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、200 mg/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200 mg/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。     

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、200 mg/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200 mg/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.     

兰科菌根真菌对干旱胁迫下铁皮石斛生长和抗氧化能力及相关基因表达的影响

利用盆栽的方式研究了干旱胁迫下接种兰科菌根真菌(OM)对铁皮石斛生长的影响,并分析了铁皮石斛叶片相对含水量、游离脯氨酸含量、电解质渗透率、丙二醛(MDA)含量、活性氧成分、抗氧化酶活性变化,用定量PCR技术分析了相关抗氧化酶基因的表达特性,以探讨菌根真菌对铁皮石斛干旱胁迫的缓解作用及其机制。结果表明：(1)与正常水分条件相比,干旱胁迫显著降低了铁皮石斛幼苗的生物量和叶片相对含水量,提高了叶片电解质渗透率、脯氨酸含量、MDA含量、O-·2产生速率和H2O2水平。(2)菌根真菌能显著提高干旱胁迫下铁皮石斛叶片相对含水量,降低叶片电解质渗透率、脯氨酸含量、MDA含量、O-·2产生速率和H2O2水平;在不同水分条件下,菌根真菌均能有效促进铁皮石斛幼苗生长,其株高、根重、茎叶重和总生物量均大于未接种组。(3)菌根真菌可诱导干旱胁迫下铁皮石斛超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)基因的表达,提高SOD、POD和CAT的活性,有效缓解干旱胁迫对质膜的过氧化伤害。研究认为,菌根真菌能提高干旱胁迫下铁皮石斛的抗氧化酶活性及其相关基因表达水平,增强铁皮石斛抗氧化防御能力,有效缓解干旱胁迫对铁皮石斛幼苗生长的抑制。     

连续三年夜间增温和施氮对云杉外生菌根及菌根真菌多样性的影响

以西南亚高山针叶林建群种粗枝云杉(Picea asperata)为研究对象,采用红外加热模拟增温结合外施氮肥(NH₄NO₃ 25 g N m^-2 a^-1)的方法,研究连续3a夜间增温和施肥对云杉幼苗外生菌根侵染率、土壤外生菌根真菌生物量及其群落多样性的影响。结果表明:夜间增温对云杉外生菌根侵染率的影响具有季节性及根级差异。夜间增温对春季(2011年5月)云杉1级根,夏季(2011年7月)和秋季(2010年10月)云杉2级根侵染率影响显著。除2011年7月1级根外,施氮对云杉1、2级根侵染率无显著影响。夜间增温对土壤中外生菌根真菌的生物量和群落多样性无显著影响,施氮及增温与施氮联合处理使土壤中外生菌根真菌生物量显著降低,但却提高了外生菌根真菌群落的多样性。这说明云杉幼苗外生菌根侵染率对温度较敏感,土壤外生菌根真菌生物量及其群落多样性对施氮较敏感。这为进一步研究该区域亚高山针叶林地下过程对全球气候变化的响应机制提供了科学依据。     

丛枝菌根真菌和施加不同形态氮肥对杉木幼苗养分吸收的影响

为了解丛枝菌根真菌(AMF)和不同形态氮对杉木(Cunninghamia lanceolata)生长和养分吸收的影响,以1 a生杉木幼苗接种摩西球囊霉(Glomus mosseae)和添加不同形态氮(NH₄⁺-N和NO₃^–-N),对其养分元素和生长状况的变化进行研究。结果表明,AMF显著提高了杉木的苗高和生物量,促进了杉木对N、P、K、Ca、Mg、Fe和Na的吸收,AMF对微量元素Fe、Na的促进作用总体上要强于大量元素K、Ca。与NO₃^–-N相比,AMF显著提高了NH₄⁺-N处理杉木的生物量、总C和N、Ca、Mg、Mn含量,而且这种显著性在叶中普遍高于根和茎。接种AMF可以促进杉木幼苗的生长和对养分元素的吸收,且添加NH₄⁺-N处理的促进作用要强于NO₃^–-N。     

丛枝菌根真菌对百喜草的生理特性的影响

采用盆栽法研究了丛枝菌根（AM）真菌摩西球囊霉（Glomus mosseae）对水分胁迫条件下百喜草（Paspalum notatum）生长、渗透调节及抗氧化酶的影响。结果表明：接种AM真菌显著提高了百喜草的株高、地上部与根部鲜重、地上部P、K、Mn及根部P、Ca、Mn含量,明显降低了地上部Zn及根部Fe、B、Cu水平;随着干旱程度的加深,接种株的地上部相对含水量及叶绿素含量相对稳定且均显著高于未接种株,接种株地上部相对电导率、MDA含量均显著低于未接种株,接种株的地上部POD活性与脯氨酸含量均显著增加且均显著高于未接种株,AM侵染对SOD活性的影响较小。可见,接种AM真菌Glomusmossecte提高了植株体内保护酶活性（如POD）及渗透调节能力（如脯氨酸、P、K、Ca等渗透调节物含量的增加）,从而显著增强了百喜草的抗旱性。     

丛枝菌根真菌对百喜草的生理特性的影响

采用盆栽法研究了丛枝菌根（AM）真菌摩西球囊霉（Glomus mosseae）对水分胁迫条件下百喜草（Paspalum notatum）生长、渗透调节及抗氧化酶的影响。结果表明：接种AM真菌显著提高了百喜草的株高、地上部与根部鲜重、地上部P、K、Mn及根部P、Ca、Mn含量,明显降低了地上部Zn及根部Fe、B、Cu水平;随着干旱程度的加深,接种株的地上部相对含水量及叶绿素含量相对稳定且均显著高于未接种株,接种株地上部相对电导率、MDA含量均显著低于未接种株,接种株的地上部POD活性与脯氨酸含量均显著增加且均显著高于未接种株,AM侵染对SOD活性的影响较小。可见,接种AM真菌Glomus mosseae提高了植株体内保护酶活性（如POD）及渗透调节能力（如脯氨酸、P、K、Ca等渗透调节物含量的增加）,从而显著增强了百喜草的抗旱性。     

葡萄糖、根浸出液对丛枝菌根真菌吸收不同外源氮产生精氨酸的影响

以大葱(Allium fistulosum)为宿主植物, 接种丛枝菌根(Arbuscular mycorrhizal, AM)真菌Glomus intraradices, 采用三室隔离盆栽培养系统, 在菌丝室施加浓度为4 mmol/L的不同形态外源氮、1%葡萄糖及根浸出液, 通过测定根外菌丝(Extraradical mycelium, ERM)和菌根中精氨酸的含量, 探究葡萄糖、根浸出液对AM真菌吸收不同形式外源氮产生精氨酸的影响。结果表明, 不同外源氮对ERM中精氨酸含量的影响为尿素>Gln>NH₄NO₃>Arg/Gly>NH₄Cl>KNO₃, 对菌根中精氨酸含量的影响为Arg>Gln>尿素>NH₄NO₃>Gly>NH₄Cl>KNO₃; 施加葡萄糖和根浸出液在不同程度上提高ERM干重和菌丝室孢子数量, 但使ERM和菌根中的精氨酸含量降低。说明AM真菌吸收同化不同外源氮产生精氨酸的能力不同, 葡萄糖和根浸出液降低AM真菌吸收同化外源氮产精氨酸的能力。     

不同水肥条件下AM真菌对丹参幼苗生长和营养成分的影响

利用盆栽接种试验,探讨不同水肥条件下AM真菌摩西球囊霉Glomus mosseae对丹参幼苗生长和微量元素的影响,为丹参水肥合理施用提供理论依据。结果表明,不同水肥条件下,接种AM真菌显著提高了根系侵染率和生物量。40%相对含水量、不同施P水平,接种株丹参酮含量升高,总黄酮、丹参素及地下部总酚酸含量降低,植株Zn及地上部Ca、K、Mn、Fe含量升高,而对植株Mg、Cu和地下部Ca、K、Mn、Fe无显著影响;接种效应随施P量不同而变化。70%相对含水量、不同施P水平,接种株药用成分含量显著升高,植株Ca、Mn和地上部K、Cu及地下部Fe和Zn含量升高,而对植株Mg、地下部K、Cu和地上部Fe和Zn含量无显著影响。不同水分和同一施P水平,接种株丹参酮含量升高,地上部Ca、K和地下部Zn含量升高,接种效应因土壤含水量不同而变化,其中以70%含水量时效果最好。说明AM真菌能促进宿主植物根系对水分和矿质元素的吸收与利用,提高水分和P肥利用率,降低水分和P胁迫对丹参的伤害程度,其中以70%相对含水量,施P量为0.16 gP/kg土时AM真菌对丹参的接种效果最佳。     

凋落物和根系输入对南亚热带季风常绿阔叶林土壤养分的影响

植被凋落物和根系输入在调节森林土壤元素生物地球化学循环中扮演着关键作用。目前仍然不清楚凋落物和根系输入对热带原始林土壤主要元素含量的调控作用。针对该研究现状,以中国南亚热带季风常绿阔叶林为研究对象,通过开展凋落物与根系输入改变的控制试验（6个处理,每处理4次重复：对照、凋落物加倍、凋落物去除、断根、断根+凋落物加倍、断根+去除凋落物）,探讨了凋落物和断根处理对土壤可溶性离子、土壤酸中和能力（ANC）和阳离子交换量（CEC）的短期影响。凋落物与根系处理半年后的结果显示：（1）凋落物去除与加倍处理都显著增加了0-40 cm土壤NO₃^-含量,并且凋落物去除效应大于添加效应;去除凋落物增加了表层土壤（0-20 cm） Ca²⁺、Mg²⁺、Na⁺的含量。（2）断根处理显著增加0-40 cm土壤NO₃^-和表层土壤Ca²⁺、Mg²⁺含量。（3）断根和去除凋落物交互处理显著增加了0-40 cm土壤NO₃^-和表层土壤Ca²⁺、Mg²⁺、K⁺含量,产生了叠加效应。（4）凋落物和断根处理并没有改变土壤pH,但降低了土壤酸中和能力（除凋落物加倍外）,其降低的原因主要与阳离子交换量的降低和NO₃^-含量的增加有关。这些结果表明,土壤养分离子的可利用性（尤其是NO₃^-和Ca²⁺、Mg²⁺）和酸缓冲能力对凋落物和根系输入改变响应敏感,森林植物及其凋落物对土壤养分保留和缓冲性能具有重要调节作用。在人为干扰和气候变化加剧背景下,该研究可为森林生态系统可持续管理提供重要的理论参考。此外,植被凋落物和根系输入改变引起的长期生态学效应仍值得进一步关注。     

五种丛枝菌根真菌对枳实生苗耐锌污染的影响

通过盆栽实验研究丛枝菌根(AM)真菌Glomus versiforme(G.v)、G.mosseae(G.m)、G.intraradices(G.i)、G.aggregatum(G.a)和G.etunicatum(G.e)在锌污染条件下枳实生苗的菌根侵染、生长、叶片和根系锌、磷含量及部分生理指标的影响.结果表明:锌污染...     

Mycorrhization alleviates benzo[a]pyrene-induced oxidative stress in an in vitro chicory root model

Among chemicals that are widely spread both in terrestrial and aquatic ecosystems, benzo[a]pyrene is a major source of concern. However, little is known about its adverse effects on plants, as well as about the role of mycorrhization in protection of plant grown in benzo[a]pyrene-polluted conditions. Hence, to contribute to a better understanding of the adverse effects of polycyclic aromatic hydrocarbons on the partners of mycorrhizal symbiotic association, benzo[a]pyrene-induced oxidative stress was studied in transformed Cichorium intybus roots grown in vitro and colonized or not by Glomus intraradices. The arbuscular mycorrhizal fungus development (colonization, extraradical hyphae length, and spore formation) was significantly reduced in response to increasing concentrations of benzo[a]pyrene (35–280 μM). The higher length of arbuscular mycorrhizal roots, compared to non-arbuscular mycorrhizal roots following benzo[a]pyrene exposure, pointed out a lower toxicity of benzo[a]pyrene in arbuscular mycorrhizal roots, thereby suggesting protection of the roots by mycorrhization. Accordingly, in benzo[a]pyrene-exposed arbuscular mycorrhizal roots, statistically significant decreases were observed in malondialdehyde concentration and 8-hydroxy-2′-desoxyguanosine formation. The higher superoxide dismutase activity detected in mycorrhizal chicory roots could explain the benzo[a]pyrene tolerance of the colonized roots. Taken together, these results support an essential role of mycorrhizal fungi in protecting plants submitted to polycyclic aromatic hydrocarbon, notably by reducing polycyclic aromatic hydrocarbon-induced oxidative stress damage.     

The mobilisation and fate of soil and rock phosphate in the rhizosphere of ectomycorrhizal Pinus radiata seedlings in an Allophanic soil

A pot experiment was conducted to investigate the uptake of Zn from experimentally contaminated calcareous soil of low nutrient status by maize inoculated with the arbuscular mycorrhizal (AM) fungus Glomus caledonium. EDTA was applied to the soil to mobilize Zn and thus maximize plant Zn uptake. The highest plant dry matter (DM) yields were obtained with a moderate Zn addition level of 300 mg kg^?1. Plant growth was enhanced by mycorrhizal colonization when no Zn was added and under the highest Zn addition level of 600 mg kg^?1, while application of EDTA to the soil generally inhibited plant growth. EDTA application also increased plant Zn concentration, and Zn accumulation in the roots increased with increasing EDTA addition level. The effects of inoculation with G. caledonium on plant Zn uptake varied with Zn addition level. When no Zn was added, Zn translocation from roots to shoots was enhanced by mycorrhizal colonization. In contrast, when Zn was added to the soil, mycorrhizal colonization resulted in lower shoot Zn concentrations in mycorrhizal plants. The P nutrition of the maize was greatly affected by AM inoculation, with mycorrhizal plants showing higher P concentrations and P uptake. The results indicate that application of EDTA mobilized soil Zn, leading to increased Zn accumulation by the roots and subsequent plant toxicity and growth inhibition. Mycorrhizal colonization alleviated both Zn deficiency and Zn contamination, and also increased host plant growth by influencing mineral nutrition. However, neither EDTA application nor arbuscular mycorrhiza stimulated Zn translocation from roots to shoots or metal phytoextraction under the experimental conditions. The results are discussed in relation to the environmental risk associated with chelate-enhanced phytoextraction and the potential role of arbuscular mycorrhiza in soil remediation.     

不同pH值下丛枝菌根真菌对枳生长及铁吸收的影响

摘要：【目的】本文对营养液不同pH值下丛枝菌根(arbuscular mycorrhiza)真菌地表球囊霉（Glomus versiforme）对枳[Poncirus trifoliata]实生苗生长及植株铁营养状况的影响进行了初步研究。【方法】采用盆栽砂培试验,分别施浇pH 5.0、6.0、7.0和8.0的霍格兰营养液（含50 μM Fe-EDTA）;常规方法测定植株生长指标;曲利苯蓝染色法测定菌根侵染率;分光光度法测定叶绿素含量和根系三价铁螯合物还原酶活性;原子吸收分光光度法测定叶片钾和活性铁含量;钒     

水分胁迫下AM真菌对枳实生苗叶片矿质营养吸收的影响

在温室盆栽条件下研究丛枝菌根真菌(AM真菌)Glomus versiforme对水分胁迫下(正常水分为对照)的枳[Poncirus trifoliata (L.) Raf.]实生苗叶片矿质营养吸收的影响.研究表明,水分胁迫显著抑制AM真菌对枳实生苗根系的侵染.无论在正常水分还是在水分胁迫下,AM真菌的感染显著提高枳实生苗叶片P、K和Ca的含量,水分胁迫下的菌根贡献率均高于对照;AM真菌的接种对叶片N、Mg和Cu含量没有显著影响.与未接种处理相比,AM真菌处理仅对水分胁迫下的枳实生苗叶片Fe和Zn含量有显著促进作用.研究还表明,接种处理降低叶片Mn含量,正常水分下达到显著水平.     

缺铁和过量重碳酸盐胁迫下丛枝菌根真菌对枳活性氧代谢的影响

采用盆栽沙培试验,研究了缺铁处理及重碳酸盐胁迫下丛枝菌根真菌地表球囊霉对枳实生苗抗活性氧系统的影响。试验结果表明,在缺铁以及重碳酸盐胁迫处理下,丛枝菌根真菌显著提高了枳叶片和根系中可溶性蛋白含量、超氧化物岐化酶活性、过氧化物酶活性和过氧化氢酶活性,明显增强了叶片类胡萝卜素含量,显著降低了枳叶片和根系中的丙二醛含量,增强了枳自身防御能力,减少了胁迫对枳细胞膜的伤害。     

Arbuscular mycorrhizal protein mRNA over-expression in bread wheat seedlings by Trichoderma harzianum Raifi (KRL-AG2) elicitation

Association between arbuscular mycorrhizal fungi (AMF) and majority of terrestrial plant species provides many benefits to plants that range from stress alleviation and bioremediation in soils polluted with heavy metals to plant growth promotion and yield quantity. Some non-arbuscular mycorrhizal fungi such as, Trichoderma harzianum, are known to enhance the AMF symbiosis with vascular plants. However, information about their role in AMF symbiosis is still limited. Shoots of (Avocet S) wheat seedlings were sprayed with the fungal culture filtrate and gene expression patterns were analyzed in the treated tissues. An increase in the level of mRNA of arbuscular mycorrhizal protein comparing with control was found. The over-expression of this protein in wheat tissues might contribute in initiation of AMF colonization in wheat tissues. The result of this study can spark future researches to elucidate possible role of this protein in the symbiotic interaction mechanisms between soil AMF and various plant roots.     

AM真菌种间差异对枳壳生长及耐热性效应的研究※

用地表球囊霉、莫西球囊霉、珠状巨孢球囊霉及其混合菌剂接种无菌根枳壳幼苗进行盆栽试验,25℃培养4个月,观察对枳壳菌根形成和营养生长的影响,在40℃高温胁迫30d,调查分析菌根枳壳的耐热性。试验结果表明:接种AM真菌的根系形成了20%～80%的菌根侵染率;菌根枳壳的苗高、苗质量、节间长、茎基粗、须根数量和须根长度等营养生长显著增加;叶片中的SOD,POD活性和根系活力显著增强,可溶性蛋白、可溶性糖含量显著升高,叶片中的MDA含量降低,膜透性显著变小,枳壳苗的耐热性显著提高;但是,AM真菌在促进枳壳苗菌根化、营养生长和提高耐热性方面存在着种间差异,地表球囊霉、莫西球囊霉、珠状巨孢球囊霉、混合菌剂与枳壳根系形成丛枝菌根的侵染率依次为20.4%±1.2%、61.8%±3.4%、85.7%±2.7%、83.3%±2.2%,促进枳壳苗营养生长提高枳壳苗耐热能力的AM真菌依次为:地表球囊霉<莫西球囊霉<珠状巨孢球囊霉<混合菌剂,认为珠状巨孢球囊霉和莫西球囊霉是枳壳耐高温胁迫菌根化育苗的重要优良菌种。     

拉杰沙希大学校园药用植物菌根研究

Forty different medicinal plants were investigated for arbuscular mycorrhizal association in the Rajshahi University Campus in Bangladesh. The results indicated that 35 different plants were infected by AM (arbuscular mycorrhizal) fungi as found by trypan blue staining procedure. The percentage of root colonization by AM fungi varied from 13.3% to 100%. Mangifera indica and Morus indica have maximum percentage of colonization (100%). The intensity of root colonization were abundant in the plants belonging to the families Anacardiaceae, Asclepiadaceae, Moraceae, Leguminosae and Apocynaceae whereas the intensity of colonization of crop roots were moderate and poor belonging to Gramineae and Leguminosae. The presence of greater number of spore in soil was always associated with the incidence of abundant mycelia. In plant roots the formation of spore and mycelia was restricted by low pH. Number of mycorrhizal fungus spores ranged between 35 to100 per 100g air dried soil in different family respective soils. The frequency of mycorrhizal fungus infection showed positive correlation with soil pH, moisture, water holding capacity, texture, total nitrogen, organic carbon, phosphorus, calcium, potassium, and magnesium. Especially phosphorus and nitrogen in the soil greatly influenced the plant root infection by AM fungi.     

丛枝菌根真菌对枳根围不同形态铁的影响

摘要：【目的】本文研究了丛枝菌根（arbuscular mycorrhiza）真菌地表球囊霉（Glomus versiforme）对枳（Poncirus trifoliata L. Raf）实生苗土壤中有效铁及各形态铁的影响。【方法】试验采用根袋技术,以主根为中心,通过32 μm尼龙网（菌丝可以穿过尼龙网,而根系则被限制）将土壤分为0-2 cm、2-4 cm和4-8 cm三类水平土层。【结果】接种丛枝菌根真菌的土壤有效铁含量表现为：0-2 cm > 2-4 cm > 4-8 cm;接种丛枝菌根真菌降低了土