油橄榄与丛枝菌根真菌的共生效应研究进展
|
摘要
油橄榄在育苗栽培及生长发育过程中往往会受到各种胁迫,影响果实产量和橄榄油品质,而接种可与油橄榄共生的丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)可以提高苗成活率,改善油橄榄生长状况,抵御胁迫效果显著.目前从油橄榄根系和根际土壤分离报道的AMF已达13属50多种,可用于油橄榄栽培的潜在AMF资源十分丰富.总结影响AMF侵染油橄榄根系的主要因素,着重阐述接种AMF对油橄榄生长、抗性生理及品质的影响:(1)促进植株根系的生长和分枝,提高对水分及矿质元素的吸收效率;(2)增大宿主叶面积,提高气孔导率及光合效率,使植株营养生长更加旺盛,增强对移植、干旱、虫害等胁迫的耐受性;(3)改善油橄榄果实外观、品质及产量.因此,研究国产油橄榄的共生AMF种类、分布及影响因素,并开发有效的AMF菌剂用于国产油橄榄育苗和种植产业具有良好的发展前景.(表1参87)
Olive trees are inevitably affected by various stressors during seedling cultivation and growth, which can seriously affect the yield and oil quality of olive crops. Inoculation of olive trees with symbiotic arbuscular mycorrhizal fungi(AMF)can improve the seedling survival rates, nutrient uptake, and stress tolerance of olive plants. At present, more than 13 genera and 50 species of AMF have been reported to have been isolated from the root system and rhizosphere soil of olive plants. In this study, the main factors influencing the colonization of the root system of olive by AMF were analyzed, and the effects of AMF inoculation on the growth and stress-resistance physiology of olive were described in detail. AMF were found to have the following effects on their olive host plants:(1) they promote the growth and branching of plant roots, which improves the absorption efficiency of water and mineral elements by the roots;(2) they increase the leaf area of the host plant, which improves its stomatal conductance and photosynthetic efficiency, and also provides more nutrition to the plant, making its growth more vigorous and strengthening its tolerance to transplant, drought, insect pests, and other stressors; and(3) they improve the appearance, quality, and yield of olive fruit. After summarizing and analyzing the current situation in research related to the symbiosis between AMF and olive, the prospects for further research on this topic in China and the problems to be solved by it were proposed. In summary, further studies on the symbiotic AMF species associated with domesticated olive,as well as their distributions and influences on their host plants, should be conducted in the future, and the development of effective AMF agents for the cultivation and planting of domestic olive seedlings has good prospects for use in these industries.
Olive trees are inevitably affected by various stressors during seedling cultivation and growth, which can seriously affect the yield and oil quality of olive crops. Inoculation of olive trees with symbiotic arbuscular mycorrhizal fungi(AMF)can improve the seedling survival rates, nutrient uptake, and stress tolerance of olive plants. At present, more than 13 genera and 50 species of AMF have been reported to have been isolated from the root system and rhizosphere soil of olive plants. In this study, the main factors influencing the colonization of the root system of olive by AMF were analyzed, and the effects of AMF inoculation on the growth and stress-resistance physiology of olive were described in detail. AMF were found to have the following effects on their olive host plants:(1) they promote the growth and branching of plant roots, which improves the absorption efficiency of water and mineral elements by the roots;(2) they increase the leaf area of the host plant, which improves its stomatal conductance and photosynthetic efficiency, and also provides more nutrition to the plant, making its growth more vigorous and strengthening its tolerance to transplant, drought, insect pests, and other stressors; and(3) they improve the appearance, quality, and yield of olive fruit. After summarizing and analyzing the current situation in research related to the symbiosis between AMF and olive, the prospects for further research on this topic in China and the problems to be solved by it were proposed. In summary, further studies on the symbiotic AMF species associated with domesticated olive,as well as their distributions and influences on their host plants, should be conducted in the future, and the development of effective AMF agents for the cultivation and planting of domestic olive seedlings has good prospects for use in these industries.
引文
1 Schüβler A,Walker C.The Glomeromycota:A Species List with New Families and New Genera[J].Gloucester,England:Createspace Indepent Publishing Platform,2010
2王幼珊,刘润进.球囊菌门丛枝菌根真菌最新分类系统菌种名录[J].菌物学报,2017,36(7):820-850[Wang YS,Liu RJ.A checklist of arbuscular mycorrhizal fungi in the recent taxonomic system of glomeromycota[J].Mycosystema,2017,36(7):820-850]
3 Treseder KK,Cross A.Global distributions of arbuscular mycorrhizal fungi[J].Ecosystems,2006,9(2):305-316
4 Purin S,Rillig M.Parasitism of arbuscular mycorrhizal fungi:reviewing the evidence[J].FEMS Microbiol Lett,2008,279(1):8-14
5 Koltai H,Kapulnik Y.Arbuscular Mycorrhizal Symbiosis Under Stress Conditions:Benefits and Costs[M].Amsterdam:Springer-Verlag,2010:339-356
6白满英,张金诚,崔育京.橄榄油的开发应用[J].粮油食品科技,2003,11(2):31-33[Bai MY,Zhang JC,Cui YJ.Development and application of olive oil[J].Sci Technol Cereals Oils Foods,2003,11(2):31-33]
7韩华柏,何方.我国油橄榄引种研究进展[J].中国南方果树,2007,36(3):37-42[Han HB,He F.Research progress on olive introduction in China[J].South Chin Fruits,2007,36(3):37-42]
8 Kachkouch W,Touati J,Touhami AO,Filali-Maltouf A,Modafar CE,Moukhli A,Oukabli A,Benkirane R,Douiral A.Diversity of arbuscular mycorrhizal fungi in the rhizosphere of Olea europaea in three regions of Morocco(Tafilalt,Zagora and Taounate)[J].Int J Pure Appl Biol,2014,2(5):178-195
9 Calvente R,Cano C,Ferrol N,Azconaguilar C,Barea JM.Analysing natural diversity of arbuscular mycorrhizal fungi in olive tree(Oleaeuropaea L.)plantations and assessment of the effectiveness of native fungal isolates as inoculants for commercial cultivars of olive plantlets[J].Appl Soil Eco, 2004,26(1):11-19
10 Porras-soriano A,Marcilla-goldaracena I,Soriano-martin ML,Porraspiedra A.Development and resistance to Verticillium dahliae of olive plantlets inoculated with mycorrhizal fungi during the nursery period[J].J Agric Sci,2006,144(2):151-157
11 Kapulnik Y,Tsror L,Zipori I,Dag A.Effect of AMF application on growth,productivity and susceptibility to Verticillium wilt of olives grown under desert conditions[J].Symbiosis,2010,52(2-3):103-111
12邓明全.油橄榄丰产稳产栽培技术研究[J].林业科学研究,2005,18(5):590-594[Deng MQ.Research on cultivation techniques for high and stable yield of Olea europaea L.[J].For Res,2005,18(5):590-594]
13薛雅琳,薛益民.我国橄榄油及油橄榄果渣油产品标准的制定情况[J].粮油食品科技,2006,14(4):11-13[Xue YL,Xue YM.[J].Sci Technol Cereals Oils Foods,2006,14(4):11-13]
14施宗明,孙卫邦,祁治林,李云,刘金凤.中国油橄榄适生区研究[J].植物'分类与资源学报,2011,33(5):571-579[Shi ZM,Sun WB,Qi ZL,Li Y,Liu JF.On the suitable regions for olive(Olea europaea)growing in China[J].Plant Divers Resour,2011,33(5):571-579]
15卯吉华,宁德鲁,李荣波,景跃波.云南不同栽培区油橄榄的丛枝菌根研究[J]·西部林业科学,2015,44(1):114-120[Mao JH,Ning DL,Li R B,Jing YB.Arbuscular mycorrhizas in three major olive growing regions of Yunnan province[J].J West ChinFor Sci,2015,44(1):114-120]
16 Sidhoum W,Fortas Z.Effect of arbuscular mycorrhizal fungi on growth of semi-woody olive cuttings of the variety"sigoise"in Algeria[J].Am J Res Commun,2013,1:244-257
17 Citernesi AS,Vitagliano C,Giovannetti M.Plant growth and root system morphology of Olea europaea L.rooted cuttings as influenced by arbuscular mycorrhizas[J].J Horticul Sci Biote,1998,73(5):647-654
18 Castillo P,Nico AI,Azcon-aguilar C,Del Rio Rincon C,Jimenez-Diaz RM.Protection of olive planting stocks against parasitism of root-knot nematodes by arbuscular mycorrhizal fungi[J].Plant Pathol,2006,55(5):705-713
19 Bompadre MJ,Pergola M,Fernandez BL,Colombo RP,Silvani VA,Pardo AG,Ocampo JA,Godeas AM.Evaluation of arbuscular mycorrhizal fungi capacity to alleviate abiotic stress of olive(Olea europaea L.)plants at different transplant conditions[J].Sci World J,2014,2014(2):1-12
20 Mridha MAU,Al-Qarawi AA,Oud SSA,Al-Barakah F.Status and need of research on growth improvement of olive(Olea europaea L.)with microbial inoculants in Saudi Arabia[J].J Pure Appl Microb,2013,7(3):1861-1868
21林先贵,胡君利,戴珏,王发园,冯有智.丛枝菌根真菌群落结构与多样性研究方法概述及实例比较[J].应用与环境生物学报,2017,23(2):343-350[Lin XG,Hu JL,Dai Y,Wang FY,Feng YZ.Overview and comparison of research methods for determining the community structure and diversity of arbuscular mycorrhizal fungi[J].Chin J Appl En viron Biol,2017,23(2):343-350]
22 Chliyeh M,Ouazzani Touhami A,Filali-maltouf A,Modafar CE,Moukhli A,Oukabli A,Benkirane R,Douiral A.Effect of a composite endomycorrhizal inoculum on the growth of olive trees under nurseries conditions in Morocco[J].Inter J Pure Appl Biosci,2014,2(2):1-14
23 Alguacil MM,Torrecillas E,Kohler J,Roldan A.A molecular approach to ascertain the success of"in situ"AM fungi inoculation in the revegetation of a semiarid,degraded land[J].Sci Total Environ,2011.409(15):2874-2880
24 Chliyeh M,Kachkouch W,Zouheir T,Touhami AO,Filali-Maltouf A,Modafar CE,Moukhli A,Benkirane R,Douira A.Evolution of a composite endomycorrhizal inoculums in function of time in the level of the olive plants rhizosphere[J].Inter J Adv Pharm Biol Chem,2016,5(1):79-92
25 Vieira VCS,Melloni R,Vieira NETOJ.Assessment of mycorrhizal interaction in olive tree(Olea europea L.)cultivars[J].Revista Brasileira De Ciencia Do Solo,2011,35(6):1885-1892
26 Mira FR.L,effeto delle micorrize arbusculari sulla crescita di piante di olivo(Olea europaea L.)micropropagate[J].Phd Res Horticul.Fac Agric,Universita degli Studi della Tuscia,2009,94[Mira F R.The effect of arbuscular mycorrhizae on the growth of olive trees(Olea europaea L.)micropropagated[J].Phd Res Horticul Fac Agric Univ Tuscia,2009,94]
27 Ferreira GMDR,Melloni R,Martins FB,Silva LFDOD,Goncalves EE.Fungos micorrizicos arbusculares no desenvolvimento de mudas de oliveira(Olea europaea L.)cultivadas no sul de minas gerais[J].Revista Brasileira De Ciencia Do Solo,2014,39(2):361-366[Ferreira GMDR,Melloni R,Martins FB,Silva LFDOD,Gongalves EE.Arbuscular mycorrhizal fungi in the development of olive tree seedlings(Olea europaea L.)grown in southern Minas Gerais[J].Braz J Soil Sci,2014.39(2):361-366]
28 Kachkouch W,Touhami AO,Filali-maltouf A,Modafar CE,Moukhli A,Oukabli A,Benkirane R,Douira R.Arbuscular mycorrhizal fungi species associated with rhizosphere of Olea europaea L.in Morocco[J].J Anim Pla nt Sci,2012,15(3):2275-2287
29 Ganz TR,Kailis SG,Abbott LK.Mycorrhizal colonization and its effect on growth,phosphorus uptake and tissue phenolic content in the European olive(Olea europaea L.)[J].Adv Horticul Sci,2002,16(3):109-116
30 Martin MS,Azcon R,Barea JM,Piedra AP.Reduction of the juvenile period of new olive plantations through the early application of mycorrhizal fungi[J].Soil Sci,2006,171(1):52-58
31 Piedra AP,Martin MLS,Soriano AP,Fernandez Izquierdo G.Influence of arbuscular mycorrhizas on the growth rate of mist-propagated olive plantlets[J].Spanish J Agric Res,2005,3(1):98-105
32 Porras-soriano A,Domench-Menor B,Castillo-Rubio J,Soraino-Martin ML,Porras-Piedra A.Influence des mycorhizes vesico-arbusculaires sur la croissance des boutures d'olivier multipliees sous nebulation[J].Olivae,2002,92:33-37
33 Porras-soriano A,Soriano-martin ML,Porras-piedra A,Azca3N R.Arbuscular mycorrhizal fungi increased growth,nutrient uptake and tolerance to salinity in olive trees under nursery conditions[J].J PlantPhysiol,2009,166(13):1350-1359
34 Rotondi A,Rapparini F.Micorrize,nuove prospettive ecocompatibili[J].Olivo Olio,2006,4:8-10[Rotondi A,Rapparini F.Mycorrhiz,new ecocompatible perspectives[J].Olive Tree Oil,2006,4:8-10]
35 Querejeta JI,Allen MF,Caravaca F,Roldan A.Differential modulation of host plant deltal3C and delta 180 by native and nonnative arbuscular mycorrhizal fungi in a semiarid environment[J].New Phytol,2006,169(2):379-387
36 Azcon-aguilar C,Palenzuela J,Roldan A,Bautistac S,Vallejoc R.Bareaa J M.Analysis of the mycorrhizal potential in the rhizosphere of representative plant species from desertification-threatened Mediterranean shrublands[J].Appl Soil Ecol,2003,22(1):29-37
37 Mohammad MJ,Hamad SR,Malkawi HI.Population of arbuscular mycorrhizal fungi in semi-arid environment of Jordan as influenced by biotic and abiotic factors[J].J Arid Environ,2003,53(3):409-417
38 Briccoli Bati C,Godino G.Influenza delle micorrize sull'accrescimentc in vivaio di piante di olivo[J].Italus Hortus,2002,9(3):20-21
39 Meddad-hamza A,Hamza N,Neffar S,Chenchouni H.Spatiotemporal variation of arbuscular mycorrhizal fungal colonization in olive(Olea europaea L.)roots across a broad mesic-xeric climatic gradient in North Africa[J].Sci Total Environ,2017,583:176-189
40 Fouad MO,Essahibi A,Benhiba L,Qaddoury A.Effectiveness of arbuscular mycorrhizal fungi in the protection of olive plants against oxidative stress induced by drought[J].Spanish J Agric Res,2014,12(3):763-771
41 Estaun V,Camprubi A,Calvert C,Pinochet J.Nursery and field response of olive trees inoculated with two arbuscular mycorrhizal fungi,Glomus intraradices and Glomus mosseae[J].J Am Soc Horticul Sci,2003,128(5):767-775
42 Mancuso S,Rinaldelli E.Response of young mycorrhizal and nonmycorrhizal plants of olive tree(Olea europaea L.)to saline conditions.I.Short-term electrophysiological and long-term vegetative salt effects[J].Adv Hor ticul Sci,1996,10(3):135-145
43 Marin-zamora M,Garcia-ferriz L,Ghorbel R,Ybarra M,Mari A.Effects of arbuscular mycorrhizae inoculation on micropropagated olive plants[J].Acta Horticul,2002,586:907-910
44 Meddad-hamza A,Beddiar A,Gollotte A,Gianinazzi S.Arbuscular mycorrhizal fungi improve the growth of olive trees and their resistance to transplantation stress[J].Afr J Biotechnol,2010,9(8):1159-1167
45 Seifi E,Teymoor YS,Alizadeh M,Fereydooni H.Olive mycorrhization:Influences of genotype,mycorrhiza,and growing periods[J].Sci Hortic-Amsterdam,2014,180:214-219
46 Dag A,Yermiyahu U,Ben-gal A,Zipori I,Kapulnik Y.Nursery and post-transplant field response of olive trees to arbuscular mycorrhizal fungi in an arid region[J].Crop Pasture Sci,2009,60(5):427-433
47 Tsror L,Kapulnik Y,Zipori I,Dag A.Effect of AMF application on Verticillium wilt in olives grown under arid conditions[C].Conference of Integrated Protection of Olive Crops,IOBC-WPRS Bulletin,2012:79-112
48 Binet MN,Lemoine MC,Martin C,Chambon C,Gianinazzi S.Micropropagation of olive(Olea europaea L.)and application ofmycorrhiza to improve plantlet establishment[J].In Vitro Cell Dev-Pl,2007,43(5):473-478
49 Al-momany AM,Karajeh M.Effect of VA Mycorrhizal fungus(Glomus mosseae Gerd and Trappe)on Verticillium dahliae Kleb[J].Dirasat Agric Sci,1999,26(3):338-341
50 Troncoso A,Linan J,Carretero CL,Cantos M.Influence of the mycorrhizal Glomus intraradices on the development of in vitro raised olive seedlings during acclimation phase[J].Acta Horticul,2008,791:225-231
51 Caravaca F,Diaz E,Barea JM,Azcon-Aguilar C,Roldan A.Photosynthetic and transpiration rates of Olea europaea subsp.sylvestris and Rhamnus lycioides as affected by water deficit and mycorrhiza[J].Biol Pla ntarum,2003,46(4):637-639
52 Caravaca F,Barea JM,Figueroa D,Roldan A.Assessing the effectiveness of mycorrhizal inoculation and soil compost addition for enhancing reafforestation with Olea europaea subsp.sylvestris through changes in soil biological and physical parameters[J].Appl Soil Ecol,2002,20(2):107-118
53 Cantos M,Linan J,Carretero CL, Troncoso A,Azc6n R.Influence of mycorrhization during the hardening process of micropropagated plants[J].Acta Horticul,2009,812:455-460
54 Jimenez-Moreno MJ,del Carmen Moreno-Marquez M,Moreno-Alias I.Rapoport H,Fernandez-Escobar R.Interaction between mycorrhization with Glomus intraradices and phosphorus in nursery olive plants[J].Sci Hortic-Amsterdam,2018,233:249-255
55 Kara Z,Arslan D,Guler M,Guler S.Inoculation of arbuscular mycorrhizal fungi and application of micronized calcite to olive plant:Effects on some biochemical constituents of olive fruit and oil[J].Sci Hor tic-Amsterdam,2015,185:219-227
56 Khabou W,Nacer H,Fortin A.La mycorhization:Une methode biotique pour ameliorer la croissance et contourner le stress abiotique chez l'olivier(Olea europaea L.)[J].Revue Ezzaitouna,2010,11(2):1-10[Khabou W,Nacer H,Fortin A.Mycorrhization:A biotic method to improve growth and to overcome abiotic stress in olive trees(Olea europaea L.)[J].Ezzaitouna Mag,2010,11(2):1-10]
57 Mechri B,Manga AGB,Tekaya M,Attia F,Cheheb H,Meriem F B,Braham M,Boujnah D,Hammami M.Changes in microbial communities and carbohydrate profiles induced by the mycorrhizal fungus(Glomus intraradices)in rhizosphere of olive trees(Olea europaea L.)[J].Appl Soil Ecol,2014,75:124-133
58 Mechri B,Attia F,Tekaya M,Cheheb H,Hammami M.Colonization of olive trees(Olea europaea L.)with the arbuscular mycorrhizal fungus Glomus sp.modified the glycolipids biosynthesis and resulted in accumulation of unsaturated fatty acids[J].J Plant Physiol,2014,171(14):1217-1220
59 Malik NSA,Nunez A,Mckeever LC.Mycorrhizal inoculation increases growth and induces changes in specific polyphenol levels in olive saplings[J].J Agric Sci,2017,9(2):1-7
60 Bompadre MJ,Molina M C R D,Colombo RP,Fernandez Bidondo L,Silvani VA,Pardo AG,Ocampo JA.Godeas AM.Differential efficiency of two strains of the arbuscular mycorrhizal fungusRhizophagus irregularis on olive(Olea europaea)plants under two water regimes[J].Symbiosis,2013,61(2):105-112
61 Tekaya M,Mechri B,Mbarki N,Cheheb H,Hammami M,Attia F.Arbuscular mycorrhizal fungus Rhizophagus irregularis influences key physiological parameters of olive trees(Olea europaea L.)and mineral nutrient profile[J].Photosynthetica,2017,55(2):308-316
62 Mechri B,Tekaya M,Cheheb H,Faouzi A,Mohamed H.Accumulation of flavonoids and phenolic compounds in olive tree roots in response to mycorrhizal colonization:A possible mechanism for resgulation of defense molecules[J].J Plant Physiol,2015,185:40-43
63 Chatzistathis T,Orfanoudakis M,Alifragis D,Therios I.Colonization of Greek olive cultivars,root system by arbuscular mycorrhiza fungus:root morphology,growth,and mineral nutrition of olive plants[J].Sci Agric,2013,70(3):185-194
64 Mekahlia MN,Beddiar A,Chenchouni H.Mycorrhizal dependency in the olive tree(Olea europaea)across a xeric climatic gradient[J].Adv Environ Biol,2013,7(9):2166-2174
65邓振镛,尹宪志,杨启国,王志禄,孙畅.白龙江沿岸油橄榄气候生态适应性研究[J].中国油料作物学报,2005,27(1):65-68[Deng ZY,Ying XZ,Yang QG,Wang ZL,Sun C.Study on the adaption of olive tree(Olea europaea)in coastwise eco-climate area of Bailongjiang[J].Chin J Oil Crop Sci,2005,27(1):65-68]
66张好强,唐明,张海涵.土壤因子对拧条和沙棘根际AM真菌多样性及侵染状况的影响[J].土壤学报,2009,46(4):721-724[Zhang HQ,Tang M,Zhang HH.Influences of soil factors on diversity and colonization of AM fungi in the rhizosphere of C.korshinskll and H.rhamnoides[J].Acta Pedol Sin,2009,46(4):721-724]
67 Sivakumar N.Effect of edaphic factors and seasonal variation on spore density and root colonization of arbuscular mycorrhizal fungi in sugarcane fields[J].Ann Microbiol,2013,63(1):151-160
68王幼珊,刘相梅,张美庆,邢礼军.盆栽基质及营养液对AM真菌接种剂繁殖的影响[J].华北农学报,2001,16(4):81-86[Wang YS,Liu XM,Zhang MQ,Xing LJ.Effect of potted matrix and nutrient solution on the inoculation of AMF[J].Acta Agric Bor-Sin,2001,16(4):81-86]
69李登武,贺学礼,余仲东.施钾量与AM真菌接种效应的关系[J].西北植物学报,2002,22(4):889-893[Li DW,He XL,Yu ZD.Amount of potassium application in relation to AM fungus inoculation efficiency[J].Acta Bot Bor-Occid Sin,2002,22(4):889-893]
70赵青华,孙立涛,王玉,丁兆堂,李敏.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[Zhao QH,Sun LT,Wang Y,Ding ZT,Li M. Effects of arbuscular mycorrhizal fungi and nitrogen regimes on plant growth,nutrient uptake and tea quality in Camellia sinensis(L.)O.Kuntze[J].Pla nt Physiol J,2014,50(2):164-170]
71刘润进,陈应龙.菌根学[M].北京:科学出版社,2007[Liu RJ,Chen YL.Mycorrhizology[M].Beijing:Science Press,2007]
72 Corkidi L,Rowland DL,Johnson NC,Allen EB.Nitrogen fertilization alters the functioning of arbuscular mycorrhizas at two semiarid grasslands[J].Plant Soil,2002,240(2):299-310
73张旭红,朱永官,王幼珊,林爱军,陈保冬,张美庆.不同施肥处理对丛枝菌根真菌生态分布的影响[J].生态学报,2006,26(9):3081-3087[Zhang XH,Zhu YG,Wang YS,Lin AJ,Chen BD,Zhang MQ.Effect of long-term fertilization on the diversity and distribution of arbuscular mycorrhiza fungi in Northeast China[J].Acta Ecol Sin,2006,26(9):3081-3087]
74 Berruti A,Lumini E,Balestrini R,Bianciotto V.Arbuscular mycorrhizal fungi as natural biofertilizers:Let's benefit from past successes[J].Front Microbiol,2016,6:1-13
75 Bilalis D,Karkanis A,Konstantas A,Patsiali S,Triantafyllidis V.Arbuscular mycorrhizal fungi:a blessing or a curse for weed management in organic olive crops?[J].Aust J Crop Sci,2011,5(7):858-864
76 Turrini A,Caruso G,Avio L,Gennai C,Palla M,Agnolucci M,Tomei P E,Giovannetti M,Gucci R.Protective green cover enhances soil respiration and native mycorrhizal potential compared with soil tillage in a high-density olive orchard in a long term study[J].Appl Soil Ecol,2017,116:70-78
77 Linderman RG.Mycorrhizal interactions with the rhizosphere microflora:the mycorrhizosphere effect[J].Phytopathology,1988,78(3):366-371
78 Bati CB,Santilli E,Lombardo L.Effect of arbuscular mycorrhizal fungi on growth and on micronutrient and macronutrient uptake and allocation in olive plantlets growing under high total Mn levels[J].Mycorrhiza.2015,25(2):97-108
79 Khan A,Geetha R,Akolkar A,Desai AJ.Differential cross-utilization of heterologous siderophores by nodule bacteria of Cajanus caj an and its possible role in growth under iron-limited conditions[J].Appl Soil Ecol.2006,34(1):19-26
80 Hamdali H,Bouizgarne B,Hafidi M,Ouhdouch Y.Screening for rock phosphate solubilizing Actinomycetes from Moroccan phosphate mines[J].Appl Soil Ecol,2008,38(1):12-19
81 Lemanceau P,Bauer P,Kraemer S,Briat JF.Iron dynamics in the rhizosphere as a case study for analyzing interactions between soils,plants and microbes[J].Plant Soil,2009,321(1-2):513-535
82 de Santiago A,Garcia-Lopez AM,Quintero JM,Aviles M,Delgadc A.Effect of Trichoderma asperellum strain T34 and glucose addition on iron nutrition in cucumber grown on calcareous soils[J].Soil Biol Biochem,2013,57:598-605
83 Mechri B,Tekaya M,Cheheb H,Faouzi A,Mohamed H.Accumulation of flavonoids and phenolic compounds in olive tree roots in response to mycorrhizal colonization:A possible mechanism for regulation of defense molecules[J].J Plant Physiol,2015,185:40-43
84 Estaun V,Camprubi A.Effectiveness of arbuscular mycorrhizal fungi inoculation on olive trees development[J].Vida Rural,2009,284:48-51
85 Van Der Heijden MG.Arbuscular mycorrhizal fungi as support systems for seedling establishment in grassland[J].Ecol Lett,2004,7(4):293-303
86张菲,倪秋丹,邹英宁,吴强盛,黄咏明.AMF增强枳抗旱性作用机制的初步研究[J].菌物研究,2017,15(1):8-13[Zhanf F,Ni QD,Zou YN.Wu QS,Huang YM.Preliminary study on the mechanism of AMF in enhancing the drought tolerance of plants[J].J Fungal Res,2017,15(1):8-13]
87 Lingua G,D'Agostino G,Massa N,Antosianoet M,Berta G.Mycorrhizainduced differential response to a yellows disease in tomato[J].Mycorrhiza,2002,12(4):191-198
2王幼珊,刘润进.球囊菌门丛枝菌根真菌最新分类系统菌种名录[J].菌物学报,2017,36(7):820-850[Wang YS,Liu RJ.A checklist of arbuscular mycorrhizal fungi in the recent taxonomic system of glomeromycota[J].Mycosystema,2017,36(7):820-850]
3 Treseder KK,Cross A.Global distributions of arbuscular mycorrhizal fungi[J].Ecosystems,2006,9(2):305-316
4 Purin S,Rillig M.Parasitism of arbuscular mycorrhizal fungi:reviewing the evidence[J].FEMS Microbiol Lett,2008,279(1):8-14
5 Koltai H,Kapulnik Y.Arbuscular Mycorrhizal Symbiosis Under Stress Conditions:Benefits and Costs[M].Amsterdam:Springer-Verlag,2010:339-356
6白满英,张金诚,崔育京.橄榄油的开发应用[J].粮油食品科技,2003,11(2):31-33[Bai MY,Zhang JC,Cui YJ.Development and application of olive oil[J].Sci Technol Cereals Oils Foods,2003,11(2):31-33]
7韩华柏,何方.我国油橄榄引种研究进展[J].中国南方果树,2007,36(3):37-42[Han HB,He F.Research progress on olive introduction in China[J].South Chin Fruits,2007,36(3):37-42]
8 Kachkouch W,Touati J,Touhami AO,Filali-Maltouf A,Modafar CE,Moukhli A,Oukabli A,Benkirane R,Douiral A.Diversity of arbuscular mycorrhizal fungi in the rhizosphere of Olea europaea in three regions of Morocco(Tafilalt,Zagora and Taounate)[J].Int J Pure Appl Biol,2014,2(5):178-195
9 Calvente R,Cano C,Ferrol N,Azconaguilar C,Barea JM.Analysing natural diversity of arbuscular mycorrhizal fungi in olive tree(Oleaeuropaea L.)plantations and assessment of the effectiveness of native fungal isolates as inoculants for commercial cultivars of olive plantlets[J].Appl Soil Eco, 2004,26(1):11-19
10 Porras-soriano A,Marcilla-goldaracena I,Soriano-martin ML,Porraspiedra A.Development and resistance to Verticillium dahliae of olive plantlets inoculated with mycorrhizal fungi during the nursery period[J].J Agric Sci,2006,144(2):151-157
11 Kapulnik Y,Tsror L,Zipori I,Dag A.Effect of AMF application on growth,productivity and susceptibility to Verticillium wilt of olives grown under desert conditions[J].Symbiosis,2010,52(2-3):103-111
12邓明全.油橄榄丰产稳产栽培技术研究[J].林业科学研究,2005,18(5):590-594[Deng MQ.Research on cultivation techniques for high and stable yield of Olea europaea L.[J].For Res,2005,18(5):590-594]
13薛雅琳,薛益民.我国橄榄油及油橄榄果渣油产品标准的制定情况[J].粮油食品科技,2006,14(4):11-13[Xue YL,Xue YM.[J].Sci Technol Cereals Oils Foods,2006,14(4):11-13]
14施宗明,孙卫邦,祁治林,李云,刘金凤.中国油橄榄适生区研究[J].植物'分类与资源学报,2011,33(5):571-579[Shi ZM,Sun WB,Qi ZL,Li Y,Liu JF.On the suitable regions for olive(Olea europaea)growing in China[J].Plant Divers Resour,2011,33(5):571-579]
15卯吉华,宁德鲁,李荣波,景跃波.云南不同栽培区油橄榄的丛枝菌根研究[J]·西部林业科学,2015,44(1):114-120[Mao JH,Ning DL,Li R B,Jing YB.Arbuscular mycorrhizas in three major olive growing regions of Yunnan province[J].J West ChinFor Sci,2015,44(1):114-120]
16 Sidhoum W,Fortas Z.Effect of arbuscular mycorrhizal fungi on growth of semi-woody olive cuttings of the variety"sigoise"in Algeria[J].Am J Res Commun,2013,1:244-257
17 Citernesi AS,Vitagliano C,Giovannetti M.Plant growth and root system morphology of Olea europaea L.rooted cuttings as influenced by arbuscular mycorrhizas[J].J Horticul Sci Biote,1998,73(5):647-654
18 Castillo P,Nico AI,Azcon-aguilar C,Del Rio Rincon C,Jimenez-Diaz RM.Protection of olive planting stocks against parasitism of root-knot nematodes by arbuscular mycorrhizal fungi[J].Plant Pathol,2006,55(5):705-713
19 Bompadre MJ,Pergola M,Fernandez BL,Colombo RP,Silvani VA,Pardo AG,Ocampo JA,Godeas AM.Evaluation of arbuscular mycorrhizal fungi capacity to alleviate abiotic stress of olive(Olea europaea L.)plants at different transplant conditions[J].Sci World J,2014,2014(2):1-12
20 Mridha MAU,Al-Qarawi AA,Oud SSA,Al-Barakah F.Status and need of research on growth improvement of olive(Olea europaea L.)with microbial inoculants in Saudi Arabia[J].J Pure Appl Microb,2013,7(3):1861-1868
21林先贵,胡君利,戴珏,王发园,冯有智.丛枝菌根真菌群落结构与多样性研究方法概述及实例比较[J].应用与环境生物学报,2017,23(2):343-350[Lin XG,Hu JL,Dai Y,Wang FY,Feng YZ.Overview and comparison of research methods for determining the community structure and diversity of arbuscular mycorrhizal fungi[J].Chin J Appl En viron Biol,2017,23(2):343-350]
22 Chliyeh M,Ouazzani Touhami A,Filali-maltouf A,Modafar CE,Moukhli A,Oukabli A,Benkirane R,Douiral A.Effect of a composite endomycorrhizal inoculum on the growth of olive trees under nurseries conditions in Morocco[J].Inter J Pure Appl Biosci,2014,2(2):1-14
23 Alguacil MM,Torrecillas E,Kohler J,Roldan A.A molecular approach to ascertain the success of"in situ"AM fungi inoculation in the revegetation of a semiarid,degraded land[J].Sci Total Environ,2011.409(15):2874-2880
24 Chliyeh M,Kachkouch W,Zouheir T,Touhami AO,Filali-Maltouf A,Modafar CE,Moukhli A,Benkirane R,Douira A.Evolution of a composite endomycorrhizal inoculums in function of time in the level of the olive plants rhizosphere[J].Inter J Adv Pharm Biol Chem,2016,5(1):79-92
25 Vieira VCS,Melloni R,Vieira NETOJ.Assessment of mycorrhizal interaction in olive tree(Olea europea L.)cultivars[J].Revista Brasileira De Ciencia Do Solo,2011,35(6):1885-1892
26 Mira FR.L,effeto delle micorrize arbusculari sulla crescita di piante di olivo(Olea europaea L.)micropropagate[J].Phd Res Horticul.Fac Agric,Universita degli Studi della Tuscia,2009,94[Mira F R.The effect of arbuscular mycorrhizae on the growth of olive trees(Olea europaea L.)micropropagated[J].Phd Res Horticul Fac Agric Univ Tuscia,2009,94]
27 Ferreira GMDR,Melloni R,Martins FB,Silva LFDOD,Goncalves EE.Fungos micorrizicos arbusculares no desenvolvimento de mudas de oliveira(Olea europaea L.)cultivadas no sul de minas gerais[J].Revista Brasileira De Ciencia Do Solo,2014,39(2):361-366[Ferreira GMDR,Melloni R,Martins FB,Silva LFDOD,Gongalves EE.Arbuscular mycorrhizal fungi in the development of olive tree seedlings(Olea europaea L.)grown in southern Minas Gerais[J].Braz J Soil Sci,2014.39(2):361-366]
28 Kachkouch W,Touhami AO,Filali-maltouf A,Modafar CE,Moukhli A,Oukabli A,Benkirane R,Douira R.Arbuscular mycorrhizal fungi species associated with rhizosphere of Olea europaea L.in Morocco[J].J Anim Pla nt Sci,2012,15(3):2275-2287
29 Ganz TR,Kailis SG,Abbott LK.Mycorrhizal colonization and its effect on growth,phosphorus uptake and tissue phenolic content in the European olive(Olea europaea L.)[J].Adv Horticul Sci,2002,16(3):109-116
30 Martin MS,Azcon R,Barea JM,Piedra AP.Reduction of the juvenile period of new olive plantations through the early application of mycorrhizal fungi[J].Soil Sci,2006,171(1):52-58
31 Piedra AP,Martin MLS,Soriano AP,Fernandez Izquierdo G.Influence of arbuscular mycorrhizas on the growth rate of mist-propagated olive plantlets[J].Spanish J Agric Res,2005,3(1):98-105
32 Porras-soriano A,Domench-Menor B,Castillo-Rubio J,Soraino-Martin ML,Porras-Piedra A.Influence des mycorhizes vesico-arbusculaires sur la croissance des boutures d'olivier multipliees sous nebulation[J].Olivae,2002,92:33-37
33 Porras-soriano A,Soriano-martin ML,Porras-piedra A,Azca3N R.Arbuscular mycorrhizal fungi increased growth,nutrient uptake and tolerance to salinity in olive trees under nursery conditions[J].J PlantPhysiol,2009,166(13):1350-1359
34 Rotondi A,Rapparini F.Micorrize,nuove prospettive ecocompatibili[J].Olivo Olio,2006,4:8-10[Rotondi A,Rapparini F.Mycorrhiz,new ecocompatible perspectives[J].Olive Tree Oil,2006,4:8-10]
35 Querejeta JI,Allen MF,Caravaca F,Roldan A.Differential modulation of host plant deltal3C and delta 180 by native and nonnative arbuscular mycorrhizal fungi in a semiarid environment[J].New Phytol,2006,169(2):379-387
36 Azcon-aguilar C,Palenzuela J,Roldan A,Bautistac S,Vallejoc R.Bareaa J M.Analysis of the mycorrhizal potential in the rhizosphere of representative plant species from desertification-threatened Mediterranean shrublands[J].Appl Soil Ecol,2003,22(1):29-37
37 Mohammad MJ,Hamad SR,Malkawi HI.Population of arbuscular mycorrhizal fungi in semi-arid environment of Jordan as influenced by biotic and abiotic factors[J].J Arid Environ,2003,53(3):409-417
38 Briccoli Bati C,Godino G.Influenza delle micorrize sull'accrescimentc in vivaio di piante di olivo[J].Italus Hortus,2002,9(3):20-21
39 Meddad-hamza A,Hamza N,Neffar S,Chenchouni H.Spatiotemporal variation of arbuscular mycorrhizal fungal colonization in olive(Olea europaea L.)roots across a broad mesic-xeric climatic gradient in North Africa[J].Sci Total Environ,2017,583:176-189
40 Fouad MO,Essahibi A,Benhiba L,Qaddoury A.Effectiveness of arbuscular mycorrhizal fungi in the protection of olive plants against oxidative stress induced by drought[J].Spanish J Agric Res,2014,12(3):763-771
41 Estaun V,Camprubi A,Calvert C,Pinochet J.Nursery and field response of olive trees inoculated with two arbuscular mycorrhizal fungi,Glomus intraradices and Glomus mosseae[J].J Am Soc Horticul Sci,2003,128(5):767-775
42 Mancuso S,Rinaldelli E.Response of young mycorrhizal and nonmycorrhizal plants of olive tree(Olea europaea L.)to saline conditions.I.Short-term electrophysiological and long-term vegetative salt effects[J].Adv Hor ticul Sci,1996,10(3):135-145
43 Marin-zamora M,Garcia-ferriz L,Ghorbel R,Ybarra M,Mari A.Effects of arbuscular mycorrhizae inoculation on micropropagated olive plants[J].Acta Horticul,2002,586:907-910
44 Meddad-hamza A,Beddiar A,Gollotte A,Gianinazzi S.Arbuscular mycorrhizal fungi improve the growth of olive trees and their resistance to transplantation stress[J].Afr J Biotechnol,2010,9(8):1159-1167
45 Seifi E,Teymoor YS,Alizadeh M,Fereydooni H.Olive mycorrhization:Influences of genotype,mycorrhiza,and growing periods[J].Sci Hortic-Amsterdam,2014,180:214-219
46 Dag A,Yermiyahu U,Ben-gal A,Zipori I,Kapulnik Y.Nursery and post-transplant field response of olive trees to arbuscular mycorrhizal fungi in an arid region[J].Crop Pasture Sci,2009,60(5):427-433
47 Tsror L,Kapulnik Y,Zipori I,Dag A.Effect of AMF application on Verticillium wilt in olives grown under arid conditions[C].Conference of Integrated Protection of Olive Crops,IOBC-WPRS Bulletin,2012:79-112
48 Binet MN,Lemoine MC,Martin C,Chambon C,Gianinazzi S.Micropropagation of olive(Olea europaea L.)and application ofmycorrhiza to improve plantlet establishment[J].In Vitro Cell Dev-Pl,2007,43(5):473-478
49 Al-momany AM,Karajeh M.Effect of VA Mycorrhizal fungus(Glomus mosseae Gerd and Trappe)on Verticillium dahliae Kleb[J].Dirasat Agric Sci,1999,26(3):338-341
50 Troncoso A,Linan J,Carretero CL,Cantos M.Influence of the mycorrhizal Glomus intraradices on the development of in vitro raised olive seedlings during acclimation phase[J].Acta Horticul,2008,791:225-231
51 Caravaca F,Diaz E,Barea JM,Azcon-Aguilar C,Roldan A.Photosynthetic and transpiration rates of Olea europaea subsp.sylvestris and Rhamnus lycioides as affected by water deficit and mycorrhiza[J].Biol Pla ntarum,2003,46(4):637-639
52 Caravaca F,Barea JM,Figueroa D,Roldan A.Assessing the effectiveness of mycorrhizal inoculation and soil compost addition for enhancing reafforestation with Olea europaea subsp.sylvestris through changes in soil biological and physical parameters[J].Appl Soil Ecol,2002,20(2):107-118
53 Cantos M,Linan J,Carretero CL, Troncoso A,Azc6n R.Influence of mycorrhization during the hardening process of micropropagated plants[J].Acta Horticul,2009,812:455-460
54 Jimenez-Moreno MJ,del Carmen Moreno-Marquez M,Moreno-Alias I.Rapoport H,Fernandez-Escobar R.Interaction between mycorrhization with Glomus intraradices and phosphorus in nursery olive plants[J].Sci Hortic-Amsterdam,2018,233:249-255
55 Kara Z,Arslan D,Guler M,Guler S.Inoculation of arbuscular mycorrhizal fungi and application of micronized calcite to olive plant:Effects on some biochemical constituents of olive fruit and oil[J].Sci Hor tic-Amsterdam,2015,185:219-227
56 Khabou W,Nacer H,Fortin A.La mycorhization:Une methode biotique pour ameliorer la croissance et contourner le stress abiotique chez l'olivier(Olea europaea L.)[J].Revue Ezzaitouna,2010,11(2):1-10[Khabou W,Nacer H,Fortin A.Mycorrhization:A biotic method to improve growth and to overcome abiotic stress in olive trees(Olea europaea L.)[J].Ezzaitouna Mag,2010,11(2):1-10]
57 Mechri B,Manga AGB,Tekaya M,Attia F,Cheheb H,Meriem F B,Braham M,Boujnah D,Hammami M.Changes in microbial communities and carbohydrate profiles induced by the mycorrhizal fungus(Glomus intraradices)in rhizosphere of olive trees(Olea europaea L.)[J].Appl Soil Ecol,2014,75:124-133
58 Mechri B,Attia F,Tekaya M,Cheheb H,Hammami M.Colonization of olive trees(Olea europaea L.)with the arbuscular mycorrhizal fungus Glomus sp.modified the glycolipids biosynthesis and resulted in accumulation of unsaturated fatty acids[J].J Plant Physiol,2014,171(14):1217-1220
59 Malik NSA,Nunez A,Mckeever LC.Mycorrhizal inoculation increases growth and induces changes in specific polyphenol levels in olive saplings[J].J Agric Sci,2017,9(2):1-7
60 Bompadre MJ,Molina M C R D,Colombo RP,Fernandez Bidondo L,Silvani VA,Pardo AG,Ocampo JA.Godeas AM.Differential efficiency of two strains of the arbuscular mycorrhizal fungusRhizophagus irregularis on olive(Olea europaea)plants under two water regimes[J].Symbiosis,2013,61(2):105-112
61 Tekaya M,Mechri B,Mbarki N,Cheheb H,Hammami M,Attia F.Arbuscular mycorrhizal fungus Rhizophagus irregularis influences key physiological parameters of olive trees(Olea europaea L.)and mineral nutrient profile[J].Photosynthetica,2017,55(2):308-316
62 Mechri B,Tekaya M,Cheheb H,Faouzi A,Mohamed H.Accumulation of flavonoids and phenolic compounds in olive tree roots in response to mycorrhizal colonization:A possible mechanism for resgulation of defense molecules[J].J Plant Physiol,2015,185:40-43
63 Chatzistathis T,Orfanoudakis M,Alifragis D,Therios I.Colonization of Greek olive cultivars,root system by arbuscular mycorrhiza fungus:root morphology,growth,and mineral nutrition of olive plants[J].Sci Agric,2013,70(3):185-194
64 Mekahlia MN,Beddiar A,Chenchouni H.Mycorrhizal dependency in the olive tree(Olea europaea)across a xeric climatic gradient[J].Adv Environ Biol,2013,7(9):2166-2174
65邓振镛,尹宪志,杨启国,王志禄,孙畅.白龙江沿岸油橄榄气候生态适应性研究[J].中国油料作物学报,2005,27(1):65-68[Deng ZY,Ying XZ,Yang QG,Wang ZL,Sun C.Study on the adaption of olive tree(Olea europaea)in coastwise eco-climate area of Bailongjiang[J].Chin J Oil Crop Sci,2005,27(1):65-68]
66张好强,唐明,张海涵.土壤因子对拧条和沙棘根际AM真菌多样性及侵染状况的影响[J].土壤学报,2009,46(4):721-724[Zhang HQ,Tang M,Zhang HH.Influences of soil factors on diversity and colonization of AM fungi in the rhizosphere of C.korshinskll and H.rhamnoides[J].Acta Pedol Sin,2009,46(4):721-724]
67 Sivakumar N.Effect of edaphic factors and seasonal variation on spore density and root colonization of arbuscular mycorrhizal fungi in sugarcane fields[J].Ann Microbiol,2013,63(1):151-160
68王幼珊,刘相梅,张美庆,邢礼军.盆栽基质及营养液对AM真菌接种剂繁殖的影响[J].华北农学报,2001,16(4):81-86[Wang YS,Liu XM,Zhang MQ,Xing LJ.Effect of potted matrix and nutrient solution on the inoculation of AMF[J].Acta Agric Bor-Sin,2001,16(4):81-86]
69李登武,贺学礼,余仲东.施钾量与AM真菌接种效应的关系[J].西北植物学报,2002,22(4):889-893[Li DW,He XL,Yu ZD.Amount of potassium application in relation to AM fungus inoculation efficiency[J].Acta Bot Bor-Occid Sin,2002,22(4):889-893]
70赵青华,孙立涛,王玉,丁兆堂,李敏.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[Zhao QH,Sun LT,Wang Y,Ding ZT,Li M. Effects of arbuscular mycorrhizal fungi and nitrogen regimes on plant growth,nutrient uptake and tea quality in Camellia sinensis(L.)O.Kuntze[J].Pla nt Physiol J,2014,50(2):164-170]
71刘润进,陈应龙.菌根学[M].北京:科学出版社,2007[Liu RJ,Chen YL.Mycorrhizology[M].Beijing:Science Press,2007]
72 Corkidi L,Rowland DL,Johnson NC,Allen EB.Nitrogen fertilization alters the functioning of arbuscular mycorrhizas at two semiarid grasslands[J].Plant Soil,2002,240(2):299-310
73张旭红,朱永官,王幼珊,林爱军,陈保冬,张美庆.不同施肥处理对丛枝菌根真菌生态分布的影响[J].生态学报,2006,26(9):3081-3087[Zhang XH,Zhu YG,Wang YS,Lin AJ,Chen BD,Zhang MQ.Effect of long-term fertilization on the diversity and distribution of arbuscular mycorrhiza fungi in Northeast China[J].Acta Ecol Sin,2006,26(9):3081-3087]
74 Berruti A,Lumini E,Balestrini R,Bianciotto V.Arbuscular mycorrhizal fungi as natural biofertilizers:Let's benefit from past successes[J].Front Microbiol,2016,6:1-13
75 Bilalis D,Karkanis A,Konstantas A,Patsiali S,Triantafyllidis V.Arbuscular mycorrhizal fungi:a blessing or a curse for weed management in organic olive crops?[J].Aust J Crop Sci,2011,5(7):858-864
76 Turrini A,Caruso G,Avio L,Gennai C,Palla M,Agnolucci M,Tomei P E,Giovannetti M,Gucci R.Protective green cover enhances soil respiration and native mycorrhizal potential compared with soil tillage in a high-density olive orchard in a long term study[J].Appl Soil Ecol,2017,116:70-78
77 Linderman RG.Mycorrhizal interactions with the rhizosphere microflora:the mycorrhizosphere effect[J].Phytopathology,1988,78(3):366-371
78 Bati CB,Santilli E,Lombardo L.Effect of arbuscular mycorrhizal fungi on growth and on micronutrient and macronutrient uptake and allocation in olive plantlets growing under high total Mn levels[J].Mycorrhiza.2015,25(2):97-108
79 Khan A,Geetha R,Akolkar A,Desai AJ.Differential cross-utilization of heterologous siderophores by nodule bacteria of Cajanus caj an and its possible role in growth under iron-limited conditions[J].Appl Soil Ecol.2006,34(1):19-26
80 Hamdali H,Bouizgarne B,Hafidi M,Ouhdouch Y.Screening for rock phosphate solubilizing Actinomycetes from Moroccan phosphate mines[J].Appl Soil Ecol,2008,38(1):12-19
81 Lemanceau P,Bauer P,Kraemer S,Briat JF.Iron dynamics in the rhizosphere as a case study for analyzing interactions between soils,plants and microbes[J].Plant Soil,2009,321(1-2):513-535
82 de Santiago A,Garcia-Lopez AM,Quintero JM,Aviles M,Delgadc A.Effect of Trichoderma asperellum strain T34 and glucose addition on iron nutrition in cucumber grown on calcareous soils[J].Soil Biol Biochem,2013,57:598-605
83 Mechri B,Tekaya M,Cheheb H,Faouzi A,Mohamed H.Accumulation of flavonoids and phenolic compounds in olive tree roots in response to mycorrhizal colonization:A possible mechanism for regulation of defense molecules[J].J Plant Physiol,2015,185:40-43
84 Estaun V,Camprubi A.Effectiveness of arbuscular mycorrhizal fungi inoculation on olive trees development[J].Vida Rural,2009,284:48-51
85 Van Der Heijden MG.Arbuscular mycorrhizal fungi as support systems for seedling establishment in grassland[J].Ecol Lett,2004,7(4):293-303
86张菲,倪秋丹,邹英宁,吴强盛,黄咏明.AMF增强枳抗旱性作用机制的初步研究[J].菌物研究,2017,15(1):8-13[Zhanf F,Ni QD,Zou YN.Wu QS,Huang YM.Preliminary study on the mechanism of AMF in enhancing the drought tolerance of plants[J].J Fungal Res,2017,15(1):8-13]
87 Lingua G,D'Agostino G,Massa N,Antosianoet M,Berta G.Mycorrhizainduced differential response to a yellows disease in tomato[J].Mycorrhiza,2002,12(4):191-198