我国部分造林树种外生菌根真菌的初步调查研究

<正> 植物菌根的研究在国际上引起了人们的重视。现已发现80％以上的植物都有菌根,树木的菌根大部分是外生菌根。树木形成外生菌根后,增强了对养分、水分的吸收能力和抗逆能力。据不完全统计,能和树木共生形成外生菌根的真菌约有520种以上,其中大部分是担子菌纲(Basidiomycetes)中伞菌目(Agaricales)的真菌。已获得纯培养菌种的外生菌根真菌约有80种(COOKE,1977)。在我国分布的外生菌根真菌约有172种。1978年以来,我们对我国东北、华中、华南、华东等地区的部分重要造林树种的外生菌根真菌进行了初步调查研究,现将结果报道如下:     

氮沉降对外生菌根真菌的影响

综述了国外氮沉降对外生菌根真菌的影响研究现状 ,主要从菌根形成、形态 (菌丝体、菌根 )变化、子实体生产力和外生菌根真菌群落结构等方面对氮沉降的响应进行了综述 ,并初步探讨了氮饱和的临界负荷。研究表明 ,过量氮沉降会给外生菌根真菌在以下几个方面带来负影响 :(1)影响外生菌根真菌与寄主植物之间的养分分配和循环 ;(2 )降低子实体生产力 ;(3)减少菌丝 ;(4 )降低菌根量及其活力 ;(5 )降低外生菌根真菌丰富度 ;(6 )改变外生菌根真菌群落结构组成 ;(7)降低外生菌根真菌群落功能。还指出了未来该方面研究重点和方向     

外生菌根对干旱胁迫的响应

从外生菌根真菌、外生菌根共生体以及外生菌根的间接作用等方面阐述外生菌根如何抵制干旱胁迫,并对未来我国外生菌根的研究提出了建议。干旱可以抑制外生菌根真菌的生长并降低其群落中真菌的多样性,干旱胁迫下外生菌根真菌子实体可以利用深度30cm以下的土壤水,子实体的表面积和体积比可作为筛选抗旱真菌的一个重要因子;在遭受干旱胁迫时,外生菌根共生体可以发生形态变化来应对干旱,同时增加了植株水分的吸收并改善了植物的光合作用、活性氧以及激素等相关代谢;外生菌根对植物生长的促进作用、增加土壤碳汇以及对其他根际微生物生长的促进作用等对宿主植物应对干旱胁迫有利。未来我国外生菌根研究应加强对干旱区优良菌-树组合的筛选工作,同时加大对乡土外生菌根真菌资源的调查力度,未来研究应重点向分子生物学领域推进。     

外生菌根缓解植物酸雨胁迫的机理研究进展

森林作为陆地生态系统的主体,是酸雨污染的主要受体,酸雨对生态系统产生着巨大的影响。菌根是菌根真菌与植物营养根的共生体。外生菌根真菌与宿主植物间互惠互利,在森林生态系统中,外生菌根在维持生态系统的养分平衡和改善树木营养等方面有重要的作用。本文综述了国内外关于菌根和酸雨关系的研究,酸雨能抑制外生菌根的形成,降低其活力;但另一方面,外生菌根能够缓解酸雨造成的植物危害,提高植株对酸雨的耐受力。外生菌根主要通过以下几方面缓解酸雨胁迫:(1)菌根形态结构的物理屏蔽作用;(2)增加养分吸收,增加御酸能力;(3)增强酶活性,提高植物生存能力;(4)产生有机酸或其他物质。     

土生空团菌对白云母的风化作用及解钾特性

摘要:【目的】为了提高森林土壤含钾硅酸盐矿物利用率和改善树木钾素营养,探讨外生菌根真菌对白云母矿物的解钾及风化效应。【方法】通过5种外生菌根真菌在贫钾条件下与白云母的相互作用,考察了3种常用培养基对菌株解钾能力的影响;采用解钾效果最高的土生空团菌在Modified Melin-Norkrans(MMN)培养基条件下,进一步研究了21d浸出过程中主要矿质元素的释放量、生物量、剩余葡萄糖量、产生的小分子有机酸种类及含量、菌丝-矿物微环境的改变,利用扫描电子显微镜观测白云母被风化的痕迹。【结果】培养基对不同外生菌根真菌解钾能力的影响各异,其中土生空团菌在MMN培养基条件下解钾能力最强,其解钾量与生物量、剩余葡萄糖量、pH值显著相关。土生空团菌能够分泌有助于菌丝-矿物粘附的胞外多糖以形成菌丝-矿物微环境,并富集有机酸,促进微环境内钾的释放;菌丝不仅能够粘附在白云母表面产生刻蚀作用,还能破坏矿物深入其内部。【结论】外生菌根真菌具有促进白云母风化并释放钾素的能力,这种能力可能与菌丝、有机酸、多糖的协同作用有关。     

AMF增强枳抗旱性作用机制的初步研究

丛枝菌根真菌(AMF)能增强寄主植物的抗旱性,但相关机制仍不清楚。本研究分析了正常水分和干旱处理对比下AM真菌Diversispora versiformis对盆栽枳(Poncirus trifoliata)生长、光合作用和叶片激素含量的影响。结果表明,6周的干旱处理强烈抑制D.versiformis对枳根系的侵染。干旱处理下,AM真菌接种处理均显著提高了叶、茎和根系生物量,显著增强了叶片光合速率、蒸腾速率和气孔导度,同时显著降低了叶片温度(P0.05)。AM真菌接种也增加了干旱条件下枳叶片内源脱落酸、吲哚乙酸、赤霉素、油菜素内酯、茉莉酸甲酯、玉米素核苷和一氧化氮含量。推测AM真菌通过改变植物内源激素平衡状况,进而诱导相关激素信号传导进程,从而参与菌根的形成、植物生长进程,并增强植物抗旱性。     

亚热带森林菌根植物根系真菌群落结构对氮磷添加的响应

植物根系真菌对维系植物的营养吸收和健康具有重要作用。本研究分析了不同菌根类型植物根系中真菌的群落结构对外源氮(N)、磷(P)、氮和磷(NP)输入的响应。试验采集了无添加(对照)和N、P、NP添加处理下亚热带森林3种菌根类型(丛枝菌根、外生菌根、欧石楠菌根)9种植物的根系，运用高通量测序技术检测根系中真菌的多样性和群落组成。结果表明：9种植物根系真菌群落均主要由担子菌门和子囊菌门组成；P添加下子囊菌门的相对多度显著低于对照，而担子菌门的相对多度显著高于对照。欧石楠菌根植物根系中子囊菌门的相对多度显著高于丛枝菌根和外生菌根植物，而其担子菌门的相对多度显著低于丛枝菌根和外生菌根植物。与对照相比，P添加显著降低了植物根系中真菌的α多样性，改变了不同菌根类型植物根系中真菌的群落组成，而N添加和菌根类型的影响不明显。与对照和N添加相比，NP添加使全部植物根系中真菌群落变异程度更大，即群落整体更加趋异，而外生菌根植物根系中的真菌群落比丛枝菌根植物根系中的真菌群落变异更小，即群落更趋同。综上，P养分是影响亚热带森林土壤中树木根系真菌群落结构的关键因素。本研究有助于提升对全球环境变化下亚热带地区植物根系...     

模拟酸雨和接种外生菌根真菌对马尾松土壤养分、土壤团聚体及有机碳组分的影响

以2年生马尾松(Pinus massoniana)幼苗为试验对象,采用原位试验,研究了模拟酸雨和接种外生菌根真菌对土壤有机碳含量、土壤团聚体组成及土壤养分(N、P、K)含量的影响。设置3种强度(p H5.6(CK),4.5,3.5)的模拟酸雨条件,每个强度酸雨下分别设置接种外生菌根真菌和不接种外生菌根真菌,共计6个处理。结果表明:p H3.5酸雨处理显著降低了土壤中速效磷、总磷、速效钾、铵态氮、硝态氮及总氮含量,而外接外生菌根真菌则有效缓解了这一情况;与对照比,酸雨处理提高了微团聚体(0.053 mm,0.053～0.25 mm)含量,降低了大团聚体(0.25～2 mm)含量; pH3.5处理显著降低各粒级尤其是0.25～2 mm粒级团聚体有机碳含量,而接种外生菌根真菌显著增加了有机碳含量;未接种外生菌根真菌土壤中,酸雨处理显著降低了土壤轻组、重组有机碳含量,而接种外生菌根真菌显著提高了土壤轻组、重组有机碳含量;接种外生菌根真菌在一定程度上可以缓解酸雨胁迫对土壤质量的不利影响。     

钾与信号抑制剂对外生菌根真菌分泌乙酸的调控作用

外生菌根真菌是森林生态系统中的重要成分,参与树木养分的吸收利用。试验液体培养外生菌根真菌,设置不同供钾水平,添加钙信号抑制剂,研究了它们的有机酸和氢离子分泌,以及乙酸分泌对供钾和信号抑制剂的响应。结果表明,供试菌株的生长,氮、磷、钾含量和吸收量因菌株不同而异,生物量变化于52.91—121.72 mg/瓶之间,相差1倍以上。外生菌根真菌吸收养分的差异可能与它们对土壤养分环境的长期适应、进化、选择有关。在外生菌根真菌的培养液中,分别检测出草酸、乙酸、苹果酸、柠檬酸和丁二酸等,以及大量的氢离子,说明菌根真菌能分解土壤含钾矿物,释放钾离子,改善寄主植物的钾营养。其中,乙酸分泌量较大,具有普遍性,低钾刺激分泌乙酸,高钾时分泌减少,其分泌速率与供钾浓度和菌丝吸钾量之间呈显著负相关(r=-0.734,r=-0.617,n=60)。钾对菌根真菌分泌乙酸的调控作用具有改善森林钾素营养,防止土壤养分淋失的生理和生态意义。此外,在低钾条件下,阴离子通道和钙信号抑制剂抑制外生菌根真菌分泌乙酸。说明钙信号和阴离子通道参与了乙酸分泌,缺钾可能是刺激乙酸分泌的原初信号,通过信号转导和一系列级联反应促进乙酸分泌。     

4种外生菌根真菌对难溶性磷酸盐的溶解能力

以红绒盖牛肝菌(Xerocomus chrysenteron)、美味牛肝菌(Boletus edulis)、黄须腹(Rhizopogen luteous)和劣味乳菇(Lactarius insulsus)4种外生菌根真菌为对象,在纯培养条件下比较它们对4种难溶性磷酸盐[Ca_3(PO_4)_2、Ca_(10)(PO_4)_6(OH)_2、FePO_4·4H_2O和AlPO_4]的溶解能力,以探讨外生菌根真菌对难溶性磷酸盐的溶解作用及其影响因素.结果表明:(1)4种外生菌根真菌均能在Ca_3(PO_4)_2为唯一磷源的NBRIP平板上生长,但生长速率明显不同,且红绒盖牛肝菌生长速率最快.(2) 4种菌根真菌对4种磷酸盐的溶解能力存在显著差异,红绒盖牛肝菌发酵液可溶性磷含量大多显著高于对照和其他菌根真菌,对磷酸盐的溶解能力最强.(3)4种菌根真菌发酵液可滴定酸度(2.30～46.00 mmol·L~(-1))和pH(4.57～6.99)与其溶磷量分别呈极显著正相关(r=0.991**)和极显著负相关(r=-0.939**).(4)4种外生菌根真菌均能分泌乙酸、柠檬酸和反丁烯二酸,且它们分泌有机酸总量(14.14～1 537.46 mg·L~(-1))与其溶磷量呈显著正相关(r=0.998*).研究发现, 4种外生菌根真菌发酵液可滴定酸度、pH和有机酸的种类与含量是影响其溶解Ca_3(PO_4)_2能力的主要因素;红绒盖牛肝菌的溶磷能力较强,具有应用于中国土壤缺磷地区造林的潜力.     

Mycorrhization helper bacteria: a case of specificity for altering ectomycorrhiza architecture but not ectomycorrhiza formation

Mycorrhization helper bacteria (MHB), isolated from phylogenetically distinct ectomycorrhizal symbioses involving Lactarius rufus, Laccaria bicolor or Suillus luteus, were tested for fungus specificity to enhance L. rufus–Pinus sylvestris or L. bicolor–P. sylvestris mycorrhiza formation. As MHB isolated from the L. rufus and S. luteus mycorrhiza were originally characterised using a microcosm system, we assessed their ability to enhance mycorrhiza formation in a glasshouse system in order to determine the extent to which MHB are system-specific. Paenibacillus sp. EJP73, an MHB for L. rufus in the microcosm, significantly enhanced L. bicolor mycorrhiza formation in the glasshouse, demonstrating that the MHB effect of this bacterium is neither fungus-specific nor limited to the original experimental system. Although the five MHB strains studied were unable to significantly enhance L. rufus mycorrhiza formation, two of them did have a significant effect on dichotomous short root branching by L. rufus. The effect was specific to Paenibacillus sp. EJP73 and Burkholderia sp. EJP67, the two strains isolated from L. rufus mycorrhiza, and was not associated with auxin production. Altered mycorrhiza architecture rather than absolute number of mycorrhizal roots may be an important previously overlooked parameter for defining MHB effects.     

Dynamics of cytoskeletal proteins in developing pine ectomycorrhiza

 Mycorrhizal short roots of Pinus contorta Dougl. ex Loud colonized by Suillus variegatus (Sow. ex Fr.) O. Kuntze or Paxillus involutus (Batsch) Fr. were collected 1–>60 days after fungal contact. The proteins of the inoculated roots were extracted, electrophoretically separated, blotted and immunostained for α-tubulin and actin. The development of the mycorrhiza was also followed microscopically. The signal of plant α-tubulin was stronger than the signal of fungal α-tubulin during the first 5 days in S. variegatus mycorrhiza and was then exceeded by fungal α-tubulin. This correlated well with the increase of fungal mycelium in the mycorrhiza. A transient drop in both plant and fungal α-tubulin signals was observed 20 days after fungal contact, suggesting a change in the metabolism of the mycorrhiza. The signals for plant and fungal actins in the mycorrhiza increased steadily during early infection and then remained at a high level as the mycorrhiza matured. Similar trends were observed in P. contorta–P. involutus mycorrhiza. The data from P. contorta–S.variegatus mycorrhizas suggests that α-tubulin is a growth-related protein, subject to changes, while the amount of actin reflects the general metabolic activity of the mycorrhiza. In both mycorrhizal systems clear α-tubulin and actin signals were detected 60 days after colonization, which indicates that the mycorrhizas were metabolically active in spite of their withered appearance. Accepted: 6 May 1996     

Ultrastructural investigations of Arbutus unedo-Laccaria amethystea mycorrhiza synthesized in vitro

Summary Anatomy and ultrastructure of the arbutoid mycorrhiza of Arbutus unedo-Laccaria amethystea from axenic culture are described. In comparison to non-inoculated roots, the rhizodermal cells of mycorrhizas are of greater volume, their nuclei are enlarged and show an irregular shape, plasmalemma and cytoplasm with mitochondria, plastids, endoplasmic reticulum and dictyosomes are increased. Several ontogenetical states are documented. The arbutoid mycorrhiza as a connecting link between ectomycorrhiza and ericoid mycorrhiza is discussed.     

丛枝菌根在退化土壤恢复中的生态学作用

土壤退化 (包括土壤侵蚀、贫瘠化、盐碱化、沙化、酸化 )不仅为全球所关注 ,而且是关系到我国农业可持续发展的重大问题。全球 1.3× 10 8ｋｍ2 的总土地面积中 ,因人为原因引起的退化面积为 2 0×10 7ｋｍ2 ,这些退化土壤中 ,耕地近 5× 10 8ｈａ ,约占总耕地面积的 1/ 3。我国南方丘陵区土壤退化问题也突出 (水土流失面积 8 0× 10 7ｈａ ,养分贫瘠化 1 9×10 7ｈａ ,污染土壤 3 2× 10 6ｈａ ,酸化土壤 3 2×10 6ｈａ) ,因而探讨恢复和重建退化土壤的途径已成为该地区农业持续发展的重要内容[5] 。菌根 (ｍｙｃｏｒｒｈｉｚａ)是土…     

植物根系复合共生体研究进展

植物根系与菌根真菌形成的互惠共生体,即菌根(mycorrhizas)是最常见、最广泛分布的共生体之一。自然条件下,一些植物的根系可同时形成由2种类型菌根构成的混合菌根,或菌根与细菌、菌根与放线菌、菌根与其他种类真菌构建的所谓复合共生体。文中从复合共生体的概念入手,简要介绍混合菌根、菌根与细菌、菌根与放线菌、菌根与其他真菌构建的复合共生体的多样性、形态解剖特征、生长发育及其功能等方面的研究概况,旨在为推进该领域的研究提供依据和借鉴的思路。     

Importance of mycorrhization helper bacteria cell density and metabolite localization for the Pinus sylvestris-Lactarius rufus symbiosis

Mycorrhization helper bacteria, Paenibacillus sp. EJP73 and Burkholderia sp. EJP67, were used to study the importance of bacterial inoculum dose and bacterial derived soluble and volatile metabolites localization for enhancing mycorrhiza formation in the Pinus sylvestris-Lactarius rufus symbiosis, using a laboratory based microcosm. EJP73 and EJP67 produced different responses in relation to the inoculum dose; EJP73 significantly enhanced mycorrhiza formation to the same degree at all doses tested (10(5), 10(7), 10(9) and 10(10) CFU mL(-1)), whereas, EJP67 only stimulated mycorrhiza formation within a narrow range of inoculum densities (10(7) and 10(9) CFU mL(-1)). The importance of soluble bacterial metabolites was assessed by applying spent broth derived from exponential and stationary phase bacterial cultures to microcosms. No spent broth enhanced mycorrhiza formation over the control. As EJP73 produced the helper effect over a wide range of inoculum doses, this bacterium was chosen for further study. Physical separation of EJP73 from the fungal and plant symbiosis partners was carried out, in order to determine the contribution of constitutively produced bacterial volatile metabolites to the mycorrhization helper bacteria effect. When EJP73 was physically separated from the symbiosis, it had a significant negative effect on mycorrhiza formation. These results suggest that close proximity, or indeed cell contact, is required for the helper effect. Therefore, fluorescent in situ hybridization in conjunction with cryosectioning was used to determine the localization of EJP73 in mycorrhizal tissue. The cells were found to occur as rows or clusters ( approximately 10 cells) within the mycorrhizal mantle, both at the root tip and along the length of the mycorrhizal short roots.     

Mycorrhiza development of loblolly pine seedlings in relation to soil reaction and the supply of nitrate

Summary A study was made of the relative influence of nitrate and soil pH on mycorrhiza development in seedlings of loblolly pine (Pinus taeda L.). The investigation was conducted in the greenhouse, using as the growth medium topsoil collected from a young pine plantation.Lime-induced Fe-deficiency occurred at pH 7.5, resulting in chlorotic seedlings with few mycorrhizas. Chlorosis was corrected, and normal mycorrhiza development restored, by adding Fe-EDTA without altering soil pH.Application of 18 1/2, 37, and 74 pounds of N per acre as NaNO₃ reduced mycorrhiza development at age 21 weeks, but had no effect at age 45 weeks. At 21 weeks, the degree of infection varied inversely as the percentage total N in seedling roots. The effect of NaNO₃ was due to the nitrate ion, since Na₂CO₃ did not reduce mycorrhiza development even though it raised soil pH.Alkalinityper se did not affect mycorrhiza formation in loblolly pine seedlings, but only indirectly through its influence on host nutrition. Normal mycorrhiza development was possible at pH values of 7.2 and 7.5, provided Fe deficiency was corrected, and soil nitrate level was kept low. The results may be interpreted in terms of the carbohydrate — nitrogen balance in the root tissues.     

Improved Tolerance of Three Saudi Pearl Millet Cultivars (<i>Pennisetum spicatum</i>) to Salt Stress by Mycorrhiza

Seeds of three Saudi pearl millet cultivars (Pennisetum spicatum) from three regions (Madinah, Khulais and Jaizan) were inoculated with arbuscular mycorrhizal fungus Glomus mosseae obtained from the Agriculture Research Center of Giza, Egypt to enhance their salt tolerance. Five different NaCl concentrations (0, 30, 60, 90, and 120 mM) were used for treating cultivars with and without mycorrhiza. Growth rates, chlorophyll content, chlorophyll fluorescence (Fv/Fm), proline content and gas exchange were measured to determine the effect of salinity on these cultivars. The results indicated that compared to cultivars without mycorrhiza, all cultivars with mycorrhiza had enhanced growth and physiological parameters including shoot and root length, area and number of leaves, fresh and dry weights of shoots and roots, chlorophyll contents and gas exchanges at 0 and 30 mM of salinity. In addition, the measurements of the different growth rates showed higher growth performance of the cultivars from Madinah and Khulais than the cultivar from Jaizan. However, all cultivars with and without mycorrhiza showed significant reductions in growth rates, chlorophyll contents and gas exchanges at a salinity of 60 mM than those grown at 0 and 30 mM. Moreover, the values of Fv/Fm were significantly reduced in all cultivars with and without mycorrhiza grown at 60 mM than in those grown at 0 mM and 30 mM. Proline contents indicated a progressive increase with the elevation of NaCl concentration stress. The proline contents in the mycorrhiza-inoculated cultivars were significantly higher than those in the non-inoculated cultivars. On the other hand, all cultivars with and without mycorrhiza underwent senescence within four weeks of growth at salinity concentrations of 90 mM and 120 mM. Therefore, relatively low salinity must be maintained to achieve high growth rates and gas exchanges of these inoculated cultivars.