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1.
Application of Trichoderma harzianum Rifai aggr. after soil fumigation with methyl bromide improved the control of Sclerotium rolfsii Sacc. and Rhizoctonia solani Kühn in a peanut field. Although soil fumigation controlled the diseases caused by these pathogens, it was followed by rapid reinfestation by S. rolfsii and R. solani. The biological control agent T. harzianum prevented reinfestation of the fumigated soil by the pathogens (88% reduction) both in a controlled environment and in field conditions. In soil treated with T. harzianum, survival of sclerotia was considerably less than in the untreated control. The combined treatment, of fumigation and T. harzianum applications, caused almost total mortality of sclerotia in soil in the laboratory and in the field. Application of T. harzianum to the root zone of tomatoes effectively controlled S. rolfsii in a field naturally infested with S. rolfsii and R. solani. Transplanting plants treated with T. harzianum into soil fumigated with methyl bromide reduced disease incidence by 93% and increased yield by 160%. 相似文献
2.
Dongyang Yu Wanduo Song Qianqian Wang Yanping Kang Yong Lei Zhihui Wang Yuning Chen Dongxin Huai Wang Xin Boshou Liao Liying Yan 《中国油料作物学报(英文)》2023,8(2):121-126
In order to understand the pathogenic mechanisms of Sclerotium rolfsii on peanut and to analyze the variation of virulence in S. rolfsii strains, the highly virulent strain(ZY2) and weakly virulent strain(GP3-1) were investigated under both in vivo and in vitro conditions. The results indicated that S. rolfsii directly infected peanut by producing infection cushions. ZY2 formed infection cushions earlier than GP3-1, and ZY2 produced a greater number of infection cushions compare to GP3-1. Both s... 相似文献
3.
S.N. Tchameni M.E.L. NgonkeuB.A.D. Begoude L. Wakam Nana R. Fokom A.D. OwonaJ.B. Mbarga T. TchanaP.R. Tondje F.X. EtoaJ. Kuaté 《Crop Protection》2011,30(10):1321-1327
Arbuscular mycorrhizal fungi (AMF) and members of the genus Trichoderma have emerged as promising groups of microbial inoculants that can induce plant growth and resistance to disease. This study aimed at investigating the potential of AMF and a strain (PR11) of Trichoderma asperellum to promote cacao growth and induce resistance against Phytophthora megakarya. Cacao seedlings were either non-inoculated, or inoculated with the saprophytic fungus T. asperellum and/or a mixture of two different mycorrhizal fungi, Gigaspora margarita and Acaulospora tuberculata. Eighteen weeks after planting, a series of morphological as well as biochemical changes, which are considered to be part of the plant defense response, were measured after a challenge inoculation of the leaves with zoospores of P. megakarya. Inoculation with AMF and T. asperellum alone was essential for the promotion of plant growth. Significant increase in plant height, root and shoot fresh weights, as well as phosphorous uptake was recorded in comparison to non-inoculated control plants. However, dual inoculation of cacao seedlings with T. asperellum and AMF did not always positively benefit the plants. Leaf inoculation showed variation among the treatments, with the lowest disease index (highest level of resistance) recorded in plants inoculated with either AMF or T. asperellum only. This came along with a high synthesis of amino acids and phenolic compounds in both healthy and infected leaves, suggesting that these metabolites are implicated in disease resistance. 相似文献
4.
The objective of this work was to investigate the efficacy of a prepackaged combined formulation, Companion (carbendazim 12% + mancozeb 63% WP), sole application of carbendazim 50% WP, manozeb 75% WP and methyl jasmonate (MeJA), an inducer of systemic acquired resistance on disease severity and their role in post-infectional defense responses in chilli seedlings against Sclerotium rolfsii. Seeds were treated for 8 h with MeJA (2.5 mM and 5.0 mM) and each of fungicides (500 ppm), and were sown in pots containing soil and fungal inocula (95:5 w/w). At 15 days after sowing maximum defense against fungal infection was exhibited by Companion comparably followed by the sole application of carbendazim and mancozeb. MeJA reduced percent mortality of S. rolfsii-infected chilli seedlings significantly as compared to the inoculated control. Assessment of peroxidase (POX) and esterase (EST) at 15 days after sowing revealed the increased activity under inoculated condition. Highest POX activity in MeJA treatments (5 mM > 2.5 mM) was followed by the Companion treatment. Highest EST activity was registered in Companion treatment. The zymogram of POX isozymes showed over-expression of POX 2 and POX 4 isoforms, and induction of POX 1 isoform in inoculated treatments. On the other hand, that of EST isozymes showed induction of EST 1 isoform in Companion, carbendazim and MeJA treatments. All EST isoforms were over-expressed in Companion-treated seedlings. Both fungicides and MeJA showed significant effects on disease severity, induction of defense enzymes and isozyme pattern in S. rolfsii-infected chilli seedlings. Contact and systemic fungicides under the experiment demonstrated differential responses. The combination formulation was superior in disease control to application of the fungicide components individually. They compared favourably with MeJA in induction of defense-related enzyme activities. All these findings are new with respect to the chilli-S. rolfsii host–pathogen interaction system, S. rolfsii representing the sclerotial basidiomycetes in particular. 相似文献
5.
The aims of this study were to develop new bioformulations using Trichoderma harzianum, Trichoderma asperellum, and Talaromyces flavus and some organic and inorganic carriers and evaluate their effects against Rhizoctonia solani, the fungal causal agent of sugar beet seedling damping-off disease. Selected fungal isolates were first re-cultured and maintained on potato dextrose agar (PDA) culture medium. Antagonistic effects of eight isolates of the above-mentioned antagonistic fungi were then evaluated against R. solani, through volatile metabolites and non-volatile metabolites production mechanisms under laboratory conditions. In volatile and non-volatile metabolite experiments, five and seven isolates caused significant reduction in R. solani growth respectively. Based on the results of laboratory experiments, the most effective antagonistic isolates (one isolate from each species) were selected for development of nine bioformulations using peat, rice bran and talc as carriers. The effectiveness of developed bioformulations was then evaluated in controlling sugar beet damping-off disease in a greenhouse experiment where sugar beet seeds were coated with bioformulations and were sown in pasteurized field soil pre-inoculated with R. solani. Results of the greenhouse experiment 60 days after sowing showed that all bioformulations increased the number of healthy seedlings significantly (compared to the untreated control) with different rates. According to the results, the most effective bioformulation was Talc-T. harzianum followed by Peat-T. flavus, Talc-T. flavus and Rice bran-T. harzianum. In general, in both laboratory and greenhouse experiments, T. flavus was the most effective fungal antagonist followed by T. harzianum and T. asperellum. Based on the results of this study it is concluded that Trichoderma and Talaromyces employing different mechanisms might be potential biocontrol agents for controlling R. solani-induced sugar beet damping-off disease. 相似文献
6.
Interest in industrial and domestic applications of biodegradable plastics from renewable sources is increasing, but their use in agriculture is still limited (e.g., mulching films, plant pots, and plant clips). However, a sprayable liquid bioplastic formulation was recently evaluated for application of microbial biocontrol agents to agricultural and horticultural crops. In this study bioplastic formulation has been evaluated for use in film-coating seeds of two agronomic species, corn and canola. Bioplastic seed coating was achieved using procedures and equipment designed for commercial polymer film-coating of tablets. Germination of both species was unaffected by the thin bioplastic coating. Bioplastic coatings containing spores of the plant-growth promoting fungus, Trichoderma harzianum, significantly stimulated the growth of corn and canola seeds. In corn seedlings, shoot and root lengths were 29% and 44% longer, respectively, in seeds coated with T. harzianum-containing bioplastic than in uncoated seeds. Similarly, in canola seedlings shoot and root lengths were 19% and 20% longer, respectively, in seeds coated with T. harzianum-containing bioplastic than in uncoated seeds. In a paper-roll assay, including T. harzianum spores prevented reduced germination caused by a mixture of the insecticide imidacloprid and the fungicide metalaxyl-M in bioplastic seed coatings. The adhesive and plastic properties of bioplastic reduced dust-off from bioplastic-coated seeds by 96% in corn and 99% in canola compared to seeds coated with a commercial polymer. 相似文献
7.
《中国油料作物学报(英文)》2020,5(4):174-179
Southern stem rot, caused by Sclerotium rolfsii Sacc., is a destructive soil fungal disease of peanut in China and other countries. To evaluate resistant germplasm, a total of 256 peanut accessions were investigated on their resistance to southern stem rot in 3 environments by artificial inoculation. Variance analysis indicated that disease index was significantly influenced by environment, genotype and genotype × environment interactions. Peanut accessions of var. vulgaris type exhibited higher resistance to southern stem rot. Disease index was significantly negatively correlated with linoleic acid content, while positively correlated with oleic acid content. Six resistant accessions were identified, including Hua 28, Shandongzai, ICG 6326, Quanhua 7, Quanhua 9 and Guihua 836, with their disease indexes under 40 and mortality were less than 30% in the three environments. The identified resistant accessions showed the great potential to be applied in resistant peanut breeding, and would be good genetic resources for enhancing the resistance to southern stem rot. 相似文献
8.
In a 2-year assessment carried out on tomato crops of Central and Southern Italy, a high incidence of Rhizoctonia solani and Sclerotium rolfsii was found. These fungal pathogens attack horticultural crops and are responsible for severe crown and stem rot. Because of technical, economical and environmental issues their chemical control is an arduous task. To find alternative and eco-compatible control methods, the effectiveness of two new antagonistic bacterial isolates (Burkholderia cepacia, T1A-2B, and Pseudomonas sp., T4B-2A), previously selected from suppressive organic amendments, were tested on tomato plants grown under both growth chamber and field conditions. The potential antagonists were compared with two commercial biofungicides, based on Bacillus subtilis (BSF4) and Trichoderma asperellum (TV1), and four synthetic fungicides (tolclofos-methyl, azoxystrobin, fosetyl-Al and fosetyl-Al + propamocarb). In 2-year field experiments carried out on tomato plants, the biocontrol bacteria as well as the other treatments were applied to the soil, proximal to the plant crowns and main roots, by means of an effective and specific system of drip irrigation. In all the experiments the novel selected biocontrol bacteria significantly reduced both incidence and severity of the diseases caused by S. rolfsii or R. solani, with results demonstrating effectiveness equal to TV1, better than BSF4 and comparable with the synthetic fungicides, except for tolclofos-methyl which was the most effective treatment. In field experiments, carried out for two consecutive years, isolate T1A-2B reduced up to 58.33% and up to 63.8% the severity of the diseases caused by S. rolfsii and R. solani respectively; whereas isolate T4B-2A gave reduction of S. rolfsii and R. solani diseases severity up to 73.2% and up to 62.7%, respectively. 相似文献
9.
Stem brown canker or Botryosphaeria canker disease impairs the growth and kills the shoots, limbs and even trunks of infected apple trees. Apple roots are usually colonized by arbuscular mycorrhizal fungi, which may have a positive influence on plant growth and suppression of diseases. In order to assess the efficacy of AM to suppress the disease severity and plant growth enhancement, nine AMF inoculation treatments (Sclerocystis dussi, Glomus intraradices, G. fasciculatum, G. bagyaraji, G. leptotichum, G. monosporum, Gigaspora margarita, a mixed AM culture and a non-mycorrhizal control treatment) were used in this present study. Two-year-old potted apple plants, maintained under glasshouse conditions, were either pre-inoculated with AMF followed by stem inoculation with Botryosphaeria ribis or simultaneously inoculated with Botryosphaeria ribis and AM. The results indicated that the incidence of canker was less severe in plants inoculated with AMF in comparison to non-mycorrhizal control. Timing of inoculation also had a significant effect on disease development and plant survival. Plants pre-inoculated with mycorrhiza performed better over those inoculated simultaneously with Botryosphaeria ribis and AM fungi. Furthermore, AM inoculation resulted in improved survival and growth of AMF-colonized plants; though, it varied by species of AM fungi utilized. 相似文献
10.
A.W. Mohd As’wadM. Sariah R.R.M. PatersonM.A. Zainal Abidin N. Lima 《Crop Protection》2011,30(11):1438-1442
Basal stem rot of oil palm (OP) by Ganoderma boninense is of major economic concern and it is the predominant disease of OP in SE Asia. Also, other plantation crops are affected by Ganoderma. The early detection of symptoms is crucial for control, although effective methods remain elusive. Ergosterol is the principal sterol of fungi and plays an essential role in the cell membrane and other cellular constituents. The analysis of ergosterol is useful for fungal detection in solid plant substrates. The present report compares ergosterol concentration in sound and decayed OP seedlings and mature plants using HPLC with diode array detection. The disease of OP requires to be considered as a white rot process where fungal biomass will increase from a low to high level as the infection progresses. G. boninense biomass was correlated with ergosterol concentration in vitro. Furthermore, the sterol was correlated with internal colonization (a) of inoculated seedlings, (b) of felled and standing OP and (c) to external symptoms of the disease. The compound was not detected in healthy samples. Disease treatments may be made more effective as the amounts of fungal biomass can be estimated and early detection is possible. Ergosterol quantification is a provisional diagnostic method for detection for G. boninense infection in OP which can be employed with other methods, enabling early remedial action to be taken. The method is recommended for further research involving basal stem rot of OP. 相似文献
11.
XianFang ZhangJingjing Li Gaofu QiKai Wen Jinzhong LuXiuyun Zhao 《Crop Protection》2011,30(11):1478-1484
White backed planthopper (WBPH; Sogota furcifera Horvath) has become the major threat to rice crops throughout Asia, damaging plants both through its feeding behavior and by acting as a virus vector. Here, we developed a novel method for biologically controlling WBPH by using endophytic bacterium to express anti-pest plant lectins. Strain SJ-10 of an endophytic bacterium, characterized as Enterobacter cloacae by morphological, physiological, biochemical and 16s rDNA characteristics, was isolated from rice seedlings. The Pinellia ternate agglutinin (PTA) gene was cloned into SJ-10 for expression. The positive transformant, selected by antibiotic resistance, was evaluated using PCR, SDS-PAGE and Western blot assay. After inoculation, rSJ-10 could colonize rice plants so that they expressed PTA, and then the rice was shown to have insecticidal activity against WBPH. The results showed that rSJ-10 could significantly decrease the survival and fecundity of WBPH fed on rice seedlings (p < 0.01). At day 19, the fecundity of WBPH inoculated with rSJ-10, or with wild-type SJ-10 was decreased by 86.1%, and 25.6%, respectively. At day 22, numbers of WBPH on rice in the control were 19.4 times greater than on rice inoculated with rSJ-10. At day 26, the rice seedlings all died in the control group, but the seedlings inoculated with rSJ-10 grew well. The results showed that the rice seedlings inoculated with rSJ-10 expressing PTA protein were endowed with the anti-pest activity against WBPH. Further work is needed to investigate whether the rice plants expressing rPTA are toxic to mammals. This research highlights a way to biologically control planthoppers by recombinant endophytic bacteria expressing plant lectins. 相似文献
12.
In northern Italy, the most frequently occurring class of mycotoxins in maize are fumonisins, mainly those produced by Fusarium verticillioides. Currently, good agricultural practices (GAPs) represent the best line of defense for controlling the contamination of maize by Fusarium-toxins. Annual fluctuations in weather conditions can strongly reduce the advantages conferred by GAPs, and thus integration with biological control strategies can be a sustainable way to achieve reliable control of Fusarium colonization and toxin contamination. Trichoderma harzianum is a good biocontrol agent against a wide range of plant pathogens, and previous studies have reported its ability to reduce F. verticillioides colonization under greenhouse conditions. Field trials were conducted in two locations to assess the effect of seed treatment with T. harzianum strain T22 on F. verticillioides kernel colonization and on fumonisin contamination under various natural conditions. An average reduction of 58% in fungal infestation and 53% in mycotoxin contamination was observed during our three-year experiments. This research suggests that seed biopriming with T. harzianum T22 can be a promising and environmentally friendly way to control F. verticillioides kernel colonization and fumonisin accumulation. 相似文献
13.
Biological control of plant pathogens on strawberries may be improved by the simultaneous application of different biological control agents (BCAs). Therefore, the compatibility of various BCAs which had previously shown to be effective against powdery mildew (Podosphaera aphanis (Wallr.) U. Braun & S. Takam) under laboratory conditions was examined in vitro. Inhibitory effects between fungal and bacterial BCAs were demonstrated in dual culture tests on two solid nutrient media. Leaf disc assays with single and multiple strain treatments demonstrated either unaffected or significantly improved control of P. aphanis for many multiple strain treatments, even if antagonistic interactions previously occurred in dual culture tests. Highest inhibition of powdery mildew conidiation (80.7% reduction) was achieved with multiple strain treatments with Bacillus subtilis FZB24 and Metarhizium anisopliae (p < 0.001). In this combination, conidiation was 3.7 times lower than in single treatments with B. subtilis indicating synergistic interactions between these BCAs. Combinations of Trichoderma harzianum T58 and B. subtilis FZB24 showed antagonistic interactions in dual culture tests as well as in leaf disc assays. In this combination, powdery mildew conidiation on leaf discs was four times higher compared to single treatments with T. harzianum T58. 相似文献
14.
Nitrogen and water management can limit premature ripening of sunflower induced by Phoma macdonaldii
Premature ripening (PR) is one of the most important diseases of sunflower in France since the 90s. Previous results indicated that girdling canker of the stem base, caused by Phoma macdonaldii was its primary cause but elucidation of critical environmental factors involved is crucial for better control of the disease. A field study was conducted in three contrasting cropping seasons (2006–2008) and investigated the effect of N fertilization (0, 75 and 150 kg N ha?1) and water regime (rainfed, irrigated) on two cultivars with artificial inoculation (AI) and natural infection (NI). Disease assessment was recorded weekly to calculate the area under disease progress curve (AUDPC) and the final percentage of PR plants. Data showed that high levels of N fertilization led to significantly (P < 0.05) more PR than non-fertilization. Water deficit conditions were significantly (P < 0.05) involved in disease severity, and AUDPC and PR were increased when dry conditions were associated with high N supply. This was true for two cultivars which differed in their susceptibility to the disease but cv. Heliasol RM was significantly (P < 0.05) more affected than cv. Melody, partially resistant to PR. Despite contrasting weather patterns, these results demonstrated a clear role of crop management and environmental conditions on the incidence and severity of stem base attacks responsible for the PR syndrome. These findings suggest that sunflower crop husbandry should be adapted to minimize premature ripening induced by P. macdonaldii. 相似文献
15.
Pseudomonas fluorescens strain CZ has been reported to inhibit tobacco mosaic virus (TMV) by producing an antibiotic protein. In this study the effects of CZ powder on TMV infection were investigated on tobacco grown in greenhouses and in the field. CZ stocks were cultured in a mixture medium (5 g wheat bran, 1 g soybean flour, 1 g corn flour, 1 g peanut flour), and then mixed with silica white at a ratio of 6 ml:1 g to make CZ powder. The effective cell concentration in a 100-fold dilution of CZ powder was 49.8 × 1010 cfu ml−1. In greenhouse experiments where Nicotiana tabacum cv. Samsun NN plants were challenged by mechanical inoculation with a mixture of the 100-fold diluted CZ powder and TMV, the in vitro suppression of the TMV infection was 88.3% compared to the controls in which a mixture of water and TMV was used as inoculum. Similarly when N. tabacum cv. NC89 plants were inoculated by cutting the leaves with virus-contaminated scissors, dipping the scissors in a 100-fold dilution of CZ powder before cutting showed a disinfection effect of 96.3% compared with water dipping controls. Drenching and spraying a 100-fold dilution of CZ promoted growth and inhibited virus infection by 59.2% on N. tabacum cv. NC89 plants in the greenhouse. In field trials, 100-fold dilution of CZ suppressed TMV infection by 58.2% and 47.6% in 2010 and 2011, respectively, which was similar to the effect of Ningnanmycin (antibiotic purified from Streptomyces noursei var. xichangensis), a registered antiviral agent in tobacco. All these results indicated that CZ has a potential to be used as a hand tool disinfector and an antiviral agent against TMV. 相似文献
16.
In the present investigation, we studied resistance imparted by seed treatment with an endophytic strain of Achromobacter xylosoxidans, AUM54, against rice blast caused by Magnaporthe oryzae. In vitro studies showed that A. xylosoxidans AUM54 was able to inhibit mycelial growth of M. oryzae by 11% and was able to increase rice germination and seedling vigor index of rice by 31 and 114%, respectively. AUM54 also showed better survivability in the spermosphere and spermoplane and was able to move systemically through the roots and stem. Among the evaluated carriers, liquid formulation amended with 2% glycerol sustained the maximum bacterial population (7.4 log cfu ml−1) after six-months-storage at room temperature. Plants treated with A. xylosoxidans AUM54 followed by inoculation with M. oryzae showed a significant increase in the activities of defense related enzymes such as polyphenol oxidase (PPO), peroxidase (POD), phenylalanine ammonia-lyase (PAL) and chitinase. A. xylosoxidans AUM54 treatment was able to reduce blast disease incidence by 39% in treated rice plants. Additionally, inoculation with A. xylosoxidans AUM54 significantly enhanced the growth (3–13% plant height), and yield (11–31%) of inoculated rice plants under no-disease and disease conditions in the greenhouse experiments. 相似文献
17.
There are numerous studies evaluating biocontrol of root rot by using the antagonistic effects of either arbuscular mycorrhizal fungi (AMF) or rhizobacteria, but usually independently. Fewer studies, although growing in number, report on evaluating the effectiveness of concurrent fungi–bacteria inoculation in combating root rot; and furthermore, there are none to date reported with papaya. In this study, an indigenous Pseudomonas sp. (PPV3) was isolated from roots of papaya (Carica papaya L. cv. Maradol) and used with an AMF complex (MTZ01) consisting of four fungi Glomus intraradices, Glomus mosseae, Glomus etunicatum and Gigaspora albida to inoculate roots of papaya in order to determine their antagonistic effects against Fusarium oxysporum, individually and in combination. It was found that with inoculation with PPV3 and MTZ01 protection was highest (85%) and had reduced disease (10%) as well as reducing F. oxysporum colonization in papaya seedlings. Inoculations with MTZ01 or PPV3 showed an efficacy of 54 and 60%, with a level of disease severity of the 38 and 22%, respectively. The combination of the AMF complex (MTZ01) with rhizobacterial Pseudomonas sp. (PPV3) modified the effects of F. oxysporum and provided increased protection for C. papaya than either acting alone. These results suggest that rhizobacteria and arbuscular mycorrhizal fungi acting together formed a mutualistic relationship that enhances disease control against F. oxysporum and stimulates growth in C. papaya. 相似文献
18.
India is a leading producer of oilseed Brassicas, contributing approximately 23 percent of the country's total oilseed production. In India, the Indian mustard [Brassica juncea (L.) Czern. & Coss.] crop is ravaged by various diseases, including Alternaria blight, white rust, downy mildew, Sclerotinia rot and powdery mildew, which can contribute to fluctuations in crop yields. A field experiment examining an integrated disease management system for Indian mustard (B. juncea) was conducted under the All India Coordinated Research Project on Rapeseed-Mustard (Indian Council of Agricultural Research or ICAR) during three crop seasons (2006–09) at 11 locations to assess treatments suitable for the management of crop disease. The data from the different locations and years regarding disease severity and incidence were pooled and analyzed. Seed treatments with freshly prepared Allium sativum bulb aqueous extract (1 percent w/v) resulted in significantly higher initial plant stands, across locations and years. Seed treatment with A. sativum bulb extract, followed by its use as a foliar spray, resulted in significantly reduced Alternaria leaf and pod blight severity, reduced white rust severity, fewer stag heads per plot, reduced downy mildew and Sclerotinia rot incidence, and reduced powdery mildew severity, across locations and years. The combination also provided significantly higher seed yields compared with the control across locations and years and was at par with treatment by chemical fungicides. The combination used in the present study was as effective as the combination of seed treatment with Trichoderma harzianum and foliar spraying with Pseudomonas fluorescens and T. harzianum. Economic returns were higher when using biorational treatments (A. sativum bulb extract, T. harzianum, P. fluorescens) compared with chemical fungicides. The combination of seed treatments with T. harzianum followed by its use as a foliar spray (17.22), and the similar combination of seed treatments and foliar spraying with the A. sativum bulb extract (17.18), resulted in a higher benefit to cost ratio. This eco-friendly technology can help oilseed Brassica growers in India safeguard the crops from major diseases and increase the stability and productivity of the Indian mustard crop. 相似文献
19.
Light and plant growth‐promoting rhizobacteria effects on Brachiaria brizantha growth and phenotypic plasticity to shade 
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下载免费PDF全文 M. J. S. Lopes M. B. Dias‐Filho T. H. R. Castro G. B. Silva 《Grass and Forage Science》2018,73(2):493-499
This is the first report on the effect of light intensity and plant growth‐promoting rhizobacteria (PGPR) on the growth of a tropical forage grass, being a relevant study to improve pasture management in conventional farming and integrated crop‐livestock‐forestry systems. In this study, our aim was to evaluate the effects of light intensity and Burkholderia pyrrocinia and Pseudomonas fluorescens inoculation on Brachiaria brizantha cv. BRS Piatã growth, and phenotypic plasticity to shade. The experiment was conducted in a semi‐controlled environment. Seedlings of B. brizantha were allocated to full sun and shade. P. fluorescens and B. pyrrocinia were inoculated individually or co‐inoculated by soil drench, 14 days after seedling emergence. We evaluated morphogenesis, structural and growth parameters. Irrespective of the light regime, co‐inoculated plants had greater leaf area and SPAD index (chlorophyll content). Increase in total biomass production in co‐inoculated plants was over 100% and 300%, under full sun and shade respectively. Co‐inoculated P. fluorescens and B. pyrrocinia increased shade tolerance in B. brizantha, improving plant performance. Co‐inoculation promoted growth in B. brizantha under both sun and shade, indicating its potential as a bio‐fertilizer in conventional and integrated systems, especially in silvopastoral systems, where light availability to pasture growth may be limited. 相似文献
20.
Vitex agnus-castus methanolic extract showed strong antifungal activity against Pythium ultimum in tomato under both in vitro and in vivo conditions. The 0.2% extract delayed the mycelial growth of the fungus and showed significant antifungal activity against P. ultimum on tomato seedlings with an efficacy comparable to that of the synthetic fungicide. To determine the involvement both of plant extract and pathogenic fungus in PR gene induction, tomato plants were treated with V. agnus-castus extract and/or inoculated with P. ultimum. The expression of four PR genes (PR-1, PR-2, PR-5, PR-6) was monitored at five time points within 48 h of the extract treatment and fungal inoculation. The PR-1 and PR-4 genes were activated directly by V. agnus-castus extract up to 12 h after treatments; at 24 h, the direct activation by plant extract disappeared and a synergistic inducing effect of extract and pathogen applied simultaneously on the plant was observed. The PR-6 gene was not activated directly by the V. agnus-castus extract but only when applied together with the pathogen; activation of the PR-6 gene occurred 24 h after treatments and the gene expression increased at 48 h. There was no activation of PR-5 gene by the plant extract. The ability of V. agnus-castus extract to enhance plant defence responses upon pathogen inoculation might be further investigated. The activation of various PR genes suggests that induction of defence responses by V. agnus-castus extract in tomato may be regulated by more than one signalling pathway. 相似文献