Research Progress for Effects of Arbuscular Mycorrhizal Fungi on Growth and Development of Alfalfa

doi:10.11733/j.issn.1007-0435.2022.10.001

Acta Agrestia Sinica ›› 2022, Vol. 30 ›› Issue (10): 2529-2534.DOI: 10.11733/j.issn.1007-0435.2022.10.001

Research Progress for Effects of Arbuscular Mycorrhizal Fungi on Growth and Development of Alfalfa

QU Song-lin¹, WU Yi-fan¹, LIU Zhong-kuan², WANG Guo-liang³, CHEN Yan-jing¹, RONG Yu-ping¹

1. College of Grassland Science and Technology, China Agricultural University, Beijing 100193, China;
2. Institute of Agricultural Resources and Environment, Hebei Academy of Agricultural and Forestry Sciences, Shijiazhuang, Hebei Province 050057, China;
3. Institute of Leisure Agriculture, Shandong Academy of Agricultural Sciences, Jinan, Shandong Province 250023, China

Received:2022-03-08 Revised:2022-05-22 Published:2022-11-05

丛枝菌根真菌对紫花苜蓿生长发育特性的影响

瞿宋林¹, 吴一凡¹, 刘忠宽², 王国良³, 陈妍静¹, 戎郁萍¹

1. 中国农业大学草业科学与技术学院, 北京 100193;
2. 河北省农林科学院农业资源环境研究所, 河北石家庄 050057;
3. 山东省农业科学院休闲农业研究所, 山东济南 250023

通讯作者: 戎郁萍,E-mail:rongyuping@cau.edu.cn
作者简介:瞿宋林(1997-),男,浙江杭州人,硕士研究生,主要从事草地生态修复研究,E-mail:qu_songlin@163.com;吴一凡(1999-),江苏扬州人,男,硕士研究生,主要从事高粱饲草加工贮藏与利用研究,E-mail:yfxy9933@163.com
基金资助:
国家现代农业产业技术体系(CARS-34)资助

Abstract

Abstract: Arbuscular mycorrhizal fungi (AMF) are a kind of important soil microorganisms which can form mycorrhizal symbiosis within plant roots and have the function of promoting plant growth and development. Alfalfa,known as "the king of forage",is a high-quality leguminous forage crop,which is characterized by high protein content,rich nutrition,strong palatability,and a wide range of adaptation. In this paper,the progress of effects of AMF on promoting the growth and development of alfalfa,boosting the resistance of stress and disease,and improving soil was reviewed,and the existing problems and application prospects were discussed. It provided a reference basis for the application of AMF in the cultivation of alfalfa.

Key words: Alfalfa, Arbuscular Mycorrhizal Fungi, Nutritional quality, Stress resistance, Ecological restoration

摘要： 丛枝菌根(Arbuscular mycorrhiza fungi，AM)真菌是土壤微生物中重要的一类能与植物根系形成菌根共生关系的真菌，具有促进植物生长发育的功能。紫花苜蓿(Medicago sativa L.)是一种优质豆科牧草，它具有蛋白质含量较高、营养丰富、适口性强和适应范围广的特点，被誉为“牧草之王”。本文综述了AM真菌在促进紫花苜蓿生长发育、提升紫花苜蓿抗逆抗病能力和改良土壤等方面的进展，并探讨了现存问题与发展前景，以期为之后AM真菌在紫花苜蓿栽培管理中的应用提供参考依据。

关键词: 紫花苜蓿, 丛枝菌根真菌, 营养品质, 抗逆性, 生态修复

CLC Number:

S963.22+3.3

QU Song-lin, WU Yi-fan, LIU Zhong-kuan, WANG Guo-liang, CHEN Yan-jing, RONG Yu-ping. Research Progress for Effects of Arbuscular Mycorrhizal Fungi on Growth and Development of Alfalfa[J]. Acta Agrestia Sinica, 2022, 30(10): 2529-2534.

瞿宋林, 吴一凡, 刘忠宽, 王国良, 陈妍静, 戎郁萍. 丛枝菌根真菌对紫花苜蓿生长发育特性的影响[J]. 草地学报, 2022, 30(10): 2529-2534.

0
/ / Recommend

Add to citation manager EndNote|Ris|BibTeX

URL: https://manu40.magtech.com.cn/Jweb_cdxb/EN/10.11733/j.issn.1007-0435.2022.10.001

https://manu40.magtech.com.cn/Jweb_cdxb/EN/Y2022/V30/I10/2529

References

[1] 孔静.丛枝菌根真菌对几种草本植物抗旱性的影响研究[D].徐州:中国矿业大学,2015:4-8
[2] 王晓旭.丛枝菌根对喀斯特地区土壤中不同水分条件下大豆抗旱性的影响[D].桂林:广西师范大学,2012:12-17
[3] 王发园,林先贵,周健民.中国AM真菌的生物多样性[J].生态学杂志,2004(6):149-154
[4] 冯曾威.目前最全的丛枝菌根真菌基因组(8个菌种)[DB/OL]. https://www.jianshu.com/p/2cbcc0ed76e8,2021-06-16/2022-03-01
[5] 王发园,刘润进.黄河三角洲盐碱地的丛枝菌根真菌[J].菌物系统,2002(2):196-202
[6] 王发园,林先贵,周健民.丛枝菌根真菌分类最新进展[J].微生物学杂志,2005(3):41-45
[7] ALIASGHARZAD N,BOLANDNAZAR S,NEYSHABOURI M,et al. Impact of soil sterilization and irrigation intervals on P and K acquisition by mycorrhizal onion (Allium cepa)[J]. Biologia,2009,64(3):512-515
[8] HAMILTON C E,BEVER J D,LABBE J,et al. Mitigating climate change through managing constructed-microbial communities in agriculture[J]. Agriculture,Ecosystems&Environment,2016(216):304-308
[9] RILLIG M C,MUMMEY D L. Mycorrhizas and soil structure[J]. New Phytologist,2006,171(1):41-53
[10] 冯海艳.土壤和宿主磷水平对AM真菌生长及ALP活性调控的研究[D].北京:中国农业大学,2003:12-16
[11] 马放,苏蒙,王立,等.丛枝菌根真菌对小麦生长的影响[J].生态学报,2014,34(21):6107-6114
[12] 刘慧,陈薇,周勇,等.内生真菌和丛枝菌根真菌对羊草生长的影响[J].植物生态学报,2015,39(5):477-485
[13] 刘云龙,钱浩宇,张鑫,等.丛枝菌根真菌对豆科作物生长和生物固氮及磷素吸收的影响[J].应用生态学报,2021,32(5):1761-1767
[14] 赵青华,孙立涛,王玉,等.丛枝菌根真菌和施氮量对茶树生长、矿质元素吸收与茶叶品质的影响[J].植物生理学报,2014,50(2):164-170
[15] 黄艳飞,吴庆丽,万群,等.丛枝菌根真菌的研究进展[J].现代农业,2019(12):9-12
[16] 范继红,毕红艳,邹原东,等.丛枝菌根对甘草幼苗生长及抗性的影响[J].北方园艺,2017(10):145-149
[17] 王立,王敏,马放,等.丛枝菌真菌对小麦的促生长效应与根腐病抑制效应[J].哈尔滨工业大学学报,2015,47(4):15-19
[18] 张海娟,芦光新,范月君,等.丛枝菌根真菌对高寒草地6种禾本科牧草生长的影响[J].草地学报,2022,30(4):1013-1020
[19] 王栋,高军,艾琪,等.丛枝菌根真菌对紫花苜蓿幼苗生长及生理特性的影响[J].塔里木大学学报,2020,32(2):55-62
[20] CHANDRASEKAR M,CHANRATAANA M,KIM K,et al. Impact of Arbuscular Mycorrhizal Fungi on Photosynthesis,Water Status,and Gas Exchange of Plants Under Salt Stress-A Meta-Analysis[J]. Frontiers in Plant Science,2019(10):1-10
[21] LIANG S C,JIANG Y,LI M B,et al. Improving plant growth and alleviating photosynthetic inhibition from salt stress using AMF in alfalfa seedlings[J]. Journal of Plant Interactions,2019,14(1):482-491
[22] 邢易梅,董理,战力峰,等.混合接种摩西球囊霉和根瘤菌对紫花苜蓿耐碱能力的影响[J].草业学报,2020,29(9):136-145
[23] LI J Q,MENG B,CHAI H,et al. Arbuscular Mycorrhizal Fungi Alleviate Drought Stress in C-3(Leymus chinensis) and C-4(Hemarthria altissima) Grasses via Altering Antioxidant Enzyme Activities and Photosynthesis[J]. Frontiers in Plant Science,2019(10):1-12
[24] 于萌,张永帅,付伟,等.保水剂和丛枝菌根真菌异形根孢囊霉对紫花苜蓿生长与抗旱性的影响[J].菌物学报,2019,38(11):1976-1991
[25] LAOUANE R,MEDDICH A,BECHTAOUI N,et al. Effects of Arbuscular Mycorrhizal Fungi and Rhizobia Symbiosis on the Tolerance of Medicago Sativa to Salt Stress[J]. Gesunde Pflanzen,2019,71(2):135-146
[26] 戚志强,玉永雄,胡跃高,等.当前我国苜蓿产业发展的形势与任务[J].草业学报,2008(1):107-113
[27] 韩颜隆,刘晓静,王静,等.施氮对不同品种紫花苜蓿根系特性和生产性能的影响[J].草地学报,2022,30(2):379-384
[28] 范富,徐寿军,张庆国,等.氮、磷、钾肥配施对紫花苜蓿产量及营养物质含量的影响[J].中国土壤与肥料,2011(2):51-56
[29] 任爱天,鲁为华,杨洁晶,等.不同磷水平下AM真菌对紫花苜蓿生长和磷利用的影响[J].中国草地学报,2014,36(6):72-78
[30] 胡振琪,纪晶晶,王幼珊,等. AM真菌对复垦土壤中苜蓿养分吸收的影响[J].中国矿业大学学报,2009,38(3):428-432
[31] 王晓瑜,丁婷婷,李彦忠,等.AM真菌与根瘤菌对紫花苜蓿镰刀菌萎蔫和根腐病的影响[J].草业学报,2019,28(8):139-149
[32] 贾珺,韩清芳,周芳,等.氮磷配比对旱地紫花苜蓿产量构成因子及营养成分的影响[J].中国草地学报,2009,31(3):77-82
[33] SAWERS R J H,SVANE S F,QUAN C,et al. Phosphorus acquisition efficiency in arbuscular mycorrhizal maize is correlated with the abundance of root-external hyphae and the accumulation of transcripts encoding PHT1 phosphate transporters[J]. New Phytologist,2017,214(2):632-643
[34] SYERS J K,JOHNSTON A E,CURTIN D. Efficiency of soil and fertilizer phosphorus use[J]. FAO Fertilizer and Plant Nutrition Bulletin,2008,18(108):5-15
[35] ZAEFARIAN F,REZVANI M,REJALI F,et al. Effect of heavy metals and arbuscular mycorrhizal fungal on growth and nutrients (N,P,K,Zn,Cu and Fe) accumulation of alfalfa (Medicago sativa L.)[J]. AMerican-Eurasian Journal of Agricultural&Environmental Sciences,2011,11(3):346-352
[36] AZCóN R,BAREA J M. The Effect of vesicular-arbuscular mycorrhizate in decreasing Ca acquisition by alfalfa plants in calcareous soils[J]. Biology and Fertility of Soils,1992,13(3):155-159
[37] 黄晶,凌婉婷,孙艳娣,等.丛枝菌根真菌对紫花苜蓿吸收土壤中镉和锌的影响[J].农业环境科学学报,2012,31(1):99-105
[38] 罗巧玉,王晓娟,李媛媛,等. AM真菌在植物病虫害生物防治中的作用机制[J].生态学报,2013,33(19):5997-6005
[39] 陈涛,段廷玉.丛枝菌根真菌影响植物病害的研究进展[J].草业科学,2021,38(6):1097-1109
[40] LI Y,DUAN T,NAN Z,et al. Arbuscular mycorrhizal fungus alleviates alfalfa leaf spots caused by Phoma medicaginis revealed by RNA-seq analysis[J]. Journal of Applied Microbiology,2021,130(2):547-560
[41] 王晓瑜,丁婷婷,李彦忠,等. AM真菌与根瘤菌对紫花苜蓿镰刀菌萎蔫和根腐病的影响[J].草业学报,2019,28(8):139-149
[42] GAO P,GUO Y,LI Y,et al. Effects of dual inoculation of AMF and rhizobium on alfalfa (Medicago sativa) root rot caused by Microdochium tabacinum[J]. Australasian Plant Pathology,2018,47(2):195-203
[43] HARMON P J,MORAN A N,IVES R A. Species Response to Environmental Change:Impacts of Food Web Interactions and Evolution[J]. Science,2009,323(5919):1347-1350
[44] 李应德,丁婷婷,段廷玉. AM真菌对紫花苜蓿应答蚜虫胁迫的影响[J].草业学报,2020,29(1):155-162
[45] MA Y,RAJKUMAR M,OLIVEIRA S R,et al. Potential of plant beneficial bacteria and arbuscular mycorrhizal fungi in phytoremediation of metal-contAMinated saline soils[J]. Journal of Hazardous Materials,2019(379):7-8
[46] MEGLOULI H,SAHRAOUI L A,ROBERT M,et al. Arbuscular mycorrhizal inoculum sources influence bacterial,archaeal,and fungal communities'structures of historically dioxin/furan-contAMinated soil but not the pollutant dissipation rate[J]. Mycorrhiza,2018,28(7):635-650
[47] SANJAY A,ATUL K S,ATUL P S. Bioremediation of Salt Affected Soils:An Indian Perspective[M].Berlin:Springer,2017:211-231
[48] 李文彬,宁楚涵,徐孟,等.丛枝菌根真菌和高羊茅对压实土壤的改良效应[J].草业学报,2018,27(11):131-141
[49] XIAO L,BI Y L,DU S Z,et al. Effects of re-vegetation type and arbuscular mycorrhizal fungal inoculation on soil enzyme activities and microbial biomass in coal mining subsidence areas of Northern China[J]. Catena,2019(177):202-209
[50] 王海娟,包玉英,牛天心,等.菌剂与肥料配施对露天矿排土场苜蓿生长及土壤养分含量的影响[J].华北农学报,2014,29(04):186-191
[51] XU J,LIU S J,SONG S R,et al. Arbuscular mycorrhizal fungi influence decomposition and the associated soil microbial community under different soil phosphorus availability[J]. Soil Biology and Biochemistry,2018(120):181-190
[52] DAI J,HU J L,LIN X G,et al. Arbuscular mycorrhizal fungal diversity,external mycelium length,and glomalin-related soil protein content in response to long-term fertilizer management[J]. Journal of Soils and Sediments,2013(13):1-11
[53] 张延旭,毕银丽,王瑾.接种菌根对采煤沉陷区苜蓿生长及土壤改良影响研究[J].煤炭科学技术,2020,48(4):142-147
[54] 杜善周,郭楠,刘慧辉,等.接种丛枝菌根真菌对枯枝落叶腐解物养分利用影响[J].环境工程,2018,36(9):161-164
[55] 程龙飞,李林燕.库区坡面植被水土保持生态建设模式[J].水土保持研究,2010,17(5):251-253,260
[56] 曹梦,唐中华,赵龙,等.苏打盐碱化土壤pH与团聚体中球囊霉素相关土壤蛋白含量的关系[J].土壤,2018,50(2):319-325
[57] BEDINI S,PELLEGRINO E,AVIO L,et al. Changes in soil aggregation and glomalin-related soil protein content as affected by the arbuscular mycorrhizal fungal species Glomus mosseae and Glomus intraradices[J]. Soil Biology&Biochemistry,2009,41(7):1491-1496
[58] 罗巧玉,王晓娟,李媛媛,等. AM真菌在植物病虫害生物防治中的作用机制[J].生态学报,2013,33(19):5997-6005
[59] 陈保冬,于萌,郝志鹏,等.丛枝菌根真菌应用技术研究进展[J].应用生态学报,2019,30(3):1035-1046
[60] POZO M J,AZCóN A C. Unravelling mycorrhiza-induced resistance[J]. Current Opinion in Plant Biology,2007,10(4):393-398

Research Progress for Effects of Arbuscular Mycorrhizal Fungi on Growth and Development of Alfalfa

丛枝菌根真菌对紫花苜蓿生长发育特性的影响

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	MENG Xiang, SUN Ling-li, XIE Kai-yun, LIU Wei, CHU Hao-qing, ZHAO Yue. Effects of Irrigation, Phosphorus Application and AM Fungi on Yield and Water and Phosphorus Use Efficiency of Alfalfa [J]. Acta Agrestia Sinica, 2022, 30(9): 2356-2364.
[2]	FAN Yan-chuang, WANG Jun-feng, GAO Song, LI Zhi-jian. Effects of Sprouts Harvesting on Total Income of Alfalfa Grassland in Songnen Alkaline-salined Region [J]. Acta Agrestia Sinica, 2022, 30(9): 2460-2468.
[3]	ZANG Jia-yi, MA Yu-rong, LIANG Rui-ze, LI Yu-yue, YANG Xin. Effects of Mycorrhizal Fungi Inoculation and Phosphorus Addition on the Biomass and Competitiveness of Legumes-grasses Mixture System [J]. Acta Agrestia Sinica, 2022, 30(9): 2469-2476.
[4]	WANG Yu, DAI Xian-lin, MA Xiao-ying, WEI Bao, HE Feng, LI Xiang-lin, TONG Zong-yong. Yield and Quality Changes of Alfalfa in Response to Rotationally Grazing [J]. Acta Agrestia Sinica, 2022, 30(9): 2477-2482.
[5]	ZHANG Jia-wei, JIA Yu-shan, GE Gen-tu, WANG Zhi-jun, BAO Jian, LI Yu-yu, PENG Dong, WANG Yu, SUN Peng-bo, YUE Xiao-ming. Effects of Different Propionic Acid Concentration on the Quality and Aerobic Stability of Natural Forage Silage [J]. Acta Agrestia Sinica, 2022, 30(9): 2522-2528.
[6]	ZHEN Li-na, LIU Li-zhen, NIU Yan, LI Xia, LI Zhen, WU Na, WANG Run-mei. Analysis of AM Fungi Community Diversity in Rhizosphere Soil of Different Vegetation in Coal Gangue Mountain [J]. Acta Agrestia Sinica, 2022, 30(8): 2009-2018.
[7]	WANG Bo, WANG Cong-cong, XIA Fang-shan, CHEN Yi-lin, ZHAO Ping, ZHU Hui-sen. Influence of Selenium Priming on the Antioxidant Characteristics in Different Varieties of Alfalfa Seeds [J]. Acta Agrestia Sinica, 2022, 30(8): 2037-2044.
[8]	ZHANG Hui-hui, SHI Shang-li, WU Bei, LI Zi-li, LI Xiao-long, WU Fang, KANG Wen-juan, CHEN Xin-dong. Physiological Characteristics of Alfalfa Mixed with Perennial Gramineous Forages with Different Life Forms [J]. Acta Agrestia Sinica, 2022, 30(8): 2144-2157.
[9]	ZHANG Hai-juan, LU Guang-xin, FAN Yue-jun, ZHOU Hua-kun, ZHOU Xue-li, DOU Sheng-yun, YAO Shi-ting, YAN Hui-lin, ZHAO Yang-an, MA Kun, QI Yan-hu, QIU Peng-ying. Inoculation Effect of AM Fungi on Two Species of Gramineous Herbage in Alpine Grassland [J]. Acta Agrestia Sinica, 2022, 30(7): 1684-1691.
[10]	XU Hong-yu, LI Yu-ying. Analyzing Cold Acclimation Process of Alfalfa Based on KEGG Pathway [J]. Acta Agrestia Sinica, 2022, 30(7): 1721-1730.
[11]	WANG Teng-fei, CHANG Yi-ran, DENG Xue, SHEN Xiao-tian, WANG Bin, LI Man-you, NI Wang, LAN Jian. Adaptability Evaluation of Feed Oat Varieties in Rainfed Area of Ningxia [J]. Acta Agrestia Sinica, 2022, 30(7): 1755-1762.
[12]	KAN Hai-ming, PANG Zhuo, CHEN Chao, ZOU Jun-liang, ZHANG Guo-fang, WU Ju-ying. Changes in Soil Microbial Communities Following the Vegetation Restoration of Degraded Sandy Grassland in Beijing [J]. Acta Agrestia Sinica, 2022, 30(6): 1350-1358.
[13]	MAO Yuan-yu, LI Li-jing, LI Jin-chao, ZHANG Jia-hang, DUAN Meng-qi, XU Li-xin. Gene Functional Analysis of ZjSGR Gene in Zoysia japonica Leaves in Response to Vitro Stress [J]. Acta Agrestia Sinica, 2022, 30(6): 1396-1402.
[14]	LI Li-ping, LI Xu-lu, ZHANG Xiao-jie, GU Li-li, ZHANG Bo. Cloning and Expression Analysis of atpA Gene in Medicago sativa [J]. Acta Agrestia Sinica, 2022, 30(6): 1413-1421.
[15]	HE Feng, DAI Xian-lin, WEI Bao, MA Xiao-ying, LI Zhen-song, YANG Fan, TONG Zong-yong, WANG Yu, LI Xiang-lin. Effects of Paddock Location and Grazing Stage on Sheep Defoliating Behavior in Alfalfa Mixture Grassland [J]. Acta Agrestia Sinica, 2022, 30(6): 1485-1490.