寄主植物对甜菜夜蛾生长发育和消化酶活性的影响

通过室内饲养和生化测定,研究了甜菜、玉米和黄瓜3种寄主植物的营养物质及其对甜菜夜蛾幼虫发育、成虫产卵及5龄幼虫体内蛋白质和总氨基酸含量、淀粉酶和脂肪酶活力的影响.结果表明:与取食玉米和黄瓜的个体相比,取食甜菜的甜菜夜蛾,其幼虫期和蛹期较短,分别为11.4天和5.6天;蛹期存活率最高,达100%;成虫寿命较长,为26.3天;单雌产卵量最高,为301.8粒.取食3种寄主植物,甜菜夜蛾5龄幼虫体内的蛋白质含量无差异,但总氨基酸含量差异显著,此外,幼虫体内淀粉酶和脂肪酶活力也存在显著差异,取食甜菜的个体>取食玉米的个体>取食黄瓜的个体.取食不同寄主植物,甜菜夜蛾幼虫的消化酶和脂肪酶活力与其发育适合度呈正相关.     

新疆天然胡杨林和野生骆驼刺丛枝菌根真菌多样性研究初报

为探明新疆常见的 2 种建群植物胡杨(Populus euphratica)和骆驼刺(Alhagi sparsifolia)丛枝菌根真菌的侵染状况、群落的种类和分布,在塔里木河中游和昌吉老龙河下游的胡杨林分别采集了 13 个土壤和根系样,在骆驼刺根周围分别采集了 8 个土壤和根系样,对土样中丛枝菌根真菌的种类和根系菌根的侵染状况进行了分析.结果表明:胡杨根周围 AM 真菌的优势种为缩球囊霉(Glomus constrictum)、大果球囊霉(G.macrocarpum)、沙荒球囊霉(G.deserticola)、透光球囊霉(G.diaphanum)和象牙白球囊霉(G.eburneum).骆驼刺根周围 AM 真菌的优势种为沾屑多样孢囊霉(Diversispora spurcum)、摩西球囊霉(G.mosseae)和聚丛球囊霉(G.aggregatum).胡杨根系侵染频度和侵染强度分别可达80%和100%,骆驼剌根系侵染频度和侵染强度分别达65%和90%.说明胡杨和骆驼刺是丛枝菌根依赖性很强的植物,且丛枝菌根真菌的多样性也十分丰富.     

丛枝菌根(AM)与桃树根癌病关系初探

通过对上海市奉贤区桃树果园调查发现,桃树丛枝菌根(AM)的形成与根癌病的发生表现出一定的相互抑制作用。根据不同时间、顺序对桃树苗木人工接种根癌土壤杆菌(Agrobactium tumefaciens)和摩西球囊霉(Glomus mosseae),结果表明桃树苗木形成AM后可以抑制根癌病的发生,反之苗木感染根癌病后也降低了AM真菌对根的侵染和在根内的扩展,对苗木同时接种Agrobactium tumefaciens和Glomus mossea时,病原菌要优先于AM真菌侵染寄主并形成病害。AM提高了苗木根系内与抗病性相关的过氧化物酶和多酚氧化酶活性。     

定西柠条VA菌根真菌特征及种类研究

对从甘肃定西定安区采集的柠条VA菌根真菌进行分离,共鉴定出8种VA菌根真菌：缩球囊霉（Glomus constrictum Trappe）,地球囊霉（Glomus gepsporum Gerdemann,J．W and J．M．Trappe）,集球囊霉（Glomus fasciculatu Gerd．＆ Trappe emend．Walker ＆ Koske）。两型球囊霉（Glomus dimorphicum Boyetchko ＆ Tewari）。微丛球囊霉（Glomus microaggregatum Koske Gemma ＆ Olexia）,苏格兰球囊霉（Glomus caledonium（Nicol．＆ Gerd．）Gerd．＆ Trappe）,副冠球囊霉（Glomus coronatum Giovannetti）和巨大巨孢囊霉（Gigaspora gigantean Gerd．＆ Trappe）。并对这8种VA菌根真菌的主要形态进行了描述,分析了其侵染情况及结构特征。     

抗黄瓜枯萎病丛枝菌根真菌与根围促生细菌组合菌剂的筛选

 丛枝菌根真菌(AMF)和植物根围促生细菌(PGPR)同时接种具有促生防病的作用。本试验旨在评价AMF与PGPR组合菌剂防治黄瓜枯萎病(Fusarium oxysporum f. sp. cucumerinum )的效果,以获得高效生防菌剂。于温室盆栽条件下将AMF Funneliformis mosseae(Fm)、Glomus intraradices(Gi)和 Glomus versiforme(Gv)与PGPR菌株(PR2-1、PS1-3、PS1-5、PS2-6和PS3-2)不同组合菌剂处理黄瓜(Cucumis sativus, 品种:香翠16号),测定各处理对黄瓜植株生长量、枯萎病防治效果和黄瓜产量的影响。供试AMF+PGPR各组合菌剂处理能不同程度的增加黄瓜根系AMF侵染率和根围细菌的定殖数量、促进黄瓜生长发育和降低枯萎病危害程度。其中,以Fm+PS3-2和 Gv+PS2-6组合菌剂促生和增产效果最好, 以Fm+PS1-5、Fm+PS3-2和Gv+PS2-6组合菌剂防治枯萎病效果最好。综合评价筛选获得高效组合为Fm+PS3-2和Gv+PS2-6。这两个处理可使黄瓜枯萎病病情指数分别下降50.0%和58.4%,防效达到54.5%和63.7%,具有一定的田间应用潜力。     

AM真菌对加拿大一枝黄花与菌根植物和非菌根植物种间作用的影响

为明确丛枝菌根(arbuscular mycorrhizal,AM)真菌对加拿大一枝黄花Solidago canadensis与本地菌根植物和非菌根植物种间竞争格局的调控作用,采用温室盆栽试验,通过接种摩西球囊霉Glomus mosseae(GM)、根内球囊霉G. intraradices(GI)及其混合菌种(GM+GI)3种处理,分析AM真菌对加拿大一枝黄花与本地菌根植物玉米Zea mays和非菌根植物油菜Brassica campestris种间作用的影响。结果表明:与对照相比,接种AM真菌均显著提高了加拿大一枝黄花和玉米的菌根侵染率,菌根侵染率为13.720%～50.015%,且前者的菌根侵染率明显高于后者。单独种植时,与对照相比,接种AM真菌尤其是接种混合菌种显著提高了加拿大一枝黄花的株高、叶片数和总干重。在加拿大一枝黄花与玉米混合种植时,与单独种植相比,加拿大一枝黄花的株高、叶片数、根长和总干重均较低;同时,与对照相比,接种AM真菌显著提高了玉米的相对竞争强度而对加拿大一枝黄花的相对竞争强度没有显著影响。在加拿大一枝黄花和油菜混合种植时,与对照相比,接种AM真菌则显著提高了加拿大一枝黄花的株高、叶片数、净光合速率和总干重;同时,接种AM真菌促进了入侵种的竞争优势而抑制了非菌根植物油菜的生长。说明加拿大一枝黄花与本地种的竞争格局受到与之混生物种的菌根依赖性强度以及AM真菌的种类差异影响。     

Bt棉对斑痣悬茧蜂寄主选择及其子代发育的影响*

［目的］ 评价转Bt基因棉通过非靶标寄主斜纹夜蛾和甜菜夜蛾幼虫对寄生蜂的影响。［方法］ 分别采用选择性试验和非选择性方法,观察斑痣悬茧蜂对取食Bt棉叶和常规棉叶的斜纹夜蛾和甜菜夜蛾幼虫的产卵选择偏好,并观察子代蜂在不同处理幼虫体内的发育表现。［结果］ 取食Bt棉叶的斜纹夜蛾幼虫体重与取食常规棉叶的没有显著差异,而取食Bt棉叶的甜菜夜蛾幼虫体重显著小于取食常规棉叶。对斜纹夜蛾幼虫的选择性试验表明,斑痣悬茧蜂未表现出对取食Bt棉寄主幼虫的偏好。［结论］ 斑痣悬茧蜂子代的历期、存活以及羽化成蜂的体型大小等发育适应度特征,不受寄主幼虫所取食的食料植物的影响。     

AM真菌对红花生长及其有效成分的影响

丛枝菌根(Arbuscular mycorrhizas,AM)真菌是土壤生态系统中广泛分布的优秀微生物资源,是具有重要经济价值的药用植物。本文基于人工培育条件下对中药材红花(Carthamus tinctorius)分别进行摩西球囊霉(Glomus mosseae)、根内球囊霉(Glomus intraradices)和混合菌(G. mosseae,Glomus etunicatum,Glomus microagregatum,Glomus caledonium,Glomus cladoideum和G. intraradices) 3种AM真菌接种处理,并以接种等量灭活菌种作为对照组处理。采用高效液相色谱法测定不同采摘时期红花绒中羟基红花黄色素A和山奈素含量的变化。结果表明:与对照组相比,AM真菌接种处理显著促进了红花生物量的积累,且AM真菌混合接种效果显著高于AM真菌单接种;在次生代谢产物合成方面,AM真菌接种处理以及不同采摘期的红花中羟基红花黄色素A和山奈素的含量差异不显著。表明AM真菌虽能促进红花的生长,但不影响羟基红花黄色素A和山奈素的合成。     

AMF+PGPR组合提高黄瓜抗枯萎病的作用机制

对黄瓜(Cucumis sativus)品种香翠16接种尖孢镰刀菌黄瓜专化型(Fusarium oxysporum f.sp.cucumerinum,Foc)、丛枝菌根真菌(AMF)Funneliformis mosseae(Fm)+Foc、丛枝菌根真菌Glomus versiforme(Gv)+Foc、根围促生细菌(PGPR)PS2-6+Foc、PS3-2+Foc、Fm+PS3-2+Foc以及Gv+PS2-6+Foc,以不接种处理作为对照。结果表明,接种Foc条件下,Fm+PS3-2和Gv+PS2-6组合处理的抗病效果显著优于单接种AMF或PGPR处理;镜检观测到靠近AMF菌丝的Foc菌丝纤细,生长不良。AMF菌丝能缠绕Foc菌丝,并阻挡其侵入根系;AMF侵染率与其防效均呈正相关(P0.05);Fm+PS3-2+Foc和Gv+PS2-6+Foc处理的根系活力是单接种Foc的4.6倍;与不接种对照相比,Fm+PS3-2+Foc和Gv+PS2-6+Foc处理的黄瓜叶片中吲哚乙酸(IAA)含量分别提高了205%和166%,赤霉素(GA3)提高了33%和22%,玉米素核甘(ZR)提高了100%和80%,JA平均提高了65%,ABA降低23%和17%;而与单接种Foc处理相比,IAA提高了667%和568%,GA3提高了223%和196%,ZR提高了254%和219%,茉莉酸(JA)含量平均提高了215%,而脱落酸(ABA)含量只有单接种Foc处理的53%;Fm+PS3-2+Foc和Gv+PS2-6+Foc处理显著提高了黄瓜叶内苯丙氨酸解氨酶(PAL)防御酶活性和PAL基因表达量。综上推断AMF+PGPR组合是通过拮抗病原物、促进合成抗病信号物质、上调防御基因表达、提高防御酶活性和降低植株体内有毒物质等机制降低病害和改善植物抗病性。     

转Cry1Ac/1Ab基因棉花对棉铃虫的控制效果及对甜菜夜蛾和斜纹夜蛾生长发育的影响

为评估转Cry1Ac/1Ab基因棉花对棉铃虫Helicoverpa armigera的抗性及对非靶标害虫甜菜夜蛾Spodoptera exigua和斜纹夜蛾S.litura生长发育的影响,采用室内生测法测定其对棉铃虫的抗性及对甜菜夜蛾和斜纹夜蛾不同龄期幼虫存活率、营养代谢及中肠酶活性的影响。结果表明,转Cry1Ac/1Ab基因棉花对棉铃虫第2代幼虫的抗性程度最高,幼虫校正死亡率达91.33%,但对甜菜夜蛾和斜纹夜蛾的抗性程度较低,幼虫校正死亡率分别为15.33%和13.33%。甜菜夜蛾和斜纹夜蛾各龄期幼虫取食转Cry1Ac/1Ab基因棉花后,其存活率与取食常规棉花对照无显著差异;甜菜夜蛾对转Cry1Ac/1Ab基因棉花叶片的相对取食量、近似消化率分别为16.68和93.12%,均高于取食常规棉花对照的10.72和92.00%,但差异不显著,而斜纹夜蛾取食转Cry1Ac/1Ab基因棉花后的各项营养指标均低于取食常规棉花对照,差异也不显著。取食转Cry1Ac/1Ab基因棉花后,甜菜夜蛾的过氧化物酶活性为0.02 U/mg prot,显著低于取食常规棉花的0.05 U/mg prot;斜纹夜蛾的酸性磷酸酶活性为0.15 U/mg prot,高于取食常规棉花的0.10 U/mg prot,但差异不显著,其它中肠酶活性均低于对照,亦无显著差异。     

Mycorrhiza induced resistance in potato plantlets challenged by Phytophthora infestans

Biological control of soil-borne pathogens by arbuscular mycorrhizal (AM) fungi has been repeatedly demonstrated. However, their role in the control of above-ground hemibiotrophic pathogens is less conclusive. Here, we investigated in vitro the impact of an AM fungus on Phytophthora infestans in potato plants. The leaf infection index was decreased in mycorrhizal potato plants. Real-Time Quantitative PCR revealed the induction of two pathogenesis related genes (PR1 and PR2) in the leaves of mycorrhizal plants shortly after infection with P. infestans. These results suggested a systemic resistance in mycorrhizal plants, related to the priming of the two PR genes in potato.     

Suppression of Rhizoctonia root-rot of tomato by Glomus mossae BEG12 and Pseudomonas fluorescens A6RI is associated with their effect on the pathogen growth and on the root morphogenesis

Rhizoctonia solani root-rot is a major soilborne disease causing growth and yield depression. The ability of Glomus mosseae BEG12 and Pseudomonas fluorescens A6RI to suppress this soilborne disease in tomato was assessed by comparing the shoot and root growth of plants infested with R. solani 1556 when protected or not by these beneficial strains. The epiphytic and parasitic growth of the pathogenic R. solani 1556 was compared in the presence and absence of the biocontrol agents by microscopical observations allowing the quantification of roots with hyphae appressed to epidermal cells (epiphytic growth) and of roots with intraradical infection (parasitic growth). The root architecture of the tomato plants under the different experimental conditions was further characterized by measuring total root length, mean root diameter, number of root tips and by calculating degree of root branching. G. mosseae BEG12 and P. fluorescens A6RI fully overcame the growth depression caused by R. solani 1556. This disease suppression was associated with a significant decrease of the epiphytic and parasitic growth of the pathogen together with an increase of root length and of the number of root tips of inoculated tomato plants. The combined effects of G. mosseae BEG12 and P. fluorescens A6RI on pathogen growth and on root morphogenesis are suggested to be involved in the efficient disease suppression.     

丛枝菌根真菌与小麦孢囊线虫的相互作用

 近年来, 小麦孢囊线虫(cereal cyst nematodes, CCN:主要病原为燕麦孢囊线虫Heterodera avenae)对小麦(Triticum aestivum)的危害日益严重, 亟待探索新的生防途径。丛枝菌根真菌(arbuscular mycorrhizal fungi, AMF)作为环境功能生物, 对寄主植物具有生物药肥双重作用, 不仅能促进植物吸收利用养分, 而且能拮抗土传病原物、提高植物抗病性。本研究以AMF与CCN相互作用为切入点, 试图明确AMF与CCN相互作用关系, 并科学评价不同AMF抑制CCN、降低病害的效应。试验于温室盆栽条件下进行, 设接种AMF Gigaspora margarita(Gi.m)、Glomus mosseae(G.m)、Glomus intraradices(G.i)、Glomus versiforme(G.v)、Gi.m +G.m+G.i+G.v、CCN、CCN+Gi.m、CCN+G.m、CCN+G.i、CCN+G.v、CCN+Gi.m+G.m+ G.i+G.v和不接种对照(CK)共12个处理。结果表明, 接种AMF各处理均能降低小麦孢囊线虫侵染率、土壤中孢囊数和根内J2数量, 其中Gi.m处理抑制效果最大;CCN不同程度减少AMF侵入点数和产孢数量。Gi.m 和CCN+Gi.m处理的根内丛枝着生数量最多, 而后者根内的超氧化物歧化酶、苯丙氨酸解氨酶和过氧化氢酶活性显著高于其他处理、丙二醛含量则显著低于其他CCN+AM真菌处理。Gi.m和G.i处理的小麦株高、地上部干重高于其他处理;Gi.m 和CCN+Gi.m的处理的单穗重和单株产量均高于其他处理。表明AMF能不同程度拮抗CCN、促进小麦生长和提高产量, 其中, Gi.m是高效菌种。结论认为, AMF与CCN之间存在一定相互抑制作用, AMF能通过诱导植株防御反应拮抗CCN。     

Effects of antagonistic fungi,plant growth-promoting rhizobacteria,and arbuscular mycorrhizal fungi alone and in combination on the reproduction of <Emphasis Type="Italic">Meloidogyne incognita</Emphasis> and growth of tomato

Antagonistic fungi (Aspergillus niger CA and Penicillium chrysogenum CA1), plant growth-promoting rhizobacteria (PGPR) (Burkholderia cepacia 4684 and Bacillus subtilis 7612) and AM fungi (Glomus intraradices KA and Gigaspora margarita AA) were assessed alone and in combination for their effects on the growth of tomato and on the reproduction of Meloidogyne incognita in glasshouse experiments. Application of antagonistic fungus, PGPR, or AM fungus alone or in combination significantly increased the length and shoot dry mass of plants both with and without nematodes. The increase in shoot dry mass caused by Gl. intraradices KA in plants without nematodes was greater than that caused by PGPR or antagonistic fungi. Similarly, the increase in shoot dry mass caused by Bu. cepacia 4684 in plants with nematodes was greater than that caused by P. chrysogenum CA1. Application of Bu. cepacia 4684 caused a 36.1% increase in shoot dry mass of nematode-inoculated plants followed by Ba. subtilis 7612 (32.4%), A. niger CA (31.7%), Gl. intraradices KA (30.9%), Gi. margarita AA (29.9%) and P. chrysogenum CA1 (28.8%). Use of Bu. cepacia 4684 with A. niger CA caused a highest (65.7%) increase in shoot dry mass in nematode-inoculated plants followed by Ba. subtilis 7612 plus A. niger CA (60.9%). Burkholderia cepacia 4684 greatly reduced (39%) galling and nematode multiplication, and the reduction was even greater (73%) when applied with A. niger CA. Antagonistic fungi had no significant effect on root colonization caused by AM fungi. Applying Bu. cepacia 4684 with A. niger CA may be useful in the biocontrol of M. incognita on tomato.     

Biocontrol traits of plant growth suppressive arbuscular mycorrhizal fungi against root rot in tomato caused by <Emphasis Type="Italic">Pythium aphanidermatum</Emphasis>

Arbuscular mycorrhizal (AM) fungi known to cause plant growth depressions in tomato were examined for their biocontrol effects against root rot caused by Pythium aphanidermatum. The main hypothesis was that plant growth suppressive AM fungi would elicit a defence response in the host plant reducing Pythium root rot development. To test this hypothesis a fully factorial experiment was performed with AM fungi (Glomus intraradices, G. mosseae, G. claroideum or nonmycorrhizal), Pythium (± P. aphanidermatum) and harvest (7 and 14 days after pathogen inoculation (dapi)) as the main factors. Two weeks after AM fungi inoculation, roots were challenged with P. aphanidermatum. Variables evaluated at each harvest were root colonization levels of the interacting fungi, plant growth responses, and expression of a plant pathogenesis related protein gene (PR-1). All of the tested AM fungi caused marked growth suppressions, but did not affect PR-1 gene expression or the phosphorous concentration in the host plant. Plants singly inoculated with P. aphanidermatum had an increased PR-1 expression and phosphorous concentration. Among the AM fungi included in the study only G. intraradices reduced the pathogen root infection level, measured both in terms of Pythium ELISA and by recovery on selective media and only at the first harvest. Likewise, P. aphanidermatum root infection reduced colonization levels of G. intraradices, but not that of the two other AM fungi. In conclusion, plant growth suppressive AM fungi may offer plant beneficial traits in terms of biocontrol of root cortical pathogens.     

Increased plant tolerance against chrysanthemum yellows phytoplasma (‘Candidatus Phytoplasma asteris’) following double inoculation with Glomus mosseae BEG12 and Pseudomonas putida S1Pf1Rif

The aim of this work was to assess the effects of a combined inoculum of a rhizobacterium and an arbuscular mycorrhizal (AM) fungus on plant responses to phytoplasma infection, and on phytoplasma multiplication and viability in Chrysanthemum carinatum plants infected by chrysanthemum yellows phytoplasma (CY). Combined inoculation with Glomus mosseae BEG12 and Pseudomonas putida S1Pf1Rif resulted in some resistance to phytoplasma infection (about 30%), delayed symptom expression in nonresistant plants, improved growth of the aerial part of the infected plants (+68·1%), and altered root morphology (root tip number: +49·9%; branching degree: +82·8%). Combined inoculation with the two beneficial microorganisms did not alter CY multiplication and viability. In inoculated and infected plants, phytoplasma morphology was typical of senescent cells. A more active and efficient root system in double‐inoculated plants probably mediated the effects of the two rhizospheric microorganisms in the infected plants. The practical application of rhizospheric microorganisms for mitigating phytoplasma damage, following evaluation under field conditions, represents an additional tool for the integrated management of phytoplasmosis.     

Three-way fungal interactions affect the potential biological control of Himalayan balsam,Impatiens glandulifera

Himalayan balsam (Impatiens glandulifera) is one of the most invasive weeds across Europe. The rust fungus, Puccinia komarovii var. glanduliferae has been introduced as a biological control agent, but success has been patchy. Here, we investigated whether mycorrhizal and endophytic fungi can affect rust efficacy and plant growth. Over three experiments, we found that AM fungi and the rust alone or together consistently reduced plant growth, but this depended on the identity of species in the AM inoculum. Meanwhile, AM fungi increased infection frequency of the endophyte Colletotrichum acutatum. Rust inoculation had no detrimental effects on mycorrhizal colonisation or C. acutatum infection, but the latter two fungi reduced rust sporulation. However, plant size was reduced when all three fungal types were present, suggesting that a combined fungal inoculum offers a promising approach for the control of this weed.     

Evaluation of Natural Chemical Compounds Against Root-lesion and Root-knot Nematodes and Side-effects on the Infectivity of Arbuscular Mycorrhizal Fungi

The survival of two species of plant parasitic nematodes: the root-lesion nematode Pratylenchus brachyurus, and the root-knot nematode Meloidogyne javanica, was evaluated in saturated atmospheres of 12 natural chemical compounds. The infectivity of two isolates of arbuscular mycorrhizal fungi: Glomus mosseae and Glomus intraradices, under identical experimental conditions, was also determined. All the compounds tested exerted a highly significant control against M. javanica and among them, benzaldehyde, salicilaldehyde, borneol, p-anisaldehyde and cinnamaldehyde caused a mortality rate above 50% over P. brachyurus. The infectivity of G. intraradices was inhibited by cinnamaldehyde, salicilaldehyde, thymol, carvacrol, p-anisaldehyde, and benzaldehyde, while only cinnamaldehyde and thymol significantly inhibited mycorrhizal colonization by G. mosseae.