-1,3-GA活性及SA浸种和SA+CaCl2浸种处理的水稻植株叶鞘中PAL, POD, PPO和β-1,3-GA活性显著高于对照水稻叶鞘中的;而遭受褐飞虱取食后,对照水稻叶鞘中4种防御酶活性与未经褐飞虱取食的水稻叶鞘中的相比都显著升高,经CaCl2和SA单独和复合浸种处理的水稻叶鞘中PAL, POD和PPO酶活性的升高幅度都高于对照水稻叶鞘中的,SA+CaCl2浸种处理对POD酶活性有明显诱导作用;褐飞虱若虫取食经CaCl2和SA单独以及复合浸种处理的水稻植株8 d时,其存活率分别比对照低9.03%,13.82% 和19.61%,且若虫历期显著延长,其中经SA+CaCl2浸种处理的水稻植株上取食的褐飞虱若虫存活率最低。【结论】CaCl2和SA单独和复合浸种对水稻叶鞘中OsWRKY70, OsWRKY53, OsNPR1和OsPAL1表达量及PAL, POD, PPO和β-1,3-GA等防御酶活性有不同的诱导效应,CaCl2和SA复合浸种对水稻抵御褐飞虱为害有一定协同增效的作用。

关键词:  褐飞虱, 水稻, 氯化钙, 水杨酸, 浸种处理, 协同增效

Abstract:  【Aim】To explore the effects of single and combined seed soaking treatments with calcium chloride (CaCl2) and salicylic acid (SA) on rice resistance to the brown planthopper (BPH), Nilaparvata lugens.【Methods】Rice seeds were soaked in 20 mmol/L CaCl2 solution (CaCl2), 1 mmol/L SA solution (SA) or a solution combined with them (SA+CaCl2) for 48 h, meanwhile the control seeds were soaked in distilled water. During the tillering stage, the expression levels of defense genes including transcription factor genes OsWRKY70 and OsWRKY53, OsNPR1 (one of key regulators of SA signaling pathway) and OsPAL1 (a key gene involved in SA synthesis), and the activities of defense enzymes induding phenylalanine ammonia lyase (PAL), peroxidase (POD), polyphenol oxidase (PPO) and β-1, 3-glucanase (β-1,3-GA) in leaf sheaths of rice plants subjected to different seed soaking treatments, under the infestation of the 3rd instar nymphs of N. lugens were tested, and the survival rates and developmental duration of N. lugens fed on rice plants subjected to various seed soaking treatments were detected as well. 【Results】Without infestation of N. lugens, the expression levels of OsWRKY53, OsNPR1 and OsPAL1 in leaf sheaths of rice plants subjected to single and combined seed soaking treatments with CaCl2 and SA showed no significant difference. The expression levels of OsWRKY53, OsNPR1 and OsPAL1 in leaf sheaths of the control rice plants were significantly increased at 180 min after infestation by the 3rd instar nymphs of N. lugens as compared to those in leaf sheaths of the control rice plants uninfested by N. lugens. OsNPR1 and OsPAL1 in leaf sheaths of rice plants subjected to seed soaking treatment with CaCl2 reached the highest expression levels at 90 and 120 min after infestation of N. lugens, respectively, which were significantly higher than those in leaf sheaths of the control rice plants at the corresponding infestation time points. OsWRKY70 exhibited higher expression level in leaf sheaths of rice plants subjected to seed soaking treatment with CaCl2 than in leaf sheaths of rice plants subjected to seed soaking treatments with SA and SA+CaCl2 at each infestation time. The expression levels of OsWRKY53 and OsPAL1 in leaf sheaths of rice plants subjected to seed soaking treatment with SA were significantly higher than those subjected to the other seed soaking treatments at 180 and 90 min after infestation of N. lugens, respectively. The expression levels of OsWRKY53 in leaf sheaths of rice plants subjected to seed soaking treatment with SA+CaCl2 at 90 and 120 min after infestation of N. lugens, and those of OsNPR1 in leaf sheaths of rice plants subjected to seed soaking treatment with SA+CaCl2 at 60 and 180 min after infestation of N. lugens were significantly higher than those subjected to the other seed soaking treatments at the corresponding infestation time, while the expression levels of OsPAL1 in leaf sheaths of rice plants subjected to seed soaking treatment with SA+CaCl2 were significantly lower than those subjected to the other seed soaking treatments at all the tested infestation time points. The activities of PAL and β-1,3-GA in leaf sheaths of rice plants subjected to seed soaking treatment with CaCl2, those of PAL, POD, PPO and β-1,3-GA in leaf sheaths of rice plants subjected to seed soaking treatments with SA and SA+CaCl2 were significantly higher than those in leaf sheaths of the control rice plants. The activities of all the four defense enzymes in leaf sheaths of the control rice plants infested by N. lugens increased as compared to those in leaf sheaths of the control rice plants uninfested by N. lugens, and the ascending degrees of PAL, POD and PPO activities in leaf sheaths of rice plants subjected to single and combined seed soaking treatments with CaCl2 and SA were higher than those in leaf sheaths of the control rice plants. Seed soaking treatment with SA+CaCl2 had obvious induction effect on the POD activity under infestation of N. lugens. The survival rates of N. lugens nymphs fed on rice plants subjected to seed soaking treatments with CaCl2, SA and SA+CaCl2 were 9.03%, 13.82% and 19.61%, respectively, lower than that fed on the control rice plants at 8 d after infestation, and the nymphal duration of N. lugens fed on the rice plants subjected to seed soaking treatments with CaCl2, SA and SA+CaCl2 was significantly prolonged as compared to that fed on the control rice plants. The N. lugens nymphs fed on the rice plants subjected to seed soaking treatment with SA+CaCl2 displayed the lowest survival rate. 【Conclusion】Single and combined seed soaking treatments with CaCl2 and SA have different induction effects on the expression levels of OsWRKY70, OsWRKY53, OsNPR1 and OsPAL1 and the activities of defense enzymes PAL, POD, PPO and β-1,3-GA, while the combined seed soaking treatment with CaCl2 and SA has a synergistic effect on rice resistance to N. lugens.

Key words: Nilaparvata lugens, rice, calcium chloride, salicylic acid, seed soaking treatment, synergistic effect