Zinc toxicity in ectomycorrhizal Pinus sylvestris

Six strains of ectomycorrhizal fungi were compared for their ability to increase zinc tolerance in Pinus sylvestris L. seedlings. Pioneer and late-stage fungi as well as one strain collected from a Zn-polluted site were included in the study. The accumulation of zinc in the host plants was determined at two different sublethal substrate Zn concentrations. The mycobionts varied considerably in their protection of the autobionts against zinc toxicity. Several fungal species reduced zinc accumulation in the pine seedlings. A Thelephora terrestris (Ehrh.) Fr. Strain, however, increased the Zn concentration in its host plants. Specific zinc-retaining capacity of the mycelium and density of the extramatrical mycelium were important features determining the effectiveness of the zinc retention in the fungal symbiont.The experiments were carried out in a growth chamber where plants were cultivated in root observation chambers. The determination of the extent of substrate colonization showed that an elevated zinc concentration in a substrate might be an important stress factor for the growth of an ectomycorrhizal fungus. The growth of the extramatrical mycelium of some species was inhibited at the highest zinc concentration supplied. A determination of the in vitro zinc tolerance of the fungi could not always predict their tolerance as symbionts, where the latter characteristic did not determine the Zn retention capacity of their mycelium.In this paper we also discuss the possibility that on Zn-polluted soils ectomycorrhizal species and strains are selected that are Zn-tolerant and, in addition, are able to protect their own energy source, the autobiont, from toxicity. These mycorrhizal fungi act as a safety net, that can immobilize large amounts of zinc, thus preventing transport to the host plant.     

Sensitivity to Cd or Zn of host and symbiont of ectomycorrhizal Pinus sylvestris L. (Scots pine) seedlings

Pinus sylvestris seedlings infected with either the ectomycorrhizal (ECM) fungus Paxillus involutus or Suillus variegatus were exposed to a range of Cd or Zn concentrations. This was done to investigate the relationship between the sensitivity of ECM fungi and their host plants over a wide range of concentrations. P. involutus ameliorated the toxicity of Cd and Zn to P. sylvestris with respect to root length, despite significant inhibition of ECM infection levels by Cd (Cd EC₅₀ [effective concentration which inhibits ECM infection by 50%] values were: P. involutus 3.7 μg g^-1 Cd; S. variegatus 2.3 μg g^-1 Cd). ECM infection by P. involutus also decreased Cd and Zn transport to the plant shoots at potentially toxic concentrations and also influenced the proportion of Zn transported to the roots and shoots, with a higher proportion retained in the roots of the seedlings. ECM infection did increase host biomass production, but this was not affected by the presence of Cd or Zn. Root and shoot biomass production by P. sylvestris, in both the presence and absence of ECM fungi, was unaffected by Cd and Zn at all concentrations tested. This revised version was published online in August 2006 with corrections to the Cover Date.     

The effect of ectomycorrhizal fungi on Zn uptake and distribution in seedlings of Pinus sylvestris L

Seedlings of pine, infected with two different ectomycorrhizal fungi, Suillus bovinus (Fr.) O. Kuntze and an unidentified isolate (BP), were exposed to various external Zn concentrations. An additional strain of S. bovinus, cultured on a Zn-enriched medium, was also used. The effect of mycorrhizal associations on Zn uptake and distribution within the plant was determined by AAS.The results show that nonmycorrhizal seedlings have the capability to control the uptake and translocation of Zn to the shoot until the external Zn concentration reaches a threshold level, where no limitation of uptake is possible. Excess Zn is accumulated in the root system to protect the shoot against toxic tissue concentrations. The effect of an ectomycorrhizal infection on Zn uptake and distribution depends on (1) the fungal species (2) the external concentration and (3) the Zn content of the fungal culture medium. Under conditions of low external Zn supply, especially a mycorrhizal infection with S. bovinus led to an increased Zn uptake in root and needles of Pinus sylvestris. Under high external conditions the mycobionts varied considerably in their capability to reduce the transport of Zn to the shoot. Only by an infection with S. bovinus the plant was able to maintain the shoot tissue concentration on a low level. This effect can be enhanced by pretreatment of S. bovinus with high Zn concentrations.     

Organic anion exudation by ectomycorrhizal fungi and Pinus sylvestris in response to nutrient deficiencies

Low molecular weight organic anions (LMWOA) can enhance weathering of mineral grains. We tested the hypothesis that ectomycorrhizal (EcM) fungi and tree seedlings increase their exudation of LMWOA when supply of magnesium, potassium and phosphorus is low to enhance the mobilization of Mg, K and P from mineral grains. Ectomycorrhizal fungi and Pinus sylvestris seedlings were cultured in symbiosis and in isolation on glass beads with nutrient solution or with sand as a rooting medium, with a complete nutrient supply or with Mg, K, P or N in low supply. Concentrations of all dicarboxylic LMWOA in the rooting medium were measured. Nonmycorrhizal seedlings released predominantly malonate. Colonization with Hebeloma longicaudum decreased the amount of organic anions exuded, whereas Paxillus involutus and Piloderma croceum increased the concentration of oxalate but not the total amount of LMWOA. Phosphorus deficiency increased the concentration of LMWOA by nonmycorrhizal and EcM seedlings. Magnesium deficiency increased the concentration of oxalate by nonmycorrhizal and EcM seedlings, but not the concentration of total LMWOA. Paxillus involutus grown in pure culture responded differently to low nutrient supply compared with symbiotic growth. Ectomycorrhizal fungi did not increase the total concentration of LMWOA compared with nonmycorrhizal seedlings but, depending on the fungal species, they affected the type of LMWOA found.     

Free amino acids production by ectomycorrhizal fungi of pine (Pinus sylvestris L.)

Studies on free amino acids production by five species of ectomycorrhizal fungi (Amanita muscaria, Suillus granulatus, Suillus luteus, Suillus bovinus and Rhizopogon luteolus) show that all the fungi produced mainly: glutamic acid, leucine, lysine, ornithine, arginine and an unidentified ninhydrin-positive compound X3. Both the quality and quantity of amino acids released was different in the fungal species studied. The predominant amino acids in post-culture liquids in general did not exceed 1.5 micrograms/mg dry mass.     

呼伦贝尔沙地樟子松外生菌根真菌多样性

沙地樟子松是我国北方重要的防风固沙造林树种,也是一种典型的外生菌根依赖型树种。为揭示呼伦贝尔沙地樟子松外生菌根真菌多样性,以中龄、近熟、成熟3个龄组沙地樟子松人工林和沙地樟子松天然林为研究对象,采用野外调查和分子生物学相结合的研究方法,鉴定分析沙地樟子松外生菌根真菌种群特征。研究结果表明：（1）呼伦贝尔沙地樟子松外生菌根真菌共有10个OTU属于子囊菌,48个OTU属于担子菌,隶属于21科25属。（2）天然林优势菌为糙缘腺革菌属Amphinema、丝膜菌属Cortinarius和乳牛肝菌属Suillus,人工林优势菌为乳牛肝菌属,其余菌种相对丰度随着林龄变化波动较大。（3）天然林与人工林外生菌根真菌种群Shannon、Simpson和Pielou指数存在显著差异（P<0.05）,人工林间alpha多样性指数差异不显著（P>0.05）。（4）呼伦贝尔沙地樟子松天然林和人工林外生菌根真菌种群组成存在较大差异,其中近熟林的外生菌根真菌群落组成与天然林的最为接近。     

Growth response of drought-stressed Pinus sylvestris seedlings to single- and multi-species inoculation with ectomycorrhizal fungi

Many trees species form symbiotic associations with ectomycorrhizal (ECM) fungi, which improve nutrient and water acquisition of their host. Until now it is unclear whether the species richness of ECM fungi is beneficial for tree seedling performance, be it during moist conditions or drought. We performed a pot experiment using Pinus sylvestris seedlings inoculated with four selected ECM fungi (Cenococcum geophilum, Paxillus involutus, Rhizopogon roseolus and Suillus granulatus) to investigate (i) whether these four ECM fungi, in monoculture or in species mixtures, affect growth of P. sylvestris seedlings, and (ii) whether this effect can be attributed to species number per se or to species identity. Two different watering regimes (moist vs. dry) were applied to examine the context-dependency of the results. Additionally, we assessed the activity of eight extracellular enzymes in the root tips. Shoot growth was enhanced in the presence of S. granulatus, but not by any other ECM fungal species. The positive effect of S. granulatus on shoot growth was more pronounced under moist (threefold increase) than under dry conditions (twofold increase), indicating that the investigated ECM fungi did not provide additional support during drought stress. The activity of secreted extracellular enzymes was higher in S. granulatus than in any other species. In conclusion, our findings suggest that ECM fungal species composition may affect seedling performance in terms of aboveground biomass.     

Tree age influences on the development of edible ectomycorrhizal fungi sporocarps in Pinus sylvestris stands

The study of factors influencing the production and development of wild edible mushroom sporocarps is extremely important in the characterization of the fungi life cycle. The main objective of this work is to determine how tree age influences the speed of sporocarp growth of edible ectomycorrhizal fungi Boletus edulis and Lactarius deliciosus in a Pinus sylvestris stand. This study is based on information recorded on a weekly basis every autumn between 1995 and 2008 in a set of permanent plots in Spain. Sporocarps are collected weekly, and as a result, specimens may not have reached their maximum size. The study area is a monospecific P. sylvestris stand. Three age classes were considered: under 30 years, between 31 and 70 years, and over 70 years. Sporocarps of B. edulis and L. deliciosus grow faster in the first age class stands than in the other two, and in the second age class stands, sporocarps are more than 50% smaller. The average weight of the picked B. edulis sporocarps clearly varies in the three age classes considered, with its maximum in the first age class (127 g and 6.8 cm cap diameter), minimum in the second age class (68 g and 4.7 cm cap diameter), and showing a relative maximum in the third (79 g and 4.3 cm cap diameter). L. deliciosus sporocarps are on average larger in the first age class (48 g and 7.4 cm cap diameter), decreasing in the second (20 g and 5.8 cm cap diameter) and also in the third (21 g and 5.3 cm cap diameter). The results show the influence of tree age in speed of sporocarp growth for the two ectomycorrhizal species.     

Cryopreservation of ectomycorrhizal fungi has minor effects on root colonization of Pinus sylvestris plantlets and their subsequent nutrient uptake capacity

The use of ectomycorrhizal (ECM) fungi for afforestation, bioremediation, and timber production requires their maintenance over long periods under conditions that preserve their genetic, phenotypic, and physiological stability. Cryopreservation is nowadays considered as the most suitable method to maintain the phenotypic and genetic stability of a large number of filamentous fungi including the ECM fungi. Here, we compared the ability of eight ECM fungal isolates to colonize Pinus sylvestris roots and to transport inorganic phosphate (Pi) and NH₄ ⁺ from the substrate to the plant after cryopreservation for 6 months at ?130 °C or after storage at 4 °C. Overall, the mode of preservation had no significant effect on the colonization rates of P. sylvestris, the concentrations of ergosterol in the roots and substrate, and the uptake of Pi and NH₄ ⁺. Comparing the isolates, differences were sometimes observed with one or the other method of preservation. Suillus bovinus exhibited a reduced ability to form mycorrhizas and to take up Pi following cryopreservation, while one Suillus luteus isolate exhibited a decreased ability to take up NH₄ ⁺. Conversely, Hebeloma crustuliniforme, Laccaria bicolor, Paxillus involutus, and Pisolithus tinctorius exhibited a reduced ability to form mycorrhizas after storage at 4 °C, although this did not result in a reduced uptake of Pi and NH₄ ⁺. Cryopreservation appeared as a reliable method to maintain important phenotypic characteristics (i.e., root colonization and nutrient acquisition) of most of the ECM fungal isolates studied. For 50 % of the ECM fungal isolates, the colonization rate was even higher with the cultures cryopreserved at ?130 °C as compared to those stored at 4 °C.     

Cross-colonization of Scots pine (Pinus sylvestris) seedlings by the ectomycorrhizal fungus Paxillus involutus in the presence of inhibitory levels of Cd and Zn

The effects of Cd and Zn on cross-colonization by Paxillus involutus of Scots pine seedlings was examined by using pairs of ectomycorrhizal (ECM) and non-mycorrhizal (NM) seedlings grown in the same vessel. This was done to assess, first, the ability of P. involutus to colonize NM Scots pine seedlings by growth from colonized roots of other Scots pine seedlings in the presence of Cd or Zn, and, second whether ECM colonization of Scots pine by P. involutus provided a competitive advantage over NM seedlings. Ectomycorrhizal colonization of Scots pine was shown to be more sensitive than Scots pine itself to Cd and Zn, but prior colonization did provide a competitive advantage with respect to biomass production. This beneficial effect over NM seedlings was, however, equal in the control, Cd and Zn treatments, and was due simply to growth stimulation in the presence of ECM colonization. Cross-colonization from an ECM to a NM seedling was reduced but not prevented by Cd and Zn. Cd had a more negative effect on cross-colonization than on initial colonization of seedlings, whereas Zn had an equally inhibitory effect on both parameters. These results have important implications for plant establishment on metal-contaminated sites. If cross-colonization between plants is reduced by toxic metals, plant establishment on contaminated sites might be retarded.     

毛乌素沙地樟子松外生菌根真菌多样性特征

【背景】外生菌根真菌(ectomycorrhizal fungi,ECMF)侵入林木根系形成外生菌根,是樟子松(Pinus sylvestris var. mongholica)适应环境变化和环境胁迫的重要途径。【目的】深入理解沙地樟子松人工林外生菌根真菌群落组成和多样性。【方法】以毛乌素沙地3个林龄(27、33和44 a)沙地樟子松人工林为研究对象,采用rDNA ITS区段PCR扩增测序方法鉴定分析沙地樟子松外生菌根真菌群落组成并计算多样性指数。【结果】毛乌素沙地樟子松共获得56个外生菌根真菌OTU,隶属于2门3纲8目15科21属,优势属为棉革菌属(Tomentella)、地孔菌属(Geopora)和阿太菌属(Amphinema)。27 a人工林外生菌根真菌丰富度指数最高,33 a人工林ECMF的α多样性指数最高,但不同林龄之间不存在显著差异(P>0.05)。不同林龄沙地樟子松ECMF群落组成存在差异,地孔菌属、棉革菌属、Delastria和Mallocybe的动态变化是造成群落组成差异的主要原因。【结论】毛乌素沙地樟子松人工林外生菌根真菌群落组成较为丰富,该研究区的群落组成可能比多样性更能体现外生菌根真菌群落随林龄的动态变化,伴随着林木的生长成熟,部分功能性外生菌根真菌的动态变化可能与沙地樟子松人工林退化存在密切联系,有待进一步研究。     

Competition for nitrogen between Pinus sylvestris and ectomycorrhizal fungi generates potential for negative feedback under elevated CO2

We investigated fungal species-specific responses of ectomycorrhizal (ECM) Scots pine (Pinus sylvestris) seedlings on growth and nutrient acquisition together with mycelial development under ambient and elevated CO₂. Each seedling was associated with one of the following ECM species: Hebeloma cylindrosporum, Laccaria bicolor, Suillus bovinus, S. luteus, Piloderma croceum, Paxillus involutus, Boletus badius, or non-mycorrhizal, under ambient, and elevated CO₂ (350 or 700 μl l⁻¹ CO₂); each treatment contained six replicates. The trial lasted 156 days. During the final 28 days, the seedlings were labeled with ¹⁴CO₂. We measured hyphal length, plant biomass, ¹⁴C allocation, and plant nitrogen and phosphorus concentration. Almost all parameters were significantly affected by fungal species and/or CO₂. There were very few significant interactions. Elevated CO₂ decreased shoot-to-root ratio, most strongly so in species with the largest extraradical mycelium. Under elevated CO₂, ECM root growth increased significantly more than hyphal growth. Extraradical hyphal length was significantly negatively correlated with shoot biomass, shoot N content, and total plant N uptake. Root dry weight was significantly negatively correlated with root N and P concentration. Fungal sink strength for N strongly affected plant growth through N immobilization. Mycorrhizal fungal-induced progressive nitrogen limitation (PNL) has the potential to generate negative feedback with plant growth under elevated CO₂. Responsible Editor: Herbert Johannes Kronzucker     

Interactions between needles of Pinus resinosa and ectomycorrhizal fungi

Relatively little is known about the factors controlling ectomycorrhizal fungal communities. One possible factor is forest litter chemistry. In a series of experiments we demonstrated that the growth of ectomycorrhizal fungi able to colonize red pine ( Pinus resinosa Ait.) are differentially affected by red pine needles and needle chemical components. For example, water extracts of pine needles stimulated the growth of Suillus intermedius (Smith & Thiers) Smith & Thiers and inhibited the growth of Amanita rubescens Pers. Catechin and epicatechin gallate, components of the water extract, acted similarly to the extract. The volatile compounds α- and β-pinene also had differential effects on the growth of the various species of ectomycorrhizal fungi. Our results suggest that forest litter chemistry has the potential differentially to affect the growth of ectomycorrhizal fungal species and so could affect the structure of ectomycorrhizal fungal communities.     

云南松(Pinus yunnanensis)林外生菌根真菌的时空分布

2000年至2005年,调查了滇中及其附近云南松林下外生菌根真菌的生态分布,共采集、鉴定标本834号,计有27科39属211种（含变种、变型）。结果表明,红菇属（Russula）、牛肝菌属（Boletus）、乳菇属（Lactarius）、乳牛肝菌属（Suillus）、口蘑属（Tricholoma）、鸡油菌属（Cantharellus）和革菌属（Thelephora）等为云南松林下的主要外生菌根菌类群。它们的发生与分布受到气候（如：气温和降水）、植被（如：林龄、林地郁闭度和草本植被）、地形特征（如：海拔、坡向和坡度）、土壤条件（如：pH值、地表腐殖质和枯枝落叶层等）和人为干扰（比如：商业化采集、林木采伐、火烧和地表物清理）诸多因素的影响。总结为如下：（1）5a的调查结果显示,云南松外生菌根菌的分布表现出季节性变化的规律;其中以每年1、2、3月份的物种多样性为最低,雨季期间急剧增加,至中夏和秋末达到顶峰,种类最为繁多。（2）在海拔1500-2100m,云南松外生菌根菌种类随着海拔的升高而逐渐增加,至顶峰后,又呈缓慢下降趋势。海拔因素不但对其物种多样性,而且对于类群的组成也具有重要的影响。特定的类群往往发生在特定海拔范围。（3）随着云南松林龄的增加,外生菌根菌呈现由少至多的演替过程。外生菌根菌多样性随云南松林生长而逐渐增加的演替方式,可能与宿主光合作用产物、根部分泌物和土壤条件的逐渐变化有关。（4）人类干扰是云南松外生菌根菌物种多样性和类群组成的主要负影响因子。大规模的商业化采集可破坏或枯竭地下菌丝体,打破各物种之间的竞争平衡,减少孢子释放影响资源再生能力,进而直接影响到子实体的产生。外生菌根菌物种多样性的减少趋势会随林木砍伐和火烧强度的增加而加剧。地表枯枝落叶层与杂草密度也会影响子实体的产生,其中枯枝落叶层的厚度与云南松外生菌根菌子实体的发生呈负相关性,而被紫茎泽兰覆盖的云南松林地内也很少会发现相应的子实体。     

温度、pH及干旱胁迫对沙地樟子松外生菌根菌生长影响

通过对采集于沙地樟子松人工林内的3种外生菌根真菌（牛肝菌Boletus sp.、乳菇Lactariussp.、高环柄菇Macrolepiota procera）进行纯培养,在不同温度、pH值和PEG模拟干旱胁迫条件下,观测了外生菌根菌的生长发育状况.结果表明,3种外生菌根菌生物量在不同pH范围（3～7）内存在着显著差异（P＜0.05）;在低于5℃和高于37℃时,3种外生菌根菌均不能生长,其最适生长温度分别为：牛肝菌,25℃高环柄菇,25～28℃,乳菇,25～30℃;在低浓度PEG胁迫处理条件下（10%,-0.20MPa）,3种外生菌根菌的生长均有所增加,当PEG胁迫达到30%（-1.53 MPa）时,3种外生菌根菌的生长均受到抑制.与上述结果比较,沙地樟子松人工林地土壤的实际pH值在外生菌根菌的最适生长范围内;林地最高气温值远远超过3种外生菌根菌的最适生长值的时间在每年的生长季都会出现;在极端干旱年份（如1996年）,林地土壤的实际含水量在生长季节（5～9月）远远低于抑制外生菌根菌生长的土壤含水量,可能影响到外生菌根菌的生存.因此,可以推断,沙地樟子松人工林地的外生菌根菌的生长与发育,在干旱胁迫及高温作用下受到很大程度的影响,如果仅从微生物角度分析,外生菌根菌在干旱和高温条件下不能生长或已经死亡是导致沙地樟子松人工林衰退的一个原因.     

重金属Cd－Zn对水稻的复合污染和生态效应

重金属Ｃｄ－Ｚｎ对水稻的复合污染和生态效应周启星（浙江农业大学,杭州３１００２９）吴燕玉,熊先哲（中国科学院沈阳应用生态研究所,１１００１５）ＣｏｍｐｏｕｎｄｐｏｌｌｕｔｉｏｎｏｆＣｄａｎｄＺｎａｎｄｉｔｓｅｃｏｌｏｇｉｃａｌｅｆｆｅｃｔｏｎｒｉｃｅ...