不同土壤类型下甘蔗根系AM真菌多样性及与土壤因子关系

甘蔗是广西重要的糖料作物,本研究通过建立克隆文库、土壤养分分析和根样染色等方法测定了33个采样点3种土壤类型(赤红壤,红壤,砖红壤)下甘蔗根系AM真菌多样性及其与土壤因子的关系。结果表明,3种土壤类型的甘蔗根系共鉴定出6科6属11种AM真菌,AM真菌各属频度存在明显差异,其中球囊霉属的频度值最高,在33个根系样品中有32个存在该属,为广西甘蔗根系AM真菌的优势属,而类球囊霉属、无梗囊霉属、近明球囊霉属、多样孢囊霉属和盾巨孢囊霉属5个属为稀有属。3种土壤类型的甘蔗根系均发现有球囊霉属和盾巨孢囊霉属;近明球囊霉属、无梗囊霉属和类球囊霉属仅在赤红壤的甘蔗根系中出现;而多样孢囊霉属仅在在赤红壤和砖红壤的甘蔗根系中出现。土壤的pH与AM菌根侵染率呈显著正相关,而有机质、总N、有效P、交换性Mg2+与AM菌根侵染率均呈负相关。本研究表明,自然条件下甘蔗根系具有相对丰富的AM真菌类群,这些AM真菌可能在甘蔗生长过程中发挥着重要的生态功能。     

核糖体rDNA序列分析在丛枝菌根真菌研究中的应用

丛枝菌根真菌(AMF)是一类古老、专性活体营养的共生菌物, 尚未获得纯培养, 在一定程度上限制了人们对AMF的深入研究。以DNA分析技术为基础的分子生物学技术增加了AMF检测的敏感性与特异性, rDNA序列的同源性和变化性可更真实地反映物种之间的亲缘关系及进化地位, 因而被广泛应用于AMF分类、鉴定、遗传、生态及物种多样性等研究中。本文简要综述了rDNA序列分析技术在AMF系统发育、分子检测及群落结构特征研究中的应用现状。     

生物因子对AM真菌多样性的影响

丛枝菌根真菌(Arbuscular Mycorrhizas,AM）真菌分布于自然界各生态系统中,生态因子对AM真菌多样性个有举足轻重的影响,其中动物,植物,微生物,人为因素等生物因子的作用,亦日益受到人们的关注,通过介绍该领域最近10年来的研究成果,探讨和分析当前研究中所存在的问题和动向。     

长期定位施肥土壤中的丛枝菌根真菌

从连续26年长期定位施肥土壤中的玉米和小麦根围采集土样,从中鉴定出丛枝茵根(Arbuscular Myc- orrguza,AM)真菌5属19种,包括Glomus属11种:G．caledonium,G．constrictum,G．eburneum,G．ebunicatum, G．hyderabadensis,G．mossese,G．sinuosum,G．tortuosum,G．versiforme,G．sp1,G．sp2;Acaulospora属2种: A．excacota,A．sp;Gigaspora属2种:Gi．margarita,Gi．sp;Scutellospora属3种:S．cerradensis,S．coralloidea, S．pellucida;Archaespora属1种:Ar．leptoticha。     

丛枝菌根真菌诱导植物信号物质研究进展

丛枝菌根(AM)真菌侵染植物根系形成菌根共生体过程中能诱导植物合成多种信号物质,如水杨酸(SA)、茉莉酸(JA)、类黄酮、一氧化氮(NO)和过氧化氢(H2O2)等。这些信号分子的传导途径和作用机制备受关注。本文从AM真菌诱导植物信号物质的种类和数量入手,探讨这些信号分子在植物体内的传导途径、生理效应和可能的作用机制,旨在为研究AM真菌与植物之间的共生关系、功能与进化等提供依据。     

丛枝菌根(AM)对根瘤菌趋化作用研究

对紫穗槐非接种(AM-+Rh-)、单接种根瘤菌(Rh+)、单接种AM真菌(AM+)和双接种(AM++Rh+)处理, 研究AM真菌、根瘤菌对宿主植物紫穗槐侵染情况, 并采用经过改良的根部微生物趋化试验手段研究AM真菌侵染根系后分泌物对根瘤菌的趋化性。实验结果表明：在接种AM++ Rh+情况下, 使宿主先于AM+、Rh+处理形成根瘤, 且双接种能够显著提高菌根侵染率; 在共生体形成期间, AM真菌与根瘤菌之间存在着识别互动反应和一定的信号物质, 接种AM真菌对根瘤菌有正趋化作用; 同时, 外界温度对AM真菌-宿主植物---根瘤菌三者共生体初始信号识别也起到一定的调控作用。     

Species Diversity of Arbuscular Mycorrhizal Fungi in the Rhizosphere of <i>Hevea brasiliensis</i> in Hainan Island,China

Hevea brasiliensis is one of the important economic trees with a great economic value for natural rubber production. Symbiosis between roots of H. brasiliensis and arbuscular mycorrhizal fungi (AMF) is widely recognized, and can provide a range of benefits for both of them. Hainan Island harbors is one of the largest plantations of H. brasiliensis in China, whereas the information regarding the diversity of AMF in the rhizosphere of H. brasiliensis on this island is scarce. The diversity of AMF species in the rhizosphere of rubber tree plantations in Hainan was investigated in this study. A total of 72 soil samples from the rhizosphere of H. brasiliensis RY7-33-97 were collected. These included 48 samples from plantations in 11 cities or counties that had been planted for 15–25 years, and 24 samples from a demonstrating plantation site of the China National Rubber Tree Germplasm Repository representing plantations with tree plantation ages from one to 40 year-old. Collectively, a total of 68 morphotypes of AMF, belonging to the genera of Archaeospora (1), Glomus (43), Acaulospora (18), Entrophospora (3), Scutellospora (2), and Gigaspora (1) were isolated and identified, as per morphological characteristics of spores presented in the collected soil samples. Glomus (Frequency, F = 100%) and Acaulospora (F = 100%) were the predominant genera, and A. mellea (F = 63.9%) and A. scrobiculata (F = 63.9%) were the predominant species. AMF species differed significantly among collected sites in spore density (SD, 290.7–2,186.7 spores per 100 g dry soil), species richness (SR, 4.3–12.3), and Shannon-Weiner index of diversity (H, 1.24–2.24). SD was negatively correlated with available phosphorus level in the soil; SR was positively correlated with soil total phosphorus content; and H was positively correlated with levels of soil organic matter and total phosphorus. Similarly, SD, SR, and H were also correlated with H. brasiliensis plantation age, and an increasing trend was observed up to 40 years. These results suggest that the AMF community was complex and ubiquitous in the island plantation ecosystems of H. brasiliensis, with high species abundance and diversity. Soil factors and plantation age dramatically affected AMF diversity at species level.     

Composition Shifts of Arbuscular Mycorrhizal Fungi between Natural Wetland and Cultivated Paddy Field

The community assembly change of arbuscular mycorrhizal fungi (AMF) during the reclamation of wetlands to paddy fields is mostly unknown. In this study, we applied the high-throughput sequencing technique to investigate the composition of the AMF community in natural wetland (common wild rice and Leersia hexandra Swartz) and paddy field (Asian cultivated rice), as well as the soil elements effective on the community of AMF. Soil properties including soil organic carbon, available nitrogen (AN), available phosphorus (AP), available potassium, and pH were also measured. Operational taxonomic units (OTUs) of nine genera in four orders (Glomerales, Diversisporales, Archaeosporales, and Paraglomerales) of AMF were detected. All detected AMF genera were found in the wild rice wetland, while about half of the detected AMF genera were absent in paddy field; however, the absolute amount of total AMF in the paddy field and wetland was not different. Among all measured soil properties, AMF community was affected significantly by soil AN and AP. Results indicate that agricultural managements affect AMF community significantly, but do not have negative effects on the absolute amount of all the AMF genera. Soil AP may be the main factor resulting in the decreased AMF genus in paddy field. In addition, AMF may have contributed to the survival and evolution of plants.     

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。     

扩繁条件对两种AMF菌剂接种势的影响

温室盆栽试验,分别以4种宿主植物和6种基质对两种AMF菌剂AM-1(Glomus intraradices)和AM-2(Glomus spp.)进行了扩繁研究。通过计算菌剂接种势,评价不同扩繁条件下获得菌剂的质量。结果表明,白三叶草和烟草可以作为两种菌剂良好的扩繁宿主,得到菌剂的接种势最高,玉米和高粱次之。当以白三叶草为宿主时,单一蛭石可以作为两种菌剂良好的扩繁基质,得到菌剂的接种势最高,珍珠岩次之,其它基质较差,基质中草炭的含量会影响菌剂扩繁效果。     

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。     

Effects of Arbuscular Mycorrhizal Fungi on Physiological Characterof Bahia Grass (Paspalum notatum,Poaceae)

The effects of arbuscular mycorrhizal (AM) fungus, Glomus mosseae, on growth, osmotic adjustment and antioxidant enzymes of bahia grass (Paspalum notatum) were studied in potted plants under water stress conditions. AM colonization significantly enhanced the plant height, root and shoot fresh weight, Phosphorus (P), potasium (K), manganese (Mn) contents in shoots, P, calcium (Ca), Mn contents in roots, whereas obviously decreased zinc (Zn) content in shoots, iron (Fe), boron (B), copper (Cu) contents in roots. During water stress, the relative water and chlorophyll contents were relatively stable and signifciantly higher in AM than in non-AM plants, AM inoculation notabley decreased the shoot relative conductivity and malondialdehyde (MDA) content, markedly increased shoot peroxidase (POD) activity and proline content, while AM infection did not affect the dismutase (SOD) activity of shoots. Our results suggested that AM colonization improved the protective enzyme activity (such as POD) and osmotic adjustment originating from proline P, K, Ca, resulting in the enhancement of drought tolerance.     

AM Fungal Diversity in Selected Medicinal Plants of Kanyakumari District,Tamil Nadu,India

The association of Arbuscular Mycorrhizal Fungi (AMF) with three medicinally important plants viz., Eclipta prostrata, Indigofera aspalathoides, I. tinctoria collected from three different localities of Kanyakumari District, South India was examined. The study reports the colonization percentage, diversity and species richness of different AM fungi in the rhizosphere of the three medicinal plants and discusses the impact of soil physicochemical characteristics such as soil texture, pH and available macro- and micro nutrient content on AM fungal communities. A total 21 AM fungal species were identified in field conditions of the three plants from three sites. AM fungal species richness, colorization percentage and Shannon index were found to be high in the two Indigofera sp. growing in the hilly areas of Kanyakumari District and were low in E. prostrata collected from the damp regions in the foothills of the three study sites. Five species registered 100% frequency in all the study sites of the three medicinally important plants with Glomus as the dominant genera. The study states that the mean colonization and diversity patterns were dependant on edaphic factors and type of vegetation.     

Arbuscular Mycorrhizal Fungi in Plant Production of Temperate Agroecosystems

Abstract

The importance of arbuscular fungi for plant development and health is now widely demonstrated. However, although it is more and more evident that they are not only an integral part of many cultivated plants but also an essential component of soil fertility, their rational use in plant production is still in its infancy. Because of their role as bioregulators, biofertilizers, and biocontrol agents, they represent potentially important tools for new orientations in agriculture, particularly in Europe, where there is increasing demand for development of new plant management techniques that are less dependent on chemical inputs. The discovery of mycmutants turned out to be an excellent tool for better understanding the ecophysiology of arbuscular mycorrhizas under field conditions and for allowing considerable progress in our knowledge on the genes controlling this symbiosis. Progress in this area, together with ongoing generation of specific nucleic acid probes for arbuscular mycorrhizal fungi, appear to be essential for promoting mycorrhizal biotechnology. Despite this, arbuscular mycorrhizal fungi can already be exploited successfully in certain areas of plant production, such as orchards and ornamental nurseries.     

丛枝菌根真菌对植物生长影响的研究

菌根是自然界中一种极为普遍和重要的共生现象,其中分布最为广泛的菌根类型就是丛枝菌根,可以增强植物从土壤中获取水分的能力,改善植物根系对磷、镉等矿质元素及养分的吸收,从而促进植物的生长。本文综述了丛枝菌根真菌对植物生长影响的概况。有关丛枝菌根真菌对植物水分和矿质营养的利用,尤其是磷素营养的研究较为深入,而对植物光合特性的研究较少,这些研究工作为深入理解菌根真菌与植物的相互关系提供基础资料。     

丛枝菌根真菌分类最新进展

近10a来,随着分子生物学技术在丛枝菌根(arbuscularmycorrhiza,AM)研究中的应用,AM真菌分类学得到迅速发展。重点介绍AM真菌的最新分类系统,并对其发展简史作一简单回顾。     

Arbuscular mycorrhizal fungi in non-grazed,restored and over-grazed grassland in the Inner Mongolia steppe

Arbuscular mycorrhizal (AM) fungal diversity was investigated in non-grazed, restored and over-grazed (fenced) plots of a grassland in the Inner Mongolia steppe. Plant cover and variety differ between the plots, being highest in the non-grazed to lowest in the over-grazed plots. A total of 19 AM fungal taxa belonging to six genera were found based on spores isolated from field samples and trap cultures. One belonged to Acaulospora, one to Archaeospora, one to Entrophospora, one to Gigaspora, 12 to Glomus and three to Scutellospora. Glomus was the dominant genus in all plots, and Glomus geosporum was the dominant species, whilst G. albidum and G. etunicatum were dominant in the restored plot. Scutellospora was the second dominant genus in the non-grazed plot with Scutellospora calospora being the dominant species. The mean spore density and mean species richness of AM fungi were significantly decreased by long-term over-grazing. The Sorenson’s similarity coefficients of AM fungal community composition ranged from 0.5 to 0.64 among the three types of plot management. The results suggest that the AM fungal diversity is greatly affected by long-term over-grazing and that fencing of degraded areas partly restores plant cover and AM fungal diversity in grassland ecosystems.     

接种丛枝菌根真菌对柑橘生长与次生代谢的影响

为了解丛枝菌根(AM)真菌对根、根系分泌物中次生代谢物和植物生长的影响,以AM真菌(Glomusepigaeum)接种柑橘(Citrusreticulata),对柑橘的酚类物质、抗氧化酶和生长情况进行研究。结果表明,温室盆栽6个月后,接种AM真菌显著提高柑橘酚酸类物质的积累,但是酚酸组分在根和根分泌物中存在差异,根中原儿茶酸和丁香酸含量为29.98和18.32μg/g,分别是未接种的4.58和2.26倍。而根系分泌物中香豆酸、苯甲酸和根皮苷含量为0.36、6.04和12.32μg/g,分别是未接种的1.71、1.94和1.25倍,而香草醛仅在未接种柑橘根中检测到。接种AM真菌的柑橘苯丙氨酸解氨酶、多酚氧化酶和过氧化物酶活性为38.36、0.51和28.62 U/(g·min),分别是未接种AM真菌的1.99、2.83和3.10倍。同时菌根定殖也显著提高柑橘的株高、茎粗和叶片数。因此,AM真菌定殖能促进植物生长,改变柑橘次生代谢产物的积累。     

丛枝菌根真菌提高植物耐盐性的作用机制

本文阐述了盐胁迫对丛枝菌根真菌(AMF)生理生态学效应的影响以及对植物的促生作用,并从营养吸收、渗透调节、抗氧化物酶、激素及基因表达等几方面综述了国内外关于AMF提高植物耐盐性生理及分子机制的研究进展,指出目前该领域研究中尚需解决的问题.