丛枝菌根真菌和两株细菌对土壤中DEHP降解及绿豆生长的影响

采用绿豆为供试植物,通过温室盆栽试验研究接种丛枝菌根(arbuscular mycorrhiza,AM)真菌与DEHP降解菌对DEHP污染土壤的修复作用以及对植物生长的影响.试验土壤中添加DEHP含量为100mg·kg-1,试验设AM真菌Acaulospora laelis 90034、降解菌Bacillus sp.DW1和Gordonia sp.DH3单独接种以及互相组合的联合接种处理,同时设置不接种的对照处理(CK).苗后60 d收获植株.结果表明,AM真菌能很好的侵染绿豆的根系,菌根侵染提高了绿豆地上部分的干重,而对根系的干重则没有显著的影响;同时菌根侵染也促进了绿豆的P营养.但接种DW1与DH3对菌根侵染率与绿豆生长都没有显著影响.3种菌剂无论是单独或者联合接种都能显著促进土壤中DEHP的降解,3种菌剂同时接种则对DEHP的降解能达到最好的协同作用,同时也减少DEHP在绿豆地上部分的累积,这为DEHP污染农田土壤的植物修复提供了理论依据.     

丛枝菌根影响纳米ZnO对玉米的生物效应

人工纳米颗粒(engineered nanoparticles,ENPs)能被植物吸收、积累,随食物链进入人体而引起健康风险.丛枝菌根(arbuscular mycorrhizal,AM)真菌可与陆地生态系统中绝大多数高等植物互惠共生,可能影响ENPs的生物效应.在温室土壤盆栽条件下研究了施加不同水平纳米ZnO(0、500、1000、2000、3000 mg·kg-1)和接种AM真菌Acaulospora mellea对玉米生长和营养状况的影响.结果表明,随土壤中纳米ZnO施加水平的增加,菌根侵染率和玉米生物量均呈降低趋势,根系总长、总表面积及总体积降低,植株体内Zn含量和吸收量逐渐增加,地上部分P、N、K、Fe、Cu吸收量逐渐降低.与对照相比,接种AM真菌均促进玉米的生长,改善P、N、K营养,根系总长、总表面积及总体积增加,并在施加纳米ZnO时增加Zn在玉米根系中的分配比例.本结果首次表明,土壤中纳米ZnO对丛枝菌根具有一定毒性,而接种AM真菌能够减轻其毒性,对宿主植物起到保护作用.     

Arsenic uptake by arbuscular mycorrhizal maize （Zea mays L.） grown in an arsenic-contaminated soil with added phosphorus

The effects of arbuscular mycorrhizal (AM) fungus (Glomus mosseae) and phosphorus (P) addition (100 mg/kg soil) on arsenic (As) uptake by maize plants (Zea mays L.) from an As-contaminated soil were examined in a glasshouse experiment.Non-mycorrhizal and zero-P addition controls were included.Plant biomass and concentrations and uptake of As,P,and other nutrients,AM colonization,root lengths,and hyphal length densities were determined.The results indicated that addition of P significantly inhibited root colonization and development of extraradical mycelium.Root length and dry weight both increased markedly with mycorrhizal colonization under the zero-P treatments,but shoot and root biomass of AM plants was depressed by P application.AM fungal inoculation decreased shoot As concentrations when no P was added,and shoot and root As concentrations of AM plants increased 2.6 and 1.4 times with P addition,respectively.Shoot and root uptake of P,Mn,Cu,and Zn increased,but shoot Fe uptake decreased by 44.6%,with inoculation, when P was added.P addition reduced shoot P,Fe,Mn,Cu,and Zn uptake of AM plants,but increased root Fe and Mn uptake of the nonmycorrhizal ones.AM colonization therefore appeared to enhance plant tolerance to As in low P soil,and have some potential for the phytostabilization of As-contaminated soil,however,P application may introduce additional environmental risk by increasing soil As mobility.     

施用沼渣和接种丛枝菌根真菌对甘草生长及矿质营养的影响

沼渣是厌氧发酵的残余物,可作为肥料施用,但因其含有一定量的重金属等有害物质可能导致环境污染风险.丛枝菌根(Arbuscular mycorrhiza,AM)真菌作为植物共生真菌,可以促进植物对矿质养分的吸收,同时能够通过不同途径减轻重金属对植物的毒害.本文采用甘草(Glycyrrhiza uralensis Fisch.)为供试植物开展盆栽试验,考察施用沼渣结合接种AM真菌对甘草生长和矿质营养的影响.试验结果表明,施用沼渣显著促进了植物生长,提高了植物生物量、磷含量和叶片叶绿素含量,与此同时提高了土壤有机质和磷、铬、铜、铅含量,并导致植物重金属含量显著升高.另一方面,AM真菌能够和甘草根系形成良好共生关系,但施用沼渣对菌根侵染表现出显著抑制作用.接种AM真菌促进了甘草生长、提高了根系磷含量及叶片叶绿素含量,同时显著降低了植株重金属含量至安全阈值以内.本试验表明,施用沼渣同时接种AM真菌可在促进甘草生长的同时阻控重金属污染风险,因而可作为沼渣安全利用的一种可行技术途径.     

外加不同铁源和丛枝菌根对砷污染土壤上玉米生长及磷、砷吸收的影响

通过盆栽模拟试验研究了添加不同铁源及接种丛枝菌根真菌(Arbuecular mycorrhizal fungi,AMF)对高砷污染土壤上玉米生长及其吸收磷、砷、铁、锰、铜和锌的影响.试验结果表明,与对照相比,添加硫酸亚铁并接种AMF显著地提高了土壤有效铁、锰含量,降低了土壤中水溶性砷、磷含量以及玉米地上部砷的含量,并极大地增加了植株对磷的吸收,提高了植株体内磷砷吸收量之比,从而明显地改善了植株的菌根建成和生长状况.在不接种情况下,硫酸亚铁和石灰混合处理显著地降低了土壤水溶性砷、磷含量及根系砷含量,并明显增加了磷的吸收以及磷、砷吸收量的比值,使玉米植株生物量和根长增加的幅度较其它铁源处理时更大.尽管添加铁尾矿砂增加了土壤水溶性磷的含量以及植株磷的吸收而在一定程度上改善了玉米的生长,但这种效果以不接种时更为明显,因而有必要根据土壤的污染程度调整铁尾矿砂的添加量和接种抗性菌株,以强化植物的抗砷能力.     

纳米氧化锌、硫酸锌和AM真菌对玉米生长的影响

纳米氧化锌(Zn O)是应用最为广泛但具有一定生物毒性的金属型纳米颗粒(nanoparticles,NPs)之一,而丛枝菌根(arbuscular mycorrhizal,AM)真菌能改善宿主植物矿质营养和增强宿主植物抗逆性,但纳米Zn O和其他锌污染物之间的关系以及AM真菌对其生物效应的影响目前尚不清楚.通过温室盆栽试验,研究了单一或复合施加纳米Zn O、ZnSO_4(500mg·kg~(-1))时接种AM真菌Funneliformis mosseae BEG 167对玉米生长的影响.结果表明,纳米Zn O对AM真菌侵染和玉米植株生长有一定抑制作用,表现出植物毒性,且与同浓度(500 mg·kg~(-1))下的ZnSO_4作用类似.与非菌根对照相比,接种AM真菌降低了玉米植株的Zn含量或Zn吸收量,且在复合处理中对玉米生长表现出较好的促生作用.结果首次表明,纳米ZnO与ZnSO_4在生物毒性上存在复杂的交互作用,而接种AM真菌在二者复合污染时对玉米具有一定的保护作用.     

丛枝菌根真菌对铜尾矿上植物生长和矿质营养的影响

通过温室盆栽试验研究了白三叶草(Trifolium repens Linn)和黑麦草(Lolium perenne L.)在单独和混合种植情况下单独或混合接种丛枝菌根真菌Glomus mosseae和Glomus versiforme对铜尾矿砂中植物生长和矿质营养的影响.试验结果表明,不同接种处理下均以单独种植白三叶草菌根侵染率较高,平均为25%.在单种和混种情况下,接种处理均显著提高了白三叶草地上部的干物重,但对黑麦草生长影响不明显同时,接种处理显著提高了三叶草植株中的磷含量,同时降低了植株铜含量,但对黑麦草植株体内元素含量影响不明显.两种植物混合种植情况下黑麦草显示了相对竞争优势,而菌根共生体能够提高三叶草的竞争能力.试验初步证明丛枝菌根真菌对于豆科植物适应铜尾矿复合逆境(养分贫瘠和重金属污染),以及在尾矿上重建具有物种多样性的植被具有潜在作用,但有必要进一步筛选耐性菌株,并验证自然条件下菌根真菌的作用潜力.     

丛枝菌根真菌对海州香薷生长及其Cu吸收的影响

在温室盆栽条件下研究了接种丛枝菌根(arbuscular mycorrhiza,AM)真菌对灭菌土壤中海州香薷生长及其Cu吸收的影响.试验设0,50,100,200,400mg·kg^-1等5个外施Cu水平,Glomus caledonium90036(36)、Acaulospora mellea ZZ(ZZ)2种菌剂处理和1个不接AM真菌的对照处理(CK).苗后60d收获植株.结果表明,尽管菌根侵染率随Cu水平的升高而降低,但都高达50%以上,说明AM真菌易于侵染海州香薷.36和ZZ处理在各Cu水平下都显著提高了海州香薷地上和根系干重.在200mg.kg^-1及以下各Cu水平时,2种菌剂处理提高海州香薷地上部分Cu浓度,在400mg·kg^-1Cu水平时,地上部分Cu浓度在36、ZZ和CK之间没有显著差异.在施Cu水平为0mg·kg^-1时,海州香薷根系Cu浓度在36、ZZ和CK之间差异不显著,在50mg·kg^-1及以上各Cu水平时,36和ZZ降低海州香薷根系Cu浓度.36和ZZ处理在各Cu水平提高地上部分Cu吸收量,在100mg·kg^-1Cu水平时提高根系Cu吸收量.总之,接种AM真菌可以促进海州香薷向地上部转运Cu,提高其地上部分Cu吸收量.     

丛枝菌根菌丝对重金属元素Zn和Cd吸收的研究

丛枝菌根菌丝对重金属元素Ｚｎ和Ｃｄ吸收的研究陶红群李晓林张俊伶（中国农业大学资源与环境学院，北京１０００９４）关键词丛枝菌根；锌；镉．近年来，由于工业排放及一些农业措施（如污灌等）造成许多土壤中重金属元素的污染．其中锌和镉是两个较为重要的重金属污染...     

锑胁迫下丛枝菌根真菌对玉米生长与锑吸收及抗氧化酶的影响

为了探讨AM(arbuscular mycorrhizal,丛枝菌根)真菌在Sb(锑)胁迫下对农作物生长及吸收Sb的影响,采用盆栽试验研究了在不同Sb添加量[即w(Sb)分别为0、500、1 000 mg/kg]下,接种AM真菌对玉米植株生物量以及N、P和Sb的吸收、膜脂过氧化[MDA(丙二醛)]和抗氧化酶活性的影响.结果表明:随着土壤中Sb添加量的增加,玉米植株的生物量、w(TN)和w(TP)均呈显著下降趋势,植株体内的w(Sb)和Sb积累量、MDA含量、CAT(过氧化氢酶)以及POD(过氧化酶)活性均显著上升.与未接种组相比,接种AM真菌显著促进了玉米植株的生长,提高了玉米植株地上部分的w(TN)和w(TP).在3个Sb添加量处理下,接种显著增加了玉米植株地下部分的w(Sb)、地上和地下部分的Sb积累量以及地上部分的CAT活性,增幅分别为8.90%~23.30%、18.87%~28.37%、27.68%~78.95%及14.92%~88.52%;同时,接种降低了玉米植株中Sb的转运率、玉米植株地上部分的w(Sb)和MDA含量,在1000 mg/kg Sb添加量下差异达显著水平,三者分别降低了36.35%、22.81%和24.29%.研究显示,在Sb污染环境下,接种AM真菌能够减轻玉米植株膜脂过氧化程度,在提高玉米植株地下部分w(Sb)的同时,也会降低Sb向地上部分的转运,减轻Sb对玉米的毒害作用.      

酞酸酯类有机毒物在土壤中降解规律的研究

研究了酞酸酯ＤＥＨＰ和ＤＢＦ二种增塑剂在土壤中降解规律，结果表明：土壤中ＤＥＨＰ和ＤＢＰ的降解速率可以用一级动力学方程描述，不同类型土壤对酞酸酯的降解能力是有所差别的，ＤＢＰ在土壤中比ＤＥＨＰ容易降解，土壤灭菌后，降解能力明显降低，按种接解微生物后，土壤中ＤＥＨＰ降解速率明显加快，土壤含水量和温度影响ＤＥＨＰ和ＤＢＰ的降解速率；本试验从土壤中分离出降解ＤＥＨＰ的细菌９株和真菌１１株。     

丛枝菌根真菌及猪炭对多氯联苯污染土壤的联合修复作用

选用玉米(Zea mays L.)为供试植物,采用盆栽试验研究了接种丛枝菌根(Arbuscular mycorrhiza,AM)真菌(Funneliformis mosseae)和添加不同粒径猪炭对多氯联苯(Polychlorinated biphenyls,PCBs)污染土壤的联合修复效应及其对土壤微生物的影响.结果表明,接种AM真菌(10%接种量)及添加2.5%猪炭对土壤有效磷含量提高具有显著的协同效应,猪炭还显著提高了土壤有机碳、速效钾含量和pH值(p0.05);猪炭显著促进了菌根真菌侵染率,但对玉米根系生物量具有抑制作用.接种AM真菌的同时添加猪炭提高了细菌16S rDNA丰度,且接种AM真菌同时添加粒径0.25 mm猪炭显著促进了土壤PCBs降解率.AM真菌与猪炭改变了土壤微生物种群的相对丰度,其中,Planctomycetes与土壤三氯联苯降解显著相关(r=0.049,p0.05),而Acidobacteria与五氯联苯降解显著相关(r=0.008,p0.01).AM真菌及猪炭提高了土壤有效养分含量,促进了植物生物量和土壤PCBs降解,对PCBs污染土壤具有较好的修复潜力.     

丛枝菌根真菌对百菌清引起的旱稻(Oryza sativa L.)毒性的影响

采用盆栽实验的方法,研究了百菌清对旱稻 (Oryza sativa L.)生长和氧化胁迫的影响,以及接种丛枝菌根真菌(arbuscular mycorrhizal fungi, AMF)对百菌清污染下旱稻生长的影响和对旱稻氧化胁迫的影响.结果表明,百菌清处理对旱稻的生长有明显的抑制作用,施加百菌清后可以使旱稻地上部的生物量由2.5 g·pot^-1下降到1.0 g·pot^-1以下;地下部分的生物量在施加百菌清处理后由0.9 g·pot^-1下降到0.3 g·pot^-1以下.百菌清处理下接种AMF能显著提高旱稻生物量,接种菌根真菌能使50 mg·kg^-1百菌清处理下旱稻的生物量增加1倍以上.百菌清处理能显著降低旱稻对磷(P)营养元素的吸收,在50 mg·kg^-1百菌清处理下旱稻地上部分P的吸收量由3 200 μg·pot^-1下降到860 μg·pot^-1,接种AMF能使旱稻地上部P的吸收量增加到1 900 μg·pot^-1.百菌清处理还可以引起旱稻体内的氧化胁迫,改变旱稻体内抗氧化酶系统的活性,而接种菌根真菌能降低百菌清对旱稻产生的氧化胁迫,从而减轻百菌清污染对旱稻的毒性作用.总之,百菌清土壤污染能够引起旱稻体内的氧化胁迫、降低旱稻P的吸收量而影响植物生长,接种菌根真菌能显著改善旱稻的生长和降低百菌清对旱稻的影响.     

Effect of arsenic contaminated irrigation water on Lens culinaris L. and toxicity assessment using lux marked biosensor

Contamination of irrigation water represents a major constraint to Bangladesh agriculture, resulting in elevated levels in the terrestrial systems. Lux bacterial biosensor technology has previously been used to measure the toxicity of metals in various environmental matrices. While arbuscular mycorrhizal fungi have their most significant effect on phosphorus uptake, but showed alleviated metal toxicity to the host plant. The study examined the effects of arsenic and inoculation with an arbuscular mycorrhizal fungus, Glomus mosseae, on lentil (Lens culinaris L. cv. Titore). Plants were grown with and without arbuscular mycorrhizal inoculum for 9 weeks in a sand and terra-green mixture (50:50, V/V) and watered with five levels of arsenic (0, 1, 2, 5, 10 mg As/L arsenate). The results showed that arsenic addition above 1 mg/L significantly reduced percentage of mycorrhizal root infection. On further analysis a close relationship was established with the vegetative and reproductive properties of lentil (L. culinaris) plants compared to the percentage bioluminescence of the soil leachate. However, arbuscular mycorrhizal fungal inoculation reduced arsenic concentration in roots and shoots. Higher concentrations of arsenic (5, 10 mg As/L arsenate) reduced the mycorrhizal efficiency to increase phosphorus content and nitrogen fixation. Therefore, this study showed that increased concentration of arsenic in irrigation water had direct implications to the lentil (L. culinaris) plants overall performance. Moreover the use of bioassay demonstrated that mycorrhiza and clay particle reduced arsenic bioavailability in soil.     

接种菌根真菌对湿生植物根际土壤硝化反硝化活性的影响及其微生物机制

为探究接种菌根真菌对湿生植物根际土壤硝化-反硝化作用的影响,以湿生植物旱伞草和石菖蒲为材料,接种筛选自本地植物根系及根际土壤的菌根真菌混合菌种MF-MD为试验组,并设置未接种植物作为对照组.在水体氮素富营养化条件下种植3个月,然后测定植物根际土壤硝化反硝化活性.结果表明,接种MF-MD能促进两种植物根际土壤硝化反应,同时接种MF-MD促进了旱伞草根际土壤反硝化作用但是抑制了石菖蒲根际土壤反硝化作用.从接种后植物根际土壤微生物量,硝化细菌与反硝化细菌群落结构变化等角度分析了引起土壤硝化-反硝化反应发生变化的原因.发现接种处理的试验组湿生植物根际土壤微生物量(soil microbial biomass,SMB)高于对照组但差异不显著,且与对照组相比,试验组与土壤硝化反硝化作用相关的微生物群落结构发生变化.此试验对于研究菌根真菌结合湿生植物去除富营养化水体中的N元素具有积极意义.     

丛枝菌根真菌在矿区生态环境修复中应用及其作用效果

针对煤矿区生态环境修复中存在的主要问题,研究丛枝菌根真菌与紫穗槐共生状况,丛枝菌根真菌对紫穗槐根系发育的影响及其对煤炭开采塌陷区退化土壤的改良效应.结果表明,接种菌根5个月后,接种丛枝菌根促进紫穗槐地上部分和根系生长,提高了紫穗槐根系侵染率;接种区紫穗槐根际土壤中球囊霉素、易提取球囊霉素含量显著增加;接种菌根提高了紫穗槐根际土壤有效磷和有机质含量,微生物数量明显提高,取得较好的菌根生态效应.接种菌根有利于对矿区根际土壤的改良,促进了矿区生态系统稳定,对维持矿区生态系统的持续性具有重要意义.     

不同磷水平下丛枝菌根真菌对纳米氧化锌生物效应的影响

纳米ZnO颗粒是应用最为广泛金属型纳米颗粒(nanoparticles,NPs)之一,对作物和土壤微生物的影响值得关注.丛枝菌根(arbuscular mycorrhizal,AM)是自然界中普遍存在的植物-真菌共生体,对各种环境胁迫具有一定的抵御能力,但菌根效应受土壤和植物磷含量的影响.分别设置0、20、50、100 mg·kg~(-1)这4个磷水平,在接种或不接种AM真菌Funneliformis mosseae、添加或不添加纳米ZnO(500 mg·kg~(-1))条件下在温室中利用玉米进行土壤盆栽试验.结果表明,纳米ZnO没有显著影响玉米生长,但不利于菌根侵染和磷素吸收,并引起锌在植物体内的积累.纳米ZnO和高磷降低玉米菌根侵染,但AM真菌在所有磷水平下均显著促进植物生长.施磷和接菌均可使土壤p H升高、降低纳米ZnO源锌的生物有效性,从而降低锌向玉米地上部分的转运和积累,体现出一定保护作用.接菌在多数情况下显示出积极的菌根效应,尤其在低磷、添加纳米ZnO条件下更为显著.结果首次表明,AM真菌、磷肥均有助于减轻纳米ZnO引起的土壤污染及其所产生的生态和健康风险.     

Effects of arbuscular mycorrhizal fungi inoculation on arsenic accumulation by tobacco (Nicotiana tabacum L.)

A pot experiment was conducted to study the e ects of arbuscular mycorrhizal (AM) fungi (from contaminated or uncontaminated soils) on arsenic (As) uptake of tobacco (Nicotiana tabacum L.) in As-contaminated soil. Mycorrhizal colonization rate, dry weight, As and P uptake by plants, concentrations of water-extractable As and As fractions were determined. A low mycorrhizal colonization rate (< 25%) was detected. Our research indicated that AM fungi isolated from polluted soils were no more e ective than those from unpolluted soils when grown in symbiosis with tobacco. No significant di erences were observed in roots and stalks dry weights among all treatments. Leaves and total plant dry weights were much higher in Glomus versiforme treatment than that in control treatment. As contents in roots and stalks from mycorrhizal treatments were much lower than that from control treatment. Total plant As content exhibited the same trend. P concentrations in tobacco were not a ected by colonization, nor were stalks, leaves and total plant P contents. Roots P contents were remarkably lower in HN treatments than in other treatments. Meanwhile, decreased soil pH and lower water-extractable As concentrations and higher levels of As fraction bound to well-crystallized hydrous oxides of Fe and Al were found in mycorrhizal treatments than in controls. The protective e ect of mycorrhiza against plant As uptake may be associated with changes in As solubility mediated by changing soil pH. These results indicated that under As stress, proper mechanisms employed by AM fungi can protect tobacco against As uptake. Results confirmed that AM fungi can play an important role in food quality and safety.     

Influences of excessive Cu on photosynthesis and growth in ectomycorrhizal Pinus sylvestris seedlings

Growth and photosynthesis responses were measured for Scots pine( Pinus sylvestris L. cv. ) inoculated with ectomycorrhizal fungi ( Suillus bovinus ) under 6.5 and 25 mg/L Cu treatments to evaluate ectomycorrhizal seedlings‘ tolerance to heavy metal stress. Results showed that excessive Cu can significantly impair the growth and photosynthesis of pine seedlings, but such impairment is much smaller to the ectomycorrhizal seedlings. Under 25mg/L Cu treatment, the dry weight of ectomycorrhizal seedlings is 25% lower than the control in contrary to 53% of the non-mycorrhizal seedlings, and the fresh weight of ectomycorrhizal roots was significantly higher than those of non-mycorrhizal roots, about 25% and 42% higher at 6.5 and 25 mg/L Cu treatments respectively. Furthermore,ectomycorrhizal fungi induced remarkable difference in the growth rate and pigment content of seedlings under excessive Cu stress. At 2.5 mg/L Cu, the contents of total chlorophyll, chlorophyll-a and chlorophyll-b were 30% higher in ectomycorrhizal plants than those in non-mycorrhizal plants. O2 evolution and electron transport of PSI and PSII were restrained by elevated Cu stress. However, no significant improvement was observed in reducing the physiological restraining in ectomycorrhizal seedlings over the non-mycorrhizal ones.     

矿区废弃地生态修复中丛枝菌根真菌接种效应

利用粉煤灰、煤矸石和污泥3种配比的复合基质作为试种土壤,接种丛枝菌根真菌（AMF）进行盆栽实验,通过考察接种AMF对复合基质中植物出苗率、根冠比以及植物对总氮、速效磷和速效钾吸收的影响,研究矿区生态修复过程中AMF对的接种效应。结果表明,接种AMF,明显促进矿区复合基质中植物的生长,有效增加了宿主植物对营养元素的吸收,增加了矿区复合基质的有机质含量,加速矿区复合基质的熟化