Growth of Four Varieties of Coffea arabica L. Biofertilized with Rhizophagus intraradices and Azospirillum brasilense in Nursery

Coffee production has decreased due to environmental and management factors. The current plantations are old and unproductive, also due to the rust problem, caused by the fungus Hemileia vastatrix Berk & Br. Furthermore, the shade in the production systems has decreased with the consequent increase in soil erosion, in addition to the increase in agrochemicals. Currently, the planting of new varieties with resistance to the fungus is increasing. Furthermore, it has been shown that various biofertilized perennial crops in nursery favor their growth. In this study, the effect of applying two beneficial microorganisms, Rhizophagus intraradices and/or Azospirillum brasilense, to the planting of four varieties of Coffea arabica L. was evaluated. The coffee varieties marseillase, geisha, sarchimor and costa rica 95 were established in bags with the following treatments: 1) control, 2) R. intraradices, 3) A. brasilense, 4) R. intraradices + A. brasilense. Morphological and physiological yield components were recorded 168 days after transplanting. Data was analyzed statistically and differences between treatments were compared according to Tukey (p ≤ 0.05). The results indicate that individual or combined biofertilization of microorganisms favors dry matter allocation compared to the control and the same is differentially assigned to the stem and root. The Specific Leaf Area (SLA) also showed differential response between applications of the microorganisms, in two varieties it increased when they were applied alone and in the others when they were applied together.

根内根孢囊霉对连作大豆苗期植株生长发育的影响

以非转基因型大豆品种黑农48(病害敏感型的高蛋白品种)作为试验材料,以根内根孢囊霉(Rhizophagus intraradices,R.intraradices)为试验菌剂分别接种于大豆连作1年和非连作的大田土壤中,采用碱解离-酸性品红染色法和形态观测法测定根内根孢囊霉对连作苗期大豆根系丛枝菌根(Arbuscular mycorrhizal,AM)真菌侵染率、植株株高及茎粗的影响。结果显示,未施加根内根孢囊霉菌剂的大豆,连作导致AM真菌侵染率增高,株高和茎粗降低。而接种根内根孢囊霉的大豆,AM真菌侵染率、株高和茎粗均显著提高,表明根内根孢囊霉对连作大豆苗期植株生长发育具有一定促进作用。本研究为AM真菌的田间应用及提升黑龙江绿色大豆生产地位提供了理论依据。

丛枝菌根真菌(Glomus intraradices)对铜污染土壤上玉米生长的影响

盆栽试验研究了不同土壤施Cu水平（0、50、200mg/kg）下,接种不同来源的两个丛枝菌根真菌Glomus intraradices菌株对玉米生长、Cu、P以及微量元素Fe、Mn、Zn吸收的影响。结果表明：接种菌根真菌显著提高了玉米的生物量,增加了玉米植株P浓度和吸收量;随着施Cu水平提高,各处理根系Cu浓度显著增加。各施Cu水平下玉米根系Cu浓度远远高于地上部分Cu浓度,同一施Cu水平下接种处理根系Cu浓度要显著高于对照;尤其在200mg/kg施Cu水平下,接种处理根系Cu浓度大约是地上部分的45-58倍,对照根系Cu浓度大约是地上部分的12倍。总体上,试验条件下两个菌株对玉米的接种效应没有明显差异。试验表明丛枝菌根对重金属Cu有较强的固持作用,这可能是菌根减轻宿主植物Cu毒害的一个重要机制。

Glomus intraradices对黑麦草生长和富集镉的影响

采用盆栽方法模拟不同镉污染状况,研究接种丛枝菌根真菌(AM)Glomus intraradices对黑麦草生长和富集、运转镉的影响。结果表明,土壤镉水平增加明显提高了黑麦草菌根侵染率,而显著降低了黑麦草的生长量,但对磷浓度无显著影响,表明Glomus intraradices对镉胁迫具有一定的耐性,并对黑麦草的磷营养和生长未表现出促进作用。Glomus intraradices的存在明显促进了黑麦草对镉的富集,菌根形成强化镉在根系的固持作用,减少镉向地上部运转,进而降低黑麦草地上部的镉浓度,减轻了镉对地上部的毒害,表现在根富集系数均大于1,运转系数远远小于1。这一结果对镉污染农田修复以及草坪草和牧草品质的改善都有重要意义。

黑麦草-AMF联合修复铀污染土壤的根际效应

为探究丛枝菌根真菌对植物根际铀的迁移和形态的影响,以铀矿山周边土壤为基础配制多种铀浓度土壤,选取黑麦草作为供试植物,根内球囊霉(Glomus intraradice,Gi)为供试菌株进行盆栽试验。结果显示:黑麦草接种Gi后会促进土壤中的铀向根际和植物根部迁移,铀浓度分布由高到低依次为黑麦草根部、根际土和非根际土;接种Gi改变了根际土中铀的存在形态,黑麦草根际土中的活性态铀占比由32.6%降到30.0%,惰性铀占比由24.9%降至16.3%,潜在活性铀占比由42.5%升至53.7%。接种Gi能促进黑麦草根部对活性态铀的吸收和根际土中惰性态铀向潜在活性态铀的转化。

两种丛枝菌根真菌复合接种对青山杨生长生理指标的影响

为了解不同丛枝菌根(AM)真菌在复杂性生态系统中的协同效应和功能互补性,以及对植物生长发育的影响。选取1年生青山杨(Populus pseudo-cathayana×P.deltoides)幼苗为研究对象,分别使用根内根孢囊霉(Rhizophagus intraradices,RI)、摩西斗管囊霉(Funneliformis mosseae,FM)对青山杨幼苗进行单一和复合接种(根内根孢囊霉+摩西斗管囊霉,M)处理,不接种处理(CK)为对照,分析不同接种处理对青山杨生长发育的影响。结果表明:AM真菌不同接种方式,对青山杨的生长发育影响不同,复合接种处理比其单一接种处理有利于青山杨的生长发育。复合接种处理(M)的青山杨的株高、地径、叶宽、叶面积、根系活力、叶绿素a质量分数、类胡萝卜素质量分数、核酮糖-1,5-二磷酸羧化酶活性、可溶性蛋白质量分数、叶生物量、苗木质量指数显著(P<0.05)高于其他处理;叶绿素b质量分数显著(P<0.05)低于其他处理;叶长、叶片数、根长、根系平均直径、根系体积、根表面积、可溶性糖质量分数、根生物量、茎生物量均显著(P<0.05)高于RI处理和CK处理,但与FM处理差异不显著;乙醇酸氧化酶活性和淀粉质量分数均与RI处理差异不显著。因此,根内根孢囊霉+摩西斗管囊霉复合接种是培育青山杨的优良接种方式,在实际应用中可优先考虑根内根孢囊霉+摩西斗管囊霉复合接种。

生化因子对丛枝菌根真菌Glomus intraradices产孢和侵染的影响

以高粱为宿主,采用盆栽试验,研究生化因子对丛枝菌根真菌Glomus intraradices产孢和侵染的影响。结果表明:单一有机氮源和活性物质能显著提高G.intraradices产孢和侵染,酒石酸铵(0.5%)、甘氨酸(1%)和根浸出液(2 mL),可分别使每160 g沙样孢子产量提高至382,302和328个,对照仅为155个;甘氨酸(0.5%,1.0%)、酒石酸铵(0.5%)、腐殖酸铵(0.5%,1.0%,2.0%)和根浸出液(2,3,5 mL)处理,可使根侵染率分别提高至53.7%,52.8%,43.9%,59.4%,48.9%,57.7%,64.9%,55.9%,52.9%(对照仅为27.3%);单一碳源(葡萄糖、蔗糖)则对G.intraradices产孢和侵染率都没有显著影响;不同的氮源+碳源(NH4Cl+葡萄糖)组合对G.intraradices产孢和侵染率有不同影响,当C、N比值为4∶1,1∶2时,显著提高G.intraradices产孢,可分别使每20 g沙样产孢量可分别达到2227,2458个(对照仅为157个)。当C、N比值为1∶2时,侵染率为2.4%,显著低于对照19.3%;比值为4∶1时,对侵染率没有显著影响。生化因子对G.intrara-dices产孢和侵染的作用特点不同。

根内根孢囊霉对正茬和迎茬大豆生物量的影响

本研究旨在探究根内根孢囊霉(Rhizophagus intraradices)在缓解大豆迎茬障碍和提高大豆生物量方面的效应。以‘黑农48’品种的大豆为对象,通过湿筛倾析-蔗糖离心法、碱解离-酸性品红染色法以及直接测量法,分别对AM真菌孢子密度、侵染率及大豆生物量进行了测定。结果显示,正茬大豆田的根际土壤中孢子密度是迎茬的2.2倍。在自然土壤条件下,接种R.intraradices的正茬与迎茬土壤中的大豆植株,其根系AM真菌侵染率和生物量均显著高于未接种处理组,其中根长最为显著,分别提高了31.60%和33.57%。在迎茬土壤中接种R.intraradices菌剂的大豆生物量与正茬土壤中未接种处理组的接近。在相同接菌处理条件下,灭菌土壤中的大豆植株根系AM真菌侵染率和生物量均低于自然土壤。本研究这些发现为缓解大豆迎茬障碍和提升大豆产量提供了重要的理论依据。

不同丛枝菌根真菌(AMF)接种量对麦冬幼苗根系活力及生长特性的影响

以麦冬为试材,采用拌种接种方法,以等体积混合的苗圃土、蛭石和珍珠岩为培养基质,研究不同接种量(10、20、30、40 g)丛枝菌根真菌根内根孢囊霉(RI)对麦冬幼苗的苗高、根长、菌根侵染率、根系活力、叶绿素含量、相对电导率、可溶性蛋白质含量的影响,以期为麦冬生长建植提供更为有效的栽培方式。结果表明:接种根内根孢囊霉能与麦冬形成共生关系,其中接种40 g根内根孢囊霉时麦冬的根系侵染率最高。与对照相比,随着接种量的增加,显著促进了麦冬的生长,40 g处理下麦冬幼苗的株高、根长、分蘖数、叶面积、叶绿素含量、相对电导率和可溶性蛋白质含量均显著增加;灰色关联度分析也表明,AMF侵染率与植物的株高、分蘖数和相对电导率的关联度最大。

马缨丹对镉的耐性及Glomus intraradices对镉吸收转运的影响

为探讨马缨丹(Lantana camara L.)应用于植物修复的可行性,通过盆栽试验,研究了马缨丹对土壤中重金属镉(Cd)的耐性,以及不同施Cd水平下Glomus intraradices(GI)对马缨丹吸收和转运Cd的影响.结果显示:当土壤Cd含量为50 mg/kg时,马缨丹的生长受到明显的抑制作用;当土壤Cd含量为10 mg/kg时,马缨丹地上部具有较高的Cd积累量.GI表现出对Cd较强的耐性,能较好地侵染马缨丹根系.与对照相比,接种GI能缓解Cd对马缨丹的生物毒性效应,显著提高马缨丹的生物量(P<0.05);接种GI对马缨丹转运Cd没有显著影响(P>0.05),但当土壤Cd含量为100 mg/kg时,接种GI会抑制马缨丹对Cd的富集.结果表明马缨丹对Cd具有较强的耐受性,在低Cd污染土壤中具有较高的提取效率;接种GI显著提高了马缨丹对Cd的耐性和地上部Cd的提取量(P<0.05),表明马缨丹在修复Cd污染土壤方面具有应用潜力.

接种根内球囊霉(Glomus intraradices)对地毯草(Axonopus compressus)再生及土壤的影响

研究主要探讨了根内球囊霉(Glomus intraradices)对地毯草(Axonopus compressus)再生以及土壤性状的影响。结果发现:(1)接种AMF(Arbuscular Mycorrhiza Fungi)能够显著提高地毯草的生物量、绝对再生高度和根系活力;(2)接种处理对地毯草地上部和地下部总N含量的影响不显著,但接种处理地毯草地上部总P含量显著高于对照;(3)接种组的土壤pH显著高于对照组,且土壤团聚体的平均重量直径和几何均重直径较对照分别提高了39.1%和114.5%。可见,菌根真菌能够有效促进地毯草的生长,并在一定程度上有利于土壤的理化性质的改良。

Active changes of lignification-related enzymes in pepper response to Glomus intraradices and/or Phytophthora capsici

The activities of enzymes responsible for lignification in pepper, pre-inoculation with arbuscular mycorrhizal (AM) fungus of Glomus intraradices and/or infection with pathogenic strain of Phytophthora capsici, and the biological control effect of G. intraradices on Phytophthora blight in pepper were investigated. The experiment was carried out with four treatments: (1) plants pre-inoculated with G. intraradices (Gi), (2) plants pre-inoculated with G. intraradices and then infected with P. capsici (Gi+Pc), (3) plants infected with P. capsici (Pc), and (4) plants without any of the two microorganisms (C). Mycorrhizal coloni-zation rate was reduced by about 10% in pathogen challenged plants. Root mortality caused by infection of P. capsici was com-pletely eliminated by pre-inoculation with antagonistic G. intraradices. On the ninth day after pathogen infection, Peroxidase (POD) activity increased by 116.9% in Pc-treated roots but by only 21.2% in Gi+Pc-treated roots, compared with the control, respectively. Polyphenol oxidase (PPO) and Phenylalanine ammonia-lyase (PAL) activities gradually increased during the first 3 d and dramatically decreased in Pc-treated roots but slightly decreased in Gi+Pc-treated roots, respectively. On the ninth day after pathogen infection, PPO and PAL decreased by 62.8% and 73.9% in Pc-treated roots but by only 19.8% and 19.5% in Gi+Pc-treated roots, compared with the control, respectively. Three major POD isozymes (45 000, 53 000 and 114 000) were present in Pc-treated roots, while two major bands (53 000 and 114 000) and one minor band (45 000) were present in spectra of Gi+Pc-treated roots, the 45 000 POD isozyme was significantly suppressed by G. intraradices, suggesting that the 45 000 POD isozyme was induced by the pathogen infection but not induced by the antagonistic G. intraradices. A 60 000 PPO isozyme was induced in Pc-treated roots but not induced in Gi+Pc-treated roots. All these results showed the inoculation of antagonistic G. intraradices alleviates root mortality, activates changes of lignification-related enzymes and induces some of the isozymes in pepper plants infected by P. capsici. The results suggested that G. intraradices is a potentially effective protection agent against P. capsici.

多年生乌拉尔甘草复合丛枝菌根真菌接种效应研究

目的:探究2种丛枝菌根真菌复合与独立接种对田间栽培多年生乌拉尔甘草生长与有效成分积累的长短期效应。方法:选取摩西斗管囊霉Funneliformis mosseae与根内根孢囊霉Rhiaophagus intraradices 2种丛枝菌根真菌菌种,在大田条件下对乌拉尔甘草进行单菌种与复合菌种接种处理,分别于栽培的第1年和第2年采集乌拉尔甘草样品,分析其形态指标和有效成分甘草酸、甘草苷含量。结果:田间试验结果表明,复合接种和摩西斗管囊霉单接种均对乌拉尔甘草中甘草酸与甘草苷含量有提升作用,其中复合接种提升效果最为显著,其次为摩西斗管囊霉单接种,根内根孢囊霉单接种处理无显著提升作用。接种处理组乌拉尔甘草种苗的生长指标与对照组差异无统计学意义。接种丛枝菌根真菌显著提高了甘草苷含量与甘草酸含量的比值,接种组甘草苷、甘草酸的积累速率呈显著正相关且与对照组有明显差异。结论:揭示了大田条件下复合丛枝菌根真菌接种的长期效应,发现摩西斗管囊霉与根内根孢囊霉复合接种可以提高大田栽培乌拉尔甘草的品质,并对甘草苷与甘草酸的含量比例有调节作用,为人工栽培乌拉尔甘草过程中丛枝菌根真菌利用提供参考。

Drought adaptation of Bauhinia faberi var.Microphylla seedlings with dual inoculation of arbuscular mycorrhizal fungi

Bauhinia faberi via.Microphylla(BFM)is an important tree species for vegetation restoration in the dry valley of southwestern China.However,there were few studies on the application of arbuscular mycorrhizal fungi(AMF)in improving the drought adaptation of BFM.In order to investigate the response of BFM to water stress(WS),we tested four inoculation treatments((no AMF,Control),Glomus mosseae(GM),Glomus intraradices(GI),Glomus mosseae+Glomus intraradices(GMI))in pots,experimented under three field water holding capacity(WHC)of 70%,50%and 30%.The changes of seedling survival rate(SR),AMF relative root length colonization rate(Col),growth,photosynthetic parameters,water status and leaf nutrients were examined.The results showed that under 30%WHC drought conditions,SR with dual inoculation of AMF was not higher than with single inoculation of GM,suggesting that increasing the diversity of AMF did not definitely improve plant SR,and that the species of inoculated AMF might have an important impact on SR.The sensitivity of dual inoculated Col to water stress was lower than that of single inoculation,which was more favorable for dual inoculated BFM seedlings adapting to drought environment.The overall drought resistance ability(D)also showed that dual inoculation of AMF improved plant drought adaptation compared with single inoculation,which was related to the higher Col of dual inoculated AMF.This study is of practical importance to promote vegetation restoration in arid areas in a cost-effective and environmentally friendly manner.

丛枝菌根真菌侵染势与接种势之间的关系(英文)

丛枝菌根 （AM） 真菌的侵染势（Colonization potential ,CP ）和接种势（inoculum potential ,IP ）是菌根学领域非常重要的两个概念.IP已定义为接种物中有活力的真菌繁殖体及结构的数量（Liu ＆ Luo,1994）.而CP的定量描述和测定方法尚未建立.本文将CP 定义为单位数量接种物在侵染初期侵染植物根系的能力,其定量测定公式为：CP=N×L/IP ×T ,其中 N 为单位根长侵入点数＋根内和根外菌丝数＋含有丛枝的细胞数＋泡囊数;L 为每株寄主植物根系总长度;IP 为接种物的接种势单位数;T 为接种后的天数.用棉花 （Gossypium hirsutum）、大豆 （Glycine max）、红三叶（Trifolium pratense）和玉米（Zea mays ）和3种AM真菌Gigaspora margarita （Gim）, Glomus intraradices （Gi）, and Glomus versiforme（Gv）不同剂量（100, 300, 900, 2 700 and 8 100接种势单位）的接种物进行试验,以定量测定CP、以及CP和IP之间的关系.结果表明,在相同数量的IP条件下,不同AM真菌具有不同的CP,应用该研究建立的定量测定方法获得了CP与IP显著相关（p＝0.01,r＝ 0.9161～ 0.9393）的试验结果.CP可以作为评价接种物有效性和质量的指标.它说明了AM真菌侵染初始阶段的侵染能力,因此CP的测定应该在侵染率达到最高之前进行,对3种一年生植物进行的试验表明,最佳测定时间应在接种后4到6周.

镉污染环境中丛枝菌根真菌对紫羊茅生长及镉积累的影响

应用盆栽方法模拟不同镉污染土壤状况,研究了Glomus intraradices真菌对紫羊茅生长及吸收积累镉的影响。试验设0、15、50μg-1三个施镉水平,每个施镉水平下分别设接种和不接种两个处理。结果表明,土壤施镉对菌根侵染率无显著影响;施镉量增加显著降低了紫羊茅的生长量;接种Glomus intraradices真菌对紫羊茅地上部的生长无明显影响,但显著降低了根系的生长量而相应增大了冠根比;同时降低了紫羊茅对镉的吸收;通过菌根结构强化镉在根系的固持作用,降低了紫羊茅地上部镉的浓度,减少镉向地上部的分配比例,从而改善紫羊茅地上部的品质。

AMF对镉污染条件下水稻抗逆性及根际固定性的影响

为研究丛枝菌根真菌对重金属Cd胁迫条件下水稻生长及生理过程的影响,选用两种丛枝菌根真菌(Arbuscularmy corrhizal fungi,AMF):摩西球囊霉(Glomus mosseae,GM)和根内球囊霉(Glomus intraradice,GI),接种在不同Cd浓度(0、0.5、1、2、5 mg·kg-1)的污染土壤中,研究两种菌剂对水稻株高、光合作用、抗逆生理过程以及Cd在植株地上及根系分配的影响。结果表明,AMF菌剂的接种显著减轻了Cd胁迫对水稻生长的抑制程度,GM组与GI组水稻株高分别比对照组提高了13.8%和10.3%,且菌剂处理有助于缓解Cd胁迫对水稻光合作用的抑制。在5 mg·kg-1Cd胁迫下,水稻叶片中MDA(丙二醛)含量显著降低,SOD(超氧化物歧化酶)活性和Pro(脯氨酸)的含量显著提高(P<0.05)。两种菌剂处理下水稻对Cd的富集系数与转运系数均低于对照,表明AMF处理有助于缓解Cd对地上部分的毒害,并且促进了水稻对Cd的根际固定化过程,抑制了Cd向地上部分转移的趋势。

3种球囊霉属真菌对盆栽木薯生长影响

应用盆栽试验法,单独接种球囊霉属Glomus菌种:根内球囊霉G.intraradices(G i)、木薯球囊霉G.manihotis(Gm)和幼套球囊霉G.etunicatum(Ge)菌剂及混合菌剂(2G),检测不同接种条件下对盆栽木薯Manihot esculenta根系的侵染能力及其对木薯生长的影响.3个试验菌种均可与木薯形成疆南星型(Arum-type)丛枝菌根(arbuscu larmycorrh iza,AM),其中G i和Gm均可在菌根内形成根内孢子.2G和G i均显示较强的侵染能力,Gm在早期的侵染较慢,但在后期的感染率较高,Ge侵染能力最差.2G、G i和Gm处理组木薯的高度生长均比非接种处理的对照组好,但只有2G处理组无论株高生长还是生物积累均达到显著水平,其他处理组差异不显著,Ge处理组木薯在叶部和根部生物量的积累有负向影响.

不同时期接种AM真菌对大棚黄瓜产量及品质的影响

研究不同时期接种丛枝菌根真菌根内球囊菌（Glomusintraradices，GI）对大棚土壤栽培黄瓜植株生长、产量及营养品质的影响。结果表明：黄瓜不同时期接种GI对其生长均有促进作用，与不接菌的对照相比，播种时接菌和移栽时接菌处理使黄瓜的单株产量分别提高了54%、34%；播种时接菌处理的黄瓜叶片的叶绿素含量比对照显著提高了14.7%～17.7%；播种时接菌和移栽时接菌的黄瓜硝酸盐含量较对照分别下降了9.4%和15.0%，总糖含量分别比对照提高了8.9%和7.1%；移栽时接菌处理的黄瓜粗蛋白含量比对照提高了4.6%；播种时接菌和移栽时接菌显著提高了黄瓜VC含量。表明接种GI对黄瓜生长和产量品质具有一定的改善作用。

AM真菌在煤矿废弃物中生态适应性的初步研究

以粉煤灰、草炭、蛭石、河沙为培养基质,分别对4种不同AM真菌:Glomus mosseae,G.diaphanum,G.intraradices和G.versiforme的生态适应性进行研究。结果表明,菌根的侵染率、孢子密度和菌丝长度分别与菌根真菌种类、培养基质状况及寄主植物种类有关。4种基质的扩繁效果顺序为:河沙>粉煤灰>草炭>蛭石。G.mosseae和G.diaphanum在基质中的产孢量和菌丝长度优于G.intraradices和G.versiforme,可作为优势菌株。4种菌根真菌在粉煤灰中对寄主的侵染率均达到60%以上,粉煤灰作为菌根真菌培养基质具有更大潜力和实际应用价值。