Message Board

Respected readers, authors and reviewers, you can add comments to this page on any questions about the contribution, review,        editing and publication of this journal. We will give you an answer as soon as possible. Thank you for your support!

Name
E-mail
Phone
Title
Content
Verification Code

YE Bingzhu, LI Chunyan, JIA Min, ZAI Xin, QIN Luping, HAN Ting. The effects of symbiotic fungi on plant drought resistance and mechanisms[J]. Journal of Pharmaceutical Practice and Service, 2018, 36(5): 392-398. doi: 10.3969/j.issn.1006-0111.2018.05.003
Citation: YE Bingzhu, LI Chunyan, JIA Min, ZAI Xin, QIN Luping, HAN Ting. The effects of symbiotic fungi on plant drought resistance and mechanisms[J]. Journal of Pharmaceutical Practice and Service, 2018, 36(5): 392-398. doi: 10.3969/j.issn.1006-0111.2018.05.003

The effects of symbiotic fungi on plant drought resistance and mechanisms

doi: 10.3969/j.issn.1006-0111.2018.05.003
  • Received Date: 2018-03-23
  • Rev Recd Date: 2018-06-12
  • This article reviews the research on the effects of symbiotic fungi on plant drought resistance. Symbiotic fungi are widely distributed,which can form symbionts with plants. Studies have shown that some endophyte and symbiotic fungi can enhance plant's biological and non-biological stress tolerance,including drought, high temperature,mineral disorder and high salt. The plants infected by symbiotic fungi are more competitive than uninfected plants to the limited resources and grow better. Symbiotic fungi can enhance the resistance tolerance of plants through diverse channels. The mechanisms of improving the drought resistance mainly related to the absorption of nutrients,plants protection systems, hormonal regulations,hydrolytic enzymes,water metabolisms,related gene expressions,plants defense signal pathways,etc. This paper summarized the mechanism research progress of symbiotic fungi on improving plant drought resistance,which gave readers a comprehensive and updated information in this field.
  • [1] STIERLE A,STROBEL G,STIERLE D. Taxol and taxane production by Taxomyces andreanae,an endophytic fungus of Pacific yew[J]. Science,1993,260(5105):214-216.
    [2] MANO H,MORISAKI H.Endophytic bacteria in the riceplant[J]. Microbes Environ,2008,23(2):109-117.
    [3] BARRETTI PB,SOUZA RMD,POZZA AAA,et al. Increased nutritional efficiency of tomato plants inoculated with growth-promoting endophytic bacteria[J]. Revista Brasileira de Ciência do Solo,2008,32(4):1541-1548.
    [4] HASSAN N,NAKASUJI S,ELSHARKAWY MM,et al.Biocontrol potential of an Endophytic Streptomyces sp. strain MBCN152-1 against Alternaria brassicicola on cabbage plug seedlings[J].Microbes Environ,2017,32(2):133-141.
    [5] KULDAU G,BACON C. Clavicipitaceous endophytes:their ability to enhance resistance of grasses to multiple stresses[J]. Biological Control,2008,46(1):57-71.
    [6] KANE KH. Effects of endophyte infection on drought stress tolerance of Lolium perenne,accessions from the Mediterranean region[J]. Environ Exp Bot,2011,71(71):337-344.
    [7] HAHN H,MCMANUS MT,WARNSTORFF K,et al. Neotyphodium fungal endophytes confer physiological protection to perennial ryegrass (Lolium perenne L.) subjected to a water deficit[J]. Environ Exp Bot,2008,63(1):183-199.
    [8] 宋文玲,刘晓珍,蔡信之,等.两株内生真菌对菊花抗旱特性的影响[J].中国中药杂志,2011,36(3):302-306.
    [9] 穆平,李自超,李春平,等. 水、旱稻根系性状与抗旱性相关分析及其QTL定位[J].科学通报,2003,48(20):2162-2169.
    [10] RUíZ-LOZANO JM,AZCóN R. Hyphal contribution to water uptake in mycorrhizal plants as affected by the fungal species and water status[J]. Physiologia Plantarum,1995,95(3):472-478.
    [11] BELESKY DP,STRINGER WC,HILLl NS. Influence of endophyte and water regime upon tall fescue accessions. I. growth characteristics[J]. Ann Botan,1989,63(5):495-503.
    [12] 张文英,蒿若超,汪嫒嫒,等. 内生真菌印度梨形孢诱导提高玉米苗期抗旱性研究初探[J]. 玉米科学,2013(5):25.
    [13] BAE H,SICHER RC,KIM MS,et al. The beneficial endophyte Trichoderma hamatum isolate DIS 219b promotes growth and delays the onset of the drought response in Theobroma cacao[J]. J Exp Bot,2009,60(11):3279-3295.
    [14] 何跃军,钟章成,刘济明,等. VA真菌对构树(Broussonetia papyrifera)幼苗物质代谢的影响[J]. 生态学报,2007(12):5455-5462.
    [15] 魏媛,张金池,尹晓阳,等. 华山松菌根化幼苗的抗旱特性[J]. 南京林业大学学报(自然科学版),2007,31(4):69-72.
    [16] ELBERSEN HW,WEST CP. Growth and water relations of field-grown tall fescue as influenced by drought and endophyte[J]. GrassFor Sci,1996,51(4):333-342.
    [17] AUGé RM,TOLER HD,SAXTON AM. Arbuscular mycorrhizal symbiosis alters stomatal conductance of host plants more under drought than under amply watered conditions:a meta-analysis[J]. Mycorrhiza,2015,25(1):13-24.
    [18] 张涛,安黎哲,陈拓,等. 不同海拔青海云杉与祁连圆柏叶片抗氧化系统[J]. 植物生态学报,2009,33(4):802-811.
    [19] 姚瑞玲,甘春雁,项东云. 丛枝菌根化香椿,秋枫幼苗对干旱胁迫生理响应[J]. 广西林业科学,2013,42(4):295-299.
    [20] 吴强盛,夏仁学,胡正嘉. 丛枝菌根对枳实生苗抗旱性的影响研究[J]. 应用生态学报,2005,6(3):459-463.
    [21] 肖家欣,任群,吴雪俊,等. 丛枝菌根真菌对百喜草的生理特性的影响[J]. 植物分类与资源学报,2011,33(5):521-528.
    [22] ZHANG YP,NAN ZB. Growth and anti-oxidative systems changes in Elymus dahuricus is affected by Neotyphodium Endophyte under contrasting water availability[J]. J Agron Crop Sci,2007,193(6):377-386.
    [23] ZHANG YP,NAN ZB. Germination and seedling anti-oxidative enzymes of endophyte-infected populations of Elymus dahuricus under osmotic stress[J]. Seed Sci Technol,2010,38(2):522-527.
    [24] VADASSERY J,TRIPATHI S,PRASAD R,et al. Monodehydroascorbate reductase 2 and dehydroascorbate reductase 5 are crucial for a mutualistic interaction between Piriformospora indica and Arabidopsis[J]. J Plant Physiol,2009,166(12):1263-1274.
    [25] BALTRUSCHAT H,FODOR J,HARRACH BD,et al. Salt tolerance of barley induced by the root endophyte Piriformospora indica is associated with a strong increase in antioxidants[J]. New Phytol,2008,180(2):501-510.
    [26] RUíZ-SáNCHEZ M,ARMADA E,MU OZ Y,et al. Azospirillum and arbuscular mycorrhizal colonization enhance rice growth and physiological traits under well-watered and drought conditions[J]. J Plant Physiol,2011,168(10):1031-1037.
    [27] 丛国强,尹成林,何邦令,等. 水分胁迫下内生真菌球毛壳ND35对冬小麦苗期生长和抗旱性的影响[J]. 生态学报,2015,35(18):6120-6128.
    [28] 韩荣,李夏,任安芝,等.干旱胁迫下内生真菌感染对羽茅的生理生态影响[J].生态学报,2011,31(8):2115-2123.
    [29] SHUKLA N,AWASTHI RP,RAWAT L,et al. Biochemical and physiological responses of rice (Oryza sativa L.) as influenced by Trichoderma harzianum under drought stress[J]. Plant Physiol Biochem,2012,54:78-88.
    [30] AUGé RM. Water relations,drought and vesicular-arbuscular mycorrhizal symbiosis[J]. Mycorrhiza,2001,11(1):3-42.
    [31] TANGNGAMSAKUL P,KARNCHANATAT A,SIHANONTH P,et al. An extracellular glucoamylase produced by endophytic fungus EF6[J]. Prikl Biokhim Mikrobiol,2011,47(4):455-461.
    [32] RICHARDSON MD,CHAPMAN GW,HOVELAND CS,et al. Sugar alcohols in endophyte-infected tall feseue under drought[J]. Crop Science,1992,32(4):1060-1061.
    [33] 任安芝,高玉葆,王巍,等.王金龙干旱胁迫下内生真菌感染对黑麦草光合色素和光合产物的影响[J].生态学报,2005,25(2):225-231.
    [34] KONG J,PEI Z,DU M,et al. Effects of arbuscular mycorrhizal fungi on the drought resistance of the mining area repair plant sainfoin[J]. Int J Min Sci Technol,2014,24(4):485-489.
    [35] 贺学礼,高露,赵丽莉. 水分胁迫下丛枝菌根AM真菌对民勤绢蒿生长与抗旱性的影响[J]. 生态学报,2011,31(4):1029-1037.
    [36] JOOST RE. Acremonium in fescue and ryegrass:boon or bane? A review[J]. J Anim Sci,1995,73(3):881-888.
    [37] RUíZ-LOZANO JM,AROCA R,ZAMARRE O áM,et al. Arbuscular mycorrhizal symbiosis induces strigolactone biosynthesis under drought and improves drought tolerance in lettuce and tomato[J]. Plant Cell Environ,2016,39(2):441-452.
    [38] SáNCHEZ-ROMERA B,RUíZ-LOZANO JM,ZAMARRE OO áM,et al. Arbuscular mycorrhizal symbiosis and methyl jasmonate avoid the inhibition of root hydraulic conductivity caused by drought[J]. Mycorrhiza,2016,26(2):111-122..
    [39] KHAN AL,WAQAS M,LEE IJ. Resilience of Penicillium resedanum LK6 and exogenous gibberellin in improving Capsicum annuum growth under abiotic stresses[J]. J Plant Res,2015,128(2):259-268.
    [40] SHERAMETI I,TRIPATHI S,VARMA A,et al. The root-colonizing endophyte Pirifomospora indica confers drought tolerance in Arabidopsis by stimulating the expression of drought stress-related genes in leaves[J]. Mol Plant Microbe Interact,2008,21(6):799-807.
    [41] 王立梅,杨秀芬,曾洪梅,等. 蛋白激发子PeaT1在枯草芽胞杆菌中的分泌表达及重组菌株提高小麦抗旱和促生的作用[J].生物工程学报,2011,27(9):1355-1362.
    [42] 陈鸿鹏,谭晓风,谢耀坚,等. 油茶CoSAD基因载体的构建、鉴定及功能分析[J].植物资源与环境学报,2015,24(2):11-18.
    [43] 蔡昆争,董桃杏,徐涛. 茉莉酸类物质(JAs)的生理特性及其在逆境胁迫中的抗性作用[J]. 生态环境,2006,15(2):397-404.
    [44] TON J,VAN PELT JA,VAN LOON LC,et al. Differential effectiveness of salicylate-dependent and jasmonate/ethylene-dependent induced resistance in Arabidopsis[J]. Mol Plant Microbe Interact,2002,15(1):27-34.
    [45] 徐茂军,董菊芳,朱睦元. NO通过水杨酸(SA)或者茉莉酸(JA)信号途径介导真菌诱导子对粉葛悬浮细胞中葛根素生物合成的促进作用[J]. 中国科学(C辑),2006,36(1):66-75.
    [46] SENARATNA T,TOUCHELL D,BUNN E,et al. Acetyl salicylic acid (Aspirin) and salicylic acid induce multiple stress tolerance in bean and tomato plants[J]. Plant Growth Regul,2000,30(2):157-161.
    [47] 刘晓珍,宋文玲,张凯,等. 内生真菌对菊花幼苗干旱胁迫生理的影响[J]. 园艺学报,2011,38(2):335-342.
    [48] LIU Z,LI Y,MA L,et al. Coordinated regulation of arbuscular mycorrhizal fungi and soybean MAPK pathway genes improved mycorrhizal soybean drought tolerance[J]. Mol Plant Microbe Interact,2015,28(4):408-419.
    [49] 李飞,李春杰. 内生真菌对禾草类植物抗旱性的影响[J]. 草业科学,2006,23(3):57-62.
    [50] HOVELAND CS. Importance and economic significance of the Acremonium endophytes to performance of animals and grass plant[J]. Agricult Ecosyst Environ,1993,44(1):3-12.
  • 加载中
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

Article Metrics

Article views(4170) PDF downloads(937) Cited by()

Related
Proportional views

The effects of symbiotic fungi on plant drought resistance and mechanisms

doi: 10.3969/j.issn.1006-0111.2018.05.003

Abstract: This article reviews the research on the effects of symbiotic fungi on plant drought resistance. Symbiotic fungi are widely distributed,which can form symbionts with plants. Studies have shown that some endophyte and symbiotic fungi can enhance plant's biological and non-biological stress tolerance,including drought, high temperature,mineral disorder and high salt. The plants infected by symbiotic fungi are more competitive than uninfected plants to the limited resources and grow better. Symbiotic fungi can enhance the resistance tolerance of plants through diverse channels. The mechanisms of improving the drought resistance mainly related to the absorption of nutrients,plants protection systems, hormonal regulations,hydrolytic enzymes,water metabolisms,related gene expressions,plants defense signal pathways,etc. This paper summarized the mechanism research progress of symbiotic fungi on improving plant drought resistance,which gave readers a comprehensive and updated information in this field.

YE Bingzhu, LI Chunyan, JIA Min, ZAI Xin, QIN Luping, HAN Ting. The effects of symbiotic fungi on plant drought resistance and mechanisms[J]. Journal of Pharmaceutical Practice and Service, 2018, 36(5): 392-398. doi: 10.3969/j.issn.1006-0111.2018.05.003
Citation: YE Bingzhu, LI Chunyan, JIA Min, ZAI Xin, QIN Luping, HAN Ting. The effects of symbiotic fungi on plant drought resistance and mechanisms[J]. Journal of Pharmaceutical Practice and Service, 2018, 36(5): 392-398. doi: 10.3969/j.issn.1006-0111.2018.05.003
Reference (50)

Catalog

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return