VA菌根真菌、根瘤菌双接种对大豆增产效果的影响

本文论述了在自然状态下的土壤里,VA菌根真菌、根瘤菌双接种对大豆结瘤、菌根真菌侵染率、固氮酶活性及植株养分吸收状况的影响.研究结果表明,VA菌根真菌、根瘤菌双接种明显提高大豆结瘤能力与固氮酶活性,并可促进植物对养分的吸收,双接种比单接种VA菌根真菌处理提高产量140%,比单接种根瘤菌处理提高55.84%.     

红壤中VA菌根真菌侵染力及接种效应的研究

本文报道了丘陵地区发育于第四纪红色粘土母质的马尾松林自然植被下红壤、栽种胡枝子的两种侵蚀红壤及花生-油菜轮作的耕作红壤等3种生态条件下的土壤中VA菌根真菌繁殖体数量、种类、侵染势、施用石灰石粉改土和增施磷肥对VA菌根真菌侵染的影响以及VA菌根真菌的接种效应。试验结果表明,3种生态条件下的土壤中VA菌根真菌繁殖体数量和侵染势显然不同:马尾松林自然植被下的红壤中VA菌根真菌繁殖体数量大,侵染迅速;花生-油菜轮作的耕作红壤VA菌根真菌繁殖体数量也大,但侵染缓慢,有明显的滞后期;栽种胡枝子的侵蚀红壤VA菌根真菌繁殖体数量小,侵染力很低。对侵蚀红壤与耕作红壤接种VA菌根真菌,显著提高了VA菌根的侵染率,在适当施用磷肥及施石灰石粉改土后,都能促进VA菌根侵染,从而增加了植物的吸磷量,植物生长量显著提高。     

红壤中VA菌根真菌侵染力及接种效应的研究

本文报道了丘陵地区发育于第四纪红色粘土母质的马尾松林自然植被下红壤、栽种胡枝子的两种侵蚀红壤及花生-油菜轮作的耕作红壤等3种生态条件下的土壤中VA菌根真菌繁殖体数量、种类、侵染势、施用石灰石粉改土和增施磷肥对VA菌根真菌侵染的影响以及VA菌根真菌的接种效应.试验结果表明,3种生态条件下的土壤中VA菌根真菌繁殖体数量和侵染势显然不同:马尾松林自然植被下的红壤中VA菌根真菌繁殖体数量大,侵染迅速;花生-油菜轮作的耕作红壤VA菌根真菌繁殖体数量也大,但侵染缓慢,有明显的滞后期;栽种胡枝子的侵蚀红壤VA菌根真菌繁殖体数量小,侵染力很低.对侵蚀红壤与耕作红壤接种VA菌根真菌,显著提高了VA菌根的侵染率,在适当施用磷肥及施石灰石粉改土后,都能促进VA菌根侵染,从而增加了植物的吸磷量,植物生长量显著提高.     

纯种VA菌根菌剂的制备及其在泡桐试管苗上的应甩

采用根段培养技术在无菌条件下,以红三叶草(Trifolium prattnse)为载体植物,制备了单一的地表球囊霉(Glomus epigaeum)菌根菌剂。并以此为接种体,以鄂川泡桐(Paulo-wnia albiphloea)为寄主,首次将VA菌根菌剂接种到植物组织培养的试管苗上。一个月后发生侵染,形成了丛枝和泡囊,菌根感染率为50％。植物化学分析结果表明,处理与对照相比,试管苗叶部所含的N和P元素总量有一定的提高。     

甘肃盐碱土植物VA菌根真菌侵染研究

对甘肃盐碱土中植物的VA菌根真菌共生状况进行研究,结果表明：在10科17种植物中,除碱蓬（Suaeda glauca Beg.）外均被菌根真菌侵染,占94.1%;盐碱土中孢子密度较高,表明甘肃盐碱土生态系统中植物对菌根真菌具有较高的依赖性,菌根真菌在盐碱土中产孢能力较强;所调查植物的VA菌根结构类型Arum型占68.75%,Pris型占31.25%;菌根结构类型与宿主植物类型有关,禾本科（Poaceae）和鸢尾科（Iridaceae）植物为P型菌根,百合科（Liliaceae）、胡颓子科（Elaeagnaceae）等其它科植物均为A型菌根;土壤类型影响了宿主植物的菌根侵染率和根际土的孢子密度,相同宿主植物在不同类型土壤中的菌根侵染率和孢子密度具有很大的差异.     

不同pH水平下两种菌根真菌对紫云英生长的影响及其相互作用

设计在不同pH水平（4.3、5.1、5.8、6.8）下两种VA菌根真菌Glomus mosseae和Gigaspora margarita对紫云英Astragalus sinicus进行单接种、混合接种及无接种对照的盆栽实验。对紫云英地上和地下部分生物量、根部侵染率、SDH和ALP酶活进行了检测。实验结果表明：紫云英的生长效应与VA菌根真菌的侵染率及两种酶活成明显相关性。土壤pH升高,单接种Glomus mosseae和混合接种的侵染率也随之升高,而单接种Gigaspora margarita的侵染率呈现     

10种绿化苗木对VA菌根的依赖性及其接种效应

研究了10种绿化树对VA菌根的依赖性、感染率及其接种效应。结果表明:各参试树种对VA菌根都有不同程度的感染率及依赖性;其中黑金刚(Ficus elastica cv.Deocora Burgundy)接种感染率最高,达90%,巴西榕(Ficus elastica cv. Variegaa)、竹节树(Carallia brachiata)的接种感染率大于80%,接种感染率大于60%的有花金刚(Ficus elastica cv. Decora Tricolor)、红关公(Ficus elastica cv. Decora)、扭纹铁(Dracaena deremensis)、红桂木(Artocarpus nitidus subsp. lingnanensis),小于35%的有红楣(Anneslea fragrans)、伞花木(Eurycorymbus cavaleriei)、石楠(Photinia serrulata);黑金刚、巴西榕对VA菌根的依赖度最高,都超过了300%,红关公、花金刚对VA菌根的依赖度中等,分别为213.3%、203.5%;红桂木、竹节树、扭纹铁、石楠、红楣、伞花木对VA菌根依赖性偏弱,依赖度都在200%以下。参试树种菌根感染率和依赖度的排序基本一致。VA菌根对各参试树种均有不同程度的接种效应,对黑金刚、花金刚、红关公、巴西榕和竹节树的接种效应最为明显,对扭纹铁、红桂木的接种效应较好,而对石楠、红楣和伞花木则稍差。     

刺槐接种VA菌根真菌与环境条件的关系

1 引言 国内外众多的试验表明,VA菌根真菌侵染植物根系后,促进植物对养分吸收和物质转化,从而大幅度增加寄主生物量,但也有试验表明,接种VAMF后,寄主生物量并无明显增加,这可能与菌根接种物本身的特点及外界条件有关,其中土壤中磷的含量是重要因素之一。据报道,土壤P过高,对菌根的形成有影响。本文就刺槐接种VAMF,在不同立地环境下寄主生长变化及不同施磷量对VAMF侵染能力、孢子产生量、植株生物量等进行了研究。     

接种不同VA菌根真菌对红三叶草利用不同磷源的影响

以红三叶草为材料,利用三室隔网培养方法,研究了施用不同磷源条件下,接种VA菌根真菌(Glomusmosseae和Glomusversiforme)对外加有机磷源及土壤有机磷的利用效率.植物生长10周后,测定植株干物重、含磷量、菌根侵染率及根系长度.结果表明接种菌根真菌能明显增加植株干物重和含磷量.接种条件下无机磷(KH2PO4)对植株生长的促进作用大于有机磷(Na-phytate)处理,接种Glomusversoiforme的作用明显大于接种Glomusmosseae.接种Glomusmosseae,植株对磷酸二氢钾中磷的吸收量明显大于植酸钠,而接种Glomusversiforme时则植株对植酸钠的磷吸收量明显高于磷酸二氢钾.上述结果说明接种两菌种对不同磷源的作用不同,接种Glomusmosseae可提高磷酸二氢钾中磷的利用率,接种Glomusversiforme则可提高对植酸钠的磷利用率.     

接种不同VA菌根真菌对红三中草利用不同磷源的影响

以红三叶草为材料,利用三室隔网培养方法,研究了施用不同磷源条件下,接种VA菌根真菌（Glomus mosseae和Glomus versiforme)对外加有机磷源及土壤有机磷的利用效率,植物生长10周年,测定植株博干物重、含磷量、菌根侵染率及根系长度,结果表明：接种菌根真菌能明显增加植干物重和含磷量。接种条件下无机磷（KH2PO4）对植株生长的促进作用大于有机磷（Na-phytate)处理,接种Glomus versofrorme的作用明显大于接种Glomus mosseae。接种Glomus mosseae,植株对磷酸二氢钾中磷的吸收量明显大于植酸钠,而接种Glomus versiforme时则植株对植酸钠的磷吸收量明显高于磷酸二氢钾。上述结果说明接种两菌种对不同磷源的作用不同,接种Glomus mosseae可提高磷酸二氢钾中磷的利用率,接种Glomus versiforme则可提高对植酸的磷利用率。     

Mycorrhizal Dependency of Various Kinds of Plants

Mycorrhizal dependency of various kinds of plants was estimated in pot cultures. Seeds or cuttings inoculated with Glomus spp. were grown in unsterilized sandy fluvo-aquic soil or sand, fertilized with dilute Hoagland's solution. Results showed that the weight of shoot and root of all mycorrhizal seedlings was significantly greater than that of uninoculated seedlings except chrysanthemum which was generally recognized as a nonmycorrhizal family. Mycorrhizal dependency of different plants decreased in the following order: grape, China rose, white clover, asparagus, violet, petunia, corn, cotton, soybean, tobacco, peanut, tomato, mungbean, lily and chrysanthemum. Mycorrhizal inoculation also enhanced the flowering of China rose and terminal bud growth of pomegranate. There was no correlation between the percentage of mycorrhizal infection and mycorrhizal dependency, although all plants were infected after inoculation.     

Growth responses of tropical forage plant species to vesicular-arbuscular mycorrhizae

Summary Growth and mineral uptake of twenty-four tropical forage legumes and grasses were compared under glasshouse conditions in a sterile low P oxisol, one part inoculated and the other not inoculated with mycorrhizal fungi. Shoot and root dry weights and total uptake of P, N, K, Ca, and Mg of all the test plants were significantly increased by mycorrhizal inoculation. Mycorrhizal inoculation, with few exceptions, decreased the root/shoot ratio. Non-mycorrhizal plants contained always lower quantities of mineral elements than mycorrhizal plants. Plant species showed differences in percentage mycorrhizal root length and there was no correlation between percentage mycorrhizal infection and plant growth parameters. A great variation in dependence on mycorrhiza was observed among forage species. Total uptake of all elements by non-mycorrhizal legumes and uptake of P, N and K by non-mycorrhizal grasses correlated inversely with mycorrhizal dependency. Mycorrhizal plants of all species used significantly greater quantities of soil P than the nonmycorrhizal plants. Utilization of soil P by non-mycorrhizal plants was correlated inversely with mycorrhizal dependency.     

Interaction of vesicular-arbuscular mycorrhizal fungi and root knot nematode on cultivars of tomato and white clover susceptible to Meloidogyne hapla

The interactive effects of vesicular-arbuscular mycorrhizal (VAM) fungi and root-knot nematode (Meloidogyne hapla) were studied on nematode-susceptible cultivars of tomato (cv. Scoresby) and white clover (cv. Huia) at four levels of applied phosphate. The relative merits of simultaneous inoculation with mycorrhizal fungi and nematodes and of inoculation with mycorrhizal fungi prior to nematode inoculation were evaluated. Mycorrhizal plants were more resistant than non-mycorrhizal plants to root-knot nematode at all phosphate levels and growth benefits were generally greater in plants preinfected with mycorrhizal fungi. Nematode numbers increased with increasing levels of applied phosphate. In mycorrhizal root systems, nematode numbers increased in the lower phosphate soils; at higher phosphate levels nematode numbers were either unaffected or reduced. The numbers of juveniles and adults per gram of root were always lower in mycorrhizal treatments. Mycorrhizal root length remained unaffected by nematode inoculation. Mycorrhizal inoculation thus increased the plants' resistance to infection by M. hapla. This was probably due to some alteration in the physiology of the root system but was not entirely a result of better host nutrition and improved phosphorus uptake by mycorrhizal plants.     

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.     

Effect of arbuscular mycorrhizal fungi inoculation of rice seedlings at the nursery stage upon performance in the paddy field and greenhouse

We examined the effect of arbuscular mycorrhizal fungi inoculation at the nursery stage on the growth and nutrient acquisition of wetland rice (t Oryza sativa L.) under field and pot conditions. Seedlings were grown on -ray sterilized paddy soil in two types of nurseries, namely dry nursery and wet nursery, with or without arbuscular mycorrhizal fungi (AMF) inoculation which was a mixture of indigenous AMF (t Glomus spp.) spores collected from the paddy field. Five-to-six week old seedlings were transplanted to the unsterilized soil under field and pot, respectively. Mycorrhizal seedlings had higher shoot biomass under both nursery conditions 5 weeks after sowing. Mycorrhizal colonization and sporulation were 2 to 3 times higher in the dry nursery than the wet nursery at the transplanting stage. Mycorrhizal colonization of plants inoculated in the nursery remained higher than those not inoculated under both field and pot conditions. Sporulation after transplanting to field conditions was about 10 times higher than in the pot. Inoculated plants produced higher biomass at maturity under field conditions, and the grain yield was 14-21% higher than those not inoculated. Conversely, grain yield and shoot biomass were not significantly influenced by AMF colonization under pot conditions. For plants originating from the dry nursery, N, P, Zn and Cu concentrations of field-grown plants at harvest were significantly increased by preinoculation with AMF over those left uninoculated. We conclude that the AMF inoculation at the nursery stage under both dry and wet conditions increased growth, grain yield and nutrient acquisition of wetland rice under field conditions.     

Mycorrhizal dependency of some endemic and endangered Hawaiian plant species

Four endemic species of Hawaiian plants were tested for their response to inoculation with a Hawaiian isolate of Glomus aggregatum (an arbuscular mycorrhizal fungus [AMF]) when grown in a native soil with or without P added to achieve different soil-solution P levels. The endangered species (Sesbania tomentosa [Fabaceae] and Colubrina oppositifolia [Rhamnaceae]) and two nonendangered species (Bidens sandvicensis and B. asymmetrica × sandvicensis [Asteraceae]) were tested. When soil-solution P levels in greenhouse trials were similar to unfertilized field soils (e.g., 0.005-0.020 mg P/L), shoots of inoculated plants were 2.1 to 7.0 times larger than noninoculated plants. Leaf tissue P levels and root biomass in these species showed similar responses to inoculation. Mycorrhizal dependencies ranging from 44 to 88% were measured when plants were grown in low-P soils and were -4-42% in soil with P levels typical of highly productive agricultural soils. A survey of P levels in a variety of native (nonagricultural) Hawaiian soils indicated the widespread occurrence of P-limited sites (mean = 0.010 mg P/L, range = <0.001-0.030 mg P/L; N = 41). The terms "ecological mycorrhizal dependency" (EMD) and "agricultural mycorrhizal dependency" (AMD) are introduced to refine the concept of mycorrhizal dependency.     

Histological, Physiological and Biochemical Interactions between Vesicular-Arbuscular Mycorrhizae and Thielaviopsis basicola in Tobacco Plants

Interactions between the mycorrhizal fungus Glomus monosporum and the root rot pathogen Thielaviopsis basicola and their effects on tobacco plants were investigated over a 4 week period. Mycorrhizal tobacco plants, obtained by preinoculation with G. monosporum, showed a better tolerance to T. basicola than non-mycorrhizal seedlings. Root and leaf dry weights of mycorrhizal plants were greater than those of controls. Mycorrhizal plants inoculated with T. basicola showed higher root and leaf dry weights than non-mycorrhizal infected plants, but lower values than mycorrhizal plants which were not infected. No appreciable differences in free aminoacid composition were observed among the different treatments with two exceptions: proline content was higher in infected and mycorrhizal infected plants compared to control and mycorrhizal plants; arginine content was higher in infected and mycorrhizal infected plants compared to control and mycorrhizal plants; arginine content was higher in mycorrhizal plants than in all the other treatments. The mechanisms by which (VAM) fungi can reduce disease incidence and pathogen development are discussed.     

FACILITATION OF SUCCESSION BY THE NONMYCOTROPHIC COLONIZER SALSOLA KALI (CHENOPODIACEAE) ON A HARSH SITE: EFFECTS OF MYCORRHIZAL FUNGI

The effects of inoculation with vesicular-arbuscular mycorrhizal fungi on nonmycotrophic (plants which do not form a mycorrhizal association) colonizing annuals and on mycotrophic perennials were investigated in southwestern Wyoming. A subsoil containing no initial mycorrhizal inoculum was used, and seeds of the later successional perennials were planted. The annuals were removed from one-half of the sampling quadrats to test for the interaction of competition and mycorrhizae on the perennials. During the third and fourth years of succession, the density and percent cover of Salsola kali, the most abundant nonmycotrophic annual, decreased by one-half to one-third with inoculation. Mycorrhizal hyphae and spores were found in the rhizosphere of S. kali, with only occasional (1–2% of the root length) penetration of hyphae into the cortex. There were no differences in tissue phosphorus and nitrogen concentrations or water relations of inoculated vs. uninoculated S. kali. The planted grasses, all Agropyron species, had no significant increase in density or percent cover with inoculation. The percent root infection of A. smithii was 5–30%. Grass density and percent cover was greatest where S. kali was present, suggesting facilitation of grass establishment by annuals on this harsh, windy site. However, grass density was lower where 5. kali density was lower following inoculation. Mycorrhizal fungi were hypothesized to hasten the rate of succession on other sites. On this site where facilitation is an important process, inoculation of early seral plants and their subsequent decline may slow primary succession in the early years.     

Effects of nursery preconditioning through mycorrhizal inoculation and drought in Arbutus unedo L. plants

The influence of a water deficit treatment and mycorrhizal inoculation with Pisolithus tinctorius (Pers.) Coker and Couch on the water relations, gas exchange, and plant growth in Arbutus unedo L. plants was studied in order to evaluate the hardening process during the nursery period. The ability to withstand the adverse conditions after transplantation was also studied. Mycorrhizal and non-mycorrhizal seedlings of A. unedo were pot-grown for 4 months in a greenhouse (nursery period), during which time two irrigation treatments, well watered (100% water holding capacity, leaching 20% of the applied water) and deficit irrigation (50% of the well watered), were applied. Subsequently, the plants were transplanted to the field and well irrigated (transplanting period), after which and until the end of the experiment they received no water (establishment period). At the end of the nursery period, both water deficit and mycorrhizae were seen to have altered the plant morphology. Mycorrhizal plants had lower leaf area and improved leaf color parameters, while the water deficit increased root dry weight and the root/shoot ratio. Mycorrhizal plants had higher leaf water potential values than non-inoculated plants. Mycorrhizae increased stomatal conductance and photosynthesis values, especially in stressed plants. Drought led to an osmotic adjustment and a decrease in the leaf water potential values at turgor loss point in the mycorrhizal plants. Cell wall rigidity, measured as increased bulk modulus of elasticity, was decreased by the mycorrhizae effect. After transplanting, no differences were found in the water relations or gas exchange values between treatments. During the establishment period, the plants that had been exposed to both drought and mycorrhizae showed a better water status (higher leaf water and turgor potential values) and higher gas exchange values. In conclusion, water deficit and mycorrhizal inoculation of A. unedo plants in nursery produced changes in tissue water relations, gas exchange, and growth, related with the acclimation process in the seedlings, which could provide better resistance to drought and stress conditions following planting.     

接种后共培养时间对丛枝菌根喜树幼苗喜树碱含量的影响

在前期工作中利用蜜色无梗囊霉(Acaulospora mellea)和根内球囊霉(Glomus intraradices)从接种时期角度分析了喜树碱含量与菌根形成过程对应关系的基础上,通过温室盆栽接种试验,继续观察了这两种丛枝菌根真菌接种后与喜树(Camptothecaacuminata)幼苗的共培养时间对喜树幼苗喜树碱积累的影响。分别用两种菌根真菌每隔7d接种一批喜树幼苗,第5批接种7 d后采样,获得菌根真菌与喜树幼苗共培养时间分别为35、28、21、14、7 d的喜树幼苗样品,测定了菌根浸染状况和喜树碱含量。结果表明:(1)接种两种丛枝菌根真菌均促进了喜树幼苗喜树碱的积累,表现为喜树碱含量和产量(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。(2)从接种后共培养时间的效果看,两种菌根幼苗各器官(根、茎、叶)及全株喜树碱含量和产量均呈现随着丛枝菌根真菌与喜树幼苗共培养时间的增加而增加的趋势。两种菌根幼苗的根和茎、根内球囊霉菌根幼苗的叶片和全株的的喜树碱含量和产量,在共培养时间增加至21 d时趋于稳定,而蜜色无梗囊霉菌根幼苗的叶片和全株的喜树碱含量和产量在共培养时间增加至28 d时达到最高,其后略有降低。(3)两种丛枝菌根真菌的侵染率和侵染强度同样随共培养时间的增加而增加,至共培养28 d后无显著变化。在一定共培养时间范围内,喜树碱含量和产量的变化与丛枝菌根真菌的侵染及菌根形成之间具有对应性。