都江堰亚热带地区常见植物根围的丛枝菌根真菌*

从都江堰亚热带地区常见植物根围土壤中分离并鉴定了4属27种丛枝菌根真菌,其中无柄囊霉属Acaulospora4种,原囊霉属Archaeospora1种,内养囊霉属Entrophospora2种,球囊霉Glomus20种。其中哥伦比亚内养囊霉Entrophosporacolombiana,澳洲球囊霉Glomusaustrale,卷曲球囊霉G.convolutum,肿涨球囊霉G.gibbosum,球泡球囊霉G.globiferum,异形球囊霉G.heterosporum(A)为我国六个新记录种。     

蒙古韭共生真菌及其菌根形态学的研究

本文对生长于内蒙古中西部草原和荒漠地区的蒙古韭Alliummongolicum进行了菌根侵染状态的调查研究。发现蒙古韭的根系有丛枝菌根真菌侵染,其菌根类型为疆南星型(Arum-type)。不同地区采集的蒙古韭菌根侵染率不同,由8.76%至36.12%,侵染率与真菌种的丰富度及孢子密度关系不显著。从7个样点的蒙古韭根际土壤中,分离到丛枝菌根真菌26种:无梗囊霉属5种、球囊霉属18种、内养囊霉属和盾巨孢囊霉属各1种,并有1个未知属种。由此可见,球囊霉和无梗囊霉2个属的种出现频度占绝对优势。除了聚生球囊霉Glomusfasciculatum在沙坡头出现最多外,其它样点中Acaulosporasp.1、缩球囊霉G.constrictum、透光球囊霉G.diaphanum和卷曲球囊霉G.convolutum都有较高的出现频度。尽管不同样地蒙古韭根际土壤中丛枝菌根真菌种的丰富度及孢子密度有差异,但样地之间的优势种有相似性。     

西双版纳四种壳斗科植物丛枝菌根状况的初步研究

研究了西双版纳热带次生林中杯丝锥(Castanopsis calathiformis)、红锥(C.hys-trix)、印度锥(C.indica)和截果柯(Lithocarpus truncatus)4种壳斗科植物的丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)的侵染状况,并从这些植物的根际土壤中分离鉴定了隶属于球囊霉属(Glomus)、巨孢囊霉属(Gigaspora)、盾巨孢囊霉属(Scutellospora)和无梗囊霉属(Acaulospora)的10种丛枝菌根真菌。这4种壳斗科植物根际AMF的孢子密度为14~22个.100g-1土壤,种的丰富度在4~7,平均频度为60.00%,相对多度为4.41%~22.06%,丛枝菌根真菌的定居水平达46.26%~51.40%。     

五指山常见热带树种的丛枝菌根真菌多样性

采用野外调查的方法,分析了五指山不同海拔高度7个科10种常见热带树种形成丛枝菌根(Arbuscular Mycorrhizal,AM)的状况及其根际土壤中AM真菌的多样性。结果表明,所调查的10种热带常见树种都能形成AM共生体,其菌根侵染率随寄主植物的不同,从21.8%～90.5%变化不等,同时,在10种常见植物的根系中也都观察到了AM真菌的典型结构——丛枝和泡囊。从10种植物的根际土壤中共分离到36种AM真菌,隶属于Acaulospora,Glomus,Gigaspora和Scutellospora4个属,其中,Glomus属的真菌是该地区的优势类群,其出现频度和相对多度分别为84%和56%。在所调查的10种热带常见树种中,Swietenia macrophylla根际AM真菌的孢子最丰富,密度高达7.32;Machilus namu根际的AM真菌种类则最为丰富,多样性指数达到1.6548。通过对不同海拔高度Swietenia macrophylla根际AM真菌分布的分析表明,海拔高度显著影响着AM真菌的分布,Gigaspora属的真菌随海拔高度的增加显著升高,Scutellospora属的真菌则显著降低。     

Arbuscular mycorrhizas of plants growing in the Western Ghats region, Southern India

A survey of the arbuscular mycorrhizal (AM) status of plants growing in the Western Ghats region of Southern India was undertaken. Root and soil samples of plants growing in the four vegetation types forest, grassland, scrub, and cultivated land or plantation were examined. Of the 329 species (representing 61 families) examined, 174 were mycorrhizal. AM association was recorded in 81 species for the first time, including species from several families assumed to be non-mycorrhizal, e.g. Amaranthaceae, Capparaceae, Commelinaceae, Cyperaceae and Portulacaceae. AM fungal spores of 35 species belonging to Acaulospora, Gigaspora, Glomus, Sclerocystis and Scutellospora were recorded. AM fungal species richness was found to be highest in scrub and lowest in agricultural and plantation soils. Mean colonization levels were dependent on plant life-form, life-cycle pattern and vegetation type. Accepted: 26 October 1999     

云南金顶铅锌矿区丛枝菌根真菌多样性的研究

对云南金顶铅锌矿区丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)资源进行了调查,从32种植物的83个根际土壤样本中分离鉴定出5属36种丛枝菌根真菌,其中无梗囊霉属Acaulospora 5种、内养囊霉属Entrophospora 2种、巨孢囊霉属Gigaspora 1种、球囊霉属Glomus 24种及盾巨孢囊霉属Scutellospora 4种。球囊霉属和无梗囊霉属为金顶铅锌矿区中丛枝菌根真菌的优势属,沃克球囊霉Glomus walkeri是我国的新记录种。近明球囊霉Glomus claroideum、明球囊霉G.clarum、缩球囊霉G.constrictium、地球囊霉G.geosporum、摩西球囊霉G.mossaea、膨胀球囊霉G.pansihalos和疣突球囊霉G.verruculosum是金顶铅锌矿区的优势种;金顶铅锌矿区土壤中丛枝菌根真菌的孢子密度为495-11175个/100g土,平均3368±291(SE,标准误差)个/100g土,每种植物根际土壤中丛枝菌根真菌的物种丰富度为2-20种,平均11.5种;金顶铅锌矿区植物根际土壤中较高的AMF孢子密度和物种丰富度说明AMF对重金属污染具有较强的抗(耐受)性。     

山东省不同植被区内野生植物根围AM菌的生态分布

ＡＭ菌是土壤习居菌 ,生态适应性强 ,可发生在各种生态环境。寄主范围也十分广泛 ,除少量植物如莎草科、苋科、灯心草科、藜科、石竹科等 2 0余科植物不能或不易形成ＡＭ外 ,大多数植物包括苔藓、蕨类、裸子植物、被子植物都能被菌根菌侵染。当前人们十分重视对野生植物上ＡＭ菌的调查[3 ,4 ,1 0 ,1 1 ,1 4 ]。研究发现 ,野生植物上可能有比栽培作物更多的ＡＭ菌种类[1 ]。我国野生植物资源丰富 ,开发和利用野生寄主植物上的ＡＭ菌潜力巨大。由于ＡＭ菌对寄主植物的选择性及对环境条件的适应性不同 ,或进化过程中的历史原因 ,造成了自然生态…     

Distribution of arbuscular mycorrhizal fungi in marshy and shoreline vegetation of Deepar Beel Ramsar Site of Assam,India

Arbuscular mycorrhizal fungal (AMF) symbiosis was thought to be rare in wetland plant roots, although several recent studies suggested that this association might be important in wetland ecosystems. In this research work we have studied the distribution of AMF in the marshy and shoreline vegetation of Deepar Beel Ramsar site of Assam, India. The study reveals the percentage of mycorrhizal colonization in the roots of different plant species which were observed from 20.89 to 86.47% and particularly found larger among the members of the family Poaceae. The Vetiveria zizanioides L. from the family Cyperaceae showed the highest (86.47%) percentage of root colonization, however, only one plant species viz. Scirpus lateriflorus Gmel. from the same family was found to be nonmycorrhizal. The rhizospheric soil samples of most of the plant species were found to be dominated by Glomus morphotypes. All total 18 AMF morphotypes were recorded which comprises four genera viz. Glomus (66.67%), Acaulospora (16.66%), Gigaspora (11.11%) and Scutellospora (5.56%). The observation of diversity of AMF in 25 different plant species among the wetland plants gives a glimpse of AMF diversity and their host selectivity in the said ecosystem.     

渤海湾岛屿的丛枝菌根真菌*

从渤海湾岛屿上的天然植被根围土壤中分离到丛枝菌根真菌7属35种, 其中无柄囊霉属Acaulospora5种,原囊霉属Archaespora1种,内养囊霉属 Entrophospora 1种,球囊霉属Glomus属18种,巨孢囊霉属 Gigaspora3种, 类球囊霉属Paraglomus属1种,盾巨孢囊霉属Scutellospora6种。群生盾巨孢囊霉Scutellospora gregaria和易误巨孢囊霉Gigaspora decipiens为我国的新记录种。标本保藏于莱阳农学院菌根生物技术实验室。     

大兴安岭兴安落叶松森林不同林型AMF分布特性

为了初步了解内蒙古大兴安岭兴安落叶松森林生态系统丛枝菌根真菌(AMF)多样性状况, 调查了5种落叶松林型和火烧迹地土壤中AMF状况。从90份土样中共分离到AMF 4属53种, 其中无梗囊霉属Acaulospora 25种(47.17%), 球囊霉属Glomus 23种(43.40%), 此二属为优势属, 内养囊霉属Entrophospora 4种(7.55%), 巨孢囊霉属Gigaspora 1种(1.89%)。杜香落叶松林的优势种为浅窝无梗囊霉A. lacunosa; 草地落叶松林没有优势种, 最常见种为浅窝无梗囊霉A. lacunosa; 柴桦落叶松林的优势种为一种无梗囊霉Acaulospora sp. 3和缩球囊霉G. constrictum; 落叶松皆伐林的优势种为刺无梗囊霉A. spinosa; 落叶松渐伐林的优势种为一种球囊霉Glomus sp. 3; 火烧迹地的优势种为刺无梗囊霉A. spinosa。5种林型中以柴桦落叶松林的孢子密度(41.00个/50 g 风干土)、物种丰富度(12.66种/土样)、多样性指数(H = 2.12, D = 0.85)都为最高。孢子密度与有机质含量呈明显正相关(r = 0.956*), 物种丰富度与速效磷含量呈明显的负相关(r = -0.899*)。     

Occurrence of some Glomales in Finland

By using trap plants, 17 species of arbuscular mycorrhizal fungi (AMF) belonging to the order Glomales were identified in 266 soil samples collected in the period 1987–1989. Of the identified isolates, 87.1% belonged to the genus Glomus Tulasne & Tulasne, 8.5% to Acaulospora Gerdemann & Trappe, 4.1% to Scutellospora Walker & Sanders and 0.3% to Entrophospora. Of the individual species identified, Glomus hoi Berch & Trappe was the most frequently identified, followed by G. fistulosum Skou & Jakobsen and G. mosseae (Nicol. & Gerd.) Gerdemann & Trappe. Only small differences in AMF trapping ability were observed between the four trap plants used, Trifolium pratense L., Zea mays L., Allium cepa L. var. cepa and Fragaria x ananassa Duch. T. pratense was chosen for further study because it had the highest AMF sporulation index in trap cultures and it also performed better than the other plants when grown in soils with different physical and chemical properties. The proportion of soil samples where AMF were identified decreased from close to 100% in the southern and central parts of Finland to about 50% in northern Finland.     

西藏高原针茅草地土壤因子对丛枝菌根真菌物种多样性的影响

在对西藏高原北部针茅草地根围土壤中的丛枝菌根(AM)真菌种类分离鉴定基础上,研究了藏北针茅草地的土壤质地、pH、有机质和有效磷含量对AM真菌孢子密度、分离频度、相对多度、重要值、物种多样性指数和均匀度的影响.结果表明: 针茅草地根围土壤中共分离鉴定出AM真菌3属15种,其中,球囊霉属9种、无梗囊霉属6种、盾巨孢囊霉属1种.球囊霉属和无梗囊霉属为藏北针茅草地AM真菌的优势属;近明球囊霉和光壁无梗囊霉为藏北高寒草原针茅属植物根围AM真菌的优势种.不同质地土壤中AM真菌孢子密度、分离频度、相对多度和重要值均表现出球囊霉属＞无梗囊霉属＞盾巨孢囊霉属的趋势;土壤pH值对AM真菌种群组成无明显影响,球囊霉属和无梗囊霉属真菌分离频度、相对多度和重要值随土壤pH升高而增加,盾巨孢囊霉属则呈现相反趋势;不同土壤有机质含量范围内,AM真菌孢子密度等各项指标均呈球囊霉属＞无梗囊霉属＞盾巨孢囊霉属,而AM真菌属的分布没有明显规律;土壤有效磷含量对AM真菌种丰度和孢子密度影响较小.研究区域内AM真菌物种多样性指数和均匀度随着土壤有效磷含量升高而增加.     

金沙江干热河谷(元谋段)丛枝菌根真菌多样性研究

从金沙江干热河谷(元谋段)75种植物的根际土壤中分离鉴定了44种丛枝菌根真菌, 分属无梗囊霉属Acaulospora、古孢霉属Archaeospora、内养囊霉属Entrophospora、巨孢囊霉属Gigaspora、球囊霉属Glomus和盾巨孢囊霉属Scutellospora, 其中,球囊霉属和无梗囊霉属为金沙江干热河谷中丛枝菌根真菌的优势属。齿状无梗囊霉A. denticulata、刺状无梗囊霉A. spinosa、瘤状无梗囊A. tuberculata,近明球囊霉Glomus claroideum、明球囊霉G. clarum、根内球囊霉G. intraradices、单孢球囊霉G. monosporum、弯丝球囊霉G. sinuosa是金沙江干热河谷(元谋段)的优势种。金沙江干热河谷土壤中丛枝菌根真菌的孢子密度为5~6400个/100g土壤,平均1504;每个根际土壤中丛枝菌根真菌的物种丰富度1~18种,平均9种。     

Mycorrhiza of plants in different vegetation types in tropical ecosystems of Xishuangbanna,southwest China

We examined plants growing in four tropical vegetation types (primary forest, secondary forest, limestone forest and a slash and burn field) in Xishuangbanna, southwest China for mycorrhizal associations. Of the 103 plant species examined (belonging to 47 families), 81 had arbuscular mycorrhizal (AM) associations, while three species possessed orchid mycorrhiza. AM colonization levels ranged between 6% and 91% and spore numbers ranged between 1.36 spores and 25.71 spores per 10 g soil. Mean AM colonization level was higher in primary and secondary forest species than in plant species from limestone forests and a slash and burn field. In contrast, mean AM fungal spore numbers of the primary and limestone forest were lower than in the secondary forest or the slash and burn field. AM fungal spores belonging to Glomus and Acaulospora were the most frequent in soils of Xishuangbanna. AM fungal colonization and spore numbers were significantly correlated to each other and were significantly influenced by vegetation type.     

Effects of liming and mycorrhizal colonization on soil phosphate depletion and phosphate uptake by maize (Zea mays L.) and soybean (Glycine max L.) grown in two tropical acid soils

The effects of liming and inoculation with the arbuscular mycorrhizal fungus, Glomus intraradices Schenck and Smith on the uptake of phosphate (P) by maize (Zea mays L.) and soybean (Glycine max [L.] Merr.) and on depletion of inorganic phosphate fractions in rhizosphere soil (Al-P, Fe-P, and Ca-P) were studied in flat plastic containers using two acid soils, an Oxisol and an Ultisol, from Indonesia. The bulk soil pH was adjusted in both soils to 4.7, 5.6, and 6.4 by liming with different amounts of CaCO₃.In both soils, liming increased shoot dry weight, total root length, and mycorrhizal colonization of roots in the two plant species. Mycorrhizal inoculation significantly increased root dry weight in some cases, but much more markedly increased shoot dry weight and P concentration in shoot and roots, and also the calculated P uptake per unit root length. In the rhizosphere soil of mycorrhizal and non-mycorrhizal plants, the depletion of Al-P, Fe-P, and Ca-P depended in some cases on the soil pH. At all pH levels, the extent of P depletion in the rhizosphere soil was greater in mycorrhizal than in non-mycorrhizal plants. Despite these quantitative differences in exploitation of soil P, mycorrhizal roots used the same inorganic P sources as non-mycorrhizal roots. These results do not suggest that mycorrhizal roots have specific properties for P solubilization. Rather, the efficient P uptake from soil solution by the roots determines the effectiveness of the use of the different soil P sources. The results indicate also that both liming and mycorrhizal colonization are important for enhancing P uptake and plant growth in tropical acid soils.     

金沙江干热河谷(元谋段)丛枝菌根真菌多样性研究*

从金沙江干热河谷(元谋段)75种植物的根际土壤中分离鉴定了44种丛枝菌根真菌, 分属无梗囊霉属Acaulospora、古孢霉属Archaeospora、内养囊霉属Entrophospora、巨孢囊霉属Gigaspora、球囊霉属Glomus和盾巨孢囊霉属Scutellospora, 其中,球囊霉属和无梗囊霉属为金沙江干热河谷中丛枝菌根真菌的优势属。齿状无梗囊霉A. denticulata、刺状无梗囊霉A. spinosa、瘤状无梗囊A. tuberculata,近明球囊霉Glomus claroideum、明球囊霉G. clarum、根内球囊霉G. intraradices、单孢球囊霉G. monosporum、弯丝球囊霉G. sinuosa是金沙江干热河谷(元谋段)的优势种。金沙江干热河谷土壤中丛枝菌根真菌的孢子密度为5~6400个/100g土壤,平均1504;每个根际土壤中丛枝菌根真菌的物种丰富度1~18种,平均9种。     

Influence of edaphic and climatic factors on dynamics of root colonization and spore density of vesicular-arbuscular mycorrhizal fungi in Acacia farnesiana Willd. and A. planifrons W.et.A.

 A study was conducted to assess the dynamics of vesicular-arbuscular mycorrhizal (VAM) fungi associated with Acacia farnesiana and A. planifrons in moderately fertile alkaline soils. The intensity of root colonization by VAM fungi and the distribution of VAM fungal structures varied with host species over a period of time. The occurrence of vesicles with varied morphology in the mycorrhizal roots indicates infection by different VAM fungal species. This was further confirmed from the presence of spores belonging to different VAM fungal species in the rhizosphere soils. Root colonization and spore number ranged from 56% – 72% and 5 – 14 g^{–  1}soil in A. farnesiana and from 60% – 73% and 5 – 15 g^{–  1} soil in A. planifrons. Per cent root colonization and VAM spore number in the rhizosphere soil were inversely related to each other in both the Acacia species. However, patterns of the occurrence of VAM fungal structures were erratic. Spores of Acaulospora foveata, Gigaspora albida, Glomus fasciculatum, G. geosporum and Sclerocystis sinuosa were isolated from the rhizosphere of A. farnesiana whereas A. scrobiculata, G. pustulatum, G. fasciculatum, G. geosporum and G. microcarpum were isolated from that of A. planifrons. The response of VAM status to fluctuating edaphic factors varied with host species. In A. farnesiana though soil nitrogen (N) was positively correlated with root colonization, soil moisture, potassium and air temperature were negatively correlated to both root colonization and spore number. Per cent root colonization and spore number in A. planifrons were negatively related to each other. Further, in A. planifrons as the soil phosphorus and N were negatively correlated with the density of VAM fungal spores, the same edaphic factors along with soil moisture negatively influenced root colonization. Received: 16 May 1995 / Accepted: 7 February 1996     

Mycorrhizal status of epiphytes in Malaysian oil palm plantations

Epiphytic plants were collected from four oil palm plantations in Peninsular Malaysia and their mycorrhizal status determined. Conspecific plants with a terrestrial habit (16 species) and rhizosphere soils were also examined for mycorrhizal colonization and glomalean fungi, respectively. Twelve species of glomalean fungi were recovered from the four oil palm plantation soils. Of the 29 epiphytic species in 16 families belonging to the bryophytes, pteridophytes and angiosperms, only four species of angiosperms that were facultative epiphytes and a hemiepiphyte growing within 0.4 m of ground level had vesicular-arbuscular mycorrhizal (VAM) fungi. Bioassays of organic debris from oil palm trunks did not produce vesicular-arbuscular mycorrhizas on maize. Six epiphytic species grown in the greenhouse in pots containing oil palm rhizosphere soils rooted and had VAM fungi and thus may be facultative epiphytes. Five other epiphyte species failed to grow in pots and are probably obligate epiphytes. Seven epiphyte species that established themselves in pots failed to form vesicular-arbuscular mycorrhizas.     

云南热带蕨类植物根际土壤中的六种VA菌根真菌

从云南热带地区野生或从野外移栽于温室中的蕨类植物根际土壤中分离得到六种VA菌根真菌：双网无梗囊霉Acaulospora bireticulata Rothwell et Trappe,细凹无梗囊霉Acaulospora scrobiculata Trappe,瘤状无梗囊霉Acaulospora tuberculata Janos ＆ Trappe,多梗球囊霉 Glomus multicaule Gerdemann ＆ Bakshi,棒孢硬囊霉 Sclerocystis clayisporaTrappe．帚状硬囊霉Sclerocystis coremioides Berk．＆ Broome,其中,瘤状无梗囊霉,多梗球囊霉和帚状硬囊霉为我国的3个新记录种。本文对这六种vA菌根真菌的主要形态学特征进行了描述,并对蕨类植物的VA菌根进行了讨论。