Yuan Ye, Shi Yanlei, Liu Zhenzhen, Fan Yonghong, Liu Min, Ningjing Mengkedala, Li Yifei
National Demonstration Center for Experimental Biology Education, Xinjiang Key Laboratory of Biological Resources and Genetic Engineering, College of Life Science & Technology, Xinjiang University, Urumqi 830017, China.
Microorganisms. 2023 Oct 28;11(11):2654. doi: 10.3390/microorganisms11112654.
Salt stress and drought stress can decrease the growth and productivity of agricultural crops. Plant growth-promoting bacteria (PGPB) may protect and promote plant growth at abiotic stress. The aim of this study was to search for bacterial strains that can help crops resist rises in drought and salt stresses, to improve crop seed resistance under drought and salt stresses, and to investigate the effect of bacterial strains that can help crop resist external stresses under different stress conditions. DY1-3, a strain from the soil under the glacier moss community of Tien Shan No. 1, was selected to investigate its growth-promoting effects. Previous studies have shown that this strain is capable of producing ACC (1-aminocyclopropane-1-carboxylic acid) deaminase. In this experiment, multifunctional biochemical test assays were evaluated to determine their potential as PGPB and their bacterial growth-promoting properties and stress-resistant effects on maize plants were verified through seed germination experiments and pot experiments. The results showed that strain DY1-3 has good salt and drought tolerance, as well as the ability to melt phosphorus, fix nitrogen, and produce iron carriers, IAA, EPS, and other pro-biomasses. This study on the growth-promoting effects of the DY1-3 bacterial strain on maize seeds revealed that the germination rate, primary root length, germ length, number of root meristems, and vigor index of the maize seeds were increased after soaking them in bacterial solution under no-stress, drought-stress, and salt-stress environments. In the potting experiments, seedlings in the experimental group inoculated with DY1-3 showed increased stem thicknesses, primary root length, numbers of root meristems, and plant height compared to control seedlings using sterile water. In the study on the physiological properties of the plants related to resistance to stress, the SOD, POD, CAT, and chlorophyll contents of the seedlings in the experimental group, to which the DY1-3 strain was applied, were higher than those of the control group of seedlings to which the bacterial solution was not applied. The addition of the bacterial solution reduced the content of MDA in the experimental group seedlings, which indicated that DY1-3 could positively affect the promotion of maize seedlings and seeds against abiotic stress. In this study, it was concluded that strain DY1-3 is a valuable strain for application, which can produce a variety of pro-biotic substances to promote plant growth in stress-free environments or to help plants resist abiotic stresses. In addition to this, the strain itself has good salt and drought tolerance, making it an option to help crops grown in saline soils to withstand abiotic stresses, and a promising candidate for future application in agricultural biofertilizers.
盐胁迫和干旱胁迫会降低农作物的生长和生产力。植物促生细菌(PGPB)可能在非生物胁迫下保护并促进植物生长。本研究的目的是寻找能够帮助作物抵御干旱和盐胁迫加剧的细菌菌株,提高作物种子在干旱和盐胁迫下的抗性,并研究在不同胁迫条件下能够帮助作物抵御外部胁迫的细菌菌株的作用。从天山一号冰川苔藓群落下的土壤中分离出的菌株DY1-3,被选来研究其促生效果。先前的研究表明,该菌株能够产生ACC(1-氨基环丙烷-1-羧酸)脱氨酶。在本实验中,对多功能生化测试分析进行了评估,以确定它们作为PGPB的潜力,并通过种子发芽实验和盆栽实验验证了它们对玉米植株的促生特性和抗胁迫效果。结果表明,菌株DY1-3具有良好的耐盐性和耐旱性,以及解磷、固氮和产生铁载体、吲哚乙酸、胞外多糖等益生物质的能力。对DY1-3菌株对玉米种子的促生效果研究表明,在无胁迫、干旱胁迫和盐胁迫环境下,将玉米种子浸泡在菌液中后,其发芽率、初生根长度、胚芽长度、根分生组织数量和活力指数均有所提高。在盆栽实验中,与使用无菌水的对照幼苗相比,接种DY1-3的实验组幼苗的茎粗、初生根长度、根分生组织数量和株高均有所增加。在对植物抗胁迫相关生理特性的研究中,施加DY1-3菌株的实验组幼苗的超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)和叶绿素含量均高于未施加菌液的对照幼苗组。添加菌液降低了实验组幼苗中丙二醛(MDA)的含量,这表明DY1-3能够对促进玉米幼苗和种子抵御非生物胁迫产生积极影响。在本研究中,得出结论:菌株DY1-3是一种有应用价值的菌株,它能够产生多种益生物质,在无胁迫环境下促进植物生长或帮助植物抵御非生物胁迫。除此之外,该菌株本身具有良好的耐盐性和耐旱性,使其成为帮助在盐碱土壤中生长的作物抵御非生物胁迫的一个选择,并且是未来农业生物肥料应用的一个有前景的候选菌株。
