Chinese Journal of Applied Ecology ›› 2003, Vol. ›› Issue (5): 819-822.
Previous Articles Next Articles
HUANG Jinhua1,2, LUO Shiming1, ZENG Rensen1
Received:
2001-11-16
Revised:
2002-10-23
CLC Number:
HUANG Jinhua, LUO Shiming, ZENG Rensen. Mechanisms of plant disease resistance induced by arbuscular mycorrhizal fungi[J]. Chinese Journal of Applied Ecology, 2003, (5): 819-822.
[1] Bagyaraj DJ. 1984. Biological interactions with VA mycorrhizal fungi. In: Powell CLl,Bagyaraj DJ eds. VA Mycorrhiza. Boca Raton: CRC Press,Inc. 131~146 [2] Bagyaraj DJ,Menge JA. 1978. Interaction between a VA mycorrhiza and Azotobacter and their effects on the rhizosphere microflora and plant growth.New Phytol,80:567~573 [3] Baltruschat H,Schnbeck F. 1975. The influence of endotrophic mycorrhiza on the infestation of tobacco by Thielaviopsis basicola. Phytopathol Z,84:172~188 [4] Benhamou N,Fortin JA,Hamel C. 1994. Resistance responses of mycorrhizal Ri T-DNA-transformed carrot roots to infection by Fusarium oxysporum f. sp chrysanthemi. Phytopathology,84:958~968 [5] Bennett RN,Wallsgrove RM.1994. Tansley Review No. 72,secondary metabolites in plant defence mechanisms.New Phytol,127:617~633 [6] Bonfante-Fasolo P.1984. Anatomy and Morphology of VA Mycorrhizae. In: Powell CLl,Bagyaraj DJ eds. VA Mycorrhiza. Boca Raton: CRC Press Inc. 6~26 [7] Bowen GD. 1980. Misconceptions,concepts and approaches in rhizosphere biology.In:Ellwood DC ed. Contemporary Microbial Ecology. London: Academic Press.283 [8] Braea JM,Jeffries P. 1995. Arbuscular mycorrhizas in sustainable soil-plant systems. In: Hock J,Varma A eds. Mycorrhiza Structure Function,Molecular Biology and Biotechnology. Heidelberg : Springer. 521~559 [9] Caron M,Fortin JA,Richard C. 1986. Effect of phosphorus concentration and Glomus intraradices on Fusarium crown and root rot of tomatoes.Phytopathology,76(9): 942~946 [10] Chen X-Y(陈晓亚). 1998. Plant Secondary Metabolism and its regulation. In: Yu S-W(余叔文),Tang Z-C (汤章城) eds. Plant Physiology and Molecular Biology (2nd Ed).Beijing: Science Press. 310~400 (in Chinese) [11] Chou LG,Schmitthenner AF. 1974. Effect of Rhizobium japonicum and Endogone mosseae on soybean root rot caused by Pythium ultimum and Phytophthora megasperma var.sojae. Plant Dis Rep,58:221~227 [12] Cordier C,Pozo MJ,Barea MJ. 1998. Cell defense responses associated with localized and systemic resistance to Phytophthora parasitica induced in tomato by an arbuscular mycorrhizal fungus.Molecular Plant-Microbe Interactions,11(10): 1017~1028 [13] Daft MJ,Okusanya BO. 1973. Effect of endogone mycorrhiza on plant growth V. Influence of infection on the multiplication of viruses in tomato,petunia and strawberry.New Phytol,72:975~982 [14] Dehne HW,Schnbeck F. 1975. The influence of the endotrophic mycorrhiza on the fusarial wilt of tomato,Z Pflanzenkr Pflanzenschutz,82:630~636 [15] Dehne HW,Schnbeck F. 1979. Investigations on the influence of endotrophic mycorrhiza on plant diseases Ⅱ. Phenol metabolism and lignification.Phytopathol Z,95:210~216 [16] Diederichs C. 1987. Interaction between five endomycorrhizal fungi and the rootknot nematode Meloidogyne javanica on chickpea under tropical conditions. Trop Agric,64(4): 353~355 [17] Dugassa GD,von Alten H,Schnbeck F. 1996. Effects of arbuscular mycorrhiza (AM) on health of Linum usitatissimum L. infected by fungal pathogens.Plant Soil,185:173~182 [18] Fitter AH,Garbaye J. 1994. Interaction between mycorrhizal fungi and other soil organisms. In: Robson AD,Abbot LK,Malajczuk N eds. Management of Mycorrhizas in Agriculture,Horticulture and Forestry. Dordrecht: Kluwer Academic.123~132 [19] Granham JH,Menge JA. 1982. Influence of vesicular-arbuscular mycorrhizae and soil phosphorus on take-all disease of wheat.Phytopathol,72:95~98 [20] Gu X-Y(顾向阳),Hu Z-J(胡正嘉). 1994. Effect of VA mycorrhiza Glomus mosseae on microbiomass and biomass of cotton rhizosphere.Chin J Ecol(生态学杂志),13(2):7~11(in Chinese) [21] Harrison MJ,Dixon RA. 1993. Isoflavonoid accumulation and expression of defense gene transcripts during the establishment of Vesicular-Arbuscular mycorrhizal associations in roots of Medicago truncatula. Mol Plant Microbe Interaction,6:643~654 [22] Hetrick BAD. 1984. Ecology of VA Mycorrhizal Fungi. In: Powell CLl,Bagyaraj DJ eds. VA Mycorrhiza. Boca Raton: CRC Press Inc.1~234 [23] Hooker JE,Jaizme-Vega M,Atkinson D. 1994. Biocontrol of plant pathogens using arbuscular mycorrhizal fungi. In: Gianinazzi S,Schüepp H eds. Impact of Arbuscular Mycorrhizas on Sustainable Agriculture and Natural Ecosystems. Basel: ALS,Birkháuser. 191~170 [24] Hussey RS,Roncadori RW. 1982. Vesicular-arbuscular mycorrhizas may limit nematode activity and improve plant growth.Plant Disease,66(1): 9~14 [25] Kape R,Wex K,Parniske M. 1992. Legume root metabolites and VA-Mycorrhiza development.J Plant Physiol,131:54~60 [26] Kaplan DR,Keen NT,Thomason IJ.1980. Study of the mode of action of glyceollin in soybean:Incompatibility to the root knot nematode Meloidogyne incognita.Physiol Plant Pathol,16:319~325 [27] Kloepper JW. 1991. Plant growth promotion mediated by bacterial rhizosphere colonizers. In: Keister DL,Cregan PB eds. The Rhizosphere and Plant Growth. Dordrecht: Kluwer. 315~326 [28] Krishna KR,Bgyaraj DJ. 1984. Phenols in mycorrhizal roots of Arachis hypogaea. Experienta,40:85~86 [29] Linderman RG. 1994. Role of VAM fungi in biocontrol. In: Pfleger FL,Linderman RG eds. Mycorrhizae and Plant Health. St Paul,MN: APS Press. 1~26 [30] Liu R-J(刘润进),Qiu W-F(裘维蕃). 1994. Advances on plant disease resistance induced by endmycorrhizal fungi (VAM).Acta Phytopathol Sin(植物病理学报),24(1):1~4(in Chinese) [31] Liu R-J(刘润进),Shen C-R(沈崇尧),Qiu W-F(裘维蕃). 1994. Competition between VAM fungi and Verticillium dahliae during invasion.Acta Pedol Sin(土壤学报),31:224~224(in Chinese) [32] Liu R-J(刘润进),Li X-L(李晓林). 2000. Arbuscular Mycorrhizal Fungi and the Application. Beijing: Science Press.122~133(in Chinese) [33] Maier W,Peipp H,Schmidt J. 1995. Levels of a terpenoid glycoside (blumenin) and cell wall-bound phenolics in some cereal mycorrhizas.Plant Physiol,109:465~470 [34] Meyer JR,Linderman RG. 1986. Selective influence on populations of rhizosphere or rhizoplane bacteria and actinomtycetes by mycorrhizas formed by Glomus fasiciculatum. Soil Biol Biochem,18:191~196 [35] Morandi D. 1989. Effect of xenobiotics on endomycorrhizal infection and isoflavonoid accumulation in soybean roots.Plant Physiol Biochem,27:697~701 [36] Morandi D. 1996. Occurrence of phytoalexins and phenolic compounds in endomycorrhizal interactions,and their potential role in biological control.Plant Soil,185:231~241 [37] Morandi D,Bailey JA,Gianinazzi-Pearson V. 1984. Isoflavonoid accumulation in soybean roots infected with vesicular-arbuscular mycorrhizal fungi.Physiol Plant Pathol,24:357~364 [38] Morandi D,Le Quéré JL. 1991. Influence of nitrogen on accumulation of isosojagol (a newly detected coumestan in soybean) and associated isoflavonoids in roots and nodules of mycorrhizal and non-mycorrhizal soybean.New Phytol,117:75~79 [39] Ratnayake M,Leonard RT,Menge JA. 1978. Root exudation in relation to supply of phosphorus and its possible relevance to mycorrhizal formation.New Phytol,81:543~552 [40] Roncadori RW. 1997. Interactions between arbuscular mycorrhizas and plant parasitic nematodes in agro-ecosystems. In: Gange AC,Brown VK eds. Multitrophic Interactions in Terrestrial System. Oxford: Blackwell Science Ltd. 1~448 [41] Schnbeck F. 1979. Endomycorrhiza in relation to plant diseases. In: Schippers B,Gams S eds. Soil-Borne Plant Pathogens. New York: Academic Press. 271 [42] Schnbeck F,Dehne HW. 1977. Damage to mycorrhizal and non-mycorrhizal cotton seedlings by Thielaviopsis basicola. Plant Dis Rep,61:266~276 [43] Schnbeck F,Dehne HW. 1979. Investigations on the influence of endotrophic mycorrhiza on plant diseases Ⅳ. Fungal parasites on shoots,Olipidium brassicae,TMV.Z Pflanzenkr Pflanzenschutz,86:130~136 [44] Schnbeck F,Spengler G. 1979. Detection of TMV in mycorrhizal cells of tomato by immunoflu-orescence.Phytopathol Z,94:84~91 [45] Smith GS,Hussey RS,Roncadori RW. 1986. Penetration and post infection development of Meloidogyne incognita on cotton as affected by Glomus intraradices and phosphorus.Nematol,18:424~435 [46] Smith SE,Read DJ. 1997. Mycorrhizal Symbiosis (2nd Ed.). London: Academic Press.4~160 [47] Volpin H,Phillips DA,Okon Y,Kapulnik Y. 1995. Suppression of an isoflavonoid phytoalexin defense response in mycorrhizal alfafa rots.Plant Physiol,108:1449~1454 [48] Weaver DJ,Wehunt EJ. 1975. Effect of soil pH on susceptibility of peach to Pseudomonas syringae.Phytopathology,65:948~955 [49] Whipps JM. 1997. Interactions between fungi and plant pathogens in soil and the rhizosphere. In: Gange AG,Brown VK eds. Multitrophic Interactions in Terrestrial Systems. Oxford: Blackwell Science Ltd.47~57 [50] Zeng R-S(曾任森),Luo S-M(骆世明),Shi M-B(石木标). 1999. Allelopathy of Pisolithus tinctorius fruitbodies and isolation and identification of allelochemicals.Chin J App Ecol(应用生态学报),10(2):206~208(in Chinese) |
[1] | YU Miao, GUO Xuelian, LI Yunzhao, ZHANG Kun, DU Zhaohong. Effects of fresh-salt water interaction on spatial variations of soil organic carbon in reed wetland of Yellow River Estuary [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 415-423. |
[2] | GAO Mingwei, DONG Xiuqiang, ZHANG Chongliang, XU Binduo, JI Yupeng, REN Yiping, XUE Ying. Influencing factors of predation on five keystone prey species in Haizhou Bay based on Delta-GAMMs [J]. Chinese Journal of Applied Ecology, 2023, 34(4): 1137-1145. |
[3] | YIN Zaifang, SUN Honggang, TAN Zifeng, LIU Wei. Research progress on productivity of mixed forest. [J]. Chinese Journal of Applied Ecology, 2023, 34(11): 3135-3143. |
[4] | SONG Nai-ping, CHEN Xiao-ying, WANG Lei, PAN Ya-qing, YANG Xin-guo, CHEN Juan, CHEN Lin, MENG Chen. Village-level landscape succession and its driving mechanism in the agro-pastoral ecotone of Ningxia, China [J]. Chinese Journal of Applied Ecology, 2022, 33(5): 1387-1394. |
[5] | QIN Shu-qi, PENG Qin, DONG Yun-she, QI Yu-chun. Responses of soil respiration to the interaction of rainfall changes and nitrogen deposition: A review [J]. Chinese Journal of Applied Ecology, 2022, 33(4): 1145-1152. |
[6] | WANG Yan-ge, ZHANG Bo-ran, ZHAO Rui. Influence of species interaction on species distribution simulation and modeling methods. [J]. Chinese Journal of Applied Ecology, 2022, 33(3): 837-843. |
[7] | CAO Ben-fu, JIANG Hai-xia, LIU Li, LU Yin-gang, WANG Mao-sheng. Research progress on mechanism of arbuscular common mycorrhizal networks in plant-plant interactions [J]. Chinese Journal of Applied Ecology, 2021, 32(9): 3385-3396. |
[8] | WANG Ya-jun, WANG Teng-qi, HOU Zhi-jie, WANG Xue-hao, SU Gao-jie, LIU Yi-qiang, ZHOU Quan. Responses of root exudates to intercropping of Chinese milk vetch with rape. [J]. Chinese Journal of Applied Ecology, 2021, 32(5): 1783-1790. |
[9] | WU Long-long, TIAN Cang, ZHANG Lu, HUANG Jing, ZHU Lian-feng, ZHANG Jun-hua, CAO Xiao-chuang, JIN Qian-yu. Research advance in the roles of water-nitrogen-oxygen factors in mediating rice growth, photosynthesis and nitrogen utilization in paddy soils. [J]. Chinese Journal of Applied Ecology, 2021, 32(4): 1498-1508. |
[10] | YANG Meng-ke, LI Jian-ling, LIU Sai, QIAO Hai-li, GUO Kun, XU Rong, CHEN Jun, XU Chang-qing. Hormone response of Lycium barbarum to gall mite Aceria pallida and effects of exogenous salicylic acid on the infestation and development of gall mite [J]. Chinese Journal of Applied Ecology, 2020, 31(7): 2307-2313. |
[11] | LI Zhi-peng, ZHAO Jian, CHEN Ye-bin, CHEN Hong, LIN Na, QIU Rong-zhou. Spatial variation and driving factors of invasive plants in Fujian Province, China [J]. Chinese Journal of Applied Ecology, 2019, 30(8): 2682-2690. |
[12] | ZHOU Quan, WANG Long-chang, XING Yi, MA Shu-min, ZHANG Xiao-duan, CHEN Jiao, SHI Chao. Effects of Chinese milk vetch intercropped with rape under straw mulching on soil aggregate and organic carbon character [J]. Chinese Journal of Applied Ecology, 2019, 30(4): 1235-1242. |
[13] | LI Xiang, QI Wen-ping, TAN Chang, WANG Bai-xue, WANG Yan-hui. Coupling between ecological environment vulnerability and multidimensional poverty: An empirical analysis from 1586 poverty-stricken villages in Hechi City, Guangxi, Southwest China [J]. Chinese Journal of Applied Ecology, 2019, 30(12): 4303-4312. |
[14] | WANG Lei, DONG Shu-ting, LIU Peng, ZHANG Ji-wang, ZHAO Bin, ZHENG Feng-xia. The interactive effects of water and nitrogen addition on ammonia volatilization loss and yield of winter wheat. [J]. Chinese Journal of Applied Ecology, 2018, 29(6): 1919-1927. |
[15] | ZHOU Quan, WANG Long-chang, XING Yi, MA Shu-min, ZHANG Xiao-duan, CHEN Jiao, SHI Chao. Effects of intercropping Chinese milk vetch on functional characteristics of soil microbial community in rape rhizosphere. [J]. Chinese Journal of Applied Ecology, 2018, 29(3): 909-914. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||