Effects of Plant Growth Promoting Rhizobacteria （PGPR） on Three Cultivated Forages in Alpine Area

doi:10.11733/j.issn.1007-0435.2025.07.033

Acta Agrestia Sinica ›› 2025, Vol. 33 ›› Issue (7): 2388-2399.DOI: 10.11733/j.issn.1007-0435.2025.07.033

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Effects of Plant Growth Promoting Rhizobacteria （PGPR） on Three Cultivated Forages in Alpine Area

LEI Sheng-yan¹, ZHANG Ying¹, SU Bei-bei¹, DAO Ri-na¹, MA Lin-xiong¹, TIE Xiao-long¹, LIU Wen-hui²

1. College of Agriculture and Animal Husbandry, Qinghai University, Key Laboratory of Alpine Grassland Ecology in Sanjiangyuan Region, Xining, Qinghai Province 810016, China;
2. Laboratory of Germplasm Resources Research and Utilization of Qinghai-Tibet Plateau, Academy of Animal Science and Veterinary Science, Xining, Qinghai Province 810016, China

Received:2024-09-13 Revised:2024-11-23 Online:2025-07-15 Published:2025-07-18

植物根际促生菌（PGPR）对高寒区3种栽培饲草促生效果研究

雷生妍¹, 张英¹, 苏贝贝¹, 道日娜¹, 马林雄¹, 铁晓龙¹, 刘文辉²

1. 青海大学农牧学院, 三江源区高寒草地生态省部共建重点实验室, 青海西宁 810016;
2. 青海大学畜牧兽医科学院, 青藏高原种质资源研究与利用实验室, 青海西宁 810016

通讯作者: 张英,E-mail:zhangying2019@126.com
作者简介:雷生妍（1992-），女，汉族，青海西宁人，实验师，博士，主要从事草原生态与环境保护研究，E-mail：1657628000@qq.com
基金资助:
青海大学生态学世界一流学科生态系统演替与管理方向自主课题（2025-ZZ-04）资助；国家重点研发计划项目（2021YFC3201604）

Abstract

Abstract: In order to investigate the growth promotion effects of 5 strains of azotobacter and 5 strains of phosphorus solubilizing bacteria on 3 kinds of cultivated forages in high cold area， 14 groups of single and compound inoculants were used to inoculate corn （Zea mays L.）， oat （Avena sativa L.） and alfalfa （Medicago Sativa L.）， and plant height， biomass and root morphology were determined in this study. The results showed that there were differences in the growth indices of corn， oat and alfalfa. Among them， compound inoculant A+B+F had significant growth promoting effects on aboveground biomass， underground biomass， root total length and root surface area of corn， which were significantly higher than those on other treatments （P<0.05）. Compound inoculants B+G+H and A+B+F had obvious growth-promoting effects on plant height， aboveground biomass， underground biomass， root length， root diameter， root volume and root surface area of oat. In the alfalfa inoculation experiment， the effects of compound inoculant A+F on plant height， aboveground biomass， underground biomass， root length， root diameter， root volume and root surface area of alfalfa were significantly higher than those on other treatments and controls （P<0.05）. In short， the compound inoculant had more potential to develop microbial fertilizer than the single strain， which could provide a new idea for applied agriculture.

Key words: Plant growth promoting rhizobacteria, Alpine area, Cultivated forage, Promoting effect

摘要： 为了探究5株固氮菌和5株溶磷菌对高寒区3种栽培饲草的促生效果，本研究以玉米（Zea mays L.）、燕麦（Avena sativaL.）和苜蓿（Medicago SativaL.）为研究对象，用14组单一接菌剂和复合接菌剂进行盆栽接种试验，测定植物的株高、生物量及根系形态。结果表明：各接菌剂对盆栽玉米、燕麦、苜蓿的生长指标测定结果存在差异，其中，复合接菌剂A+B+F对玉米植株的地上生物量、地下生物量、根系总长和根表面积的促生效果较为显著，显著高于其他处理和对照（P<0.05）；复合接菌剂B+G+H，A+B+F对燕麦的株高、地上生物量、地下生物量、根长、根直径、根体积、根表面积均产生明显的促生作用；在苜蓿接种试验中，复合接菌剂A+F对苜蓿的株高、地上生物量、地下生物量、根长、根直径、根体积、根表面积的影响较大，显著高于其他处理和对照（P<0.05）。因此，复合接菌剂比单一菌株具有研制微生物肥料的潜质，可为应用农业提供新思路。

关键词: 植物根际促生菌, 高寒区, 栽培饲草, 促生效果

CLC Number:

Q945.79

LEI Sheng-yan, ZHANG Ying, SU Bei-bei, DAO Ri-na, MA Lin-xiong, TIE Xiao-long, LIU Wen-hui. Effects of Plant Growth Promoting Rhizobacteria （PGPR） on Three Cultivated Forages in Alpine Area[J]. Acta Agrestia Sinica, 2025, 33(7): 2388-2399.

雷生妍, 张英, 苏贝贝, 道日娜, 马林雄, 铁晓龙, 刘文辉. 植物根际促生菌（PGPR）对高寒区3种栽培饲草促生效果研究[J]. 草地学报, 2025, 33(7): 2388-2399.

References

[1] MALIK K A,BILAL R. Association of nitorgen-fixing plant growth promoting rhizobacteria (PGPR) with kallar grass and rice[J]. Plant and Soil,1997,194(1-2):37-44
[2] MALIK K A,MIRZA M S,LADHA J K. Detection of inoculated plant growth-promoting rhizobacteria in the rhizosphere of rice[J]. 1998(8):75-83
[3] KLOEPPER J W,LEONG J,TEINTZE M,et al. Enhanced plant growth by siderophores produced by plant growth-promoting rhizobacteria[J]. Nature,1980,286(5776):885-886
[4] TIE X L, ZHANG Y, MA LX, et al. Study on functional diversity of rhizosphere PGPR strains of Oat in the headwaters of three rivers[J]. Acta Astragalica Sinica,2024,32(03):693-702铁晓龙,张英,马林雄,等.三江源区燕麦根际PGPR菌株功能多样性研究[J].草地学报,2024,32(3):693-702
[5] JASON R,SIEFERT J L,STAPLES C R,et al. The natural history of nitrogen fixation[J]. Molecular biology and evolution,2004,21(3):541-554
[6] REN Z H, YU Q, GAO S K, et al. Isolation, identification and growth promoting effect of the growth promoting bacteria in the grass roots of the plant[J]. Journal of Grassland Science,2024,32(6):1693-1701任智慧,于乔,高士孔,等.垂穗披碱草根际促生菌的分离鉴定及促生作用研究[J].草地学报,2024,32(6):1693-1701
[7] STEVENSON F J,COLE M A.Cycles of soils:carbon,nitrogen,phosphorus,sulfur,micronutrients,and edition[J]. Humus chemistry Genesis composition Reactions,1999,135(6):642
[8] Mohammadi K.Phosphorus solubilizing bacteria:occurrence,mechanisms and the irrole in crop production[J]. Resources and Environment,2012,2(1):80-85
[9] CHEN S S. Identification of plant rhizosphere growth-promoting bacteria (PGPR) and its effects on plant growth[D]. Chongqing:Chongqing Normal University,2018:11-21陈姗姗.植物根际促生菌(PGPR)的鉴定及其对植物生长的影响[D]. 重庆:重庆师范大学,2018:11-21
[10] LIN B J, YANG W Q, ZHAO S, et al. Screening and identification of rhizosphere phosphorus soluble bacteria in alpine meadow and their effect on phosphorus soluble bacteria and growth promotion[J]. Acta Astragalica Sinica,2022,30(11):3132-3139蔺宝珺,杨文权,赵帅,等.高寒草甸植物根际溶磷菌的筛选鉴定及其溶磷与促生效果[J]. 草地学报,2022,30(11):3132-3139
[11] SHI F C, YIN Z W, JIANG H M, et al. Screening and identification of a phosphorus solubilizing fungus and its growth promotion effect[J]. Acta Microbiologica Sinica,2014,54(11):1333-1343史发超,殷中伟,江红梅,等.一株溶磷真菌筛选鉴定及其溶磷促生效果[J]. 微生物学报,2014,54(11):1333-1343
[12] LIU Q H.Study on the interaction between six strains of phosphorus-soluble bacteria and four strains of nitrogen-fixing bacteria and the effect of bacteriological agents on growth promotion of alfalfa[D]. Lanzhou:Gansu Agricultural University,2011:15-31刘青海.六株溶磷菌与四株固氮菌互作效应及其菌剂对苜蓿促生效果研究[D]. 兰州:甘肃农业大学,2011:15-31
[13] LIU Z P,WANG Z G,XU W H,et al. Screening, identification and growth promoting ability analysis of rice rhizosphere growth-promoting bacteria[J]. Journal of Agricultural Resources and Environment,2018,35(2):119-125刘泽平,王志刚,徐伟慧,等.水稻根际促生菌的筛选鉴定及促生能力分析[J]. 农业资源与环境学报,2018,35(2):119-125
[14] DENG Z S,DANG J L,ZHANG H Z,et al. Screening of rhizosphere growth-promoting bacteria and its effect on maize[J]. Chinese Journal of Microbiology,2012,39(7):980-988邓振山,党军龙,张海州,等. 植物根际促生菌的筛选及其对玉米的促生效应[J]. 微生物学通报,2012,39(7):980-988
[15] WANG G J. Research on development of special rhizosphere growth promoting bacterial fertilizer and its effect on maize growth promoting[D]. Lanzhou:Gansu Agricultural University,2014:11-18王国基. 根际促生专用菌肥研制及其对玉米促生作用的研究[D]. 兰州:甘肃农业大学,2014:11-18
[16] KONG Y D. Isolation and identification of saline-tolerant rhizosphere growth-promoting bacteria and their effects on maize plant growth[D]. Qingao:Shandong Agricultural University,2022:1-11孔亚东. 耐盐碱根际促生菌的分离鉴定及对玉米植株生长的影响[D]. 青岛:山东农业大学,2022:1-11
[17] ZHANG Y,WEN C Y,ZHAO M Q,et al. Isolation and screening of rhizosphere growth-promoting bacteria and development of biological seedling substrate of Capsicum[J]. Journal of Nanjing Agricultural University,2015,38(6):950-957张杨,文春燕,赵买琼,等. 辣椒根际促生菌的分离筛选及生物育苗基质研制[J]. 南京农业大学学报,2015,38(6):950-957
[18] YANG M,GAO T,LI Y J,et al. Isolation and screening of rhizosphere growth-promoting bacteria of capsicum[J]. Bulletin of Biotechnology, 2019,36(5):104-109杨茉,高婷,李滟璟,等. 辣椒根际促生菌的分离筛选及抗病促生特性研究[J]. 生物技术通报,2020,36(5):104-109
[19] WANG D D,YIN Z Q,SUN L,et al. Isolation and functional identification of rhizosphere growth-promoting bacteria alleviating continuous cropping barriers in peanut[J]. Chinese Journal of Microbiome, 2019,61(12):4086-4096王丹丹,殷志秋,孙丽,等. 缓解花生连作障碍的根际促生菌分离及功能鉴定[J]. 微生物学报,2021,61(12):4086-4096
[20] LIU Y,LIU X D,ZHANG L L,et al. Screening, identification and effect of multifunctional and high-efficiency growth promoting bacteria in floral rhizosphere[J]. Bulletin of Biotechnology,2017,33(10):125-134刘晔,刘晓丹,张林利,等. 花生根际多功能高效促生菌的筛选鉴定及其效应研究[J]. 生物技术通报,2017,33(10):125-134
[21] ZHANG Z,ZHANG Y,WANG Z G,et al. Screening and identification of rhizosphere growing-promoting bacteria in eggplant and its promotion effect[J]. Journal of Normal Science,202,42(2):61-67,71张芝,张垚,王志刚,等. 茄子根际促生菌筛选鉴定及其促生效应[J]. 高师理科学刊,2022,42(2):61-67,71
[22] LI H B. Isolation and identification of Pseudomonas rhizosphere of sugarcane and its growth promoting effect on sugarcane[D]. Nanning:Guangxi University,2017:20-26李海碧. 甘蔗根际假单胞菌的分离鉴定及其对甘蔗的促生作用[D]. 南宁:广西大学,2017:20-26
[23] SHI G Y,WEI Y W,Lin L,et al. Identification and biological function of a rhizosphere growth-promoting bacterium from sugarcane[J]. Southwest Chinese Journal of Agricultural Sciences,2016,29(5):1110-1114史国英,魏源文,林丽,等. 1株甘蔗根际促生细菌的鉴定及其生物学功能研究初报[J].西南农业学报,2016,29(5):1110-1114
[24] YANG Y N. Screening of tomato rhizosphere growth-promoting bacteria and optimization of its medium[D]. Qingdao:Shandong Agricultural University,2017:25-27杨亚男. 番茄根际促生菌的筛选及其培养基优化[D]. 青岛:山东农业大学,2017:25-27
[25] LI F. Analysis of rhizosphere microiome and screening of disease-preventing and growth-promoting bacteria of tomato[D]. Jinan:Qilu University of Technology,2022:20-23李凤. 番茄根际微生物组分析及防病促生菌的筛选[D]. 济南:齐鲁工业大学,2022:20-23
[26] CUI S S,BAI L M,ZHOU K J,et al. Screening and growth-promoting effects of rapesica rhizosphere strains[J]. Journal of Northwest A&F University (Natural Science Edition),2016,44(1):91-96崔松松,白莉敏,周可金,等. 油菜亲和性根际菌株的筛选及其促生效果[J]. 西北农林科技大学学报(自然学版),2016,44(1):91-96
[27] MA W B. Screening and characteristics of rhizosphere growth-promoting bacteria of 9 legumes[D]. Lanzhou:Gansu Agricultural University,2015:11马文彬. 9种豆科牧草根际促生菌筛选及特性研究[D]. 兰州:甘肃农业大学,2015:11
[28] JIANG Y, WANG H, WANG S D,et al. Application potential of microbial fertilizer in agricultural production[J]. Soybean Science and Technology,2010(5):25-27姜妍,王浩,王绍东,等. 微生物菌肥在农业生产中的应用潜力[J]. 大豆科技,2010(5):25-27
[29] ZHAO S Q,WANG J J,YANG Z Z,et al. Preparation of complex microbial agents[J]. Chinese Journal of Microbiology, 2019,47(5):1492-1502赵思崎,王敬敬,杨宗政,等. 微生物复合菌剂的制备[J]. 微生物学通报,2020,47(5):1492-1502
[30] Ministry of Agriculture of the People's Republic of China. GB 20287-2006Agricultural microbial agents[S]. Beijing:Standards Press of China,2006:5中华人民共和国农业部.GB 20287-2006农用微生物菌剂[S]. 北京:中国标准出版社,2006:5
[31] YAO Z Q,LAN J. Study on biological characteristics of different strains of Pleurotus eryngii[J]. Chinese Journal of Edible Fungi,2005,12(2):14-18姚自奇,兰进. 杏鲍菇不同菌株生物学特性的研究[J]. 食用菌学报,2005,12(2):14-18
[32] SUN Y Y, CHEN J,WANG Y,et al. Research progress of rhizosphere growth-promoting bacteria promoting vitality and enhancing plant stress resistance[J]. Acta Agronomica Sinica,2019,28(5):1203-1215孙韵雅,陈佳,王悦,等. 根际促生菌促生机理及其增强植物抗逆性研究进展[J]. 草地学报,2020,28(5):1203-1215
[33] YU H,WANG M L,LIU X J,et al. Effects of interrhizosphere growth promotion compound on physiological and biochemical indexes and rhizosphere bacterial community of peanut[J]. Acta Microbiologica Sinica,2012,34(4):123-1248于宏,王孟亮,刘希建,等. 花生根际促生复合菌剂对连作花生生理生化指标和根际细菌群落的影响[J]. 微生物学报,2024,64(4):1233-1248
[34] MA W B,YAO T,WANG G J,et al. Screening of rhizosphere growth promoting bacteria and effects of inoculants on growth of Vicia sagittaria[J]. Acta Agrariae Sinica,2014,23(5):241-248马文彬,姚拓,王国基,等. 根际促生菌筛选及其接种剂对箭筈豌豆生长影响的研究[J]. 草业学报,2014,23(5):241-248
[35] WAN S X,WANG J,LI F,et al. Screening, identification and promotion of effective phosphorus-soluble bacteria in maize rhizosphere[J]. Bulletin of Biotechnology,2019,36(5):98-103万水霞,王静,李帆,等. 玉米根际高效溶磷菌的筛选、鉴定及促生效应研究[J]. 生物技术通报,2020,36(5):98-103
[36] ZENG Q F,WANG Q,LU R X,et al. Isolation and Screening of rhizosphere growth-promoting Bacteria of Soybean and its Effects on the growth and quality of soybean and rhizome[J]. Journal of Pratacultural Science,2017,26(1):99-111曾庆飞,王茜,陆瑞霞,等. 大豆根际促生菌的分离筛选及其对大豆和百脉根生长与品质的影响[J]. 草业学报,2017,26(1):99-111
[37] YAO Y Y,YANG T,WANG Y Q,PENG T,WANG ZY,YANG H. Effects of two kinds of rhizosphere compound growth promoting bacteria on growth, physiological characteristics and pharmacodynamic components of Angelica sinensis[J]. Chinese Journal of Experimental Formulae,202,28(8):131-138姚阳阳,杨涛,王引权,等. 两类根际复配促生菌剂对当归生长、生理特征及药效成分的影响[J]. 中国实验方剂学杂志,2022,28(8):131-138
[38] LI M. Screening of phosphorus-soluble bacteria and its growth promotion effect on Wheat and maize[D]. Lanzhou:Lanzhou University of Technology,2021:46-80李美. 溶磷菌筛选及对小麦、玉米促生长作用研究[D]. 兰州:兰州理工大学,2021:46-80
[39] JIANG Y M,GAO Y M,YAO T,et al. Effects of plant rhizosphere growth Promoting Bacteria (PGPR) on the growth of non-host plants Cattail and triticale[J]. Pratacultural Science,2018,35(8):1910-1918蒋永梅,高亚敏,姚拓,等. 植物根际促生菌(PGPR)对非宿主植物猫尾草和小黑麦生长的促生作用[J]. 草业科学,2018,35(8):1910-1918
[40] WU X X,WU Y X,ZHAO Z L,et al. Effects of seed mixing of 4 PGPR strains on the growth and yield of broad bean under drought conditions[J]. Journal of Arid Land Research,2012,29(2):203-207吴兴兴,吴毅歆,赵正龙,等. 4个PGPR菌株拌种对干旱条件下蚕豆生长及产量的影响[J]. 干旱区研究,2012,29(2):203-207
[41] RONG L Y,YAO T,LIU Q H,et al. Effects of compound bacterial fertilizer instead of partial fertilizer on maize growth[J]. Grassland and Turfgrass,2012,32(3):65-69荣良燕,姚拓,刘青海,等. 复合菌肥代替部分化肥对玉米生长的影响[J]. 草原与草坪,2012,32(3):65-69

Effects of Plant Growth Promoting Rhizobacteria （PGPR） on Three Cultivated Forages in Alpine Area

植物根际促生菌（PGPR）对高寒区3种栽培饲草促生效果研究

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[10]	LIANG Guo-Ling, QIN Yan, WEI Xiao-Xing, LIU Ying-Chun, LIU Yong, LIU Wen-Hui. Evaluation on Productivity and Quality of Oat Strain I-D in the Alpine Regions of the Qinghai-Tibetan Plateau [J]. Acta Agrestia Sinica, 2018, 26(4): 917-927.
[11]	JING Yuan-yuan, HE Xiang, XU Chang-lin, YU Xiao-jun. Effects of Different Film-Mulching Planting Patterns on Soil Temperature and Water Moisture of Alfalfa Grassland in Eastern Qilian Mountain Area [J]. Acta Agrestia Sinica, 2018, 26(2): 321-329.
[12]	MA Wen-bin, YAO Tuo, RONG Liang-yan, WANG Guo-ji, SUN Guang-zheng, LIU Huan. Effects of PGPR Inoculum without Exogenous Nitrogen on the Growth and Root System Characteristics of Vicia sativa L. [J]. Acta Agrestia Sinica, 2015, 23(3): 496-501.
[13]	LIANG Guo-ling, ZHOU Qing-ping, LIU Wen-hui. Evaluation on Agronomic Characters of Five Materials of Elymus L.in Alpine Area [J]. , 2011, 19(5): 834-838.
[14]	ZHANG Kun, YAO Tuo, ZHANG De-gang, XIN Guo-rong . Effect of Associative Nitrogen-fixing Biofertilizer Produced with Different Carriers on Growth and Nitrogen Fixing Ability of Hordeum vulgare var. nudum Hook.f. [J]. , 2010, 18(3): 426-430.
[15]	Liu Yuhong, Xiao Biao, Yuan Changding. Experiment of Introduced of Pasture Species in Hongchiba of a Middle Mountain in Sichuan [J]. , 1997, 5(2): 133-140.