Suppression of soil-borne plant diseases with composts: A review

Numerous container-based studies in greenhouses or growth rooms have consistently demonstrated a suppressive effect of composts on soil-borne diseases such as damping-off and root rots (Pythium ultimum, Rhizoctonia solani, Phytophthora spp.), and wilts (Fusarium oxysporum and Verticillium dahliae). Composts have also been shown to suppress several diseases in the field, although the effects have been generally smaller and more variable than in container experiments. Several diseases of turf grass were suppressed by top-dressing with compost. These diseases are Fusarium patch (Microdochium nivale), red thread (Laetisaria fuciformis), damping-off (Pythium graminicola), brown patch (Rhizoctonia solani), dollar spot (Sclerotinia homoeocarpa) and snow mould (Typhula ishikariensis). The disease suppressive effect of compost generally increased with rate of application. Compost inclusion rates of at least 20% (v/v) were normally required to consistently obtain a disease suppressive effect, particularly in peat-based media, but significant disease suppression has been found at lower inclusion rates in soil. Reported levels of disease suppression were variable, even using apparently similar composted materials at the same rates. Sterilisation of composted materials generally resulted in a loss in disease suppressiveness, indicating that the mechanism was often or predominantly biological, although chemical and physical factors have also been implicated. The mechanisms and antagonistic micro-organisms involved in disease suppression are not fully understood. Physiological profiling and the use of DNA-based techniques such as denaturing gradient gel electrophoresis (DGGE) may lead to an improved understanding of the changes in microbial communities associated with disease control resulting from compost amendment of soil, sand or peat. The inoculation of composts with biological control agents may improve the efficacy and reliability of disease control obtained.     

Demonstration of the biofumigation activity of <Emphasis Type="Italic">Muscodor albus</Emphasis> against <Emphasis Type="Italic">Rhizoctonia solani</Emphasis> in soil and potting mix

This research demonstrates the role of antimicrobial volatiles produced by Muscodor albus in disease control in soil and potting mix. The volatiles controlled damping-off of broccoli seedlings when pots containing soil or soilless potting mix infested with Rhizoctonia solani were placed in the presence of active M. albus culture without physical contact in closed containers. Conversely, plugs of R. solani on potato dextrose agar were inhibited when they were placed in the presence of M. albus incorporated into garden soil or soilless potting mix. Gas chromatographic analysis with solid-phase micro extraction showed that isobutyric acid and 2-methyl-1-butanol were released from the treated substrates. There was a significant relationship between the production of isobutyric acid in soil and damping-off control (P = 0.0415). Production of isobutyric acid was short-lived in treated substrates, peaking at 24 h in potting mix and 48 h in soil. Amounts of isobutyric acid released from soil were several times higher than those released from potting mix. Also, higher rates of M. albus rye grain culture were required to control damping-off in potting mix than in soil. This suggests that the soil used in this study is a better environment than soilless potting mix for the biological activity or viability of M. albus and components from the potting mix might bind the volatiles. The release of volatiles from soil during the biofumigation process suggests that containment measures such as tarping could be used to improve the control of soil-borne diseases and reduce use rate of the biocontrol agent.     

离体蒜苗挥发物的化感作用及其成分分析

采用半密闭容器法研究了离体蒜苗挥发物对黄瓜、番茄、萝卜的化感作用,并对其成分进行了GC-MS分析。结果表明:蒜苗挥发物对黄瓜的种子萌发及幼苗生长表现为低促高抑的双重浓度效应,对番茄和萝卜则表现出抑制作用,并且随供体蒜苗质量的增大,抑制作用增强;供体蒜苗质量低于400g时,受体植株SOD、POD、CAT、PPO、PAL等活性增强,供体质量为400g时,受体作物上述酶活性均降低;离体蒜苗挥发物的主要化学成分为二烯丙基二硫化物(23.33%)、1,3-二噻烷(18.34%)和邻苯二甲酸二丁酯(6.30%)。     

接种木霉菌对黄瓜幼苗生长和根际土壤AM真菌侵染的影响

在盆栽试验中分别接种3株长枝木霉菌株Trichoderma longibrachiatum MF-1、MF-2和MF-3,以不接种木霉菌处理作为对照,研究木霉菌接种对土著AM真菌和黄瓜幼苗生长的影响。结果表明,菌株MF-1和MF-2显著提高了AM真菌侵染率和根外菌丝密度,与对照相比,AM真菌侵染率分别提高了26.85%和54.66%,根外菌丝密度分别是对照的3.94和3.76倍。接种菌株MF-2使植株地上部生物量显著提高了39.07%。菌株MF-3显著提高土壤pH和土壤有效磷含量。Pearson相关分析发现,添加木霉菌后,AM真菌侵染率与根外菌丝密度和孢子密度均呈显著正相关关系,土壤pH与植株地上部生物量和土壤有效磷含量均呈显著正相关关系。研究表明,3株长枝木霉与土著AM真菌的联合作用效果有明显差异,菌株MF-1和MF-2显著促进AM真菌生长,菌株MF-2更有利于黄瓜幼苗生长,而菌株MF-3主要改善土壤pH和有效磷含量。将几种木霉菌复合应用,有助于达到联合促生和改善土壤环境的综合效果。     

Integration of Pythium nunn and Trichoderma harzianum isolate T-95 for the biological control of Pythium damping-off of cucumber

Two biological control agents, Pythium nunn and Trichoderma harzianum isolate T-95, were combined to reduce Pythium damping-off of cucumber in greenhouse experiments lasting 3–4 weeks. T. harzianum T-95, a rhizosphere competent mutant, was applied to seeds and P. nunn was applied to pasteurized and raw soils naturally and artificially infested with Pythium ultimum. Some treatments were also amended with bean leaves to enhance the activity of P. nunn. The biological control of Pythium damping-off was evaluated in a Colorado soil (Nunn sandy loam) and an Oregon soil mix, which were replanted twice after 2 and 3 months. Interactions between P. nunn and T-95 were detected in the Colorado but not the Oregon soil. No consistent evidence of antagonism between P. nunn and T. harzianum was seen, and significant interactions were detected in the Colorado, but not the Oregon soil. In the first planting of some treatments, the combination of P. nunn and T. harzianum gave greater control of damping-off than either applied alone. P. nunn was most effective in soils that were pasteurized or amended with bean leaves. T. harzianum controlled Pythium damping-off in the Colorado, but not the Oregon soil. In both soils, disease declined over time in treatments amended with bean leaves but without P. nunn or T. harzianum added. This suppression was greater in the Colorado soil, which contained an indigenous population of P. nunn. This work demonstrates that two compatible biological control agents can be combined to give additional control of a soil-borne plant pathogen.     

生石灰和钙镁磷肥对酸化川党参土壤的改良效果

为解决川党参生产过程中土壤酸化的问题,研究不同用量生石灰和钙镁磷肥处理酸化土壤后川党参的种子萌发、幼苗生长及土壤交换性酸和微生物群落结构的变化.结果表明:与对照相比,生石灰和钙镁磷肥处理酸化土壤后显著提高了川党参种子的成苗率,增幅分别为147.7%～326.7%和270.1%～311.2%,川党参幼苗的株高最大增幅分别为516.7%和546.3%,根长最大增幅分别为798.0%和679.2%.生石灰和钙镁磷肥用量为1‰～4‰时,川党参幼苗的叶绿素相对含量、抗氧化酶活性和可溶性蛋白含量均显著提高,丙二醛和超氧阴离子自由基含量显著降低,土壤pH分别提高0.88～2.02个单位和0.23～1.19个单位,土壤交换性铝含量分别下降53.0%～95.3%和17.6%～81.3%.生石灰和钙镁磷肥用量为2‰～4‰时,土壤中细菌和放线菌的丰度显著增加;2‰生石灰和4‰钙镁磷肥处理显著降低土壤中真菌的丰度.盆栽试验显示,生石灰和钙镁磷肥用量分别为1‰～4‰时,川党参根茎鲜重分别提高40.5%～78.5%和28.4%～78.8%.综上,生石灰和钙镁磷肥改良酸化川党参土壤(pH 4.12,土壤容重1.15 g·cm^-3,耕作层厚度15 cm)的适宜施用量分别为1.73～3.45 t·hm^-2和3.45～6.90 t·hm^-2;酸化土壤经处理后可达到川党参幼苗生长的适宜土壤pH(5.5～6.5).     

Efficacy of Organic Soil Amendments for Management of Heterodera glycines in Greenhouse Experiments

In a repeated greenhouse experiment, organic soil amendments were screened for effects on population density of soybean cyst nematode (SCN), Heterodera glycines, and soybean growth. Ten amendments at various rates were tested: fresh plant material of field pennycress, marigold, spring camelina, and Cuphea; condensed distiller’s solubles (CDS), ash of combusted CDS, ash of combusted turkey manure (TMA), marigold powder, canola meal, and pennycress seed powder. Soybeans were grown for 70 d in field soil with amendments and SCN eggs incorporated at planting. At 40 d after planting (DAP), many amendments reduced SCN egg population density, but some also reduced plant height. Cuphea plant at application rate of 2.9% (amendment:soil, w:w, same below), marigold plant at 2.9%, pennycress seed powder at 0.5%, canola meal at 1%, and CDS at 4.3% were effective against SCN with population reductions of 35.2%, 46.6%, 46.7%, 73.2%, and 73.3% compared with control, respectively. For Experiment 1 at 70 DAP, canola meal at 1% and pennycress seed powder at 0.5% reduced SCN population density 70% and 54%, respectively. CDS at 4.3%, ash of CDS at 0.2%, and TMA at 1% increased dry plant mass whereas CDS at 4.3% and pennycress seed powder at 0.1% reduced plant height. For Experiment 2 at 70 DAP, amendments did not affect SCN population nor plant growth. In summary, some amendments were effective for SCN management, but phytoxicity was a concern.     

Behaviour of the fungus Rhizoctonia solani Kiihn in the soil

Rhizoctonia solani was found able to grow as a saprophyte through natural unsterilized soil. Its rate of growth under different soil conditions in glass tumblers was studied by the Rossi-Cholodny soil-plate method. Growth was most rapid at the lowest soil-moisture content tested, viz. 30 % saturation, and was accelerated by forced aeration of the soil. The maximum distance to which mycelial growth could be supported on the food reserves of the agar inoculum alone was some 5 cm., as shown by extent of growth through tubes of moist sand, but in 23 days the fungus grew 21–24 cm through tubes of soil. Removal of the agar disk 2 days after inoculation of the tubes reduced growth through sand by more than half, but through soil by only a small proportion. In soil, Rhizoctonia was able to cause 100% damping-off of radish seedlings planted at a radial distance of 4 cm. from the agar inoculum, and some 40 % damping-off at a distance of 9 cm. The depressing effect of additions of 1 % ground-wheat straw or dried grass to the soil upon growth of the fungus was attributed to (1) the negligible cellulose-decomposing ability of Rhizoctonia, (2) nitrogen starvation of the mycelium, through rapid utilization of the available soil nitrogen by the cellulose-decomposing micro-organisms multiplying upon the fresh organic material, (3) fungistatic action on Rhizoctonia of the respiratory carbon dioxide produced by the cellulose-decomposers.     

Rhizoctonia solani Incited Damping-off in Radish Suppressed by Plasmid and Non-plasmid Carrying Strains of R. solani that Enhance Host Chitinase Activity

Thirteen Rhizoctonia solani isolates belonging to anastomosis group four were examined. All of the isolates carry plasmids except isolates CHU344 and CHU345. Plasmids were analysed by agarose gel electrophoresis and observed by transmission electron microscope. The plasmid DNA is linear, having a size of 2.6 kbp. The termini of the plasmid have a hairpin structure. The replication of plasmid DNA of R. solani CHU341 (pCHU341) was demonstrated by electron microscopy.
Virulence of the fungi was tested on radish seedlings and expressed according to percentage of radish seedlings that damped-off. Strains CHU341, CHU344, CHU345, CHU346, CHU347, CHU348, CHU350 and CHU353, suppressed damping-off of radish seedlings by the virulent isolates, CHU342, CHU349, CHU351 or CHU352 and was expressed according to a suppressiveness index. The chitinase activities of radish seedlings increased from 10 to 20 times after inoculation with suppressive isolates, CHU341, CHU344 and CHU345.
The results indicate that damping-off of radish seedlings caused by R. solani can be protected by related strains with or without plasmids. The protection of the seedlings may result from the enhancement of chitinase activities induced by the suppressive strains of R. solani.     

Characterisation of antagonistic Bacillus and Pseudomonas strains for biocontrol potential and suppression of damping‐off and root rot diseases

Novel strains of rhizobacteria, Pseudomonas fluorescens Pf 9A‐14, Pseudomonas sp. Psp. 8D‐45 and Bacillus subtilis Bs 8B‐1, showed broad‐spectrum antagonistic activity and provided suppression of Pythium damping‐off and root rot of cucumber. Their biocontrol potential was further investigated for suppression of additional seedling diseases of cucumber (Phytophthora capsici) and radish (Rhizoctonia solani). Bacterial strains were also characterised for production of antibiotics, metabolites, volatiles, phytohormones and lytic enzymes. Seed and pre‐plant applications of all three antagonistic bacteria as cell suspension and talc or irradiated peat formulations to the infested potting mix provided overall high level of suppression of Phytophthora damping‐off and root rot of cucumber (66–85% healthy seedlings) and relatively low level of suppression of Rhizoctonia damping‐off of radish (18–38% healthy seedlings). Bacterial treatments also resulted in higher plant fresh masses. Seed coating with irradiated peat formulation of a mixture of three bacteria resulted in superior control of Phytophthora damping‐off and root rot of cucumber and much higher plant fresh masses. The presence of genes for biosynthesis of phenazine‐1‐carboxylic acid, 2,4‐diacetylphloroglucinol, pyrrolnitrin and pyoluteorin was confirmed in Pseudomonas strains, and that of fengycin, bacillomycin, bacilysin, surfactin and iturin A in B. subtilis Bs 8B‐1. All three strains produced HCN, salicylic acid, indole‐3‐acetic acid, protease and β‐1,3‐glucanase. Both Pseudomonas strains produced siderophores and only P. fluorescens Pf 9A‐14 showed phosphate solubilisation and chitinase activity. All three strains inhibited pathogen growth by producing volatiles, and gas chromatography–mass spectrometry analysis revealed eight compounds in Pf 9A‐14, 10 in Bs 8B‐1 and 4 in Psp 8D‐45, some with known antifungal activity. The antagonistic and plant‐growth promotion activities of these strains might be due to production of antibiotics, metabolites, lytic enzymes or phytohormones.     

黄瓜种子及其萌发期的化感作用研究

以大白菜、萝卜、番茄和黄瓜种子为受体,采用实验室培养皿种子发芽生物测试法研究了黄瓜种子浸提液、种子萌发、胚根和芽苗分泌物、芽苗腐解物和芽苗浸提液的化感效应。结果表明:(1)黄瓜种子浸提液对大白菜、萝卜、番茄和黄瓜种子萌发均有化感抑制作用,即黄瓜种子内含有某些化感抑制物质。(2)在水浸提过的黄瓜种子萌发过程中,它不仅对其近邻套种的大白菜、萝卜和番茄种子萌发产生化感抑制作用,而且其胚根和芽苗分泌物对后茬播种的4种蔬菜种子发芽也表现出不同程度的化感抑制作用;黄瓜芽苗腐解物和芽苗水浸提液也对各受体蔬菜种子发芽与生长产生不同程度的化感抑制作用,且随着腐解芽苗量的增加或浸提液浓度的升高,各受体蔬菜种子的发芽指标值、化感效应指数值和综合效应值随之降低。(3)黄瓜种子浸提液及芽苗各器官的化感物质对黄瓜种子的萌发与生长产生了自毒作用,且黄瓜芽苗腐解物、芽苗浸提液、胚根及芽苗分泌物对受体黄瓜的自毒作用均为最大。研究发现,黄瓜种子浸提液、种子萌发时期以及芽苗各器官的化感物质主要是通过抑制受体胚根的生长而起化感抑制作用,即受体蔬菜种子胚根对化感效应最为敏感;因黄瓜种子及萌发期释放化感物质的途径有所不同,导致受体大白菜、萝卜、黄瓜和番茄的化感响应也不相同;在黄瓜种子萌发和芽苗生长的早期,化感物质即开始在芽苗体内进行合成与积累,一部分可通过胚根和芽苗分泌途径释放到环境中,另一部分可通过芽苗腐解途径释放化感物质,并对受体蔬菜种子萌发与生长表现出较强的化感抑制作用。     

Control of pre- and post-emergence damping-off of potato seedlings caused by Rhizoctonia solani in Peru

Fungicide treatment of soil and true potato seed and the use of subsoil as a growth medium significantly reduced pre-emergence damping-off caused by Rhizoctonia solani. Attempts were made to determine safe levels of fungicides for soil and seed treatments. For seed, safe levels varied between 0–9% a.i. for pentachloronitrobenzene (PCNB) and 3-0% a.i. for mancozeb (dithane M-45). Fungicides only marginally reduced post-emergence damping-off of transplants raised from true potato seed but gave significant increase in yield. The prospects of using fungicide treatment of true seed to control damping-off in seed beds and in direct field sowing are discussed.     

Effect of Organic Matter Decomposition Level on Bacterial Species Diversity and Composition in Relationship to Pythium Damping-Off Severity

Rhizosphere bacteria were isolated from root tip segments of cucumber seedlings grown in a suppressive, slightly decomposed light-colored peat mix, a conducive, more decomposed dark-colored peat mix, and a suppressive dark peat mix amended with composted hardwood bark. The bacteria were identified by a gas chromatographic fatty acid methyl ester analysis. The total number of taxa recovered from a single root tip segment ranged from 9 to 18. No single taxon predominated on all root tip segments harvested from any of the mixes. The highest relative population density reached by a given taxon on any root tip segment was 45%. Hill's first and second diversity numbers, the modified Hill's ratio, and Hurlbert's rarefaction method, which were used as measures of species diversity, indicated that the organic matter decomposition level of the potting mixes did not affect bacterial species diversity. Bray-Curtis polar ordination and Dice resemblance functions, however, indicated that the organic matter decomposition level of a mix significantly influenced the composition of bacterial species in the rhizosphere. Pseudomonas spp. and other taxa capable of inducing suppression of pythium damping-off predominated in the suppressive mixes. These organisms were absent from the conducive mix, in which Arthrobacter and Bacillus spp. predominated. Although effective bacterial biocontrol agents were isolated from both the suppressive mixes and the conducive mix, the majority were isolated from the less decomposed suppressive mixes. Finally, the efficacy of strains was significantly greater in the slightly decomposed light peat mix than in the decomposed dark peat mix. Natural disease suppression within these mixes was associated with the organic matter decomposition level and the bacterial species compositions of the mixes.     

Augmentation of Soil with Sporangia of Actinoplanes spp. for Biological Control of Pythium Damping-off

A method was developed for applying strains of Actinoplanes spp. that are hyper-parasites of oospores of Pythium ultimum to soil for reducing Pythium damping-off of plants. The method is based on the augmentation of soil with sporangia of a strain of Actinoplanes spp. borne on clay granules. In vitro sporulation of strains K30, W57, W257 and 25844 was: (1) greater for most strains on dilute Czapek-Dox agar than on four other agar media; (2) inhibited by continuous exposure to fluorescent light of intensity 4-150 μEm^-2s^-1, but not by exposure to 1 μEm^-2s^-1 or darkness; (3) greater at 20-307deg;C than at 10°C;and (4) greater at pH 6-7 than at pH 5 or 8. On solid carriers treated with dilute Czapek-Dox broth (pH 7) and incubated in the dark at 30°C for 3 weeks, strains sporulated poorly or not at all on vermiculite, perlite and rice hulls, but sporulated abundantly (10⁷-10⁹ colony-forming units (CFU) g^-1 of granules) on montmorillonite clay granules. When strains 25844, W57 and W257 were applied as granules (4 10⁷ - 4 × 10⁸ CFU g^-1) at 5% (w/w) to field plots infested with 750-1000 oospores of P. ultimum g^-1 of soil, only strain 25844 consistently increased emergence and reduced root rot of table beets 8- 1 at 24-28 days after planting compared with controls. Strain 25844 (10⁸ CFU g^-1 of granules) at 1% (w/w) also increased the emergence of bush beans at 28 days after planting in P. ultimum-infested plots, but lower rates were ineffective. The inoculum viability of strain 25844 on clay granules declined 100-fold during 2 months of storage at 5-35°C, but thereafter remained stable for another 4 months. Strain 25844 on 6-month-old granules retained a high degree of hyper-parasitic activity toward oospores of P. ultimum. Augmentation of field soil with sporangia of Actinoplanes spp. is a valid approach to the biological control of pythium damping-off.     

Timelapse scanning reveals spatial variation in tomato (Solanum lycopersicum L.) root elongation rates during partial waterlogging

Aims

Effects of soil amendments with crop residues on suppression of damping-off of sugar beet were examined by growing the seedlings in pasteurized, Rhizoctonia solani (AG2-2 IIIB)-infested soil at different temperatures. Dried residues of five dasheen or taro (Colocasia esculenta (L.) Schott) cultivars were compared with those of peanut (Arachys hypogaea L.) and Brassica rapa Olsson for their effects on disease suppression.

Methods and Results

When the seedlings were grown at 17/12 °C (day/night), all residues equally suppressed the disease when amended into the soil just before sowing. At 22/17 or 32/27 °C, damping-off developed in non-treated soil within 10 days, and differential suppressive effects by the residues became apparent by 21 days. When non-pasteurized, non-treated soil was infested with the pathogen, seedling survival was markedly better than in the same but pasteurized, infested soil. Yet, the effect was not different within the entire temperature ranges. Growth of both R. solani and the seedlings peaked near 25 °C and leveled off at higher temperatures.

Conclusions

These results suggest that damping-off was suppressed by antagonistic soil microorganisms, and individual residues elevated their effects differently. Under cool conditions, the antagonists dominated the pathogen to suppress the disease. Under warmer conditions, pathogenesis overcame antagonism depending on the residue, resulting in differential effects of disease suppression.     

Extruded Granular Formulation with Biomass of Biocontrol Gliocladium virens and Trichoderma spp. to Reduce Damping-off of Eggplant Caused by Rhizoctonia solani and Saprophytic Growth of the Pathogen in Soil-less Mix

Extruded granular formulations containing rice flour, gluten, Pyrax, vermiculite, canola oil, and fermentor-produced biomass of isolates of Gliocladium virens (Gl-3, Gl-21 and Gl-32), Trichoderma hamatum (TRI-4 and 31-3), T. harzianum (Th-32 and Th-87) and T. viride (Tv-101) were evaluated for their effect on the reduction of eggplant damping-off caused by Rhizoctonia solani, reduction of pathogen inoculum and proliferation of the isolates in a soil-less mix. Granules with all isolates except 31-3 significantly (P < 0.01) reduced damping-off, and granules with Gl-3, Gl-21, Gl-32, TRI-4 and Th-87 yielded stands comparable to that (90%) of the non-infested control. Granules with isolates Gl-21 and TRI-4 were the most effective in the reduction of saprophytic growth of R. solani, and there was a significant inverse correlation (r ² = - 0.82) between eggplant stand and saprophytic growth of the pathogen over all treatments. Isolate propagules proliferated to about 10⁷ colony-forming units (CFU) g^?1 of soil-less mix after a 6-week incubation, but there was no correlation between the number of CFU and eggplant stand or saprophytic growth reduction of the pathogen. Granules with Gl-21 and TRI-4 amended to pathogen-infested soil-less mix at a rate as low as 0.06% significantly (P < 0.05) reduced damping-off and pathogen saprophytic growth, and a rate of 0.25% of Gl-21 granules resulted in an eggplant stand comparable to that of the non-infested control. There was no significant correlation between the rate of granule amendment and the proliferation of Gl-21 and TRI-4. Granules of Gl-21 and TRI-4 also significantly prevented the spread of R. solani in flats of eggplant seedlings when the biocontrol granules were applied to the soil-less mix 1 day before the pathogen inoculum.     

Biogenesis of carbon monoxide: production by fungi and seed plants in the dark

Fungi and angiosperm seeds and seedlings produce carbon monoxide in darkness when under a low oxygen—high carbon dioxide atmosphere. Peak yields of 40 to 90 nmol/g dry weight were measured after six days, declining thereafter. Peak rates of carbon monoxide (CO) production were observed in Agaricus and cucumber seedlings (0.65 and 0.91 nmol/g/hr, respectively). The addition to radish and cucumber seeds of an antibiotic mixture had little effect on the course of their CO production. We suggest that in addition to the well known process of CO production in leaves of terrestrial plants in light, there is a significant light independent source of the gas among smaller plants associated with the soil—surface and soil—air interface.     

Induction of plant defence compounds by Pseudomonas chlororaphis PA23 and Bacillus subtilis BSCBE4 in controlling damping-off of hot pepper caused by Pythium aphanidermatum

Bacillus subtilis strain BSCBE4 and Pseudomonas chlororaphis strain PA23 (=P. aureofaciens) were effective biocontrol agents against Pythium aphanidermatum, the causal agent of damping-off of hot pepper (Capsicum annum L.) in greenhouse vegetable production systems. Application of strains BSCBE4 and PA23 at the rate of 20 g kg^-1 of seed significantly increased the growth of hot pepper seedlings. The efficacies of various carriers in sustaining the population of these strains in storage were assessed. Both the antagonists survived up to 180 days of storage in peat and talc-based formulations. The two bacterial strains induced development of plant defence-related enzymes including phenylalanine ammonia lyase, peroxidase, polyphenol oxidase, phenol content, suppressed incidence of damping-off and increased growth of hot pepper seedlings.     

CsRCA超表达对高温胁迫下黄瓜幼苗光合作用的影响

以CsRCA超表达黄瓜株系T1-7、T1-2和野生型‘08-1’为试材,在三叶一心时用光照培养箱模拟高温环境[40 ℃,光量子通量密度(PFD) 600 μmol·m^-2·s^-1],研究了CsRCA超表达对高温胁迫下黄瓜幼苗光合作用的调控机理.结果表明: CsRCA超表达可显著提高转基因黄瓜幼苗核酮糖-1,5-二磷酸羧化/加氧酶(Rubisco)大、小亚基的mRNA 表达量,Rubisco和Rubisco活化酶(RCA)活性亦显著高于野生型植株.高温胁迫2 h后,超表达和野生型黄瓜幼苗的光合速率(P_n)、以吸收光能为基础的光化学性能指数(PI_ABS)、Rubisco活性和RCA活性及其mRNA表达量均显著降低.经JIP-test分析发现,高温胁迫导致叶绿素荧光快速诱导动力学曲线中K点明显上升, 而捕获的激子将电子传递到电子传递链中Q_A下游的其他电子受体的概率(Ψ_o)和用于电子传递的产额(φ_E0)均显著下降,说明PSⅡ放氧复合体(OEC)和Q_A之后的电子传递链在高温下受到抑制,但是超表达植株的变化幅度要小于野生型植株.可见CsRCA超表达可以通过提高Rubisco、RCA和PSⅡ活性,缓解高温对黄瓜幼苗光合作用的影响,增强其对高温的适应性.