茶树根系发育及生长素对不同氮形态的响应OA北大核心CSTPCD
Response of Root Development and Auxin in Tea Plants to Different Nitrogen Forms
以茶树信阳10号和中茶108为试材,利用水培试验研究了不同氮形态[铵硝比(NH4+∶NO3-)分别为4∶0、3∶1和0∶4]下茶树生物量、氮含量、根系发育、生长素含量及其相关基因的表达情况,旨在揭示不同氮形态下茶树根系的发育机制.结果表明,信阳10号在铵硝比3∶1下,根系和地上部干质量最高,根系氮含量最高.与单独供铵(4∶0)相比,信阳10号在铵硝比3∶1时,不定根显著伸长,侧根长和密度无显著变化,根系IAA含量显著增加,叶片IAA含量显著降低.与信阳10号不同,与单独供铵相比,中茶108在铵硝比3∶1下地上部干质量、根系和地上部氮含量显著减少,不定根长增加但差异不显著,侧根长显著伸长,侧根数目和侧根密度显著降低,IAA含量在根系中显著减少,叶片中无显著变化.qRT-PCR结果表明,铵硝比3∶1下,信阳10号根系生长素合成基因CsTSA、CsNIT1,运输基因CsPIN3a、CsPIN3b和响应基因CsARF3、CsIAA27表达显著上调;中茶108根系生长素合成基因CsNIT1、CsNIT2,运输基因CsABCB4和响应基因CsARF1、CsARF3、CsARF5、CsARF6表达显著下调.综上所述,信阳10号和中茶108对不同氮素形态响应存在基因型差异,前者耐NO3-,适宜生长在铵硝比3∶1下,后者不耐NO3-,适宜生长在纯铵营养条件下;铵硝比3∶1下,生长素向信阳10号根系运输增加和向中茶108根系运输减少,可能是不同茶树根系对氮素形态响应不同的生理机制之一.
Tea plants(Camellia sinensis)prefer NH4+as the dominant nitrogen(N)source.Although it has been proven that the use of mixed nitrate(NO3-)and ammonium(NH4+)as a N source can improve plant growth,whether genotypic difference in response to mixed nutrition exists in different tea plants remains obscure.Two tea cultivars(Camellia sinensis cv.Xinyang 10 and Zhongcha 108)were grown at three ratios of NH4+/NO3-(4∶0,3∶1 and 0∶4)to elucidate how the ratio of NH4+/NO3-modulate the architecture of the root system by investigating root growth,N content and auxin content as well as the expression of related genes.Xinyang 10 had the highest root and shoot dry matter and root N content under mixed nutrition(3∶1).And Xinyang 10 had the longer adventitious roots under mixed nutrition relative to sole NH4+,but no difference was observed in growth of lateral root between sole NH4+andmixed nutrition treatments.IAA content was significantly increased in the roots of Xinyang 10,but significantly decreased in its leaves.Response of Zhongcha 108 to ratios of NH4+/NO3-was different from Xinyang 10.Shoot biomass and N content of root and shoot in Zhongcha 108 were significantly reduced under mixed nutrition relative to sole NH4+,while length of adventitious root increased,but not reaching statistical significance.Compared with sole NH4+,mixed nutrition increased length of lateral root but decreased the number and density of lateral roots in Zhongcha 108.And the IAA content in roots of Zhongcha 108 was significantly reduced under mixed nutrition relative to sole NH4+,but not in its leaves.The results of qRT-PCR showed that auxin synthetic genes CsTSA,CsNIT1,transportation genes CsPIN3a,CsPIN3b and response genes CsARF3,CsIAA27 in roots of Xinyang 10 were significantly up-regulated under mixed nutrition compared with sole NH4+;however,auxin synthetic genes CsNIT1,CsNIT2,transportation CsABCB4 and response genes CsARF1,CsARF3,CsARF5,CsARF6 in roots of Zhongcha 108 were significantly down-regulated under mixed nutrition compared with sole NH4+.In conclusion,Xinyang 10 and Zhongcha 108 have genotypic differences when responding to N forms.The former is tolerant to NO3-and suitable for growth at the ratio of NH4+/NO3-as 3∶1,while the latter is sensitive to NO3-and suitable for growth under sole NH4+nutrition.Under the ratio of NH4+/NO3-at 3∶1,auxin transport to roots of Xinyang 10 increases but to those of Zhongcha 108 decreases,which may be one of the physiological mechanisms conferring different response of different tea roots to N forms.
黄双杰;李梦真;罗金蕾;常亚丽;张亚丽;郭桂义
信阳农林学院 茶学院/河南省豫南茶树资源综合开发重点实验室/河南省茶叶加工与检测工程技术研究中心,河南 信阳 464000南京农业大学 资源与环境科学学院,江苏 南京 210095
园艺学与植物营养学
茶树氮素形态铵态氮硝态氮信阳10号中茶108根系生长素
Camellia sinensisNitrogen formNH4+-NNO3--NXinyang 10Zhongcha 108RootsAuxin
《河南农业科学》 2024 (007)
54-65 / 12
国家重点研发计划项目(2021YFD1601103);河南省自然科学基金项目(222300420270);河南省科技攻关项目(222102110468);信阳农林学院校青年基金项目(20200103);信阳农林学院茶学科技创新团队项目(XNKJTD-003)
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