暖季型草坪草AMF 侵染与孢子密度季节动态研究

以广州地区常见暖季型草坪草(地毯草Axonopus compressus、狗牙根Cynodon dactylon、结缕草Zoysia japonica)为研究对象, 通过测定植物根系AMF 侵染率、根际土壤AMF 孢子密度以及土壤理化性质, 探讨AMF 侵染率和孢子密度的季节动态变化特征, 以及与土壤理化性质之间的关系。结果表明: (1)三种草坪草的根系AMF 侵染以菌丝侵染为主, 总体表现为夏季最高, 秋季和冬季次之, 春季最低, 囊泡侵染率较低, 很少丛枝侵染; (2)季节对根际土壤AMF 孢子密度有一定的影响, 草坪草根际土壤孢子密度最大值多出现在夏季或冬季, 而春季和秋季则较低; (3)对于土壤因子, AMF 菌丝侵染率与土壤有机质含量成极显著正相关, 而囊泡侵染率与电导率成显著正相关, 与全氮和全磷成极显著负相关; 对于气候因子, AMF 总侵染率和菌丝侵染率均与月均气温和月均降水成极显著正相关。     

山西历山珍稀药用植物AM真菌资源与土壤因子的关系

以山西历山自然保护区暴马丁香、连香树、南方红豆杉和领春木4种珍稀药用植物为材料,研究其根际土壤中丛枝菌根真菌(AMF)的菌根结构类型和种属分布,同时分析土壤因子与其侵染率和孢子密度的关系。结果表明:(1)暴马丁香菌根类型为中间型(I-型),连香树和领春木为重楼型(P-型),南方红豆杉为疆南星型(A-型);4种植物根际共鉴定AMF 27种,分别隶属于球囊霉属(Glomus)、无梗囊霉属(Acaulospora)、盾巨孢囊霉属(Scutellos-pora)、多孢囊霉属(Diversispora)和原囊霉属(Archaeospora)5属,其中Glomus为优势属。(2)pH与暴马丁香和领春木的侵染率和孢子密度呈正相关,但与连香树和南方红豆杉呈负相关;速效磷与暴马丁香、南方红豆杉和领春木的侵染率和孢子密度呈正相关,但与连香树呈负相关;碱解氮、有机质与暴马丁香、连香树和领春木的侵染率和孢子密度呈正相关,但与南方红豆杉呈负相关。(3)4种药用植物的菌根侵染率主要受其根际土壤碱解氮的影响,而根际AMF孢子密度主要受根际土壤pH制约。可见,历山自然保护区内AMF资源丰富,多样性程度也较高;宿主植物不同,土壤因子对其侵染率和孢子密度的影响也不同。     

当归不同生长时期根际丛枝真菌分布及土壤养分和酶活性的动态变化

【目的】探讨当归不同生长时期丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)的分布及土壤养分和土壤酶活的变化,以期了解当归不同生长时期AMF与土壤养分和土壤酶活的关系,为AMF在当归种植的应用提供理论依据。【方法】在当归不同生长时期分别采集根际土壤样品,测定其土壤养分、土壤酶活、AMF孢子密度和球囊霉素等因子,分析当归不同生长时期根际土壤AMF孢子密度、土壤养分和土壤酶活等指标的动态变化和相关性。【结果】随着当归生育期的完成,根际土壤AMF孢子密度先降低后持续升高;易提取球囊霉素(Easily extractable glomalin,EEG)和总球囊霉素(Total glomalin,TG)平稳增加,而且EET与TG和脲酶活性呈显著正相关(P0.01),EET和TG与根际土壤有机质和全氮含量以及酸性和中性磷酸酶活性均显著正相关(P0.05);根际土壤有机质和全氮表现为增加的总趋势;有效磷含量呈现为生长前期保持不变、中期显著降低、后期逐渐升高的趋势,而有效钾含量先逐渐增加,生长中后期显著降低的趋势;根际土壤酸性和中性磷酸酶活性均呈现逐渐增加趋势,而脲酶活性表现为生长前期逐渐增加,中后期显著降低;p H值在当归不同生长时期有所波动。相关性分析结果表明,AMF孢子密度与土壤酸性磷酸酶酶活性呈显著正相关,而酸性磷酸酶酶活性与根际土壤全氮、有机质、易提取球囊霉素和总球囊霉素呈显著正相关,与有效磷和有效钾含量呈显著负相关,表明AMF对根际土壤养分和酶活性具有一定的调节作用;主成分分析结果表明,不同生长时期是影响当归根际土壤理化指标的主要因素。【结论】AMF孢子密度在当归根际的动态变化一定程度上反映出了AMF分泌球囊霉素的能力,以及球囊霉素对增加根际土壤碳氮储存的贡献,同时表明球囊霉素影响了当归根际土壤酶活性和其它养分的代谢循环,对改良土壤和促进当归生长发挥重要的作用。     

土壤因子对府谷清水川流域砒砂岩区刺槐和沙棘AMF的影响

应用相关性分析和通径分析研究了府谷清水川流域砒砂岩区土壤因子对刺槐(Robinia pseudoacacia)和沙棘(Hippophae rhamnoides)根际丛枝菌根真菌(AMF)的影响.结果表明:AMF可以与刺槐和沙棘形成良好的共生关系;从两种植物根际土中共分离鉴定出AMF 13种,其中摩西囊霉(Glomus mosseae)、地球囊霉(Glomus geospo-rum)和缩球囊霉(Glomus constrictum)为优势种;AMF平均侵染率为90.6%,平均孢子密度为559.1个?100 g-1干土;AMF的孢子密度、侵染率和种类之间没有显著的相关性;刺槐和沙棘根际AMF侵染率均与pH呈显著正相关,在刺槐根际,pH和有效氮通过直接作用影响侵染率,有机质和有效磷通过间接作用影响侵染率;在沙棘根际,pH和有效磷通过直接作用影响侵染率,有机质和有效氮通过间接作用影响侵染率;在沙棘根际,有机质和pH主要是通过直接作用影响AMF种类,有效氮主要通过有效磷的间接作用影响AMF种类.     

黄土高原紫穗槐丛枝菌根真菌与土壤因子和球囊霉素空间分布的关系

在黄土高原的陕西省甘泉、绥德、米脂、榆林4县(市)选取4个样地,研究紫穗槐不同深度土层丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)侵染率、孢子密度、球囊霉素和土壤因子之间的关系。结果表明:(1)AMF侵染率平均值绥德样地最大(100%),米脂样地最小(75.02%);孢子密度平均值米脂样地最大(5.91个/g),榆林样地最小(1.57个/g);4个样地孢子密度最大值均在0～10cm土层,且随土层加深而降低;AMF侵染率与孢子密度在各样地间差异显著,同一样地侵染率与孢子密度变化规律不一致。(2)榆林样地的有机碳、铵态氮、速效磷、脲酶和碱性磷酸酶活性平均值显著高于其他3个样地;除绥德、米脂样地的蔗糖酶和甘泉样地的碱性磷酸酶外,其他样地的土壤酶活性和球囊霉素含量均随土层加深而降低,且各土层之间差异显著,最大值均在0～10cm土层。(3)AMF侵染率与pH、总球囊霉素含量、易提取球囊霉素含量呈极显著正相关,与有机碳、硝态氮、速效磷含量呈显著正相关;孢子密度与速效磷、蔗糖酶、脲酶活性呈显著正相关,与铵态氮含量呈显著负相关。(4)第1、2主成分的累积方差贡献率达到56.4%,第1主成分主要综合了球囊霉素、AMF侵染率和孢子密度,第2主成分综合了pH和部分土壤因子信息。因此,球囊霉素、AMF侵染率、孢子密度、pH、部分土壤因子对决定土壤生态起主要作用。     

不同程度铅锌污染区丛枝菌根真菌和深色有隔内生真菌侵染特征

对陕西凤县铅硐山铅锌矿区4个不同程度铅锌污染样地植物根系的丛枝菌根真菌(AMF)和深色有隔内生真菌(DSE)进行了资源和分布调查。结果表明:(1)无铅锌污染的矿山上调查的15种植物中除黄连木没有检测到AMF侵染、栓皮栎和酸模不能被DSE侵染外,其他植物均能与AMF和DSE共生,但平均侵染率较低,仅分别为32.3%和25.9%;铅锌轻度污染的尾矿荒地和铅中度污染、锌重度污染的尾矿坝植物根系内AMF和DSE侵染率明显提高,AMF的平均侵染率分别为53.3%和68.3%,DSE的平均侵染率分别为38.6%和54.2%;铅锌重度污染的废弃冶炼厂样地植物AMF侵染率明显下降,平均只有17.6%,而DSE的侵染没有受重金属污染的抑制,仍达到60.3%。(2)4个样地植物根际土壤中AMF孢子分布不均匀,每克土的孢子密度在0.08～6.84个,平均为1.5个。对4个样地均有分布的狼牙刺、博落回、山蒿和秦岭风毛菊的AMF、DSE侵染状况调查发现,轻度和中度的铅锌污染能促进AMF与宿主共生关系的建立,而重度污染则显著抑制AMF侵染;AMF孢子密度没有呈现一定的规律性,且与AMF侵染率之间没有显著相关性;DSE侵染率与土壤锌含量存在显著正相关关系(r=0.505,P<0.05),而与土壤铅含量没有显著相关性。可见,AMF和DSE能够广泛存在于铅硐山铅锌矿区,尤其是DSE表现出较强的耐受性和适应性。     

贵州煤矸石山香根草根系及根际土丛枝菌根真菌（AMF）群落的季节动态研究

以煤矸石山种植年限为17年的香根草Vetiveria zizanioides为研究对象,采用高通量测序技术研究香根草根系及根际土丛枝菌根真菌（arbuscular mycorrhizal fungi,AMF）群落的季节动态。并利用Spearman、NMDS、RDA和Mantel-test等统计学方法分析了AMF孢子密度、菌根侵染率、土壤理化性质、丰富度及多样性指数之间的相关性。结果表明：（1）AMF孢子密度和菌根侵染率均表现为夏季显著高于春秋两季。（2）3个季节根系中共得到127个OTUs,根际土中共得到258个OTUs,根和根际土中共享96个OTUs,共分离鉴定4科7属AMF,球囊霉属Glomus是该煤矸石山的优势属。（3）根系中AMF多样性和丰富度指数随季节变化先降后升;根际土中AMF多样性指数随季节变化先降后升,但丰富度指数随季节变化呈递减趋势;春季根际土香农、Chao1和ACE指数均显著高于根系,夏季根际土Chao1指数显著高于根系。（4）NMDS分析表明,夏季根系AMF群落分布与其他季节差异显著。Spearman分析表明,根系全钾含量与多样性和丰富度指数显著正相关,速效磷与丰富度指数显著负相关。RDA分析表明,AMF群落组成在根系春季和夏季、根际土夏季和秋季与全磷、全氮、全钾和速效磷正相关,与有机质负相关。Mantel-test分析表明,pH、有机质、全氮、全钾、速效磷和采样季节极显著影响菌根侵染率,有机质和全氮是影响孢子密度的主导因子。     

金沙江支流普渡河、小江干热河谷的丛枝菌根

调查具有不同植物群落的金沙江支流普渡河、小江干热河谷中91种常见植物的丛枝菌根真菌的侵染率及孢子密度。普渡河样地调查了56种植物,其中54种(96%)植物能形成典型的丛枝菌根,其平均孢子密度为1423±175/100g土;小江样地35种植物中有34种(97%)植物能形成典型的丛枝菌根,其平均孢子密度为601±103/100g土。单因素方差分析表明两个样地植物的AMF总感染率差异不显著,但其根际土壤中AMF孢子密度却存在显著差异,小江样地的AMF孢子密度明显低于普渡河样地。相关性分析表明,干热河谷植物的AMF感染率与其根际土壤中的AMF孢子密度之间不存在相关性。此外,调查还发现91种植物中,有61种植物(67%)在形成AM的同时,也被黑色有隔内生菌感染。     

丛枝菌根真菌促进入侵植物紫茎泽兰的生长和对本地植物竞争效应

外来植物与入侵地土壤丛枝菌根真菌(AMF)的互作和反馈已被认为是许多入侵植物的重要入侵机制之一。为进一步探究入侵植物紫茎泽兰(Ageratina adenophora)竞争替代本地植物过程中AMF的作用,本研究首先测定了林下和林地边缘两类生境中紫茎泽兰和本地植物的AMF侵染率和AMF含量,结果表明,2种生境中紫茎泽兰的菌根侵染率和AMF含量均显著高于本地植物,且菌根侵染率与AMF含量呈显著正相关。温室盆栽试验结果进一步表明,接种AMF显著促进了紫茎泽兰的生长,且对硝态氮和有效磷的吸收能力优于本地植物香茶菜(Rabdosia amethystoides),同时降低了竞争中本地植物香茶菜的菌根依赖性,提高了紫茎泽兰对香茶菜的竞争优势度。本研究进一步证实AMF有利于促进紫茎泽兰的竞争性扩张。     

盐渍化土壤根际微生物群落及土壤因子对AM真菌的影响

为探明盐渍化土壤影响下AM真菌与根际土壤间的关系,试验选取宁夏碱化龟裂土、草甸盐土、盐化灌淤土3种类型4个样地上典型植被群落,测定了植物根际土壤养分含量、微生物群落结构、AM真菌侵染率以及孢子密度。结果显示:盐渍化土壤根际微生物碳源利用类型显著不同,对芳香类化合物的代谢能力整体较弱;红寺堡草甸盐土上微生物优势群落为氨基酸代谢类群,惠农盐化灌淤土为多聚化合物代谢群,西大滩碱化龟裂土为碳水化合物代谢群。AM真菌孢子密度与微生物碳源代谢群间的关系比较复杂。其中,惠农样点根际土壤孢子密度与多聚化合物微生物代谢群呈显著正相关,西大滩地区孢子密度与碳水化合物微生物代谢群呈显著正相关。土壤有机质、全盐、全氮、碱解氮等土壤肥力因子及土壤中的HCO-3、Na+、Cl-等盐基离子含量能解释AM真菌孢子密度与土壤环境因子之间相互关系的大部分信息。较高的HCO-3浓度促进了AM真菌侵染率的提高,但高盐浓度下Na+和Cl-降低了菌根侵染率。土壤对AM真菌孢子密度、侵染率的影响因土壤盐分组成类型的不同而异。研究结果为深入了解AM真菌多样性,促进宁夏盐碱地的合理开发与利用提供了理论依据。     

Forest fragment size and nutrient availability: complex responses of mycorrhizal fungi in native–exotic hosts

In the past few decades, it has been widely accepted that forest loss due to human actions alter the interactions between organisms. We studied the relationship between forest fragment size and arbuscular mycorrhizal fungi (AMF) and dark septate endophytes (DSE) colonization, and the AMF spore communities in the rhizosphere of two congeneric Euphorbia species (native and exotic/invasive). We hypothesized that these fungal variables will differ with fragment size and species status, and predicted that (a) AMF and DSE colonization together with AMF spore abundance and diversity would be positively related to forest fragment size; (b) these relationships will differ between the exotic and the native species; and (c) there will be a negative relationship between forest fragment size and the availability of soil nutrients (NH₄ ⁺, NO₃ ⁻, and phosphorus). This study was performed in the eight randomly selected forest fragments (0.86–1000 ha), immersed in an agricultural matrix from the Chaquean region in central Argentina. AMF root colonization in the native and exotic species was similar, and was positively related with forest fragment size. Likewise, AMF spore diversity and spore abundance were higher in the larger fragments. While DSE root colonization in the native host was positively related with forest fragment size, DSE colonization in the exotic host showed no relationship. Soil nutrients contents were negatively related with forest fragment size. In addition, NH₄ ⁺ and NO₃ ⁻ were negatively correlated with AMF spores abundance and root colonization and with DSE colonization in the native species. The results observed in this study show how habitat fragmentation might affect the interaction between key soil components, such as rhizospheric plant-fungal symbiosis and nutrient availability. These environmental changes may have important consequences on plant community composition and nutrient dynamics in this fragmented landscape.     

Changes in arbuscular mycorrhizal fungal communities along a river delta island in northeastern Brazil

Arbuscular mycorrhizal fungi (AMF) play a key role in the maintenance of the balance of terrestrial ecosystems, but little is known about the biogeography of these fungi, especially on tropical islands. This study aims to compare AMF community structure along a transect crossing a fluvial-marine island and relate these communities with soil and vegetation parameters to shed light on the forces driving AMF community structure on a local scale. We tested the hypothesis that the composition of AMF communities changes across the island, even within short distances among sites, in response to differences in edaphic characteristics and vegetation physiognomies. We sampled roots and soils in five different natural and degraded habitats: preserved mangrove forest (MF), degraded mangrove forest (MD), natural Restinga forest (RF), and two regeneration Restinga forests (RR1 and RR2) on Ilha da Restinga, northeastern Brazil. We determined the mycorrhizal colonization rate and AMF community structure based on morphological spore identification. The island soils were sandy with pH varying from acid to neutral; higher levels of organic matter were registered in RF and lower in MF; other chemical and physical soil attributes differed along the habitat types on the island. In total, 22 AMF species were identified, without any difference in species richness. However, the diversity and composition of AMF communities, spore abundance per families, and mycorrhizal colonization were statistically different among the habitats. The composition of AMF communities was strongly related to soil characteristics, especially the sum of exchangeable bases. Our results indicate that the different habitat types have diverse AMF communities even within short distances among habitats. In conclusion, islands with high spatial heterogeneity in soil parameters and diverse vegetation are potential refuges for the diversity conservation of AM fungi.     

Arbuscular Mycorrhizal Fungal Diversity Associated with <i>Olea europaea</i> L. Growing in Yunnan Province,Southwestern China

Olive (Olea europaea L.) is one of the most important and widely cultivated fruit trees, with high economic, ecological, cultural and scientific value. China began introducing and cultivating olive in the 1960s, and Yunnan Province is one of the main growing areas. Improving the cultivation and productivity of this tree crop species is an important challenge. Olive is a typical mycotrophic species and the potential of arbuscular mycorrhizal fungi (AMF) for this plant is well recognized; nevertheless, studies of olive AMF in China are still very limited. Roots and rhizosphere soils of olive were sampled from five representative growing sites in the Yunnan Province of China to investigate the AMF colonization status in the root systems, the AMF community in the olive orchards and the edaphic factors influencing the arbuscular mycorrhizal (AM) parameters. Root samples of olive trees from different growing sites generally showed AMF colonization, suggesting that autochthonous AMF manifest a high efficiency in colonizing the roots of olive plants. The spore density on the five sites ranged from 81.6 to 350 spores per 20 g soil. Twenty-three AMF species from 9 genera were identified in total, and Glomeraceae was the dominant family. The findings of our study suggested a high AMF diversity harbored by olive growing in different areas of the Yunnan Province, Southwestern China. Furthermore, the hyphal colonization in roots positively correlated with soil pH and EC. The arbuscule colonization in olive roots negatively correlated with soil pH, EC, OM, TN, TP and AN. The spore density positively correlated with OM, TN, AN, AP and sand content. Finally, the Shannon index of AMF in the rhizosphere soil positively correlated with the clay content, but negatively correlated with soil pH, TN and silt content. The high diversity of autochthonous AMF in Yunnan is promising for screening AMF isolates for utilization in the efficient cultivation of this crop.     

Effect of edaphic factors and seasonal variation on spore density and root colonization of arbuscular mycorrhizal fungi in sugarcane fields

Sugarcane fields in 14 different study sites were analyzed for the presence of different arbuscular mycorrhizal fungal (AMF) spores. A total of 23 AMF species representing four genera were identified, among which Glomus fasciculatum and G. mosseae were the dominant species. The mean spore density in the root-zone soils of sugarcane plants varied from 119 to 583 per 100 g of soil, and the mean percentage root colonization varied from 60 to 89 %. A study of the effect of edaphic factors on AM spore density and percentage root colonization revealed a positive correlation between pH and AMF spore density and root colonization and a negative correlation between electrical conductivity, nitrogen, and phosphorus. A positive correlation was observed between AMF spore density and root colonization. Season was also found to play a vital role in determining AMF spore density and percentage root colonization, with high spore density and root colonization observed during the summer season and lower spore densities and root colonization during the winter season.     

Status of arbuscular mycorrhizal fungi (AMF) in the Sundarbans of India in relation to tidal inundation and chemical properties of soil

The arbuscular mycorrhizal status of fifteen mangroves and one mangrove associate was investigated from 27 sites of three inundation types namely, diurnal, usual springtide and summer springtide. Roots and rhizospheric soil samples were analysed for spore density, frequency of mycorrhizal colonization and some chemical characteristics of soil. Relative abundance, frequency and spore richness of AMF were assessed at each inundation type. All the plant species except Avicennia alba exhibited mycorrhizal colonization. The study demonstrated that mycorrhizal colonization and spore density were more influenced by host plant species than tidal inundation. Forty four AMF species belonging to six genera, namely Acaulospora, Entrophospora, Gigaspora, Glomus, Sclerocystis and Scutellospora, were recorded. Glomus mosseae exhibited highest frequency at all the inundation types; Glomus fistulosum, Sclerocystis coremioides and Glomus mosseae showed highest relative abundance at sites inundated by usual springtides, summer springtides and diurnal tides, respectively. Spore richness of AMF was of the order usual springtide > diurnal > summer springtide inundated sites. The mean spore richness was 3.27. Diurnally inundated sites had the lowest concentrations of salinity, available phosphorus, exchangeable potassium, sodium and magnesium. Statistical analyses indicated that mycorrhizal frequency and AMF spore richness were significantly negatively correlated to soil salinity. Spore richness was also significantly negatively correlated to available phosphorus. The soil parameters of the usual springtide inundated sites appeared to be favourable for the existence of maximum number of AMF. Glomus mosseae was the predominant species in terms of frequency in the soils of the Sundarbans.     

Effects of long-term fertilization on AM fungal community structure and Glomalin-related soil protein in the Loess Plateau of China

Arbuscular mycorrhizal fungi (AMF) are crucial for ecosystem functioning, and thus have potential use for sustainable agriculture. In this study, we investigated the impact of organic and mineral fertilizers on the AMF community composition and content of Glomalin-related soil protein (GRSP) in a field experimental station which was established in 1979, in the Loess Plateau of China. Roots and soils were sampled three times during the growing period of winter wheat in 2008. The treatments including: N (inorganic N), NP (inorganic N and P), SNP (straw, inorganic N and P), M (farmyard manure), MNP (farmyard manure, inorganic N and P), and CK (no fertilization). AMF communities of root and soil samples were analyzed using PCR-DGGE, cloning and sequencing techniques; and GRSP content was determined by Bradford assay. Our results indicated that spore density, GRSP, and AMF community varied significantly in soils of long-term fertilization plots at three different wheat growing stages. The effects of wheat growing period on AMF community in roots were much more evident than fertilization regimes. However, the diversity of AMF was low in our study field. Up to five AMF phylotypes appeared in each sample, with the overwhelming dominance of a Glomus-like phylotype affiliated to G. mosseae. GRSP content was correlated positively with organic carbon, total phosphorus, available phosphorus, soil pH, and spore densities, but correlated negatively with soil C/N (P?<?0.05). The results of our study highlight that the richness of AMF in Loess Plateau agricultural region is low, and long-term fertilization, especially amendments with manure and straw, has beneficial effects on accumulation of soil organic carbon, spore density, GRSP content, and AMF diversity. Host phenology, edaphic factors (influenced by long-term fertilization), and habitats interacted to affect the AMF community and agoecosystem functioning. Additionally, soil moisture and pH make a greater contribution than other determined soil parameters to the AMF community dynamics in such a special semi-arid agroecosystem where crops rely greatly on rainfall.