多生菌根菌接种马尾松和相思树幼苗的研究

以外生菌根菌Ｘｅｒｏｃｏｍｕｓ ｃｈｒｙｓｅｎｔｅｒｏｎ接种相思树与马尾松幼苗,不来菌栽培,植株生长指档和生理特性测定,都优于对照,以外生菌根菌Ｃａｌｖａｔｉａ ｌｉｌａｃｉｎａ加ＶＡ菌根菌Ｇｌｏｍｕｓ ｅｐｉｇａｍｕｓ双接种于相思树功苗,来菌栽培,植株含Ｎ量和脯氨酸等含量优于ＶＡ菌根菌单接种的效果,幼根切片观察到接种的外生菌根菌进入根皮层。细胞间隙,原有菌根的发育和结构状况有所改变。     

VA菌根真菌与植物相互选择性的研究

采用土培试验了灭菌条件下同一菌种对不同植物和不同菌咱对同一植物的接种效应。试验结果表明,供试植物都能与ＶＡ菌根真菌形成共生体系,接种ＶＡ菌根真菌促进了植物的生长,植株干物质量显著是否 同ＶＡ菌根真菌与宿主植物形成共生体的能力及对植物的接种疚差异明显,由此可见,选择优势菌咱和宿主植物组合,对于ＶＡ菌根真菌的广泛应用及农业生产具有重要的实践作用。     

丛枝菌根真菌对玉米和棉花内源激素的影响*

在温室盆栽条件下研究了丛枝菌根（Ａｒｂｕｓｃｕｌａｒ　ｍｙｃｏｒｒｈｉｚａｓ,ＡＭ）真菌：ＧｉｇａｓｐｏｒａｒｏｓｅａＮｉｃｏｌ．＆Ｓｃｈｅｎｃｋ、Ｇｌｏｍｕｓ　ｍｏｓｓｅａｅ（Ｎｉｃｏｌ．＆　Ｇｅｒｄ．）Ｇｅｒｄｅｍａｎｎ　＆Ｔｒａｐｐｅ和Ｇｌｏｍｕｓ　ｖｅｒｓｉｆｏｒｍｅ　（Ｋａｒｓｔｅｎ）Ｂｅｒｅｈ对玉米和棉花植株内源激素的影响。结果表明,ＡＭ真菌在正常供水和干旱条件下均能显著提高玉米和棉花植株叶片和根内玉米素、生长素和赤霉素的含量,并降低脱落酸的含量。在植物体内含磷量、生长量及其生长发育阶段等一致、仅存在接种与不接种唯一差异条件下,供试ＡＭ真菌同样能改变玉米和棉花植株内源激素的平衡状况。接种处理植株的脱落酸含量与气孔阻力呈正相关关系。表明玉米和棉花植株抗旱性和生长状况的改善与ＡＭ真菌改变内源激素的平衡状况有关。接种ＡＭ真菌的植株表现较强的抗旱性;其生长量也显著大于不接种的对照。ＧＩ．ｖｅｒｓｉｆｏｒｍｅ的效应最大。     

不同类型菌根菌对烟草幼苗生理代谢的影响

在自然土壤中以VA菌根菌接种烟草幼苗,测得叶片中N、P、K、叶绿素含量,硝酸还原酶活性及蛋白质含量均高于对照;与对照相比,接种的幼苗中丙二醛（MDA）、过氧化氢（H2O2）含量减少,超氧物歧化酶（SOD）、过氧化氢酶（CAT）、过氧化物酶（POD）活性增加,同时以外生菌根菌两个菌株分别接种,与所测指标变化趋势相同,而且其中的Calvatia lilacina菌株超过VA菌根菌接种的效果。     

磷胁迫条件下落叶松幼苗对难溶性磷的利用

以ＡｌＰＯ４为Ｐ源在温室内采用砂培的方法,研究了落叶松（Ｌａｒｉｘ ｇｍｅｌｉｎｉ）２年生幼苗对难溶性Ｐ酸盐的利用状况。结果表明,落叶松幼苗可以利用一定数量的ＡｌＰＯ４。在供ＡｌＰＯ４不接种菌根菌时,落叶松幼苗吸收的Ｐ可达正常供Ｐ时的３５．１％和６４．９％。不同菌种对落叶松幼苗利用ＡｌＰＯ４的影响不同。接种点柄乳牛肝菌（Ｓｕｉｌｌｕｓ ｇｒａｎｕｌａｔｕｓ）时,落叶松幼苗对ＡｌＰＯ４的利用量高于不     

丛枝菌根真菌对玉米和棉花内源激素的影响

在温室盆栽条件下研究了丛枝菌根（Ａｒｂｕｓｃｕｌａｒ ｍｙｃｏｒｒｈｉｚａｓ,ＡＭ）真菌：Ｇｉｇａｓｐｏｒａ ｒｏｓｅａ Ｎｉｃｏｌ．＆ Ｓｃｈｅｎｃｋ、Ｇｌｏｍｕｓ ｍｏｓｓｅａｅ（Ｎｉｃｏｌ．＆ Ｇｅｒｄ．）Ｇｅｒｄｅｍａｎｎ ＆ Ｔｒａｐｐｅ和Ｇｌｏｍｕｓ ｖｅｒｓｉｆｏｒｍｅ （Ｋａｒｓｔｅｎ）Ｂｅｒｃｈ对玉米和棉花植株内源激素的影响。结果表明,ＡＭ真菌在正常供水和干旱条件下均能显著提高     

寄生植物和接种物对丛枝菌根菌接种势的影响

在盆栽条件下研究了丛枝菌根菌（ａｒｂｕｓｃｕｌａｒ ｍｙｃｏｒｒｈｉｚａｌ ｆｕｎｇｉ,ＡＭＦ）单孢、多孢和菌根根段接种物及其寄主植物烟草（Ｎｉｃｏｔｉａｎａ ｔａｂａｃｕｍ Ｌ．）、苏丹草（Ｓｏｒｇｈｕｍ ｓｕｄａｎｅｎｓｅ（Ｐｉｐｅｒ）Ｓｔａｐｆ）和三叶草（Ｔｒｉｆｏｌｉｕｍ ｒｅｐｅｎｓ Ｌ．）对ＡＭＦ Ｇｌｏｍｎｓ ｍａｃｒｏｃａｒｐｕｍ Ｔｕｌ、Ｇｌｏｍｕｓ ｍｏｓｓｅａｅ（Ｎｉｃｏｌ＆     

香港次生林下植物菌根的调查

本文报道了香港６４种野生植物根系天然感染菌根菌的状况：９８．４％的植物都不同程度地感染上了菌根菌,９８．１％的根样发现受内生菌根（ＶＡＭ）的感染,其中小叶青冈（Ｑｕｅｒｃｕｓｍｙｒｓｉｎａｅｆｏｌｉａ）同时受外生菌根（ＥＣＭ）和内生菌根的感染。该研究揭示了香港次生林植物在自然条件下受菌根菌感染的普遍性,为进一步探讨华南地区菌根与退化地区植物群落演替的关系提供了重要的本底资料。     

中国盐碱土壤中AM菌的生态分布

对我国盐碱土壤中丛枝菌根（Ａｒｂｕｓｃｕｌａｒ Ｍｙｃｏｒｒｈｉｚａ,ＡＭ） 菌的种属构成、生态分布状况进行了研究．结果表明,不同地区ＡＭ 菌种属构成不同,其种属组成、分布与土壤类型、碱化度和土壤有机质含量有关．盐渍化砂土、壤土和粘土中,Ｇｌｏｍｕｓ 属的真菌数量最多,Ａｃａｕｌｏｓｐｏｒａ 属次之,而Ｇｌｏｍｕｓ 属中的Ｇ．ｍｏｓｓｅａｅ 则是分布最为广泛的菌种．随土壤碱化度的增加,Ｇｌｏｍｕｓ ｍｏｓｓｅａｅ 出现频率随之相对增加．在一定范围内有机质含量越高,土壤中ＡＭ 菌种和属的种类就越多．ＡＭ 菌的种属组成因不同寄主植物而异,其中豆科植物根围中ＡＭ 菌分布的种属数量最多．     

VA菌根共生的起源和进化

ＶＡ菌根共生的起源和进化赵之伟（云南大学生物学系,昆明６５００９１）ＯｒｉｇｉｎａｎｄＥｖｏｌｕｔｉｏｎｏｆｔｈｅＶＡＭｙｃｏｒｒｈｉｚａｌＳｙｍｂｉｏｓｉｓ．ＺｈａｏＺｈｉｗｅｉ（ＢｉｏｌｏｇｙＤｅｐａｒｔｍｅｎｔｏｆＹｕｎｎａｎＵｎｉｖｅｒｓｉｔ...     

A mycorrhiza helper bacterium enhances ectomycorrhizal and endomycorrhizal symbiosis of Australian Acacia species

The aims of this study were to test the effects of a mycorrhiza helper bacterium (MHB), Pseudomonas monteilii strain HR13 on the mycorrhization of (1) an Australian Acacia, A. holosericea, by several ectomycorrhizal fungi or one endomycorrhizal fungus Glomus intraradices, and (2) several Australian Acacia species by Pisolithus alba strain IR100 under glasshouse conditions. Bacterial inoculant HR13 significantly promoted ectomycorrhizal colonization for all the Acacia species, from 45.8% ( A. mangium) to 70.3% ( A. auriculiformis). A stimulating effect of HR13 on the ectomycorrhizal establishment was recorded with all the fungal isolates (strains of Pisolithus and Scleroderma). The same effect of bacteria on the frequency of endomycorrhizal colonization of A. holosericea seedlings by G. intraradices with vesicles and hyphae frequencies was recorded. The stimulation of saprophytic fungal growth by MHB is usually the main mechanism that could explain this bacterial effect on mycorrhizal establishment. MHB could stimulate the production of phenolic compounds such as hypaphorine and increase the aggressiveness of the fungal symbiont. However, no significant effect of MHB on fungal growth was recorded with Scleroderma isolates under axenic conditions but positive bacterial effects were observed with Pisolithus strains. From a practical viewpoint, it appears that MHB could stimulate the mycorrhizal colonization of Australian Acacia species with ectomycorrhizal or endomycorrhizal fungi, and could also facilitate controlled mycorrhization in nursery practices where Acacia species are grown for forestation purposes.     

外生菌根菌不同接种方法对樟子松苗木生长的影响

 以提高外生菌根真菌对樟子松(Pinus sylvestris var. mongolica)苗木促生长效果为目的, 在前期研究的基础上, 采用菌株配对培养的方法对获得的樟子松外生菌根真菌进行混合接种菌株组合筛选; 采用苗木截根-菌液浸根和沟施接种方法分别对2年生和3年生樟子松苗木进行野外单接种及混合接种。研究外生菌根真菌不同接种方法、菌株单接种及混合接种对樟子松苗木生长的影响。试验结果表明: 供试菌株及菌株组合对樟子松苗木生长均有一定的促进作用。菌株GT005和菌株035为供试菌株中对樟子松苗木促生长效果最佳的菌株。采用苗木截根-菌液浸根方法接种2年生樟子松苗木130 d, GT005接种的苗木高生长提高54%, 地径生长提高15%, 过氧化氢酶活性提高48%, 而根系活力降低3%; 菌株035接种的苗木高生长提高42%, 地径生长提高56%, 过氧化氢酶活性提高47%, 根系活力提高11%。沟施接种方法接种3年生樟子松苗木100 d, GT005接种苗木高生长提高10%, 地径生长提高15%, 过氧化氢酶活性提高90%, 而根系活力降低34%; 菌株035接种苗木高生长提高7%, 地径生长提高9%, 过氧化氢酶活性提高6%, 而根系活力降低46%; 菌株组合044/GT001和GT001/GT005 接种的苗木高生长仅比对照提高3.47%和2.07%, 而菌株组合 044/025 和044/009 接种的苗木高生长低于对照; 混合接种的苗木其地径生长高于对照0.16%～7.98%。综上所述, 苗木截根-菌液浸根接种方法对苗木的促生长效果显著高于沟施接种方法; 外生菌根菌高效菌株与一般菌株混合接种会弱化高效菌株自身接种效果; 苗木过氧化氢酶活性、苗木根系活力与苗木的生物量间无相关性。     

The effects of insect pathogenic soil fungi and ectomycorrhizal inoculation of birch seedlings on the survival of Otiorhynchus larvae

• 1 Weevil larvae of the genus Otiorhynchus are a serious problem in agriculture and forestry, causing damage to a wide range of plant species, primarily by larval feeding on roots. Otiorhynchus larvae are a serious pest in forest plantations in Iceland, causing 10–20% mortality of newly‐planted seedlings.
• 2 We studied the effects of soil fungi on the survival of Otiorhynchus sulcatus larvae. The larvae were introduced into pots with birch seedlings grown in: (i) nursery peat; (ii) nursery peat inoculated with three different species of ectomycorrhizal fungi; (iii) nursery peat inoculated with insect pathogenic fungi; (iv) nursery peat inoculated with ectomycorrhizal fungi and insect pathogenic fungi; and (v) nursery peat inoculated with natural forest soil from Icelandic birch woodland.
• 3 Larval survival was negatively affected by inoculation of: (i) the ectomycorrhizal fungus Laccaria laccata; (ii) the ectomycorrhizal fungus Cenococcum geophylum; (iii) the insect pathogenic fungus Metarhizium anisopliae; and (iv) forest soil. Inoculation with the ectomycorrhizal fungus Phialophora finlandia did not have any significant effect on larval survival. No significant synergistic effect was found between insect pathogenic and ectomycorrhizal fungi.
• 4 It is concluded that ectomycorrhizal and insect pathogenic fungi have a significant potential in biological control of Otiorhynchus larvae in afforestation areas in Iceland. Further studies are needed to establish the effect of these fungi in the field and to analyse how mycorrhizal fungi affect root‐feeding larvae.

     

The auxin transport inhibitor 2,3,5-triiodobenzoic acid (TIBA) inhibits the stimulation of in vitro lateral root formation and the colonization of the tap-root cortex of Norway spruce (Picea abies) seedlings by the ectomycorrhizal fungus Laccaria bicolor

Norway spruce ( Picea abies (L.) Karst.) seedlings were inoculated with the ectomycorrhizal fungus Laccaria bicolor ((Marie) Orton), strain S238 N, in axenic conditions. The presence of the fungus slowed tap–root elongation by 26% during the first 15 d after inoculation and then stimulated it by 136%. In addition, it multiplied in vitro lateral root formation by 4.3, the epicotyl growth of the seedlings by 8.4 and the number of needles by 2. These effects were maintained when the fungus was separated from the roots by a cellophane membrane preventing symbiosis establishment, thus suggesting that the fungus acted by non-nutritional effects. We tested the hypothesis that IAA produced by L. bicolor S238 N would be responsible for the stimulation of fungal induced rhizogenesis. We showed in previous work that L. bicolor S238 N can synthesize IAA in pure culture. Exogenous IAA supplies (100 and 500 μ m ) reproduced the stimulating effect of the fungus on root branching but inhibited root elongation. The presence of 2,3,5-triiodobenzoic acid (TIBA) in the culture medium significantly depressed lateral root formation of inoculated seedlings. As TIBA had no significant effect on IAA released in the medium by L. bicolor S238 N, but counteracted the stimulation of lateral rhizogenesis induced by an exogenous supply of IAA, we suggest that TIBA inhibited the transport of fungal IAA in the root. Furthermore TIBA blocked the colonization of the main root cortex by L. bicolor S238 N and the formation of the Hartig net. These results specified the role of fungal IAA in the stimulation of lateral rhizogenesis and in ectomycorrhizal symbiosis establishment.     

Studies in tetrapartite symbioses

Alnus incana seedlings were successfully inoculated with an endomycorrhizal fungus (Glomus fasciculatus), an ectomycorrhizal fungus (Paxillus involutus) and an isolate ofFrankia (ACN1) simultaneously. The effects of the inoculation treatments on the growth performance of the seedlings were evaluated under controlled conditions.The overall growth performance of the seedlings inoculated with the three organisms was better than those inoculated withFrankia, G. fasciculatus andP. involutus individually or withFrankia+G. fasciculatus andFrankia+P. involutus combinations. The highest growth performance and mycorrhizal infection occurred when the seedlings were inoculated simultaneously withFrankia+G. fasciculatus+P. involutus.     

猪苓菌丝形成菌核伴生菌的发现及应用

在野生猪苓(Grifola umbellata (Pers.) Pilát)菌核生长穴中首次分离到猪苓菌丝形成菌核所必需的伴生菌(Grifola sp.).实验证明:纯培养的猪苓菌丝不能形成菌核,但其与伴生菌共培养,无论在实验室培养基上或用树棒栽培,猪苓菌核形成很快且发育正常;伴生菌是猪苓菌丝形成菌核的关键生物因子.另外,伴生菌菌丝和猪苓菌菌丝二者形态差别较大,前者多为细长的薄壁菌丝,后者多为细胞直径较大的薄壁和厚壁菌丝.     

外生菌根真菌对杉木的接种效应

对商南县2年生杉木苗木进行乳牛肝菌(Suillus bovines)、褐环乳牛肝菌(Suillus luteus)和褐黄牛肝菌(Boletus luridus)3种外生菌根真菌的接种试验.结果显示,外生菌根真菌对杉木苗木成活率、苗高和地径生长均有明显的促进作用,能明显提高苗木的菌根化水平,增加苗木体内叶绿素含量,促进其游离脯氨酸含量的累积,降低丙二醛含量.对不同坡向杉木苗木各项生长指标的分析显示,在杉木人工造林中,阳坡的综合效应明显优于阴坡.乳牛肝菌和褐黄牛肝菌可作为一种生物肥料,在杉木人工造林中应用.     

外生菌根菌对樟子松苗木生长的影响

通过菌种野外采集、分离培养、纯化及室内人工接种试验,获得9株樟子松外生菌根菌。采用苗木截根—菌剂浸根方法,对2年生樟子松移床苗进行外生菌根菌野外单接种试验,以接种无菌液体培养基的苗木作为对照,研究外生菌根菌单接种对樟子松苗木生长的影响。野外单接种试验表明,9株外生菌根菌对樟子松苗木均有一定的促生长效果。接种130 d,除菌株010外,其他菌株均可提高樟子松苗高23%以上。其中,接种菌株GT005的苗高提高54.24%;接种菌株035、009、LH004及GT001的苗高分别提高41.53%、36.44%、35.59%和35.59%。菌株035、LH004、025、010和GT001可使苗木地径提高20%以上,其中菌株035提高地径56.31%,菌株LH0040、25分别提高39.93%和29.01%。除接种菌株010的苗木外,接种其他菌株的樟子松苗木过氧化氢酶活性均高于对照30.23%~48.37%。接种菌株004的苗木根系活力最强,高于对照39.17%;接种菌株GT005和010的苗木,根系活力低于对照;接种其他菌株的苗木根系活力高于对照2.5%~16.67%。接种菌株GT005的苗木的叶绿素含量最高,高于对照20%以上。9个菌株均可用于樟子松苗木生产中。樟子松苗木的过氧化氢酶活性、根系活力与苗木的生物量间无相关性。     

Relative importance of the endomycorrhizal and (or) ectomycorrhizal associations in Allocasuarina and Casuarina genera

This work was carried out to determine the relative importance of the endomycorrhizal and (or) ectomycorrhizal association in species of Casuarina and Allocasuarina. Under axenic conditions, Pisolithus and Scleroderma isolates formed ectomycorrhizas with a mantle and a Hartig net on Allocasuarina verticillata but failed to form a Hartig net on Casuarina glauca. In a controlled soil system, C. glauca was inoculated with the endomycorrhizal fungus Glomus intraradices Schenck & Smith, and A. verticillata was inoculated with Pisolithus albus IR100 Bougher & Smith and (or) G. intraradices. Both symbionts significantly stimulated growth in both plant species. For A. verticillata, its growth response to ectomycorrhizal inoculation was higher than to endomycorrhizal inoculation. When both symbionts were inoculated, antagonism among the fungal isolates was observed with a higher ectomycorrhizal colonization. These results showed that A. verticillata was ectomycorrhizal dependent, whereas C. glauca was endomycorrhizal dependent. From a practical point of view, this study shows the importance of selecting compatible mycorrhizal fungi for developing successful inoculation programmes. In addition, it would help to further research and determine the effect of ecto- and endo-mycorrhizal symbiosis on the formation and function of N2-fixing actinorhizal nodules.     

Uptake and transfer of nutrients in ectomycorrhizal associations: interactions between photosynthesis and phosphate nutrition

Energy-dispersive X-ray microanalytical investigations and microautoradiographic studies were carried out to examine whether the uptake and transfer of phosphate (P) by an ectomycorrhizal fungus is affected by the carbohydrate supply of its host plant. For this purpose, non-mycorrhizal seedlings of Pinus sylvestris L. and plants inoculated with the ectomycorrhizal basidiomycete Suillus bovinus (L. ex Fr.) Kuntze were placed in the dark for 7 days in advance of a P supply. The subcellular element distribution and the uptake and distribution of (33)P was analyzed in non-mycorrhizal and mycorrhizal roots of these plants and compared with plants kept constantly under normal light conditions (control plants). The results show that placing non-mycorrhizal plants in the dark in advance of the nutrient supply led to (1) a reduction of the subcellular contents of P, S and K, but to an increase in the cytoplasmic Na content, and (2) an increase of (33)P absorption and translocation to the shoot. It can be assumed that this increased inflow of (33)P in non-mycorrhizal plants was due to P starvation after suppressed photosynthesis and reduced respiration of these plants. The suppression of photosynthesis by an ectomycorrhizal host plant and the resulting lower carbohydrate supply conditions for the ectomycorrhizal fungus led to (1) a decrease of P absorption by the mycobiont, (2) a change of the P allocation in the fungal cell compartments of an ectomycorrhizal root, and (3) a reduction of P transfer to the host plant. However, microautoradiographic studies revealed that, under these conditions, P was also absorbed by the mycorrhizal fungus and translocated via the Hartig net to the host plant. In mycorrhizal roots of plants placed in the dark in advance of the nutrient supply, the cytoplasmic P content of the Hartig net was reduced and, instead, a high number of polyphosphate granules could be detected within the hyphae. The results indicate that the exchange processes between the symbionts in a mycorrhiza are possibly linked and that P uptake and translocation by an ectomycorrhizal fungus is also regulated by the carbohydrate supply of its host plant.