Biological control of Meloidogyne incognita and Fusarium solani in dry common bean in the field

Meloidoyne incognita (root-knot nematode) and Fusarium solani (root-rot pathogen) were the common soil-borne pathogens and cause severe damage to bean plants in newly reclaimed sandy soil in Nubaryia district, Behera Governorate, Egypt. The antagonistic effects of Trichoderma album and Trichoderma viride as well as three commercial products namely Rhizo-N^® (Bacillus subtilis), Bio-Arc^® 6% (Bacillus megaterium) and Bio-Zeid^® 2.5% (T. album) were tested against M. incognita and F. solani under naturally infected field conditions. T. album and T. viride highly reduced the frequency (%) population of pathogenic fungi such as Fusarium spp., F. solani and Rhizoctonia spp., than the commercial products. Results indicated that all the tested bio-control agents reduced, significantly, the nematode criteria as evidenced by the number of juvenile (J₂) in soil and number of galls and egg masses on roots of common bean and Fusarium root-rot incidence (%). Rhizo-N^® highly reduced the number of J₂ in soil, while T. album was the best in reducing the number of galls and egg masses in roots. The bio-control agents also increased the plant growth parameters of common bean plants i.e. plant height, plant weight, branch no./plant, pods no./plant, pod weight/plant, pod weight, seeds no./plant, fresh seeds weight/pod, dry seeds weight/pod and dry weight of 100 seeds.     

Induced systemic resistance in tomato by non-pathogenic Fusarium species for the management of Fusarium wilt

Isolates of non-pathogenic Fusarium moniliforme (Fu3, Fu7 and Fu24), F. oxysporum (Fu2, Fu4), F. solani (Fu25) and F. merismoides (Fu1) that were found to be effective in reducing wilt incidence in tomato were tested for their potential to elicit induced systemic resistance (ISR) in tomato. Talc formulations of these isolates derived from liquid fermentation as well as cell elicitors of these cultures were tested. Changes in the phenol and total protein contents and activities of peroxidase and polyphenol oxidase were studied. Isolate Fu3 induced more phenol and total protein contents as well as activities of peroxidase and polyphenol oxidase. Elicitors of Fu2 induced more of these compounds and enzymes. Although Fu1, Fu4 and Fu24 were found to give good control against Fusarium wilt incidence in an earlier study, they were less effective in inducing these defense related compounds. Peroxidase activity was increased when plants were treated with Fu3, Fu4, Fu7, Fu24 and Fu25, whereas polyphenol oxidase activity was increased only with the isolate Fu3 and elicitor of Fu2. It is suggested that ISR was the mode of action for the isolates Fu2 and Fu3, whereas for the other isolates, the mode of action may be root colonisation, competition for nutrition and so on. The role of ISR with non-pathogenic isolates of Fusarium spp. is discussed.     

Arbuscular mycorrhizal fungi and Trichoderma viride mediated Fusarium wilt control in tomato

The biocontrol potential of two arbuscular mycorrhizal fungi (AMF) (Funneliformis mosseae and Acaulospora laevis) and Trichoderma viride was assessed against tomato wilt caused by Fusarium oxysporum Schlecht. f. sp. lycopersici under pot condition. All the bioagent showed appreciable results in increasing plant growth. Combined inoculation of F. mosseae, A. laevis and T. viride showed maximum increases in plant height, shoot fresh weight, root dry weight, number of leaves and number of branches per plant while dual inoculation of F. mosseae and T. viride increased rest of the growth parameters like shoot dry weight, root fresh weight, root length and leaf area. AM colonisation and spore number was found highest in single inoculation of AMF, which decreases with the addition of T. viride. But, this decrease has no effect on biocontrol efficiency of bioagents. Photosynthesis, chlorophyll content and nutrient content were markedly decreased by pathogen infection. Bioagent application overcomes this effect and a remarkable increase in the plant phosphorus and nitrogen content was recorded. Among both the AMF, F. mosseae proved to be more effective strain compared to A. laevis for tomato. Maximum reduction in disease incidence and severity was recorded in combined inoculation of F. mosseae, A. laevis and T. viride. Whereas control plants without any bioagent showed maximum occurrence of disease. The findings of this study concludes that soil inoculation with F. mosseae along with root inoculation with conidial suspension of T. viride before transplantation offered better survival and resistance to tomato seedlings against Fusarium wilt.     

Pathogenic potential of root-knot nematode Meloidogyne incognita and root-rot fungus Fusarium solani on chilli (Capsicum annuum L.)

Damaging threshold levels of root-knot nematode Meloidogyne incognita and root-rot fungus Fusarium solani on plant growth parameters, viz., plant length, fresh and dry weight of chilli were determined by conducting their pathogenicity trials in pot experiments. The results revealed a significant reduction in the plant growth parameters at and above the inoculum level of about 1000?J₂ per plant of M. incognita and the highest reduction was recorded at 8000?J₂ per plant. Significant reduction in plant growth parameters was recorded at 1.00?g mycelial mat of F. solani per plant, while the highest reduction was observed at 8.00?g mycelial mat per plant. The damaging threshold level was 1000?J₂ per plant of M. incognita and 1.00?g mycelial mat of F. solani.     

The Importance of the Host Plant on the Interaction Between Root-knot Nematodes Meloidogyne spp. and the Nematophagous Fungus, Verticillium chlamydosporium Goddard

The effect of the host plant on the efficacy of Verticillium chlamydosporium as a biological control agent for root-knot nematodes was investigated in four experiments. The growth of the fungus in the rhizosphere differed significantly with different plant species, the brassicas kale and cabbage supporting the most extensive colonization. The presence of nematodes in roots increased the growth of the fungus on most plants, and this effect was associated with the emergence of egg masses on the root surface; the presence of Meloidogyne incognita did not stimulate growth of the fungus in the rhizosphere until 5 weeks after the addition of infective juveniles to soil. The susceptibility of the plant host to M. incognita attack influenced the numbers of nematode eggs parasitized by the fungus. The control of the nematode was less effective on tomato roots, which produced large galls as a result of nematode infection compared with control on potato roots where galls were smaller, despite the greater abundance of the fungus in the rhizosphere of tomato plants. In large galls, a significant proportion of the egg masses remained embedded in the roots and was isolated from the fungus which was confined to the rhizosphere. Hence, the plant species has a marked effect on the efficacy of V. chlamydosporium as a biological control agent.     

Role of Bacillus amyloliquefaciens Y1 in the control of Fusarium wilt disease and growth promotion of tomato

The objective of this study was to examine the effects of Bacillus amyloliquefaciens Y1 on the control of Fusarium wilt disease and subsequent improvement in the growth of tomato plants. The Y1 strain strongly inhibited Fusarium oxysporum f. sp. lycopersici in vitro and also produced indole-3-acetic acid (IAA) in both the presence and absence of tryptophan. Over 96% of tomato seeds germinated when treated with either water, tryptone soy broth, or Y1 cultures, whereas root (5.40?cm) and shoot (5.15?cm) lengths were greatest in tomato seedlings treated with Y1 cultures that lacked tryptophan. Three experimental treatments – Black White medium (BW), BW medium with a commercial fungicide (BW?+?F), and Y1 culture inoculated in BW medium (Y1) – were applied to control Fusarium wilt disease under in vivo conditions. Application of Y1 culture and BW?+?F led to significantly lower disease incidence than did BW; moreover, shoot length and fresh and dry weight of both roots and shoots were greater in plants treated with Y1 than in plants treated with either BW or BW?+?F. A similar trend was observed for chitinase and β-1,3-glucanase activities in roots and leaves of tomato plants in all treatment groups over most of the experimental period. Finally, the presence of Y1 in the rhizospheric soils of Y1-treated plants resulted in a significant reduction in the populations of other bacteria. The results of our study demonstrated the effectiveness of Y1 not only in the control of Fusarium wilt disease but also for the enhancement of plant growth in cultivated tomato.     

Effects of incubation temperature on the organic amendment‐mediated control of Fusarium wilt of tomato

Organic soil amendments play important roles in the reduction of plant diseases caused by soil‐borne plant pathogens. This study examined the combined effects of concentrations of organic amendments, temperature and period of incubation in soil on the management of Fusarium wilt of tomato caused by Fusarium oxysporum f. sp. lycopersici (Fol). In an experiment with substrate mixture, Fol reduction was higher when the soils were incubated at 35°C than at 30°C. Disease severity was proportionally reduced as the volume of amendment added increased. Furthermore, disease was significantly lower in substrates incubated for 30 days at both temperatures, as compared to substrates incubated for only 15 days. The most effective control was achieved with pelletised poultry manure (PPM). In experiments with natural sandy soil, the effects of amendments on Fol populations, measured by real‐time quantitative PCR with TaqMan probes, were significant. The highest decreases in Fol DNA resulted when the soil was amended with 2% PPM and incubated at 35°C. The reductions in DNA concentrations was most likely related to the accumulations of high concentrations of NH₃ (27.3 mM) in soils treated with 2% PPM and incubated at room temperature (RT; 23 ± 2°C), or at 35°C. Severity of plants grown in soils incubated at RT decreased by over 40%, and more than 73% when incubated at 35°C, regardless of the rate of PPM. The results indicate that the management with PPM, when combined with heating or solarisation, is an effective control measure against Fusarium wilt of tomato.     

Application of Bacillus pumilus as a potential biocontrol agent of Fusarium wilt of tomato

The current study aimed at evaluating the possibility of native Bacillus pumilus species to control Fusarium wilt in tomato and examine its effect on plant growth. Biocontrol traits of B. pumilus strains, biofilm assay, root colonisation and in vivo studies under pot conditions were determined. Strain ToIrMA-KC806242 formed biofilm efficiently and could colonise and survive on tomato rhizosphere (3.1 × 10⁴ CFU/g of root). The amount of auxin production was recorded 29.7 μg/ml at the 96th hour of incubation. Siderophore production was determined positive, while ToIrMA was not able to solubilise phosphate compounds or produce cyanide hydrogen. Statistical analysis of data revealed that the increase in root and shoot length was recorded 60 and 84%, respectively, over control. In addition, about 73% reduction in disease incidence was determined in vivo experiments. In conclusion, this study suggests B. pumilus ToIrMA strain as a possible biocontrol agent in the field experiments.     

A formulation of neem cake seeded with Bacillus sp. provides control over tomato Fusarium crown and root rot

Fusarium crown and root rot (FCRR) caused by the fungus Fusarium oxysporum f. sp. radicis-lycopersici is a damaging soil-borne disease of tomato. A plant growth rhizobacterium, Bacillus sp. strain HN09 isolated from neem tree rhizosphere soil, was shown to inhibit the growth, germination and development of normal morphology of the FCRR pathogen. A substantial level of disease control was achieved in greenhouse trials by soil supplementation with a preparation of neem cake seeded with HN09. Dry sterilisation of neem cake before fermentation gained comparable disease control effect as those in the unsterilised treatment, whereas moist sterilisation treatment decreased the effect significantly. This bioformulation also led to significantly raised activities in tomato genes encoding pathogenesis-related proteins, hence providing an effective alternative for the control of FCRR, reducing the need for chemical fungicide and fertilisers that impact the environment.     

Studies on interaction of Meloidogyne incognita (Kofoid and White) Chitwood and Fusarium solani (Mart.) Sacc forming a disease complex in lentil (Lens culinaris Medik.)

Abstract

An experiment was conducted to study the effects of interaction between Meloidogyne incognita and Fusarium solani on plant length, fresh and dry weights, number of pods, chlorophyll, carotenoid, nitrogen and phosphorus contents and nitrate reductase activity in lentil plants. The results reveal a maximum damage occurring in all the plant growth, biochemical and nutrient parameters, in plants inoculated with M. incognita 10 days prior to F. solani (Mi?→?Fs). This was followed by simultaneous (Mi?+?Fs) inoculations, fungus inoculation 10 days prior to nematode (Fs?→?Mi), M. incognita alone and F. solani alone treatments. Nematode reproduction factor and root galling were highest in individual inoculation of M. incognita, while root rotting percentage was highest when nematode was inoculated 10 days prior to fungus followed by simultaneous inoculation with both nematode and fungus.     

Additional Fertilizer and Nematicide Combinations on Upland Cotton to Manage Rotylenchulus Reniformis and Meloidogyne Incognita in Alabama

Plant parasitic nematodes are major pests on upland cotton worldwide and in the United States. The reniform nematode, Rotylenchulus reniformis and the southern root-knot nematode Meloidogyne incognita are some of the most damaging nematodes on cotton in the United States. Current management strategies focus on reducing nematode populations with nematicides. The objective of this research was to integrate additional fertilizer and nematicide combinations into current practices to establish economical nematode management strategies while promoting cotton yield and profit. Microplot and field trials were run to evaluate fertilizer and nematicide combinations applied at the pinhead square (PHS) and first bloom (FB) plant growth stages to reduce nematode population density and promote plant growth and yield. Cost efficiency was evaluated based on profit from lint yields and chemical input costs. Data combined from 2019 and 2020 suggested a nematicide seed treatment (ST) ST + (NH₄)₂SO₄ + Vydate^® C-LV + Max-In^® Sulfur was the most effective in increasing seed cotton yields in the R. reniformis microplot trials. In R. reniformis field trials, a nematicide ST + (NH₄)₂SO₄ + Vydate^® C-LV at PHS supported the largest lint yield and profit per hectare at $1176. In M. incognita field trials, a nematicide ST + 28-0-0-5 + Vydate^® C-LV + Max-In^® Sulfur at PHS and FB supported the largest lint yields and profit per hectare at $784. These results suggest that combinations utilizing fertilizers and nematicides applied together across the season in addition to current fertility management show potential to promote yield and profit in R. reniformis and M. incognita infested cotton fields.     

Biological control of root-knot nematode,Meloidogyne incognita infesting tomato

Talc based formulations of two antagonistic fungi, Acremonium strictum W. Gams and Aspergillus terreus Thom were tested separately and together for their ability to suppress the development of root-knot disease of tomato caused by the root-knot nematode, Meloidogyne incognita Kofoid & White in two consecutive trials (2007–08). Tomato seedlings were each inoculated with M. incognita at 2 infective second stage juveniles /g of soil. M. incognita caused up to 48% reduction in plant growth parameters compared to un-inoculated control. Control efficacy achieved by combined soil application of both fungi, in terms of galls/root system and soil population/50 ml of soil, was 66 and 69% respectively at 60 days of inoculation compared to control. Soil application by individual fungus did not achieve as much effectiveness as the biocontrol agents applied together. The combined treatment was found to have antagonistic effect on M. incognita development and increased plant vigor. Incorporation of fine powder of chickpea pod waste with talc powder was beneficial in providing additional nutrients to both plant and biocontrol agents and increased the activity of the nematophagous fungi in soil. A. strictum and A. terreus were successfully established in the rhizosphere of tomato plants up to the termination of the experiment.     

Evaluation of pomegranate (Punica granatum L. var. Gabsi) peel extract for control of root-knot nematode Meloidogyne javanica on tomato

The present study was carried out to assess the nematicidal potential of Punica granatum L. against the root-knot nematode Meloidogyne javanica responsible for yield losses in tomato. Varied concentrations of methanolic, ethanolic and aqueous extracts from pomegranate peels were investigated for activity against eggs and juveniles of M. javanica in in vitro assays. All extracts used significantly inhibited egg hatch by over than 75%, but viability of second-stage juveniles (J2) was not significantly inhibited by ethanolic extract. Aqueous extract was assessed at the concentration of 10, 25 and 50% against M. javanica on tomato in greenhouse trials; pomegranate peels powder was also tested at the rate of 3, 6 and 9 g as a soil amendment. Both extracts significantly reduced nematode infestations; aqueous extract enhanced plant growth but powder amendment exhibited a phytotoxicity compared to the untreated plants. The reduction in number of galls, egg masses and nematode reproduction rate was recorded.     

生防菌根系定殖竞争作用对西瓜枯萎病发病机理的影响

【目的】西瓜枯萎病是由西瓜专化型尖孢镰刀菌(Fusarium oxysporum f.sp.niveum)引起的一种常见的毁灭性土传病害,对镰刀菌同属非致病性菌株与致病性菌株存在的竞争作用进行研究,有助于获得新的具有生防效果的菌株,从而拓宽西瓜枯萎病生物防治的手段。【方法】利用选择性培养基和稀释平板计数法对温室盆栽试验中西瓜根际和非根际土壤及植物组织中非致病性轮枝镰刀菌菌株(Fusarium verticillioides XA)与致病性尖孢镰刀菌(Fusarium oxysporum LD)进行计数,确定其在西瓜植株根际和组织中的定殖情况。【结果】将从田间西瓜枯萎病发病植株根部分离获得的菌株XA和LD接入健康土壤中,接种菌株XA既不会引起西瓜枯萎病发病症状,也不会影响西瓜植株生物量,但接种菌株LD导致严重发病症状。与单接种LD处理相比较,双接种(XA+LD)处理地上部鲜重和地上部干重都分别增加了151.2%和110%。XA菌株能成功定殖于西瓜根系,但在茎基部没有检测到。在接种菌株LD的处理中植物组织和土壤中致病性镰刀菌的数量达到(1.58 4.85)×104CFU/g。与单接种LD处理相比,双接种菌株XA和LD处理植物茎基部、根系、根际土壤和土体土壤致病性镰刀菌的数量分别下降63.3%、66.1%、3.3%和24.4%,根系、根际土壤和土体土壤非致病性镰刀菌的数量增加到(0.35 3.84)×104CFU/g;双接种处理对西瓜枯萎病的防效达57.8%。【结论】非致病性轮枝镰刀菌菌株XA可有效降低致病性尖孢镰刀菌LD对西瓜植株的定殖侵染能力,对西瓜枯萎病具有一定的生防效果。     

Effects of different inoculum densities of Trichoderma harzianum and Trichoderma viride against Meloidogyne javanica on tomato

A greenhouse experiment was conducted to evaluate the effects of different inoculum densities of two Saudi isolates of Trichoderma harzianum and Trichoderma viride against Meloidogyne javanica on tomato. Four densities (10⁴, 10⁶, 10⁸ and 10¹⁰ spores/g of soil) of each fungus were used. The results indicate that all four inoculum densities of the two Trichoderma species suppressed the nematode reproduction and root galling; and increased the growth of tomato plants, compared to controls. Efficacy of both fungi increased as their inoculum densities increased. Generally, efficacy of T. harzianum was better than that of T. viride, especially at the highest used density (10¹⁰ spore/g soil) which resulted in the best control.     

Purification and characterization of an exo-polygalacturonase from the tomato vascular wilt pathogen Fusarium oxysporum f.sp. lycopersici

Abstract An exo-polygalacturonase (EC 3.2.1.15) was purified to apparent homogeneity from cultures of Fusarium oxysporum f.sp. lycopersici on synthetic medium supplemented with citrus pectin, using preparative isoelectric focusing. The enzyme, denominated PG2, had an apparent M _r of 74000 Da upon SDS-PAGE. The pI of the main PG2 isoform was 4.5, and pH and temperature optima were 5.0 and 55 °C, respectively. PG2 hydrolyzed polygalacturonic acid in an exo-manner, as demonstrated by anaysis of degradation products. The enzyme was N-glycosylated. The N-terminal amino acid sequence, L-A-F-N-V-P-S-K-P-P, has no identity to other known polygalacturonases.     

绿豆尖镰孢枯萎病抗性鉴定方法

绿豆是我国的主要食用豆类之一。由尖镰孢引起的绿豆枯萎病是一种严重的土传病害,病原菌从根部侵入,引起植株矮化,叶片黄化、枯萎,根茎部维管束变褐,严重时导致植株死亡。防治枯萎病最经济、有效的方法是培育利用抗病品种。本研究在控制条件下以具有不同抗性表型绿豆品种为材料,分别对接种方法、植株生育期、接种体浓度、接种体处理时间及接种后植株培养温度等影响绿豆抗性表型的因素进行比较研究,以期建立一个快速、准确和高效的绿豆枯萎病抗性鉴定方法,为抗病资源的筛选和抗病育种提供技术支持。结果表明,绿豆枯萎病苗期抗性鉴定最适宜的接种方法为剪根浸根法,最适宜接种体浓度为105~106孢子/m L,接种最佳植株生育期为2叶期,最短有效接种体浸根时间为2 min,最适宜发病温度为25℃,接种后14 d调查病情。     

Endophytic bacteria from Datura metel for plant growth promotion and bioprotection against Fusarium wilt in tomato

Nine non-pathogenic bacterial isolates, recovered from Datura metel organs and able to colonise the internal stem tissues of tomato cultivar Rio Grande, were screened for their ability to suppress tomato Fusarium wilt disease caused by Fusarium oxysporum f. sp. lycopersici (FOL), and to enhance plant growth. S33 and S85 isolates tested were found to be the most effective in decreasing Fusarium wilt severity by 94–95% compared to FOL-inoculated and untreated control. A significant enhancement of growth parameters was recorded on tomato plants inoculated or not with FOL. Both isolates were characterised and identified using 16S rDNA sequencing genes as Stenotrophomonas sp. str. S33 (KR818084) and Pseudomonas sp. str. S85 (KR818087). Screened in vitro for their antifungal activity towards FOL, these isolates led to 38.7% and 22.5% decrease in pathogen radial growth and to the formation of an inhibition zone of 12.75 and 8.37?mm respectively. Stenotrophomonas sp. str. S33 and Pseudomonas sp. str. S85 were found to be chitinase-, protease- and pectinase-producing strains but unable to produce hydrogen cyanide. Production of indole-3-acetic acid-like compounds, phosphate solubilising ability and pectinase activity were investigated for elucidating their plant growth-promoting traits and their endophytic colonisation ability.     

Essential oils as soil biofumigants for the control of the root‐knot nematode Meloidogyne incognita on tomato

The effectiveness of soil fumigation with 50, 100 and 200 µL kg^?1 soil of essential oils (EOs) from the plant species Eucalyptus citriodora, Eucalyptus globulus, Mentha piperita, Pelargonium asperum and Ruta graveolens was assessed against the root‐knot nematode Meloidogyne incognita on potted tomato. Plant growth parameters and number of galls, nematode eggs and juveniles on tomato roots were evaluated after two months of maintenance of the treated plants at 25°C in greenhouse. EOs of E. globulus and P. asperum significantly reduced nematode multiplication and gall formation on tomato roots at all the tested rates, whereas the EOs of E. citriodora, M. piperita and R. graveolens were more suppressive at levels greater than 50 µL kg^?1 soil. Biofumigation with EOs of E. globulus and P. asperum resulted also in the largest increase of tomato plant top and root biomass. The five samples of EOs had a different chemical composition as determined by GC and GC‐MS. Structure–activity relationship based on the main constituents of the tested EOs and their nematicidal effect on M. incognita is discussed.