Unterschiedliche Formen der Resistenz gegen bodenbürtige Viren des Weizens

In Germany the furovirus Soil-borne cereal mosaic virus (SBCMV) and the bymovirus Wheat spindle streak mosaic virus (WSSMV) occur often together particularly in several rye production areas. Soil-borne wheat mosaic virus (SBWMV), a wheat infecting furovirus, has so far been found only in one field near Heidelberg. Each of these viruses is transmitted by Polymyxa graminis. The cultivation of resistant varieties is the only promising measure to prevent yield losses caused by soil-borne viruses. Resistance of wheat against the bymovirus WSSMV is comparable to the immunity of barley to the bymoviruses Barley yellow mosaic virus and Barley mild mosaic virus. In case of immunity no virus multiplication is observed in resistant cultivars. In contrast, all wheat cultivars are hosts of the furoviruses. All cultivars – including the resistant ones – can be infected following mechanical inoculation with SBWMV and SBCMV. Resistance to furoviruses is based on reduced levels of virus multiplication in roots and on inhibition of virus movement from roots to leaves. Because of the inhibited virus movement from roots to aerial parts of plants this type of resistance is referred to as translocation resistance. In spite of the different resistance mechanisms the absence of virus symptoms on the leaves is a common selection criterion for both immunity and translocation resistance. Therefore, the symptom free development of plants on uniformly infested fields is the best criterion for selecting wheat lines with resistance to soil-borne viruses. The limited suitability of other selection methods is discussed.     

The effects of postplanting environment on the incidence of soilborne viral diseases in winter cereals

ABSTRACT Soilborne wheat mosaic virus (SBWMV) and Wheat spindle streak mosaic virus (WSSMV) are putatively transmitted to small grains by the obligate parasite Polymyxa graminis, but little is known about environmental requirements for transmission and the resulting disease incidence. We planted susceptible wheat and triticale cultivars in field nurseries on different autumn dates in 3 years and observed the incidence of symptomatic plants in each following spring. Autumn postplanting environment explained most of the variation in disease caused by both viruses. Little apparent transmission, based on eventual symptom development, of either virus occurred after the average soil temperature dropped below 7 degrees C for the remainder of the winter. To forecast disease, we tested an SBWMV transmission model in the field, based on laboratory results, that predicts opportunities for transmission based on soil temperature and soil moisture being simultaneously conducive. This model was predictive of soilborne wheat mosaic in 2 of 3 years. Zoospores of P. graminis have optimal activity at temperatures similar to those in the SBWMV transmission model. Furthermore, the matric potential threshold (as it relates to waterfilled pore sizes) in the SBWMV transmission model fits well with P. graminis as vector given the size restrictions of P. graminis zoospores. Conditions optimal for SBWMV transmission in the laboratory were not conducive for WSSMV transmission in the laboratory or for wheat spindle streak mosaic development in the field. This differential response to environment after emergence, as indicated by disease symptoms, may be due to virus-specific environmental conditions required to establish systemic infection via the same vector. Alternatively, the differential response may have been due to the involvement of a different vector in our WSSMV nursery than in our SBWMV nursery. Our results suggest that, as a control tactic for SBWMV or WSSMV, earliness or lateness of planting is less important in determining virus transmission and disease than the specific postplanting environment. Improved models based on the postplanting environment might predict virus-induced losses of yield potential, and in some cases, growers might avoid purchase of spring inputs such as pesticides and fertilizer for fields with greatly reduced yield potential.     

Occurrence of viruses in irrigated wheat in Zambia

Surveys were conducted during the cool-dry months of June–August 1997 and June–July 1998 for the presence of viruses in irrigated wheat in Central, Copperbelt, Lusaka and Southern Provinces of Zambia in 14 commercial farms and four wheat cultivar plots. Virus symptoms were observed on nine wheat cultivars ( Triticum aestivum 'Deka', 'Gamtoos', 'Lorie II', 'MM2', 'Nata', 'Nkwazi', 'P7', 'Scan' and 'Sceptre') of South African, Zambian and Zimbabwean origin. Several viruses were identified on the basis of field symptomatology, symptoms developing on mechanically inoculated indicator plant species or cultivars and serology (DAS-ELISA). The study revealed the occurrence of Brome mosaic virus (BMV), Barley stripe mosaic virus (BSMV), Barley yellow dwarf virus and its strains (BYDV-PAV and RPV), Soil-borne wheat mosaic virus (SBWMV), Wheat dwarf virus (WDV), Wheat streak mosaic virus (WSMV) and Wheat spindle streak mosaic virus (WSSMV). DSA-ELISA tests confirmed these identifications. The prevalence of viruses varied annually and from field to field. BSMV, BYDV-PAV, SBWMV, WDV, WSMV and WSSMV were found to be the most prevalent viruses. Viruses generally occurred in mixed infections of 3–6 viruses and the most common virus complex consisted of 4 viruses (50%), viz. BYDV, SBWMV, WDV and WSSMV. Five- and six-virus complexes were relatively less common (20% each) whereas 3-virus complex was noticed in only 10% cases. SBWMV and WSSMV have been found to be new to Africa and Zambia and are reportedly vectored by a fungal protist – Polymyxa graminis . BYDV strains MAV and SGV were also tested but gave negative results against their antisera.     

Association study of resistance to Soilborne wheat mosaic virus in U.S. winter wheat

Soilborne wheat mosaic virus (SBWMV) is one of the most important winter wheat pathogens worldwide. To identify genes for resistance to the virus in U.S. winter wheat, association study was conducted using a selected panel of 205 elite experimental lines and cultivars from U.S. hard and soft winter wheat breeding programs. Virus symptoms were evaluated twice in virus-infected fields for the panel at Manhattan, KS in spring 2010 and 2011 and for a subpanel of 137 hard winter wheat accessions at Stillwater, OK in spring 2008. At the two locations, 69.8 and 79.5% of cultivars were resistant or moderately resistant to the disease, respectively. After 282 simple-sequence repeat markers covering all wheat chromosome arms were scanned for association in the panel, marker Xgwm469 on the long arm of chromosome 5D (5DL) showed a significant association with the disease rating. Three alleles (Xgwm469-165bp, -167bp, and -169bp) were associated with resistance and the null allele was associated with susceptibility. Correlations between the marker and the disease rating were highly significant (0.80 in Manhattan at P < 0.0001 and 0.63 in Stillwater at P < 0.0001). The alleles Xgwm469-165bp and Xgwm469-169bp were present mainly in the hard winter wheat group, whereas allele Xgwm469-167bp was predominant in the soft winter wheat. The 169 bp allele can be traced back to 'Newton', and the 165 bp allele to Aegilops tauschii. In addition, a novel locus on the short arm of chromosome 4D (4DS) was also identified to associate with the disease rating. Marker Xgwm469-5DL is closely linked to SBWMV resistance and highly polymorphic across the winter wheat accessions sampled in the study and, thus, should be useful in marker-assisted selection in U.S. winter wheat.     

抗白粉病豌豆种质资源田间筛选

以国内外收集的436份豌豆资源为试验材料,在田间自然感病的条件下,每份材料选10株,每株调查上部10片叶的病情级别,计算病情指数,进行白粉病抗性鉴定。同时对鉴定出的抗白粉病豌豆材料进行主要农艺性状的调查记载,旨在筛选出抗白粉病的豌豆优良种质资源,为今后抗性材料的有效利用提供参考,以利于加速豌豆抗性遗传育种进程。鉴定结果显示,436份材料中,抗病资源35份,占8.03%,其中11份高抗(HR),占2.52%;6份抗病(R),占1.38%;18份中抗(MR),占4.13%。综合抗白粉病性与农艺性状优良性,筛选出半无叶型豌豆抗白粉病资源‘RZ-1-1’、‘X9002’、‘1702’、‘MP1811’,普通蔓生型豌豆抗白粉病资源‘DX23’、‘DX25’、‘定褐’、‘黑眉’、‘所427’、‘所430’可进一步加以利用。     

禾谷多粘菌分离、培养、接种及用于大麦抗黄花叶病的鉴定

 通过禾谷多粘菌Polymyxa graminis L.休眠孢子分离接种感病大麦品种,并进行砂培养,获得13个纯化了的禾谷多粘菌分离物,且其中3个带有大麦黄花叶病毒(BaYMV)。用分别带有BaYMV和大麦温和花叶病毒(BMMV)的英国禾谷多粘菌分离物的游动孢子接种13个中国大麦品种,以及用BaMMV摩擦接种36个中外大麦品种,抗性鉴定结果游动孢子接种与摩擦接种一样,均与田间鉴定结果一致,且大麦对BaYMV的抗性与对BaMMV的抗性一致,从而这2种接种方法可用于大麦品种(系)和育种中间体对BaYMV抗性的快速鉴定和筛选。游动孢子或休眠孢子接种方法还可有效地鉴定大麦对禾谷多粘菌的抗性。     

A novel putative member of the family Benyviridae is associated with soilborne wheat mosaic disease in Brazil

Soilborne wheat mosaic disease (SBWMD), originally attributed to infections by Soilborne wheat mosaic virus (SBWMV) and Wheat spindle streak mosaic virus (WSSMV), is one of the most frequent virus diseases and causes economic losses in wheat in southern Brazil. This study aimed to characterize molecularly the viral species associated with wheat plants showing mosaic symptoms in Brazil. Wheat leaves and stems displaying mosaic symptoms were collected from different wheat cultivars in Passo Fundo municipality, Rio Grande do Sul State, southern Brazil. Double-stranded RNA was extracted and submitted to cDNA library synthesis and next-generation sequencing. No sequences of SBWMV and WSSMV were detected but the complete genome sequence of a putative new member of the family Benyviridae was determined, for which the name wheat stripe mosaic virus (WhSMV) is proposed. WhSMV has a bipartite genome with RNA 1 and RNA 2 organization similar to that of viruses belonging to Benyviridae. WhSMV RNA 1 has a single open reading frame (ORF) encoding a polyprotein with putative viral replicase function. WhSMV RNA 2 has six ORFs encoding the coat protein, the major protein (read-through), triple gene block movement proteins (TGB 1, 2 and 3) and ORF 6 (hypothetical protein). In addition to the genomic organization and nucleotide and amino acid sequence identities, phylogenetic analyses also corroborated that WhSMV is a virus species of the Benyviridae. However, isolates of WhSMV formed a clade distinct from members of the genus Benyvirus. It was also demonstrated that the plasmodiophorid Polymyxa graminis is associated with wheat roots showing SBWMD symptoms and infected by WhSMV.     

Enhanced Resistance to Sclerotium rolfsii in Populations of Alfalfa Selected for Quantitative Resistance to Sclerotinia trifoliorum

ABSTRACT Sclerotinia trifoliorum and Sclerotium rolfsii are pathogens for which similar mechanisms of parasitism have been proposed. This suggested that resistance to these pathogens may be related in a common host plant. This study was undertaken to determine whether selection for quantitative resistance to Sclerotinia trifoliorum in alfalfa also increases resistance to Sclerotium rolfsii as expressed in excised leaf tissues and whole plants. Resistance in excised leaf tissues was evaluated according to the rate of necrosis induced by Sclerotium rolfsii following inoculation with mycelium. Resistance to Sclerotium rolfsii in whole plants was evaluated according to their survival following crown inoculations. Three alfalfa populations previously selected from cv. Delta for quantitative resistance to Sclerotinia trifoliorum exhibited enhanced resistance to Sclerotium rolfsii, in comparison with Delta or with susceptible populations, in excised leaf tissues. When whole plants of Delta and two of these populations, Sclerotinia trifoliorum resistant (STR) and Mississippi Sclerotinia resistant (MSR), were inoculated with Sclerotium rolfsii at 3 to 8 weeks of age, significant (P = 0.01) differences in survival were attributed to plant age at inoculation and alfalfa populations. Survival of both MSR and STR was significantly (P = 0.05) greater than for Delta; the best differential results were obtained by inoculating plants 5 to 7 weeks old. To evaluate relationships of resistance to Sclerotinia trifoliorum and Sclerotium rolfsii over a broader genetic background, additional populations were selected for resistance to Sclerotinia trifoliorum from four other alfalfa cultivars by leaf-inoculation techniques, and this resistance was confirmed by whole-plant inoculations. In excised leaf tissues, all four of these populations also expressed enhanced resistance to Sclerotium rolfsii in comparison with either parent cultivars or populations of comparable size selected at random. These results establish that selection for quantitative resistance to Sclerotinia trifoliorum in alfalfa also confers enhanced resistance to Sclerotium rolfsii as expressed in excised leaf tissues and whole plants. Results suggest, therefore, that genes for quantitative resistance to Sclerotinia trifoliorum and Sclerotium rolfsii in alfalfa are likely to be synonymous, overlapping, or closely linked.     

小麦品系P81抗条锈性遗传分析

小麦条锈病是小麦生产中最重要的病害,培育抗病品种是防治条锈病的有效措施。小麦品系P81在苗期和成株期对当前流行的条锈菌小种条中30、31和32均表现免疫。以感病品种川麦28、Taichung29作母本,P81作父本通过杂交分别配制了F1、F2和BC1、BC2代,用人工接种方法研究P81及其杂交后代对条中32号的苗期抗性并进行了遗传分析;同时,将P81分别与含有抗条锈基因的Yr5、Yr10、Yr15、Yr26材料进行杂交配制F2,用条中32号小种对其F2进行抗感鉴定,确定抗性基因的等位性。结果表明,P81与川麦28、Taichung29杂交F1代植株对条锈菌条中32号小种表现出与P81相似的高抗,说明P81中的抗条锈基因为显性表达。根据P81与川麦28、Taichung29杂交的F2、BC1、BC2代植株的抗性分离情况及F1代植株及亲本的抗性表现,说明P81对条中32号的抗性由1对显性抗条锈病基因控制;用条中32号小种接种鉴定P81与已知抗锈基因Yr5、Yr10、Yr15、Yr26构建的F2群体时均出现了感病植株,说明P81中的抗条锈病基因与Yr5、Yr10、Yr15、Yr26不相同;系谱分析表明,该基因来源于叙利亚普通小麦品系叙29。     

Infection of oats and other cereals by oat chlorotic stunt virus in the field and laboratory

During 1992/1993 and 1994/1995, field experiments were carried out to investigate the infection of several cultivars of oats, other cereals and grasses, with oat chlorotic stunt virus (OCSV), which is provisionally identified as a member of the Tombusviridae . Under field conditions a high percentage of oat plants became infected when sown in infested soil and there was little difference in susceptibility between the oat cultivars compared. Although plants of other Poaceae such as winter wheat, winter barley and annual meadow grass also became infected, the percentage was low and the virus titre reached was much lower than in oats. In most infected plants the virus was localized within the roots, and only in a few plants did it spread systemically. This suggests that the virus was acquired through the roots, indicating further similarities between OCSV and members of the Tombusviridae . Several cereals, including oats, wheat, barley and maize, were infected by mechanical inoculation using an embryo-wounding technique; in the majority of cases virus infection only reached a low titre.     

大麦条纹花叶病毒(BSMV)在新疆的发生

 在新疆五家渠奇台黑芒小麦上分离到大麦条纹花叶病毒,致死温度60~65℃;体外存活期9~14天;稀释限点1:3000倍。人工接种可侵染禾本科植物,对接过种的非禾本科植物如灰藜、苋色藜、菠菜、甜菜、普通烟、心叶烟、枯斑三生烟、萹豆等不表现病状。用聚乙二醇沉淀和聚乙二醇沉淀、差速离心提取病毒,注入家兔体内,可形成相应的抗体,效价为1:128,1:1024,病毒颗粒为短棒状115~129×20毫微米。
初步观察,病株上的麦种带毒率与种子的饱满程度、品种、感病阶段有一定的相关性。病株上的花粉与健株母本杂交的种子不带毒。     

Towards a Consistent Laboratory Assay for Resistance to Heterodera avenae1

Causes of variation in numbers of females on a cultivar are examined. These are such that an accurate assessment of resistance in the field is not possible. The method used for a laboratory assay is as follows. Seed is selected for uniformity of size and pre-germinated before sowing, when the seminal roots are about 1 cm long, in tubes of sandy loam. Tubes are opaque (2.5 cm internal diameter by 13 cm long) and are set on a base of potting compost. Seedlings are inoculated immediately with the required number of larvae in 1 mi water - for oats 50 larvae, wheat 75 larvae and barley 100 larvae. They are inoculated at the same density at 3-daily intervals on four further occasions. The aim is to produce 50 females on the most susceptible cultivar; densities have been determined from intolerant cultivars. Plants are grown under 10-h day-length at 15oC and are harvested 2 months after the last inoculation, at which time they are assessed and the valuable plants can be repotted and grown on for seed production.     

脱氧雪腐镰刀菌烯醇( DON) 在小麦籽粒中的积累分析

 镰刀菌产生的脱氧雪腐镰刀菌烯醇(deoxynivalenol,DON)污染小麦后对人畜具有较大的毒害作用。为明确DON毒素在小麦籽粒中的积累数量及其与镰刀菌菌株、接菌数量、小麦品种和病害严重度的关系,试验采用单花滴注方法在5个抗病性不同的小麦品种上分别接种9 个禾谷镰刀菌菌株,每个菌株接种1 × 106 、1 × 105 和1 × 104 个/ mL 3 个分生孢子浓度,并利用ELISA 法测定收获麦粒中DON 毒素含量。结果表明,麦粒中DON 毒素含量差异主要是由于不同禾谷镰刀菌菌株产生毒素能力不同所致。接种菌株8003、4020 的所有麦粒中DON 毒素含量均显著高于相同条件下接种其他7 个菌株的小麦。当接种产毒素能力强的菌株时,小麦抗病品种表现出在一定程度上降低DON 毒素积累的能力。不同接菌浓度对小麦赤霉病的发病程度和麦粒中DON 毒素含量有显著影响,在相同条件下,接菌浓度越高,病害严重度越高,DON 毒素含量也越高;反之,接菌浓度越低,病害严重度越低,DON 毒素含量也越低。     

Assessment of resistance to Plasmodiophora brassicae in swedes

A method is described in which swede seedlings inoculated with standardized concentrations of resting spores of specific populations of Plasmodiophora brassicae can be evaluated for resistance in different environments. Similar ranking for resistance of four swede cultivars inoculated with one pathogen population was obtained from seedling tests in a glasshouse, from young plants in a polythene tunnel, and from mature plants in field trials. Differential resistance of the four cultivars to two pathogen populations evident in glasshouse seedling tests was more clearly demonstrated in the field where there was a highly significant cuitivar × pathogen population interaction (p<0 001) for both root fresh weight and mean disease category.
The inclusion of uninoculated control plants in field trials enabled a direct comparison of yield with that from inoculated plants. Cultivars were defined as resistant in terms of yield if they did not suffer any crop loss in comparison with uninoculated plants, even though some plants showed restricted gall development. The distribution of fresh weight to galls, roots and shoots could be used to characterize the relative resistance of cultivars; in the most susceptible cultivars there was rapid gall development but little increase in root or shoot fresh weight between 6 and 12 weeks after inoculation. Differential response was determined during the 6 weeks following inoculation; the implications of this observation are discussed in relation to growth stage and rate of development of host and pathogen.     

Transgenic Nicotiana occidentalis Plants Expressing the 50-kDa Protein of Apple chlorotic leaf spot virus Display Increased Susceptibility to Homologous Virus, but Strong Resistance to Grapevine berry inner necrosis virus

ABSTRACT The 50-kDa protein (P50) encoded by the open reading frame 2 of Apple chlorotic leaf spot virus (ACLSV), a putative movement protein, was expressed in transgenic Nicotiana occidentalis plants. P50 in transgenic plants was mainly detected in a modified form in the cell wall fraction, similar to that in infected leaves. The P50-expressing plants (P50 plants) complemented the systemic spread of the P50-defective mutants of an infectious cDNA clone of ACLSV (pCLSF), indicating that P50 in transgenic plants was functional. Severity of symptoms was greatly enhanced and accumulation of virus in upper leaves was increased in P50 plants inoculated with pCLSF or ACLSV compared with that in nontransgenic control plants (NT plants). Conversely, transgenic plants expressing the coat protein of ACLSV (CP plants) showed a significant delay in symptom development and a reduction of virus accumulation. However, most P50 plants inoculated with Grapevine berry inner necrosis virus (GINV), another species of the genus Trichovirus, neither developed obvious symptoms nor supported virus accumulation in inoculated or upper leaves. In contrast, systemic symptoms developed and virus accumulated equally in NT and CP plants inoculated with GINV. After inoculation with Apple stem grooving virus or Apple stem pitting virus, there was no difference in symptom development and virus accumulation among P50, CP, and NT plants. Our results indicate that transgenic plants expressing a functional P50 were more susceptible to homologous virus and, on the contrary, showed strong resistance to the heterologous virus GINV.     

Breeding tomatoes for resistance to tomato yellow leaf curl begomovirus

Tomato yellow leaf curl begomovirus (TYLCV) can be devastating to tomato crops in tropical and subtropical regions. The development of resistant cultivars is the best option for the control of TYLCV. The TYLCV-resistance level of a new breeding line, TY172, alongside that of commercial cultivars known to be resistant to the virus, was evaluated in a field test by comparing the yield performance of inoculated plants with that of uninoculated plants of the same line or cultivar. There were substantial differences among the different entries tested in the extent of yield loss relative to the corresponding uninoculated control plants. This comparison between inoculated and uninoculated plants of the same entry provides a quantitative assay for resistance level. All resistant commercial cultivars tested developed different levels of disease symptoms. Only line TY172 showed no symptoms of the disease. A low level of viral DNA was detected in infected TY172, showing that it is a symptomless carrier of TYLCV. When TY172 was crossed with susceptible lines, the hybrids exhibited milder symptoms than the susceptible parent, yet higher than that of TY172, suggesting a partial dominance for TY172 resistance. Upon inoculation of F₂ populations, the amount of symptomless individuals appeared in a ratio approximating 7:64. This suggests that at least three genes appear to account for the resistance.     

RNA 3 deletion mutants of beet necrotic yellow vein virus do not cause rhizomania disease in sugar beets

ABSTRACT Two mutant strains of beet necrotic yellow vein virus (BNYVV) containing deletions in RNA 3 were obtained by single lesion transfers in Tetragonia expansa. The deleted regions encode either 94 or 121 amino acids toward the C-terminal part of the 25-kDa protein (P25). Wild-type and mutant virus strains were inoculated by Polymyxa betae to sugar beet seedlings of susceptible and partially resistant cultivars. No differences were found in virus content in rootlets between mutant and wild-type viruses or between susceptible and resistant cultivars after culture for 4 weeks in a growth cabinet. However, when virus-inoculated seedlings were grown in the field for 5 months, the wild-type virus caused typical rhizomania root symptoms (69 to 96% yield loss) in susceptible cultivars, but no symptoms (23% loss) developed in most plants of the resistant cultivar, and BNYVV concentrations in the roots were 10 to 20x lower in these plants than in susceptible plants. In contrast, the mutant strains caused no symptoms in susceptible or resistant cultivars, and the virus content of roots was much lower in both cultivars than in wild-type virus infections. Wild-type RNA 3 was not detectable in most of the taproots of a resistant cultivar without any symptoms, suggesting that replication of undeleted RNA 3 was inhibited. These results indicate that the P25 of BNYVV RNA 3 is essential for the development of rhizomania symptoms in susceptible cultivars and suggest that it may fail to facilitate virus translocation from rootlets to taproots in the partially resistant cultivar.     

小麦植株内可溶性糖含量与对梭条斑花叶病毒抗性的关系

比较了４个对小麦梭条斑花叶病毒具不同抗性的小麦品种，在接种与不接种（ＣＫ）处理条件下，叶片和根系中可溶性糖含量。结果表明，无论接种与否感病品种８１－５和８２０１－６９的可溶性糖含量比抗病品种ＳＫ－４和ＳＮ７８５９的高；接种植株比不接种植株高；８１－５和８２０１－６９升高率比ＳＫ－４和ＳＮ７８５９的高；接种或不接种根系可溶性糖含量与接种根系中介体侵入繁殖量均呈显著正相关。     

不同形态磷肥对棉花生长和AM真菌接种效应的影响

通过两室根箱栽培棉花新陆早13号实验,研究了磷酸二氢钾、植酸钠(Na-phytate)2种磷源形态对AM真菌Glomus mosseae接种效应的影响及棉花生长的影响。结果表明:在不施磷肥的条件下,接种Glomus mosseae真菌时,棉花的生长势没有显著差异,棉株地上部磷含量显著高于没有接种Glomus mosseae真菌的处理。施磷酸二氢钾时,接种Glomus mosseae真菌对棉花生长势起到显著的促进作用,棉株地上部磷含量也显著提高;施用植酸钠时,接种Glomus mosseae真菌对棉花生长势与棉珠地上部磷含量都没有显著影响。对Glomus mosseae真菌接种处理而言,不同形态磷素处理,植物室土壤有效磷的含量大小顺序为磷酸二氢钾>植酸钠>对照。磷素形态对Glomusmosseae真菌的侵染率没有显著影响。不施磷肥Glomus mosseae真菌的侵染率要显著高于施用磷酸二氢钾、植酸钠磷肥的处理,这说明,Glomus mosseae真菌在土壤磷较低时有利于侵染棉花根系。