Effect of mustard green manure and dried plant residue on chickpea wilt (Fusarium oxysporum f.sp. ciceris)

Pot experiments were carried out in the green house at Amhara Regional Agriculture Research Institute (ARARI) Bahirdar, Ethiopia, to evaluate the potential of Brassica carinata cultivars, namely Holleta-l, S-67 and Yellow Dodola in 2007 and 2008. The effect of B. carinata (Ethiopian mustard) cultivars Holleta-1, S-67 and Yellow Dodola as green manure and Holleta-1 as dried plant residue on chickpea fusarium wilt (Fusarium oxysporum f.sp. ciceris) was studied. Six rates of green manure and dried plant residue (0, 20, 40, 60, 80 and 100 g) each per kg of pathogen-infested soil were used in the experiments. Infested soil without B. carinata cultivars amendment as a control and susceptible check variety JG-62 without amendment was used in the experiments. In the experiments, the treatments were arranged in randomised complete block design in three replications and repeated twice. Data on seedling emergence, wilt incidence, fresh weight and dry weight were collected. The amendments of infested soil with B. carinata cultivars green manure and dried plant residue reduced the incidence of chickpea fusarium wilt. The incorporation of the green manure Holleta-1, S-67 and Yellow Dodola at 20–100 g/kg of infested soil was effective in reducing wilt incidences on chickpea. However, the incorporation of Yellow Dodola at 80 and 100 g green manure per kg of infested soil were the best combination in reducing significantly wilt incidence. The application of the dried plant residue at 20–100 g/kg of infested soil was effective in reducing wilt incidences on chickpea. However when applied dried plant residue at 60, 80 and 100 g green manure per kg of infested soil were better in reducing wilt incidence as compared to 20 and 40 g/kg of infested soil. The three cultivars green manure incorporated at different level of doses affected the influence of fusarium wilt on the fresh and dry weight respectively. The use of Holleta-1 green manure at 20–100 g/kg of infested soil significantly reduced disease incidence in the range of 20.0–33.3%. Green manure amendment S-67 significantly reduced disease incidence in the range of 20.0–46.6%. Yellow Dodola reduce disease incidence with 26.7–60%. The dried plant residue incorporated at different level influence fusarium wilt. The application of Holleta-1 dried plant residue at 20–100 g/kg of infested soil reduced disease incidence in the range 20.0–26.7%. The results imply the potential of using B. carinata green manure and dried plant residue as cultural management components in chickpea fusarium wilt disease management.     

Effect of Brassica carinata (L.) biofumigants (seed meal) on chickpea wilt (Fusarium oxysporum f.sp. ciceris), growth,yield and yield component in Ethiopia

Pot experiments were carried out in the green house at Amhara Regional Agriculture Research Institute (ARARI) Bahirdar, Ethiopia to evaluate the potential of Brassica carinata cultivars namely; Holleta-l, S-67 and Yellow Dodola in 2007 and 2008. The treatment effects of B. carinata (L.) cultivars Holleta–1, S-67 and Yellow Dodola seed meals on chickpea fusarium wilt (Fusarium oxysporum f.sp. ciceris) were studied. Six rates of seed (0, 5, 10, 15, 20 and 25 g/kg of infested soil) were used. Infested soil without B.carinata cultivars amendments as a control and susceptible check variety JG-62 also without amendments were used in all the experiments. For each seed meal experiment, the treatments were arranged in factorial randomised complete block design in three replications. Data on seedling emergence, wilt incidence, fresh weight, dry weight, pod per plant, seed per pod, hundred seed weight and yield per hectare were collected. The amendments of infested soil with B.carinata cultivars seed meal reduced the incidence of chickpea fusarium wilt and increased yield per hectare. The interaction of the seed meal Holleta-1, S-67 and Yellow Dodola at 10–25 g/kg infested soil were effective in reducing wilt incidences on chickpea. However, the interaction of Yellow Dodola with 20 and 25 g seed meal per kg infested soil were the best combination in reducing significantly wilt incidence. The three cultivars incorporated at different level of doses significantly affected the influence of Fusarium wilt on the fresh weight, dry weight, pod per plant, seed per pod, hundred seed weight and yield per hectare. The highest yield kg/ha was recorded in combination of Yellow Dodola seed meal at 20 and 25 g followed by S-67 and Holleta-1 at 25 g /kg infested soil, respectively. The interaction of Holleta-1 at 5–25 infested soil significantly reduced disease incidence up to 16.7–43.3% and increased yield per hectare with mean by (30%) over the control. Seed meal amendment S-67 significantly reduce disease incidence 26.7–46.7% and increased yield kg/ha with mean by (36.7%) from the unamended control. Yellow dodola reduces disease incidence with 26.7–63.3% and increased yield kg/ha with mean by (45%) from the unamended control. The result indicates the potential of using Brassica crop seed meal amendment as useful component of integrated chickpea wilt management.     

Effect of cultival practices and soil treatments on incidence of wilt disease of pigeon pea

Summary The incidence of wilt disease of pigeon pea (Cajanus cajan (L.) Millsp.) caused byFusarium udum under soil treatments with various substances was studied under field conditions. The disease incidence was highly suppressed under mixed cropping withCrotalaria medicaginea. Phygon XL was found to be the most effective fungicide to reduce the incidence of the disease. The incidence of wilt disease also decreased in case of soil amended with the leaves ofC. medicaginea. Wilt incidence increased in the soil amended with the roots of pigeon pea.     

Interaction of Fusarium oxysporum f. sp. ciceri and Meloidogyne javanica on Cicer arietinum

Interaction of Meloidogyne javanica and Fusarium oxysporum f. sp. ciceri was studied on Fusarium wilt-susceptible (JG 62 and K 850) and resistant (JG 74 and Avrodhi) chickpea cultivars. In greenhouse experiments, inoculation of M. javanica juveniles prior to F. oxysporum f. sp. ciceri caused greater wilt incidence in susceptible cultivars and induced vascular discoloration in roots of resistant cultivars. Nematode reproduction was greatest (P = 0.05) at 25 °C. Number of galls and percentage of root area galled increased when the temperature was increased from 15 °C to 25 °C. Wilt incidence was greater at 20 °C than at 25 °C. Chlorosis of leaves and vascular discoloration of plants did not occur at 15 °C. The nematode enhanced the wilt incidence in wilt-susceptible cultivars only at 25 °C. Interaction between the two pathogens on shoot and root weights was significant only at 20 °C, and F. o. ciceri suppressed the nematode density at this temperature. Wilt incidence was greater in clayey (48% clay) than in loamy sand (85% sand) soils. The nematode caused greater plant damage on loamy sand than on clayey soil. Fusarium wilt resistance in Avrodhi and JG 74 was stable in the presence of M. javanica across temperatures and soil types.     

Growth and wilt (Verticillium dahliae) development in strawberry cultivars over a transition between two soil series

On a site infested with V. dahliae the incidence of wilt was low consistently in strawberry cvs Talisman and Redgauntlet, high in Merton Herald and Gorella, and very high in Merton Ruby, Cambridge Vigour, Prizewinner, Templar and Crusader. Changes in mean volume per plant for the whole population of each cultivar were closely related to disease incidence and therefore differed between high-resistance and low-resistance cultivars. Height and spread measurements of diseased and symptomless plants in certain cultivars showed differences in the severity of the effect of the pathogen on growth that were not closely related to wilt incidence. Gradients of disease incidence and plant growth in 1966 and 1967 were associated with a transition from one soil series to another. Review of two earlier experiments on the same site revealed a similar gradient of disease incidence in 1963-64, but a reversed gradient in 1960-62. Variations related to soil conditions were smaller in the earlier experiments than in 1966-67.     

Verticillium wilt of the hop: field studies on wilt in a resistant cultivar in relation to nitrogen fertilizer applications

In two large-scale observation trials on commercial farms inorganic nitrogen fertilizer was applied at 70 lb. N/acre (N1), 1401b. N/acre (N2) and at a normal commercial rate of 210 lb. N/acre (N3). Mean wilt incidence was 60 and 25% less with Ni and N2 respectively than with N3 during 5 years at one site and 3 years at the other. During these periods wilt declined progressively and this was tentatively attributed to the reduced intensity of host colonization, and to progressive declines in soil infectivity resulting from effects on the quantity, quality and longevity of annually produced inoculum. Marked annual fluctuations of wilt incidence and yields occurred at one site and these were associated with weather in the spring and early summer: wilt incidence was inversely related to soil temperature, and yield was directly related to rainfall. Yields were not diminished by the low-N treatments, but clear correlations between yields and wilt incidence were probably obscured by the differential effects of weather conditions at the three levels of N application. The results emphasized the importance of reducing traditionally high N applications and, on farms where fluctuating wilt is severe, of applying the minimum levels of N commensurate with the maintenance of satisfactory yields.     

Soil Suppressiveness to Fusarium Wilt of Melon, Induced by Repeated Croppings of Resistant Varieties of Melons

A field soil, artificially infested with pathogenic isolates of Fusarium oxysporum f. sp. melonis was continuously used for screening resistant varieties of melon to Fusarium wilt. After 9–10 years of continuous cropping with resistant varieties, the soil had developed induced suppressiveness. Seven to 9 experimental replantings of the induced suppressive soil with the susceptible cultivar of melon, ‘Ein-Dor', nullified its suppressiveness. This was expressed by 90 % disease incidence. Only 2 replantings were required to obtain the same disease incidence in an adjacent field of a conducive soil. Nonpathogenic isolates of F. oxysporum, isolated from the rhizospheres of melon seedlings, induced various degrees of soil suppressiveness when added to soil at various ratios to the pathogenic isolate.     

Soil Salinity and Water Stress and Their Effect on Susceptibility to Verticillium Wilt Disease, Ion Composition and Growth of Pistachio

The effects of soil salinity and water stress on Verticillium wilt, ion composition and growth of pistachio were studied in a greenhouse experiment (18–32°C). Treatments consisted of three levels of salinity (0, 1200 and 2400 mg NaCl/kg soil), three levels of water stress (3, 7 and 14 day irrigation regimes) and two Pistachio cultivars (Sarakhs and Qazvini, common rootstocks in Iran). Infested soil containing 50 microsclerotia/g of a pistachio isolate of Verticillium dahliae was used for all treatments and non‐infested soils were used as control. The experiment was arranged in a completely randomized design with three replications. Eight‐week‐old pistachio seedlings were transferred to infested and non‐infested soil and then exposed to salt stress and thereafter water stress. Shoot dry weights of both rootstocks were reduced significantly with increasing NaCl levels; however, increasing irrigation regimes reduced salt injury. Salt stress significantly increased shoot and root colonization by V. dahliae in both cultivars. Moreover, increasing of salinity level was positively correlated with increasing concentrations of Na⁺, K⁺ and Cl^? in both cultivars, but negatively correlated with increasing irrigation regimes. Based on these results, Sarakhs and Qazvini were found to be sensitive and tolerant to the effect of irrigation regimes, salinity and Verticillium wilt disease, respectively. Although there were no interactive effects of irrigation and salinity on V. dahliae infection.     

Soil inoculum density of Verticillium dahliae and Verticillium wilt of olive in Lebanon

In the Mediterranean basin, Verticillium Wilt of Olive (VWO) is diffused throughout its range of cultivation, causing severe yield losses and tree mortality. The disease was reported in almost all the Mediterranean and Middle East countries, and in Lebanon it is of increasing significance also on many valuable crops. The disease has already been reported on potato, peach and almond in the Bekaa valley; however, to date no information is available about the incidence of VWO and the inoculum density of Verticillium dahliae microsclerotia in soil of the main agricultural areas of Lebanon. Results from the present investigations demonstrate a high V. dahliae frequency in soils (75.3%), coupled with a mean soil inoculum density of 17.0 MS g^?1, clearly indicating a great impact on the production of susceptible hosts in Lebanon, mainly in Bekaa region. Molecular method to assess the microsclerotia inoculum density in soil allowed the detection of a higher frequency of infested soils, as compared with the traditional plating, thus confirming its higher sensitivity. The overall Verticillium wilt prevalence in the inspected olive orchards was 46.2%, and the frequency of V. dahliae‐infected trees was 25.7%. The widespread presence of V. dahliae in all olive growing areas of Lebanon enforces the adoption of measures aimed at reducing the soil inoculum density before any new olive plantation, and the use of strong phytosanitary regulations to improve the certification schemes of propagating material.     

The effect of root-knot nematode on vascular resistance to Fusarium oxysporum f. sp. vasinfectum in the stems of cotton plants

The effect of root-knot nematode (Meloidogyne incognita) on external wilt symptoms and on the cotton plant's vascular response to stem-inoculation with Fusarium oxysporum f. sp. vasinfectum was investigated. Wilt symptoms were more severe in all plants inoculated with both organisms than with the fungus alone but relative wilt resistance of the cultivars was maintained. Greater symptom severity was associated with greater fungal proliferation in the stele and this was related to the ability of the nematode to reduce the efficiency of vascular occlusion. The nematode had no effect on the accumulation of infection-induced terpenoid aldehyde compounds.     

Tolerance of potato to potato cyst nematodes (Globodera rostochiensis and G. pallida) in relation to the growth and efficiency of the root system

Potato cyst-nematode (Globodera rostochiensis) was shown to damage potato plants in several ways. A major cause of damage, affecting all cultivars to a similar extent, was a reduction in the top to root weight ratio. Intolerant cultivars also suffered a reduction in the weight and length of their root systems when grown in heavily infested soil, the combined damage resulting in a marked decrease in nutrient uptake and top growth. In addition intolerant cultivars tended to senesce prematurely when heavily infested, further decreasing their leaf area duration and yield. Cultivars tolerant of potato cyst-nematode (PCN) differed from intolerant cultivars in that their root systems tended to grow larger in heavily infested soil than in lightly infested or nematicide-treated soil, so partly compensating for the reduction in the top/root ratio. In a growth cabinet experiment Maris Anchor was more severely damaged at a soil temperature of 10 than at 15 °C. In a glasshouse, without temperature control, differences were obtained between cultivars in small pots (10 cm) in the effect of PCN on root growth which correlated well with differences in tolerance obtained in field trials.     

国外松衰退病与环境和林分因素关系的研究

对安徽国外要公衰退病与其环境和林分因素关系的调查研究和数量化分析表明,在气候、土壤、林分、其它病虫害等4类因素18个变量因子中,有10个因子对病情有较大的贡献,成为该病发生的主要致病因素,它们是树龄、林分密度、割脂、降雨量、温度、粘性土、石砾土、土层瘠薄、积水、病虫危害,其中病情与土层浓度、降雨量呈负相关;与其它因素均呈正相关,以此建立病情线形回归预测模型,根据这一模型,可以预测任一给定条件下的林分国外松衰退病可能发生的水平,此外,依据各致病因素在病害发生发展过程中的作用大小和时间顺序,出国外松衰退病的螺旋图,为该类病原复杂的病害形象描述和定量分析作出了探讨。     

Effects of environment and host on vector biology and incidence of two whitefly-spread diseases of legumes in Nigeria

Seasonal periodicity in the incidence of cowpea golden mosaic (CGM) and lima bean golden mosaic (LBGM), two whitefly-spread virus-like diseases, corresponded closely with fluctuations in population density of their vector, Bemisia tabaci, at two contrasting sites in southern Nigeria. Peak catches of the vector followed the onset of rains after very high temperatures during the dry season; populations declined abruptly with continuous, heavy rainfall. At Onne, B. tabaci infested legumes at emergence and remained and reproduced on them but at Ibadan infestation was delayed and there was no evidence of reproduction on legumes. B. tabaci preferred LBGM-susceptible lima beans (Phaseolus lunatus) to resistant ones and more pupae of B. tabaci occurred on CGM-susceptible cowpea (Vigna unguiculata) cultivars than on resistant ones but these observations did not relate to the yellow-sensitivity of whiteflies. Resistance to CGM in cowpea, and to LBGM in lima bean, was identified amongst germplasm exposed to natural infection. Resistance was, in each case, associated with lower disease incidence, slower spread and milder expression of symptoms relative to susceptible cultivars. Vector non-preference for resistant cultivars may have contributed to reduced secondary spread.     

Associations between weather factors and the spring migration of the damson-hop aphid, Phorodon humuli

The dates of the beginning and end of the spring migration of P. humuli, as monitored by the Rothamsted Insect Survey suction traps at Wye College and Rosemaund Experimental Husbandry Farm, were linearly regressed on temperature, rainfall and sunshine for varying periods. The beginning of migration at both sites was associated with temperature in late March and early April, and periods of rainfall in mid-January and mid-April, while the end of migration was associated with temperature and sunshine in mid- and late June, and with mid-January rainfall. These regression equations were used to predict the timing of the migration in 1980 and 1981, those for mean maximum temperature predicting most accurately both the beginning and end of migration. The use of multiple regression equations did not increase the accuracy of predictions. The critical periods of weather are discussed in the context of the life-cycle of the aphid.     

Zur Rolle des Pektins bei der Ausprägung sorten- und jahresbedingter Unterschiede der Naßfäuleanfälligkeit von Kartoffelknollen

The influence of soil moisture and mean day temperature of July to September on pectin structure and soft rot resistance of potato tubers was investigated. Tuber samples of middle early and middle late potato cultivars respectively were tested from 1976 to 1979. Cultivar characteristics as well as growth conditions effect the pectin structure. The tuber tissue of soft rot resistant cultivars contains relative high amounts of esterified pectin. The pectin esterification was promoted by drought during vegetation periods (1976, 1978). A late rise of metabolic activity caused by rainfall at the end of the vegetation period (1978) increased the amount of soluble pectin in the cell wall. This lack of pectin stabilization facilitates tissue maceration by soft rot bacteria. Increased pectin solubility was also caused by unfavorable storing conditions of potato tubers. A low degree of esterification and high solubility of the cell wall pectin affect the relative resistance of potato tubers against soft rot caused by Erwinia carotovora var. atro-septica (van Hall) Dye adversely.     

Effect of Inoculum Density on Verticillium Wilt Incidence in Commercial Olive Orchards

Verticillium wilt, caused by Verticillium dahliae Kleb., is presently the most destructive disease of olive, particularly in Andalucía (southern Spain). ‘Picual’ and ‘Arbequina’ are the dominant cultivars being planted in Spain. Both cultivars are highly susceptible to the defoliating pathotype of V. dahliae when artificially inoculated by root‐dipping or stem injection. Conversely, ‘Arbequina’ is considered more resistant than ‘Picual’ based on field observations and farmer's experience. In this study, the differential reaction between of cultivars was confirmed by surveys of naturally infested orchards with different inoculum densities of the pathogen. The average percentage of affected olive trees of ‘Picual’ was 60.2%, while only 13.1% of trees of ‘Arbequina’ showed disease symptoms. Overall, the pathogen caused extensive wilting of branches and defoliation on the trees of ‘Picual’, whereas ‘Arbequina’‐infected trees showed chlorotic symptoms and slight defoliation. The relationship between inoculum density and disease incidence fit a logarithmic function for both cultivars. The percentage of affected trees of ‘Arbequina’ per year increased linearly (y = 0.3559x, R² = 0.5652, and P = 0.0195) with the inoculum density in the soil, whereas this relationship was not observed for the ‘Picual’. Planting density had no effect on disease incidence for any of the two cultivars.     

Whiteflies Population and its Impact on the Incidence of Tomato Yellow Mosaic Virus in Venezuela

The heavy incidence of Tomato Yellow Mosaic Virus in Venezuela is related to the high population densities of its vector, the whitefly Bemisia tabaci Genn. The main factor affecting the population of the vector is the rainfall pattern; during the rainy season the populations are low but they increase rapidly in the drier months. A good correlation was found between the number of whiteflies trapped and the incidence of infested plants. It seems that in the low laying areas of the tropics the temperature does not have a marked effect on the whitefly population since it remains quite stable throughout the year.     

Prevalence of the major pests in transgenic and non-transgenic cotton genotype in response to climatic factors and their impact on yield

Abstract

The incidence of insect pests in cotton crop, such as Bemisia tabaci, Amrasca devastans and Pectinophora gossypiella (PBW) is dependent on climatic factors, such as maximum and minimum temperature, relative humidity and rainfall. Besides, cotton leaf curl disease (CLCuD) is also a major yield-limiting factor in the cotton crop. The results indicated that non-transgenic genotypes were heavily infested by whitefly, whereas jassid infested all genotypes with little difference. The population of whitefly and jassid acquired peak level in the month of July and August on all the genotypes. The correlation studies indicated the negative correlation of jassid, pink bollworm and CLCuD on yield component, whereas whitefly infestation was found positively correlated with CLCuD. Moreover, multivariate regression analysis (MRA) indicated the maximum and minimum temperature impacted the infestation of whitefly and jassid more than other factors, whereas maximum temperature greatly impacted the infestation of PBW in transgenic genotypes.     

Nursery treatments with resistant inducers,soil amendments and biocontrol agents for the management of the Fusarium wilt of lettuce under glasshouse and field conditions

Lettuce Fusarium wilt, caused by Fusarium oxysporum f. sp. lactucae, represents a major problem in most lettuce production areas worldwide. In the present study, a number of resistance inducers, organic amendments and biocontrol agents were applied in a preventative way, in experimental and commercial situations, to soils artificially or naturally infested with race 1 of the pathogen, and to moderately susceptible lettuce cultivars. Potassium phosphite, acibenzolar‐S‐methyl, green composts, and Bacillus subtilis Qst713, Trichoderma asperellum + Trichoderma gamsii, and Pseudomonas strains achieved the most consistent disease control under the experimental conditions. Moreover, potassium phosphite, green compost, B. subtilis Qst713 and T. asperellum + T. gamsii, also showed a positive effect on plant development. In general, the results of the different treatments in naturally infested soil were similar to those observed in glasshouse trials under artificial inoculation. Potassium phosphite provided a consistent disease reduction (48%–62% in artificially infested soil and 60%–75% in naturally infested soil). The effects of adding 10% compost to a peat growing medium in the nursery, followed by a soil mixing application when lettuce was transplanted, significantly reduced the severity of Fusarium wilt (50%–59% efficacy) and increased fresh biomass production. Compost enrichment with Trichoderma TW2 generally further increased its efficacy. When tested under field conditions, the commercially available Trichoderma spp. and B. subtilis, together with experimental strains of Pseudomonas and Trichoderma spp., applied at the nursery level, provided a disease reduction of 30%–78%. Early application of the different control measures under nursery conditions and at lettuce transplant is noteworthy because it was carried out at a more localized level, with reduced amounts of products. Their use in practice should be integrated with other control strategies.     

施肥处理对不同抗性品种香蕉枯萎病的防控效果

【目的】随着香蕉枯萎病菌4号生理小种热带型(简称Foc TR4))在云南的入侵、传播和蔓延,对云南的香蕉产业产生严重的威胁。通过实时荧光定量PCR分析蕉园定植香蕉后7个月内的土壤中枯萎病病原菌TR4含量动态变化,明确不同香蕉品种的大田抗性表现以及不同肥料的防控效果,为枯萎病的防控提供技术参考。【方法】选用巴西蕉、桂蕉1号、南天黄和自主选育的云蕉1号为供试品种开展田间试验,设置虾肽有机肥+虾肽特护+虾肽果叶康(简称:虾肽有机肥处理)、常规有机肥+微生物制剂(简称:微生物处理)和常规有机肥(简称:对照)3个处理,调查4个品种在4个时间段的枯萎病发病率和3种肥料的防治效果。【结果】在月平均枯萎病病原菌TR4含量均超过2000拷贝的土壤条件下,4个品种的发病率在3个施肥处理中均表现出差异性,南天黄、云蕉1号的发病率与其他2个主栽感病品种的发病率差异达显著水平;3种施肥处理间的发病率达显著差异,发病率从高到低表现为对照虾肽有机肥处理微生物处理。【结论】施用微生物制剂对降低枯萎病发病率起一定的作用。南天黄的抗病性较强,云蕉1号也表现出较强的抗性,但还有待进一步改良和提高抗性。