西南桦幼苗接种丛枝菌根真菌的生长与光合生理响应

为了解丛枝菌根真菌(arbuscular mycorrhiza,AMF)对西南桦幼苗生长和光合生理的影响,对西南桦(Betula alnoides)优良无性系接种AMF菌株后的生长、光合参数、叶绿素含量和荧光参数进行了研究。结果表明,6个AMF菌株均能与西南桦无性系幼苗形成共生体,接种根内球囊霉(Glomus intraradices)菌株(AMF5)和摩西球囊霉(G.mosseae)HUN03B菌株(AMF3)显著提高了幼苗生长量、净光合速率、水分利用效率、叶绿素含量和荧光参数(P0.05),显示出AMF5、AMF3与幼苗的亲和力明显优于其他菌株。西南桦4个无性系间的菌根侵染率差异不显著(P0.05),但AMF对无性系FB4、BY1的促生效应显著优于FB4+和A5。因此,适合与西南桦共生的优良菌株为AMF5和AMF3,这为西南桦菌根化育苗提供理论依据。     

秦岭辛家山林区落叶松外生菌根真菌多样性

【目的】以秦岭辛家山林区落叶松为研究对象,观察鉴定与其共生的外生菌根真菌。【方法】通过野外调查结合形态学和分子生物学鉴定方法。【结果】鉴定出31种外生菌根真菌,分属2门4目11科11属,分别有毛革菌属(Tomentella)、丝盖伞属(Inocybe)、红菇属(Russula)、Amphinema、蜡蘑属(Laccaria)、蜡壳耳属(Sebacina)、鹅膏菌属(Amanita)、牛肝菌属(Boletus)、丝膜菌属(Cortinarius)、乳菇属(Lactarius)和硬皮马勃属(Scleroderma),丝盖伞属是优势类群。阳坡外生菌根真菌多样性高于阴坡。对菌根根际土与非根际土化学性质分析表明,pH值显著低于非根际,速效磷、速效钾含量显著高于非根际。对根际土化学性质与外生菌根侵染率相关性分析表明,落叶松外生菌根侵染率与土壤pH值呈显著正相关;与速效钾呈极显著正相关;与全氮、速效磷呈显著负相关。【结论】落叶松外生菌根真菌多样性丰富,且受坡向影响。外生菌根真菌可降低根际pH,提高根际有机质、全氮、速效磷、速效钾、水溶性钙和水溶性镁的含量。外生菌根侵染率受土壤pH值、全氮、速效磷、速效钾的影响。     

黄山地区松树林外生菌根菌资源及生态分布

1998～2003年,对黄山地区松树林下外生菌根菌资源及生态分布进行了调查,鉴定出外生菌根菌43种,隶属于10科17属.其中马尾松林下有43种、黄山松林下有12种.马尾松幼林下的外生菌根菌种类单一,彩色豆马勃、硬皮马勃类为优势菌种;马尾松成熟林下外生菌根菌种类丰富,其优势种类为红菇科、鹅膏菌科、牛肝菌科和鸡油菌科的一些种类.并分析了树种植被对外生菌根菌分布的影响,菌根真菌的分布与温度、湿度及土壤条件的关系.     

辽东栎幼苗的外生菌根合成

 在温室花盆中播种辽东栎（Quercus liaotungensis）种子获得辽东栎幼苗,并对幼苗接种外生菌根真菌进行菌根合成试验。所用的外生菌根真菌有：铆钉菇（Gomphidius viscidus）、臭红菇（Russula foetens）、厚环乳牛肝菌（Suillus grevillei）、褐环乳牛肝菌（S. luteus）、彩色豆马勃（Pisolithus tinctorius）、美味牛肝菌（Boletus edulis）、赭丝膜菌（Cortinarius russus）、土生空团菌（Cenococ     

容器规格和添加生物炭的基质配方对西南桦幼苗生长的影响

为了揭示容器规格和添加生物炭的基质配方对西南桦(Betula alnoides)无性系幼苗生长的影响,以3个西南桦优良无性系(FB4、FB4+和FB01)作为研究对象,选用3种容器规格(4.5 cm×8.0 cm,6.0 cm×9.0 cm,8.0 cm×12.0 cm,直径×高)和6种基质配方(黄心土、沤制树皮、锯末、炭化树皮和竹炭不同比例)开展育苗试验,通过比较不同处理幼苗生长和根系形态等指标,结合育苗效果综合评价,确定适宜的容器规格和基质配方。结果表明:基质配方、容器规格、无性系均显著影响西南桦幼苗的地径、苗高、叶面积、叶片数、生物量和根系形态,且存在显著的交互效应。比较所有无性系在相同基质种类下不同基质比例之间的生长表现后发现:6个基质配方中,基质4表现出明显的生长优势,其地径、苗高、生物量、分枝数、叶面积、叶片数、根长、根表面积、根体积和根平均直径分别是其他基质配方的1.01～1.36、1.11～1. 62、1. 13～2. 94、1. 05～3. 94、1. 05～2. 86、1. 03～2. 44、1. 29～2.17、1. 29～2.20、1.32～2.44和1.00～1.60倍。所有无性系幼苗的地径、苗高、叶面积、叶片数、生物量和根系形态特征均随着容器规格的增大而增加,表明容器规格越大对幼苗生长的促进作用越明显。对西南桦幼苗的生长指标和根系形态指标进行主成分分析,筛选出叶面积、根表面积、根平均直径和存活率作为苗木质量综合评价指标,进一步计算综合评价指数发现,无性系FB4+、容器规格3(8.0 cm×12.0 cm)和基质4(74.625%黄心土+24.875%沤制树皮+0.5%竹炭)的综合评价指数最大(1.566),其育苗效果最好。     

菌根接种对长苞铁杉幼苗生长的影响

采用天然长苞铁杉林富含菌根真菌的根际土壤,对长苞铁杉种子进行盆栽接种育苗试验,比较接种处理和未接种的长苞铁杉种子萌发率、菌根侵染率、幼苗生长、生物量分配及氮磷钾含量的差异。结果表明,外生菌根对长苞铁杉种子的萌发没有影响,对幼苗生长和氮磷钾养分的吸收有明显的促进作用,接种幼苗菌根感染率超过75%,其株高、根生物量、叶生物量和氮磷钾含量等均比对照显著增加,但对生物量在器官中的分配没有显著影响。     

野外模拟酸雨胁迫下接种外生菌根真菌对马尾松幼苗的缓解作用

外生菌根真菌能够提高宿主植物对外界环境胁迫的抵抗力。主要探讨野外条件下外生菌根真菌对酸雨胁迫下马尾松(Pinus massoniana)幼苗生长、养分元素以及表层土壤的影响,以期为酸雨严重区马尾松林恢复提供科学依据。以2年生马尾松幼苗为材料,采用原位试验,共设置6个处理:p H5.6(对照)处理未接种、对照处理接种、p H4.5酸雨处理未接种、p H4.5酸雨处理接种、p H3.5酸雨处理未接种、p H3.5酸雨处理接种。研究表明:(1)酸雨处理与对照处理相比显著降低了非菌根苗总生物量及各部位生物量(根、茎、叶),对株高无显著影响,接种外生菌根真菌可以缓解酸雨对马尾松幼苗生长的不利影响;(2)与对照处理相比,酸雨处理的非菌根苗的针叶中N、P、Ca含量升高,Mg含量降低,根系中N、P、Ca含量降低,Mg含量随p H的降低先升高后降低。接种外生菌根真菌显著提高了p H3.5酸雨处理的马尾松幼苗根系中N、P、Ca、Mg含量,而对针叶中N、P、Ca、Mg含量无显著影响。(3)在非菌根土壤中,p H3.5酸雨处理与对照处理相比显著降低了土壤中有机质、速效磷、速效钾、可溶性碳、可溶性氮、铵态氮、硝态氮含量,而接种外生菌根真菌显著提高了上述指标。酸雨对土壤阳离子交换量无显著影响。总而言之,接种外生菌根真菌促进了酸雨处理的马尾松幼苗生长、缓解了酸雨对马尾松幼苗养分元素和表层土壤的不利影响,由此可见接种外生菌根真菌是减轻酸雨对马尾松危害的一个重要途径。     

外生菌根菌丝桥在板栗幼苗间传递磷的效应

采用^32P示踪和4室根箱方法研究了外生菌根菌丝桥对板栗磷营养和植株间磷素传递作用的效应。给一株板栗幼苗(供体)接种外生菌根真菌美味牛肝菌(Boletus edulis)、褐环乳牛肝菌(Suillus luteus),菌根真菌在侵染供体植物以后其根外菌丝继续生长并侵染邻近的另外一株板栗植株(受体)。同位素示踪试验表明,供体板栗体内的^32P可通过菌丝桥传递给受体板栗,受体植株不仅根中^32P放射性强度高于对照,而且茎中^32P强度也显著高于对照。说明外生菌根真菌在不同板栗植株间形成了菌丝桥,但是菌丝桥传递的磷的数量很有限,仅占供体植株体内总磷量的5％-8％。美味牛肝菌和褐环乳牛肝菌侵染供体板栗植株以后,使植株含磷量、总吸磷量和生物量较对照明显增加。受体板栗幼苗在菌丝桥建立以后其植株含磷量和总吸磷量显著高于对照,但生物量与对照没有显著差别。     

外生菌根真菌菌丝对马尾松苗氮素传递的影响

为探究外生菌根真菌菌丝对马尾松Pinus massoniana幼苗氮素的吸收、传递及分配规律的影响,本研究应用¹⁵N示踪技术,采用四室隔网系统进行盆栽试验。研究表明：供体接种外生菌根真菌后,根外菌丝能够穿过粘土层和隔离层到达受体室,在供、受体植株之间形成菌丝桥。接种不同外生菌根真菌均显著增加供体植株苗高、地径及生物量(P<0.05),但对受体植株的影响有差异,其中接种橙黄硬皮马勃Scleroderma citrinum (Sc)对植株苗高、地径及生物量具有显著的促进作用(P<0.05)。接种对供、受体植株全氮含量无显著性的规律(P>0.05),只有接种东方豆马勃Pisolithus orientalis (Po)的植株全氮含量显著高于其他处理。接种能够显著提高供体植株根、茎、叶的吸氮量,且叶>根>茎,受体植株中,接种Po、Sc和褐环乳牛肝菌Suillus luteus (Sl)的植株总吸氮量较不接种(NE)显著增加(P<0.05),而接种混合菌(Sm)的植株与NE无显著差异(P>0.05)。接种Sl的植株¹⁵N传递率最高(75.86%),受体植株对¹⁵N吸收量最大(91.68 μg/pot),Po次之。供体植株中,除接种Sl的植株¹⁵N主要分配在叶外,其他处理的¹⁵N分配中心均在根部,在受体植株中,接种Po、Sl、Sm的植株¹⁵N主要分配在根部,而NE和接种Sc的植株¹⁵N主要分配在茎。综上,在马尾松供、受体苗木间能形成菌丝桥,接种外生菌根真菌能够促进马尾松供体植株苗高、地径的生长及生物量的积累,提高植株吸氮量,对于受体植株不同菌种的作用有差异,其中接种Sc的苗木表现最好。此外,不同的菌种菌丝对植株的全氮含量、¹⁵N吸收量、传递率及分配率的影响也不同,其中,以接种Po和Sl的苗木表现较好。     

接种外生菌根对辽东栎幼苗生长的影响

辽东栎 (Quercusliaotungensis)是中国特有的栎林树种 ,也是中国暖温带落叶阔叶林的主要优势树种之一。铆钉菇 (Gomphidiusviscidus)和臭红菇 (Russulafoetens)是在自然环境中与其共生形成外生菌根的真菌。在温室花盆中播种辽东栎种子获得辽东栎幼苗 ,并对幼苗接种铆钉菇和臭红菇合成外生菌根 ,比较了有菌根和无菌根辽东栎幼苗生长、光合蒸腾特性、氮磷含量的差异。外生菌根对辽东栎幼苗的生长有明显的促进作用 ,有菌根幼苗的生物量、株高、净光合速率和水分利用效率高于无菌根幼苗 ,蒸腾速率则相反。有菌根幼苗的氮磷含量分别为无菌根幼苗的 1.7倍和 2 .2倍 ,外生菌根的合成还改变了氮磷在幼苗器官间的分配比例 ,与无菌根幼苗相比 ,有菌根幼苗茎中的氮磷减少 ,而叶片中的磷显著增加。同时接种铆钉菇和臭红菇的生长促进效果优于单独接种。     

马尾松根生产苗与常规苗外生菌根真菌多样性特征

以湖南省林业科学院龙伏试验基地3年生常规方法培养的马尾松苗Pinus massoniana（以下简称常规苗）和3年生马尾松根生产（root production method,RPM）苗根、根际土为研究对象,采用 Illumina MiSeq 测序技术研究其根系及根际土壤外生菌根真菌（ectomycorrhizal fungi,ECMF）群落结构特征,旨在探明其土壤微生境的差异,进而为人工接种菌根真菌及改良常规苗的土壤微生境奠定基础。测序共获得170 148条ECMF序列,划分为20个OTUs（operational taxonomic units,OTU）,隶属于2门、3纲、7目、8科、11属。Chao1丰富度指数、Ace丰富度指数、Simpson多样性指数与Shannon-Wiener多样性指数均表现为常规苗根际土的OTUs丰富度高于RPM苗根际土,并且根样OTUs丰富度低于根际土样（P<0.05）。不同样品的ECMF优势属占比也不同,RPM苗根样中占比最大的为Amphinema（47.89%）,常规苗根样为Tomentella（70.60%）;RPM苗土样中占比最大的为Tylospora（62.33%）,常规苗土样为Tomentella（55.69%）。冗余分析表明,土壤pH值对ECMF的影响程度最大,其次为速效磷和有机质;同时,不同理化因子对群落多样性指数及优势属的影响也存在差异。     

Differential responses of three fungal species to environmental factors and their role in the mycorrhization of<Emphasis Type="Italic"> Pinus radiata</Emphasis> D. Don

Three ectomycorrhizal (ECM) isolates of Rhizopogon luteolus, R. roseolus and Scleroderma citrinum were found to differ markedly in their in vitro tolerance to adverse conditions limiting fungal growth, i.e. water availability, pH and heavy metal pollution. S. citrinum was the most sensitive, R. luteolus intermediate and R. roseolus the most tolerant species. Pinus radiata D. Don seedlings were inoculated in the laboratory and in a containerised seedling nursery with spore suspensions of the three ECM species. Colonisation percentage was considerably lower under nursery conditions, probably due to competition by native fungi. The effects of nursery ECM inoculation on seedling growth depended on the fungal species. Only R. roseolus-colonised plants showed a significantly higher shoot growth than non-mycorrhizal plants. All three fungi induced significantly higher root dry weights relative to control plants. Despite the low mycorrhizal colonisation, mycorrhization with all three species improved the physiological status of nursery-grown seedlings, e.g. enhanced root enzyme activity, shoot nutrient and pigment content, net photosynthesis rate and water use efficiency. Of the three fungal species, R. roseolus was the most effective; this species was also the most adaptable and showed the greatest range of tolerance to adverse environmental conditions in pure culture. It is, therefore, proposed as a promising fungal species for ECM inoculation of P. radiata in the nursery.     

The effect of mercury on the establishment of Pinus rigida seedlings and the development of their ectomycorrhizal communities

Metals are toxic to both plants and fungi, and elevated soil metal concentrations have been documented to change the structure of ectomycorrhizal communities. Mercury (Hg) is a highly toxic metal and inhibits the growth of ectomycorrhizal fungi (ECMF) in axenic culture. However, the effects of Hg on the growth of tree seedlings and the development of their ECMF communities have not been explored. In the current study, Pinus rigida seedlings were planted in soil amended with 0–366 μg g^?1 Hg and incubated for 5 months. Survival and growth of P. rigida seedlings was determined, and their ECMF communities were characterized by morphotype analysis. Seedling survival declined with increasing Hg additions, although no reduction in growth was detected among surviving seedlings. The addition of 88 μg g^?1 Hg to soil more than halved the total ectomycorrhizal colonization of root tips and reduced both richness and diversity of root tip morphotypes, while lower Hg additions did not significantly affect ECMF community composition relative to the no Hg control. This suggests that changes in the community of ECMF may occur in contaminated soils before any aboveground effects on surviving seedlings are noticeable, potentially altering the contribution of ECMF to the fitness of established host plants.     

Contrasting responses to ectomycorrhizal inoculation in seedlings of six tropical African tree species

Five caesalpinioid legumes, Afzelia africana, Afzelia bella, Anthonotha macrophylla, Cryptosepalum tetraphylum and Paramacrolobium coeruleum, and one Euphorbiaceae species, Uapaca somon, with a considerable range in seed sizes, exhibited different responses to inoculation by four species of ectomycorrhizal (ECM) fungi, Scleroderma dictyosporum, S. verrucosum, Pisolithus sp. and one thelephoroid sp. in greenhouse conditions. Thelephoroid sp. efficiently colonized seedlings of all of the five caesalpinioid legumes except U. somon, but provided no more growth benefit than the other fungi. Thelephoroid sp. and S. dictyosporum colonized seedlings of U. somon poorly, but stimulated plant growth more than the other fungi. The relative mycorrhizal dependency (RMD) values of the caesalpinioid legumes were never higher than 50%, whilst U. somon had RMD values ranging from 84.6 to 88.6%, irrespective of the fungal species. The RMD values were negatively related to seed mass for all plant species. Potassium concentrations in leaves were more closely related than phosphorus to the stimulation of seedling biomass production by the ECM fungi. Our data support the hypothesis that African caesalpinioid legumes and euphorbe tree species with smaller seeds show higher RMD values than those with the larger seeds.     

Growth of mycorrhizal jack pine (Pinus banksiana) and white spruce (Picea glauca) seedlings planted in oil sands reclaimed areas

The effectiveness of ectomycorrhizal inoculation at the tree nursery seedling production stage on growth and survival was examined in jack pine (Pinus banksiana) and white spruce (Picea glauca) planted in oil sands reclamation sites. The seedlings were inoculated with Hebeloma crustuliniforme strain # UAMH 5247, Suillus tomentosus strain # UAMH 6252, and Laccaria bicolor strain # UAMH 8232, as individual pure cultures and in combinations. These treatments were demonstrated to improve salinity resistance and water uptake in conifer seedlings. The field responses of seedlings to ectomycorrhizal inoculation varied between plant species, inoculation treatments, and measured parameters. Seedling inoculation resulted in higher ectomycorrhizal colonization rates compared with non-inoculated control, which had also a relatively small proportion of roots colonized by the nursery contaminant fungi identified as Amphinema byssoides and Thelephora americana. Seedling inoculation had overall a greater effect on relative height growth rates, dry biomass, and stem volumes in jack pine compared with white spruce. However, when examined after two growing seasons, inoculated white spruce seedlings showed up to 75 % higher survival rates than non-inoculated controls. The persistence of inoculated fungi in roots of planted seedlings was examined at the end of the second growing season. Although the inoculation with H. crustuliniforme triggered growth responses, the fungus was not found in the roots of seedlings at the end of the second growing season suggesting a possibility that the observed growth-promoting effect of H. crustuliniforme may be transient. The results suggest that the inoculation of conifer seedlings with ectomycorrhizal fungi could potentially be carried out on a large scale in tree nurseries to benefit postplanting performance in oil sands reclamation sites. However, these practices should take into consideration the differences in responses between the different plant species and fungal strains.     

The combined effects of Pseudomonas fluorescens and Tuber melanosporum on the quality of Pinus halepensis seedlings

The ecological, economic and social values of the ectomycorrhizal fungi of the black truffle found in the rural Mediterranean are well known. The inoculation of Pinus halepensis seedlings with mycorrhizal fungi and rhizobacteria can improve the morphology and physiology of the seedlings and benefit the regeneration of arid regions and the reintroduction of inocula of mycorrhizal fungi into these areas. Some rhizobacteria can improve the establishment and functioning of ectomycorrhizal symbiosis. In this study, seedlings of P. halepensis were inoculated with the mycorrhizal fungus Tuber melanosporum and the rhizobacteria Pseudomonas fluorescens CECT 844 under non-limiting greenhouse conditions. Five months after inoculation, we analysed the growth, water parameters (osmotic potential at saturation, osmotic potential at turgor loss and modulus of elasticity), concentrations of mycorrhizal colonies, nutrient concentration and nutrient contents (N, P, K, Ca, Mg and Fe) in roots and aerial parts of the seedlings. Subsequently, tests were performed to estimate the root growth potentials. None of the treatments changed the water parameters or growth potentials of the roots. The inoculations improved the growth and nutrient uptake of the seedlings, although the combination of P. fluorescens CECT 844 and T. melanosporum did not generally lead to a significant improvement over the positive effects of a simple inoculation of T. melanosporum; however, the addition of P. fluorescens CECT 844 did double the rate of the mycorrhization of T. melanosporum. These results may be promising for enhancing the cultivation of truffles.     

The potential for mycobiont sharing between shrubs and seedlings to facilitate tree establishment after wildfire at Alaska arctic treeline

Root‐associated fungi, particularly ectomycorrhizal fungi (EMF), are critical symbionts of all boreal tree species. Although climatically driven increases in wildfire frequency and extent have been hypothesized to increase vegetation transitions from tundra to boreal forest, fire reduces mycorrhizal inoculum. Therefore, changes in mycobiont inoculum may potentially limit tree‐seedling establishment beyond current treeline. We investigated whether ectomycorrhizal shrubs that resprout after fire support similar fungal taxa to those that associate with tree seedlings that establish naturally after fire. We then assessed whether mycobiont identity correlates with the biomass or nutrient status of these tree seedlings. The majority of fungal taxa observed on shrub and seedling root systems were EMF, with some dark septate endophytes and ericoid mycorrhizal taxa. Seedlings and adjacent shrubs associated with similar arrays of fungal taxa, and there were strong correlations between the structure of seedling and shrub fungal communities. These results show that resprouting postfire shrubs support fungal taxa compatible with tree seedlings that establish after wildfire. Shrub taxon, distance to the nearest shrub and fire severity influenced the similarity between seedling and shrub fungal communities. Fungal composition was correlated with both foliar C:N ratio and seedling biomass and was one of the strongest explanatory variables predicting seedling biomass. While correlative, these results suggest that mycobionts are important to nutrient acquisition and biomass accrual of naturally establishing tree seedlings at treeline and that mycobiont taxa shared by resprouting postfire vegetation may be a significant source of inoculum for tree‐seedling establishment beyond current treeline.     

Inoculation of <Emphasis Type="Italic">Pinus halepensis</Emphasis> Mill. with selected ectomycorrhizal fungi improves seedling establishment 2 years after planting in a degraded gypsum soil

Vegetative inoculum of Amanita ovoidea (Bull.) Link and three isolates of Suillus collinitus (Fr.) Kuntze, as well as spore inoculum of Rhizopogon roseolus (Corda) Th. M. Fr. and S. collinitus, were evaluated for the production of Pinus halepensis Mill. in nursery and for the establishment of seedlings in a degraded gypsum soil. In nursery, most of the fungi significantly improved the height of seedlings and modified the accumulation of nutrients in needles. The percentage of ectomycorrhizas (ESR) per seedling ranged from 25 to 78%, depending on the fungi. One and 2 years after planting in the field, the survival of seedlings was significantly improved by inoculation with two isolates of S. collinitus and with spores of the same fungus. Inoculation with A. ovoidea had no significant effect on seedling survival, whilst R. roseolus caused a significant mortality of seedlings. Seedling height was significantly improved by inoculation with all fungi except R. roseolus and isolate CCMA-1 of S. collinitus. One year after planting, mycorrhization of control seedlings was negligible, and percentages of ESR were under 38% for the rest of treatments. In spring of the second year, seedlings in all treatments, including the control, became highly mycorrhizal (60–77% of ESR). Low ectomycorrhizal diversity (five morphotypes described) and seasonal variation on morphotype composition were detected 2 years after plantation. From a perspective of soil restoration management under limiting environmental conditions, nursery inoculation with selected fungi can be a key advantage for tree seedlings to surmount the initial transplant stress, assuring their establishment in the field. Our results emphasise the importance of selecting compatible fungal–host species combinations for nursery inoculation and sources of inoculum adapted to the environmental conditions of the transplantation site.     

外生菌根合成过程中外源竞争性真菌及其菌根形态

在温室内,利用松属Pinus、栎属Quercus植物幼苗分别与乳菇属Lactarius、块菌属Tuber中重要食用菌进行菌根合成过程中,发现有9种外源竞争性菌根真菌exogenous competitive mycorrhizal fungi （ECMF）会造成宿主植物污染。形态解剖和分子生物学鉴定结果表明,9种ECMF分属5个属（Amphinema、须腹菌属Rhizopogon、硬皮马勃属Scleroderma、小球孢盘菌属Sphaerosporella、乳牛肝菌属Suillus）5科（阿太菌科Atheliaceae、须腹菌科Rhizopogonaceae、硬皮马勃科Sclerodermataceae、火丝菌科Pyronemataceae、乳牛肝菌科Suillaceae）,其中,造成松树苗污染的主要为Amphinema、Rhizopogon和Suillus属的种类,造成栎树苗污染的主要为Scleroderma属的种类,而Sphaerosporella属的种类既能污染松也能污染栎。同时,对ECMF形成菌根的形态与解剖特征进行了描述,以期为菌根合成过程中ECMF污染的识别与控制提供借鉴。