Verticillium wilt of sainfoin

A wilt disease of sainfoin caused by Verticillium Dahliae Kleb. is described, and it is shown that the fungus can penetrate sainfoin seedlings through unwounded roots as well as through ruptures caused by the emergence of lateral rootlets. V. Dahliae was isolated from naturally infected soil only in June, July and August, although another species, V. nigrescens , was obtained throughout the year.
Comparative studies of the longevity of cultures of V. Dahliae, V: albo-atrum and V. nigrescens proved that all are viable for at least 3 years on agar media. On sterilized wheat grains V. Dahliae dies within 8 weeks after inoculation, V. albo-atrum and V. nigrescens within 12 weeks, while the hyaline variants of the first two remain viable for 6 months.
Evidence was obtained that in artificially inoculated soil V. Dahliae persists mainly as microsclerotia. The fungus may also exist in the soil as hyaline mycelium or conidia, but only for a relatively short time.
The incidence of this disease in sainfoin is reduced by an increase in soil-water content, but is unaffected by the application of lime to the soil.     

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.     

甘肃省甜瓜黄萎病的病原鉴定

【背景】2013年11月在甘肃省兰州市皋兰县的日光温室秋冬茬甜瓜种植棚发现黄萎症状的甜瓜植株,病株率约为1%。【目的】明确甜瓜黄萎病的病原。【方法】采用组织分离法进行病原菌分离;通过科赫氏法则(Koch’s法则)明确分出病菌的致病性;采用形态学和分子生物学方法对病原菌进行种类鉴定。【结果】分离得到轮枝菌属真菌8株,轮枝菌属真菌的病株分出率达100%;2个代表性菌株GLTG-2和GLTG-5(显微特征相似但菌落形态和生长速率不同),在温度18-24℃及昼/夜光周期为11.5 h/12.5 h的试验条件下,人工接种可引起甜瓜苗矮化、枯萎;接种后40 d,枯死株率分别为70%和40%;BLASTn分析结果显示,菌株GLTG-2的rDNA-ITS序列与Verticillium dahliae菌株MRHf7的序列相似性达99.78%,菌株GLTG-5的rDNA-ITS序列与V.dahliae菌株MRHf7和Vd414的序列相似性达100.00%。【结论】引起甜瓜黄萎病的病原菌被鉴定为大丽轮枝菌(V. dahliae),这是大丽轮枝菌引起甜瓜黄萎病在我国和亚洲地区的首次报道。     

Host Specialization among Vegetative Compatibility Groups of Verticillium dahliae in Relation to Verticillium longisporum

A collection of 24 isolates of Verticillium dahliae and 10 isolates of Verticillium longisporum originating from nine different host plants and from several geographic regions was tested for host specificity on 11 economically important crops such as potato, tomato, strawberry, linseed, three legumes and four Brassica species. In order to reveal host specificity the potential of each isolate to induce disease and affect plant yield was recorded for all isolate–host combinations. The collected data were statistically processed by means of a cluster analysis. As a result, the host range of individual isolates was found to be more dependent on the vegetative compatibility group (VCG) of the isolate than on its original host plant provenance. Twenty‐two out of 24 V. dahliae isolates belonged to either VCG 2B or 4B. VCG 2B isolates showed specificity for legumes, strawberry, potato and linseed, whereas VCG 4B was specifically virulent on potato, strawberry and linseed. Subgroups within VCG 2B and 4B almost lacking any host preference were designated 2B* and 4B*. Three isolates from VCG 2B*, however, severely attacked tomato which is a host outside the authentic host range of VCG 2B. The pathogenicity of V. longisporum isolates was restricted to cruciferous hosts. Conversely, cruciferous plants were not affected by isolates from VCGs 2B and 4B of V. dahliae. This lack of cross‐infectivity of certain subpopulations of V. dahliae and of V. longisporum may be useful in the management of this soil‐borne wilt disease.     

Verticillium wilt of cacao in Uganda: the relationship between Verticillium dahliae and cacao roots

Isolates of Verticillium dahliae Kleb. from wilted cacao (Theobroma cacao L.), cotton (Gossypium hirsutum L.), and okra (Abelmoschus esculentus Medik.) penetrated all regions of living cacao tap and lateral roots and progressed intracellularly from the epidermis to the xylem in 4–6 days. The hypocotyl and tissues of the unerupted lateral roots beneath the epidermis resisted invasion. Host reactions included browning of extensively colonized cells, alteration (with apparent granulation) of the cytoplasm, and accumulation of materials in the lumina of endodermal cells. Resistance in the hypocotyl was associated with occasional thickening of inner tangential walls of colonized epidermal cells. The fungus formed conidia, microsclerotia, and narrow and wide hyphae within root tissues. The narrow hyphae predominated at the front of mycelial invasion of tissues while the broad hyphae developed behind this front. Limited studies under non-sterile conditions indicated that the apparent host-parasite interactions were similar to those observed with sterile roots and cultures of V. dahliae.     

Benomyl tolerance in Verticillium dahliae

In Verticillium dahliae isolates (‘wild type’) obtained prior to the advent of benzimidazole fungicides, growth of germ tubes and extension of mycelium were typically inhibited by benomyl at 0–3 ppm and 0.5-1.0 ppm respectively. Culture of such isolates in the presence of increasing concentrations of benomyl resulted in the selection of variants able to grow at 12.0 ppm. Conidia, and mycelium grown for 24 b, were each more sensitive to inhibition by benomyl than mycelium grown for 48 h. Mycelium of both wild-type and selected variants was still viable after treatment with 20 ppm benomyl in a nutrient medium for 112 days. Long-term treatments at 20 ppm caused the enlargement of mycelial cells and conidia, thickening of the cell walls and formation of large spherical inclusions apparently comprising or containing lipids.     

Characterization of Spanish strains of Verticillium lecanii

We have characterized biologically and physiologically eight Verticillium lecanii strains from several origins including insect pests. Of all the temperatures tested, 25 degrees C was the best for growth and at 40 degrees C none of the strains could grow. At 4 and 7 degrees C, growth was reduced in comparison to warmer temperatures. The strains had better development at pH close to 7 (F = 27.64, P < 0,01) than at pH 3. Self-inhibition of germination of strain 50 was found when more than 0.78 conidia/cm(2) were plated on corn meal agar (CMA). Germination of conidia was close to 100% for all strains except one, three days after inoculation. Among extracellular enzymatic activities studied the fungal strains showed strongest proteolytic activities followed by lipolytic and chitinolytic activities. Some strains showed significant differences (P < 0.05) in conidia production. Most of the fungicides tested (especially benomyl) inhibited radial growth of strain 50 on CMA. Pathogenicity (as median lethal time, LT50) of V. lecanii strains on larvae of Galleria mellonella varied from 2.66 -/+ 0.33 to 4.27 -/+ 0.25 days. We conclude that in vitro tests per se are not sufficient to select the best biocontrol strains of entomopathogenic fungi. Pathogenicity is a complex process in which the presence, timing and regulation of many factors including those covered in this paper, as well as their interactions, are probably involved.     

马铃薯黄萎病研究现状

马铃薯黄萎病是一种重要的世界性病害之一,为土传兼种传维管束病害,危害大且防治困难。本文将该病害的分布与危害、症状、6种病原的形态学及其生物学特性、发病规律、病原检测技术和病害综合防控措施等方面研究进行了综合概述,可为该病害的相关深入研究提供理论指导。     

茄子黄萎病菌抗性根际芽孢杆菌的筛选与鉴定

利用离体抑菌圈法从茄子根际土壤筛选出8株对黄萎病菌大丽轮枝菌(Verticillium dahliae)抑菌效果明显的芽孢杆菌,其中F53菌株分泌几丁质酶和-β1,3-葡聚糖酶,对所检测的12种植物病原菌具明显的抑制作用,其发酵液热、酸碱稳定性强,用F53菌株制成的菌剂对茄子黄萎病盆栽试验防效为52.4%~75.8%,初步鉴定F53菌株为环状芽孢杆菌(Bacillus circulans)。     

A new Verticillium parasitic on rotifers

Verticillium reniformis is described as a new species. It is parasitic on rotifers and distinguished by its kidney-shaped conidia.