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。     

两种外生菌根真菌在辽东栎幼苗上的混合接种效应

 辽东栎（Quercus liaotungensis）是中国暖温带落叶阔叶林的主要优势树种之一。铆钉菇（Gomphidius viscidus）和臭红菇（Russula foetens）是在自然环境中与其共生形成外生菌根的真菌。在前期工作证明铆钉菇和臭红菇接种对辽东栎幼苗生长有明显促进作用并以两菌种混合接种效果较好的基础上,探讨了不同的接种量和两个菌种不同比例的混合接种对辽东栎幼苗生长和氮、磷养分的影响。对应于试验的12、18、24 g·pot-1 3个接种量处理,随着接种量的增加,辽东栎幼苗的菌根侵染率增加,铆钉菇菌根的比例增加,而臭红菇菌根的比例减少。辽东栎幼苗的生物量、株高、净光合速率和全株的全氮、全磷含量,均以18 g·pot-1接种量的最高。当接种物中铆钉菇∶臭红菇的比例分别为2∶1、1∶1、1∶2时,辽东栎幼苗的菌根侵染率分别为96.54%、91.02%、92.13%,但彼此间差异不显著。随着接种物中铆钉菇比例的减少,铆钉菇菌根所占比例由42.49%降为23.33%,而臭红菇菌根的比例由57.51%增加为76.67%。辽东栎幼苗的生物量和净光合速率均是以接种比例为1∶1的最高。接种比例为1∶1的辽东栎幼苗的全氮含量也是最高的,并且与另两种接种比例处理的差异显著,而对于全株的全磷含量,则是随着接种物中臭红菇的比例增加而增加。     

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     

接种丛枝菌根真菌对青冈栎幼苗生长和光合作用的影响

利用菌根真菌摩西球囊霉和根内球囊霉,对喀斯特地区造林树种青冈栎进行接种试验,测定菌根真菌对青冈栎幼苗生长、生物量和光合作用的影响。结果表明:接种丛枝菌根真菌能显著促进青冈栎幼苗株高、地径、叶面积和幼苗生物量的增长,并且能提高幼苗成活率和改善幼苗的光合能力。摩西球囊霉和根内球囊霉处理的青冈栎幼苗生物量分别是未接种处理的2.1和1.9倍;摩西球囊霉和根内球囊霉处理下的水分利用效率分别比对照处理提高了33.6%和8.8%;摩西球囊霉对青冈栎幼苗株高、地径、生物量的促进作用好于根内球囊霉,而根内球囊霉处理的幼苗叶面积、主根长、根冠比大于摩西球囊霉处理。总体而言,接种丛枝菌根真菌特别是摩西球囊霉能促进青冈栎幼苗的生长和生物量增长,在石漠化植被恢复中具有潜在应用价值。     

6种外生菌根真菌对西南桦幼苗的接种效应

【背景】西南桦是兼具内生、外生菌根的典型菌根营养型树种,菌根化育苗是其壮苗培育的有效措施。【目的】揭示外生菌根真菌对西南桦无性系幼苗生长和养分含量的影响,为其菌根化育苗筛选优良外生菌根真菌提供科学依据。【方法】以BY1、FB4、FB4+和A5等4个西南桦优良无性系为研究对象,选用土生空团菌(Cenococcumgeophilum)、松乳菇(Lactariusdeliciosus)、黄硬皮马勃(Scleroderma flavidum)、多根硬皮马勃(S. polyrhizum)、褐环乳牛肝菌(Suillus luteus)和红绒盖牛肝菌(Xerocomuschrysenteron)6个外生菌根真菌进行盆栽接种试验,分析接种处理间及无性系间苗高、地径、生物量以及养分含量差异。【结果】6个菌种均能与西南桦无性系幼苗形成外生菌根共生体,接种多根硬皮马勃与黄硬皮马勃显著促进了幼苗生长和养分吸收(P0.05),说明其与幼苗的亲和力明显优于其它菌种。尽管菌根侵染率在4个无性系之间无显著差异(P≥0.05),但各菌种对FB4、BY1幼苗生长的促进作用显著强于其它2个无性系。【结论】多根硬皮马勃和黄硬皮马勃可作为西南桦菌根化育苗的优选菌种。     

两种纯培养外生菌根真菌对柴油的降解效率

采用紫外法和GC-MS,研究了柴油污染情况下（10 g·L^-1）外生菌根真菌铆钉菇和双色蜡蘑的生长特点及对柴油的降解效率.结果表明：铆钉菇和双色蜡蘑均能利用柴油作为唯一碳源生长.经过14 d培养,在柴油含量为10 g·L^-1液体培养基内,铆钉菇和双色蜡蘑的质量降解率分别为31.32%和39.90%,且主要减少的是16～21碳烃.不同培养基对外生菌根真菌的降解能力也有显著影响.虽然外生菌根真菌在含有葡萄糖的培养基上的生物量是对照（未添加葡萄糖）的2～5 倍,但其对柴油的降解能力明显受到抑制.高浓度的无机氮对外生菌根真菌的降解效率有一定的提高作用,但效果不明显.     

接种菌根真菌对青冈栎幼苗耐旱性的影响

利用丛枝菌根真菌摩西球囊霉(Glomus mosseae)、根内球囊霉(Glomus intraradices)和外生菌根真菌彩色豆马勃(Pisolithus tinctorius)对石漠化地区造林树种青冈栎(Cyclobalanopsis glauca)幼苗进行接种试验。在大棚盆栽条件下模拟土壤干旱胁迫,研究菌根真菌对青冈栎生长和耐旱性的影响。结果表明:在土壤干旱条件下,接种菌根处理植株生物量显著高于未接种处理(P0.05),菌根依赖性随土壤水分含量降低而升高;未接种处理植株叶绿素含量在土壤干旱条件下显著降低(P0.05),除接种Pisolithus tinctorius处理外,其它接种处理叶绿素含量无显著变化。土壤干旱使植株体内脯氨酸和可溶性糖含量上升,在中度干旱条件下,接种处理可溶性糖含量均显著高于对照处理,接种Glomus intraradices、Pisolithus tinctorius处理脯氨酸含量显著低于对照(P0.05);在重度干旱条件下,接种Glomus mosseae和Glomus intraradices处理可溶性糖含量显著高于对照处理(P0.05),而相应的脯氨酸含量显著低于对照处理。当土壤水分含量在田间持水量55%—65%时,接种处理植株SOD、POD和CAT酶活性显著高于未接种处理(P0.05),在土壤水分含量降至35%—45%时,Glomus mosseae和Glomus intraradices处理SOD酶活性显著高于对照,并且所有接种处理POD酶活性均显著高于对照。此外,在水分干旱条件下,植株全磷和全钾含量也显著高于未接种处理(P0.05)。研究表明,丛枝菌根真菌和外生菌根真菌均能够侵染青冈栎幼苗根系;在干旱胁迫条件下,接种菌根真菌能够提高青冈栎植株生物量、抗氧化酶活性、增加植株可溶性糖含量和促进植株养分吸收,提高植株耐旱性,从而使青冈栎幼苗在岩溶干旱环境下更容易存活。     

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。     

接种菌根菌剂对科尔沁沙地4种造林幼苗生长特性的影响

菌根真菌在干旱半干旱地区退化生态系统植被恢复与重建中具有重要作用。以科尔沁沙地乡土树种五角枫(Acer mono)和榆树(Ulmus pumila)及主要造林树种白蜡(Fraxinus chinensis)和樟子松(Pinus sylvestris var.mongolica)为供试植物,通过科尔沁沙地菌根化造林试验,分析4种造林幼苗接种菌根菌剂后幼苗的菌根侵染率、形态学指标、生物量积累和分配以及根际土壤养分在一个生长季内的变化。结果表明:两种菌根菌剂能较好地侵染幼苗,接种菌根菌剂显著提高了4种幼苗的株高、基径、顶枝长和生物量;显著影响幼苗的生物量分配,接种内生菌剂的白蜡根冠比显著减小,接种外生菌剂的樟子松根冠比显著增加;相关分析表明,菌根侵染率与白蜡幼苗株高和顶枝长呈显著正相关,与樟子松幼苗输导根质量、地上生物量和总生物量呈显著正相关;接种菌根菌剂还能提高根际土壤有机质和全氮含量,改良幼苗生长基质,但差异不显著。4种造林幼苗均表现出了显著的菌根效应,提示菌根菌剂在干旱贫瘠地区造林中具有很强的应用价值。     

丛枝菌根对喜树幼苗生长和氮、磷吸收的影响

喜树(Camptotheca acuminata)是我国特有的多年生亚热带落叶阔叶树种,因其次生代谢产物喜树碱具有良好的抗肿瘤活性而受到人们的广泛关注。该文通过温室盆栽接种试验,观察了2属6种丛枝菌根真菌即蜜色无梗囊霉(Acaulospora mellea)、光壁无梗囊霉(A. laevis)、木薯球囊霉(Glomus manihot)、地表球囊霉(G. versiforme)、幼套球囊霉(G. etunicatum)和透光球囊霉(G. diaphanum)对喜树幼苗生长和氮、磷养分吸收的影响。结果表明,丛枝菌根的形成对喜树幼苗的生长以及氮、磷营养的吸收均有影响。从生物量看,除幼套球囊霉和光壁无梗囊霉侵染形成的丛枝菌根喜树幼苗与无菌根幼苗(CK)差异不显著外,其余菌根幼苗的生物量均明显大于无菌根幼苗,透光球囊霉和蜜色无梗囊霉菌根幼苗尤为突出,分别达到无菌根幼苗的1.9和1.4倍。丛枝菌根的形成似乎不利于喜树幼苗的氮素营养吸收,并且主要体现在叶片的氮含量上。相反,丛枝菌根形成总体上促进喜树幼苗对磷素营养的吸收,并且主要体现在根的磷含量上。与无菌根幼苗比,所有菌根幼苗根的氮、磷分配比例增加,而叶片的氮、磷分配比例减少。     

接种AM真菌对喜树幼苗生长及光合特性的影响

 喜树(Camptotheca acuminata)是我国特有的多年生亚热带落叶阔叶树种, 因其次生代谢产物喜树碱具有良好的抗肿瘤活性而备受关注。通过温室盆栽接种试验, 观察了3属6种丛枝菌根(AM)真菌木薯球囊霉(Glomus manihot)、地表球囊霉(G. versiforme)、透光球囊霉(G. diaphanum)、蜜色无梗囊霉(Acaulospora mellea)、光壁无梗囊霉(A. laevis)和弯丝硬囊霉(Sclerocystis sinuosa)对喜树幼苗生长及光合特性的影响。结果表明, 除地表球囊霉外, 其余菌根幼苗生物量显著高于无菌根幼苗, 蜜色无梗囊霉、弯丝硬囊霉和透光球囊霉的菌根幼苗生物量分别达到无菌根幼苗的1.6倍、1.4倍和1.3倍。与无菌根幼苗相比, 蜜色无梗囊霉菌根幼苗叶片的净光合速率(P_n)、气孔导度(G_s)和蒸腾速率(T_r)均有显著提高, 而胞间CO₂浓度(C_i)与气孔限制值(L_s)则变化不明显。接种透光球囊霉、蜜色无梗囊霉、光壁无梗囊霉和弯丝硬囊霉的喜树幼苗叶片叶绿素a含量、总叶绿素含量、叶绿素a/b和类胡萝卜素含量均显著高于无菌根幼苗, 而叶绿素b含量只有木薯球囊霉和弯丝硬囊霉菌根幼苗显著高于无菌根幼苗。接种AM真菌对喜树幼苗叶片叶绿素荧光参数影响较小, 只有透光球囊霉菌根幼苗叶片的最大光能转换效率(F_v/F_m)显著高于无菌根幼苗, 接种木薯球囊霉和弯丝硬囊霉的喜树幼苗的PSⅡ有效光化学量子产量(EQY)显著高于无菌根幼苗, 弯丝硬囊霉菌根幼苗的光化学淬灭(qP)显著高于无菌根幼苗, 非光化学淬灭(NPQ)则显著低于无菌根幼苗。     

接种丛枝菌根真菌对模拟大气氮沉降下灌木铁线莲根系形态及养分承载的影响

为了解菌根化处理的灌木铁线莲(Clematis fruticosa)苗木根系形态及养分承载对氮沉降的应激响应,以1年生盆栽灌木铁线莲为对象,分别采用单接种和混合接种,即：单接种根内根孢囊霉(Rhizophagus intraradices,以下简称+R),单接种摩西斗管囊霉(Funneliformis mosseae,以下简称+F);混合接菌(上述2菌种菌剂按体积1∶1混合,以下简称+RF)的菌根苗。以非菌根苗(未接菌,以下简称-M)为对照。氮沉降处理设置4个梯度(不施氮(0N,0 g·m^-2·a^-1)、低氮(LN,3 g·m^-2·a^-1)、中氮(MN,6 g·m^-2·a^-1)、高氮(HN,9 g·m^-2·a^-1)),1年后测定各处理细根形态(直径≤0.5 mm的总根长、总表面积、总体积、根尖数量)、菌根侵染率、土壤孢子密度及根、茎、叶各器官的养分(碳、氮、磷)含量等指标。(1)在+R和+RF处理下,LN处理的苗...     

接种时期对丛枝菌根喜树幼苗喜树碱含量的影响

喜树(Camptotheca acuminata)是我国特有的多年生亚热带落叶阔叶树种, 因其次生代谢产物喜树碱具有良好的抗肿瘤活性而受到人们的广泛关注。通过温室盆栽接种试验, 观察了喜树幼苗不同生长时期接种蜜色无梗囊霉(Acaulospora mellea)和根内球囊霉(Glomus intraradices)对喜树幼苗喜树碱积累的影响。结果表明接种两种丛枝菌根真菌均促进了喜树幼苗喜树碱的积累, 表现为喜树碱产量(单株幼苗所含的喜树碱量, 喜树碱含量与幼苗生物量的乘积)的显著提高。进一步分析发现, 接种丛枝菌根真菌导致幼喜树苗喜树碱产量的提高, 早期(幼苗出土20天)接种主要是源于喜树碱含量的提高, 特别是叶片喜树碱含量的提高, 而晚期(幼苗出土60天)接种则主要是源于幼苗生物量的增加。     

Temperature-respiration relationships differ in mycorrhizal and non-mycorrhizal root systems of Picea abies (L.) Karst

Root respiration has been shown to increase with temperature, but less is known about how this relationship is affected by the fungal partner in mycorrhizal root systems. In order to test respiratory temperature dependence, in particular Q (10) of mycorrhizal and non-mycorrhizal root systems, seedlings of PICEA ABIES (L.) Karst. (Norway spruce) were inoculated with the ectomycorrhizal fungus PILODERMA CROCEUM (Eriksson and Hjortstam, SR430; synonym: PILODERMA FALLAX: [Libert] Stalpers) and planted in soil respiration cuvettes (mycocosms). Temperature dependence of hyphal respiration in sterile cultures was determined and compared with respiration of mycorrhizal roots. Respiration rates of mycorrhizal and non-mycorrhizal root systems as well as sterile cultures were sensitive to temperature. Q (10) of mycorrhizal root systems of 3.0 +/- 0.1 was significantly higher than that of non-mycorrhizal systems (2.5 +/- 0.2). Q (10) of P. CROCEUM in sterile cultures (older than 2 months) was similar to that of mycorrhizal root systems, suggesting that mycorrhizae may have a large influence on the temperature sensitivity of roots in spite of their small biomass. Our results stress the importance of considering mycorrhization when modeling the temperature sensitivity of spruce roots.     

Effect of VA Mycorrhizal Inoculation on Growth of Asparagus Seedlings

Experiments on asparagus (Asparagus of)icinalis L.) inoculated with VA mycorrhizal fungi were conducted under two fluvo-aquatic phosphorus deficient soils. This study was to examine the growth response of VA mycorrhizae and fertilizer effects on the growth of mycorrhizal and non-mycorrhizal asparagus seedlings in pots and under field conditions. Inoculation with VA mycorrhizal fungi significantly increased mycorrhizal infection and enhanced seedling growth. In treatments of fertilization by different batches of NPK or by different amount of application it was shown that phosphorus was most favourable to VAM activity. Both the prevalance of mycorrhizal infection and the dry weight of seedlings in treatment with NPK in 1:0:1 was similar to that in 1:1:1 and 1:2:1 after inoculation. Further more the prevalance of infection, plant growth and P content in the treatment of 1/2 an amount of NPK in 1:1:1 were even higer than those in full amount of NPK and in non-fertilization. It is indicated that phosphorus uptake and plant growth benefit greatly by mycorrhizal inoculation. Mycorrhizal plant requires only about half as much phosphorus to achieve maximum growth as the uninoculated plants.     

Effects of elevated nickel and cadmium concentrations on growth and nutrient uptake of mycorrhizal and non-mycorrhizal Pinus sylvestris seedlings

The effects of Ni and Cd on growth and nutrient uptake of mycorrhizal and non-mycorrhizal Pinus sylvestris L. seedlings were investigated in a pot experiment. Seedlings were either inoculated with Laccaria bicolor (Maire) Orton or left uninoculated before being planted in pots containing a mixture of sandy soil from the B-horizon of a coniferous forest, small stones and pure quartz sand. The pots were supplied with small amounts of a balanced nutrient solution every 24 h using peristaltic pumps. Nickel or Cd were added as chlorides to the nutrient solution at levels of 85 M Ni (Ni 1), 170 M Ni (Ni 2), or 8.9 M Cd. Mycorrhizal colonisation of the roots was nearly 100% in the mycorrhizal treatments. The mycorrhizal seedlings grew significantly better than the non-mycorrhizal ones. The weight of mycorrhizal seedlings in the Ni 2 treatment was 29% lower than that of the mycorrhizal controls, but still 34% greater than that of the non-mycorrhizal seedlings not exposed to metals. There was an overall, statistically significant, negative effect of metals on plant yield. Mycorrhizal plants had lower root:shoot (R:S) ratios than non-mycorrhizal plants and the R:S ratio was increased by metal exposure, particularly in the non-mycorrhizal seedlings. Plant concentrations of Cd or Ni were not affected by mycorrhizal colonisation, but total uptake of Cd and Ni was higher in bigger mycorrhizal seedlings. Nickel decreased P concentration in all seedlings and Cd decreased P concentration in the non-mycorrhizal seedlings. Generally, the mycorrhizal seedlings grew better than non-mycorrhizal ones and had better P, K, Mg and S status. Root growth was not significantly affected by the metal treatments. The reduction in mean shoot growth of non-mycorrhizal plants, relative to the metal-free control, appeared higher than in mycorrhizal plants but was not statistically significant due to high variation in the non-mycorrhizal plants not exposed to metals. The main mycorrhizal effect was thus increased nutrient uptake and growth of the seedlings.