红花锈病菌Puccinia carthami Cda.的孢子阶段及生活史研究

 用本地感病的红花品种,对P.carthaml的孢子阶段和生活史进行了研究.结果指出,种子经冬孢子粉拌菌后播种,幼苗罹病后在同一块病斑上先后产生性孢子、夏孢子和冬孢子。明确了性子器后发育生成的孢子防段为初生夏孢子.为此P.carthami应归属为单主寄生,缺锈孢型锈病菌.     

Interactions between isolates of Puccinia smyrnii, an autoecious, demicyclic rust and accessions of Smyrnium olusatrum

Plants derived from bulked seed samples of Smyrnium olusatrum collected from small patches of plants in Anglesey, Gwynedd, Shropshire and Suffolk were all susceptible, but expressed quantitative differences in disease severity, when inoculated with either aeciospores or teliospores of Puccinia smyrnii from the same or similar locations under controlled environmental conditions. Latent periods (mean 16 and 11 days for appearance of telia and spermagonia, respectively) were longer in 1996 compared with repeat inoculation in 1997 when the rust was more severe. Summation of mean numbers for each year of both aecia and telia, for rust isolate × host accession combinations, showed significantly different numbers of aecia in both years but not of telia. Incidence and severity of P. smyrnii varied on plants derived from seed from Anglesey, Shropshire and Suffolk when transplanted into a naturally rust-affected population of S. olusatrum at Gwynedd, but all plants were susceptible. Experimental transfer of spermatia between spermagonia confirmed that P. smyrnii is heterothallic.     

甘草单胞锈菌的孢子阶段、生活史及防治研究

甘草单胞锈病是新疆南北地区甘草栽培中一种毁灭性病害。1987—1989年在田间和室内对甘草单胞锈菌〔Uromyces glycyrrhizae(Rabenh.)Magn.〕的孢子阶段、生活史和防治进行了研究。结果表明,本菌为单主全孢型锈菌,能在甘草生长期产生5种不同的孢子。人工接种证实本菌的夏、冬(担)孢子能于冬前发芽侵染甘草根蘖芽,潜伏越冬,于次春出现夏孢子型、性(锈)子器型和混生型3种不同的系统侵染病株,成为当年发病的初侵染源。夏孢子于生长季节重复侵染叶部、茎梢和根蘖芽、腋芽,产生局部和系统侵染,造成毁灭性为害。     

Germination of Alternaria linicola conidia on linseed: effects of temperature, incubation time, leaf wetness and light regime

Conidia of Alternaria linicola germinated on both water agar and linseed leaves (detached or attached) over a wide range of temperatures (5–25°C) by producing one to several germ tubes. At temperatures between 10°C and 25°C and under continuous wetness in darkness, germination started within 2 h after inoculation and reached a maximum (100%) by 8 to 24 h, depending on temperature. At 5°C, the onset of germination was later and the rate of germ tube elongation was slower than that at 10–25°C. During germination, conidia of A. linicola were sensitive to dry interruptions of wet periods and to light. Short (2 h) or long (12 h) dry interruptions occurring at any time between 2 and 6 h after inoculation stopped conidial germination and germ tube elongation. With continuous wetness, light periods 2 to 12 h long immediately after inoculation inhibited conidial germination, which was resumed only when a dark period followed subsequently. However, germination and germ tube elongation of A. linicola conidia stopped and the viability of the conidia was lost during exposure to dry light periods immediately after inoculation with spore suspensions. Penetration of leaves by A. linicola was evident after 12 h and occurred mainly through epidermal cells (direct) with or without the formation of appressoria.     

Susceptibility of invasive taxa of European blackberry to rust disease caused by the uredinial stage of Phragmidium violaceum under field conditions in Australia

European blackberry ( Rubus fruticosus agg.) is an aggregate of closely related taxa, with at least 15 taxa naturalized in Australia. Biological control of this Weed of National Significance, using the nonindigenous rust fungus Phragmidium violaceum , is effective when the weather is conducive to multiple cycles of infection, but some blackberry taxa escape severe disease. Thirty-one taxa of naturalized R. fruticosus agg. from southeastern Australia were isolated, their DNA phenotype determined and clones of each taxon inoculated with P. violaceum isolate SA1. Disease development was monitored for at least four generations of uredinia on large potted plants under field conditions. Although variation in mean disease severity appeared continuous over the range of Rubus clones tested, counts of uredinia and telia enabled identification of eight resistant taxa. Fine scale variation in susceptibility to rust disease was observed when different clones of R. leucostachys with the same DNA phenotype were found to express either resistance or susceptibility to P. violaceum (SA1). There were significant differences among 23 Rubus taxa rated as susceptible to rust disease in the mean number of leaves emerging per latent period of uredinia (LELPU). Mean LELPU appeared to account for some of the variation in two measures of mean disease severity observed among susceptible Rubus clones, although the correlation was insignificant (0·10 <  P  > 0·05).     

New host records for Puccinia allii Rud.

Uredinia and telia of Puccinia allii were found on leaves of Allium sphaerocephalon , but uredinia only were found on A. carinatum, A. roseum and Nectaroscordum siculum. Each combination represents a new record for Britain, and N. siculum has not been recorded previously as a host for this fungus.     

Laboratory studies on the growth and reproduction of Cladosporium allii-cepae, the cause of leaf blotch of onion

Cladosporium allii-cepae is a slow-growing pathogen of onion which, on malt extract agar, had a mean colony diameter of 2.7 cm after 28 days at 16°C. Growth and reproduction were greatest on malt onion leaf agar and were poor on synthetic media. The optimum and maximum temperatures for growth were 20 and 28°C, respectively. Sporulation was most abundant at 10–15°C. The fungus grew poorly in buffered Czapek Dox medium at pH 2.2–7.8 and most growth was recorded at pH 6.5. Sporulation was enhanced by exposure of colonies to near ultraviolet light.
A large proportion of spores germinated in distilled water and at 100% r.h. In distilled water germination was greatest at 15–20° and in air at 100% r.h. at 20°C. Of 10 fungicides tested, fentin hydroxide, fentin acetate/maneb and iprodione were the most effective in inhibiting spore germination, growth and reproduction of the fungus.     

Effects of growth stage, leaf position and temperature on adult-plant resistance of wheat infected by Puccinia recondita f.sp. tritici

Growth stage, leaf position and temperature effects on components of resistance to Puccinia recondita f.sp. tritici in wheat ( Triticum aestivum ) were studied. Inoculation of Era, Glenlea, Sinton and RL6044 plants at five growth stages showed that latent period increased and uredinium numbers decreased as each adult-plant-resistant wheat matured. Growth stage had little effect on latent period in the susceptible cultivar Morocco. No significant differences in latent period determined on the flag, flag -1 and flag -2 leaves of the same plant were observed for Era, Glenlea and RL6044. However, leaf age should be considered in assessing adult-plant resistance because the latent period of P. recondita f.sp. tritici in flag leaves of Sinton was shorter than that determined for the flag-1 and flag -2 leaves. Fewer uredinia developed on the flag -2 leaf of Glenlea than on the flag leaf. The latent period of leaf rust in Era, Glenlea, RL6044 and Morocco was significantly longer at 15°C than at 21°C, but temperature did not affect Sinton to the same degree. Uredinium size was a sensitive criterion of adult-plant resistance. Uredinium development in line RL6044 was significantly restricted at 15°C, but uredinia on Era, Glenlea and Sinton at 15°C were as large as those at 21°C. On the susceptible Morocco uredinia were larger at 15°C than at 21°C.     

番茄叶霉病菌分生孢子生物学特性研究

番茄叶霉病菌分生孢子萌发的最适温度为２５℃,最适ｐＨ值为４.０～５.０。相对湿度小于８６％时孢子不萌发,病菌在ＰＳＡ培养基上产孢量最大。分生孢子的致死温度为４５℃５ｍｉｎ,孢子可在地表或浅土层中的病残体上越冬。     

Temporal and spatial dispersal of Thekopsora areolata basidiospores,aeciospores, and urediniospores

Cherry spruce rust causes huge yield losses in Norway spruce seed production in Fennoscandia. The causal agent, Thekopsora areolata, has three types of spores that disperse during spring: basidiospores are produced on basidia that grow out from teliospores in overwintered bird cherry leaf litter to infect new pistillate spruce cones, aeciospores are released from old diseased spruce cones to infect bird cherry leaves, and urediniospores are produced from new bird cherry leaves for reinfection. No study has examined the dispersal of T. areolata spores, including the basidiospores that cause primary infection in spruce cones. In this study, teliospores of T. areolata were germinated in the laboratory and the morphology of basidiospores was described. T. areolata spores were sampled in Ultuna, Sweden and Joutsa, Finland with 21 spore traps at each site. Peaks in aeciospores were observed from 11 to 25 May and from 2 to 8 June at the Finnish site, and from 4 to 18 May at the Swedish site. Urediniospores were first observed 2–3 weeks after the peaks in aeciospores and they were mainly distributed within 10 m from the bird cherry trees. Peaks of 1–2 weeks in basidiospore detection coincided with multiple rain events. The basidiospore peak overlapped with the spruce pollen peak in Finland but not in Sweden. The quantities of basidiospores from different spore traps within 100 m from the spore source had no gradient. Information on spatial and temporal spore release is important for making decisions on disease management strategies.     

侵染山楂的梨胶锈山楂专化型的鉴定及生物学特性研究

 根据山楂锈病菌的形态特征及致病性,初步鉴定为梨胶锈山楂专化型(Gymnosporan-gium asiaticum Miyabe ex Yamada f.sp.crataegicola)。冬孢子角吸水胶化后1小时萌发产生担孢子,24小时达到最高萌发率。冬孢子萌发的温度范围为5℃~25℃,适宜温度10℃~35℃;担孢子萌发的温度范围为5℃~25℃,适宜温度15℃~25℃。两种孢子在有水膜的情况下才能萌发,不需要补充营养。冬孢子角在室温下能存活60天左右,5℃冰箱中可存活4个月左右。单个的冬孢子及担孢子不耐干燥,1~2天便全部死亡。     

Teliospore Survival and Plant Quarantine Significance of Tilletia Indies (causal agent of Karnal bunt) Particularly in Relation to China

The influence of temperature, light and soil conditions on teliospore germination of Tilletia (Neovossia) Indica was investigated. The teliospores were germinated by incubation in an aqueous suspension in a concavity on a water agar surface and the germination percentage was scored directly under low magnification of the compound microscope. The optimal temperature range for germination was found to be 15 to 22°C. Germination was extremely low at 2°C, but total inhibition was only observed after prolonged exposure to 35®C (in darkness) or to - 18°C under dry conditions. Light was shown to have a stimulating effect on germination (artificial daylight was found to be better that near ultraviolet light). No stimulation was achieved by prolonging the illumination from 12 to 24 h. Teliospores from 5-year-old wheat samples were shown to be viable. The weather conditions of the various wheat- growing areas of China were compared with the results obtained for the survival of teliospores of T. indica. It is concluded that a considerable risk exists for establishment and spread of the Karnal bunt disease if first accidentally introduced into China. Strict quarantine precautions, and policies can minimize or even eliminate this risk.     

Effects of temperature and wetness duration on conidial infection, latent period and asexual sporulation of Pyrenopeziza brassicae on leaves of oilseed rape

Experiments in controlled environments were carried out to determine the effects of temperature and leaf wetness duration on infection of oilseed rape leaves by conidia of the light leaf spot pathogen, Pyrenopeziza brassicae . Visible spore pustules developed on leaves of cv. Bristol inoculated with P. brassicae conidia at temperatures from 4 to 20°C, but not at 24°C; spore pustules developed when the leaf wetness duration after inoculation was longer than or equal to approximately 6 h at 12–20°C, 10 h at 8°C, 16 h at 6°C or 24 h at 4°C. On leaves of cvs. Capricorn or Cobra, light leaf spot symptoms developed at 8 and 16°C when the leaf wetness duration after inoculation was greater than 3 or 24 h, respectively. The latent period (the time period from inoculation to first spore pustules) of P. brassicae on cv. Bristol was, on average, approximately 10 days at 16°C when leaf wetness duration was 24 h, and increased to approximately 12 days as temperature increased to 20°C and to 26 days as temperature decreased to 4°C. At 8°C, an increase in leaf wetness duration from 10 to 72 h decreased the latent period from approximately 25 to 16 days; at 6°C, an increase in leaf wetness duration from 16 to 72 h decreased the latent period from approximately 23 to 17 days. The numbers of conidia produced were greatest at 12–16°C, and decreased as temperature decreased to 8°C or increased to 20°C. At temperatures from 8 to 20°C, an increase in leaf wetness duration from 6 to 24 h increased the production of conidia. There were linear relationships between the number of conidia produced on a leaf and the proportion of the leaf area covered by 'lesions' (both log₁₀-transformed) at different temperatures.     

Effect of temperature on herbicidal properties of MTB-951, a mycoherbicide to control Echinochloa crus-galli L.

MTB-951 is a potential mycoherbicide using a fungal plant pathogen ( Drechslera monoceras ) isolated from native Echinochloa species in Japan. Conidia of this pathogen were used as the active ingredient and the effect of temperature on its properties was examined in a laboratory. The optimum temperature for conidium germination was broad between 15 and 35°C and no difference in the germination ratio existed within this temperature range. Mycelial growth was the fastest at 25°C but was slower outside of the range 15–35°C. When leaves of Echinochloa crus-galli L. were immersed in deionized water containing the conidia, cellular electrolyte leakage from the leaves was observed. However, no electrolyte leakage occurred from leaves of rice ( Oryza sativa L.) under the same conditions. The occurrence of electrolyte leakage from E. crus-galli was dependent on the temperature and was the highest at 25°C. Herbicidal activity of MTB-951 against E. crus-galli was high between 25°C and 30°C, but decreased at 35°C in a glass vessel. In the present study, it was revealed that the physiological and herbicidal properties of MTB-951 depended on the temperature.     

Effects of temperature, relative humidity and duration of wetness period on germination and infection by conidia of the pear scab pathogen (Venturia nashicola)

Experiments were conducted to determine the effects of temperature, relative humidity (RH) and duration of wetness period on in vitro germination of conidia and infection of detached pear leaves by Venturia nashicola , the causal agent of pear scab. Conidia germinated only in near-saturation humidity (RH > 97%). The final percentage germination (24 h after inoculation) at 100% RH without free water was less than half that in free water. Conidia germinated over the range of temperatures tested (5–30°C); the optimum temperature for germination was ≈21°C. Changes in percentage germination of conidia over time were fitted by logistic models at each individual temperature. Polynomial models satisfactorily described the relationships between two (rate and time to 50% of maximum germination) of the three logistic model parameters and temperature. The minimum length of the wetness period for successful infection of detached pear leaves by conidia was observed at several temperatures. The shortest length of wetness period required for infection was 7 h at 22°C. Two polynomial models fitted well the relationship between the minimum wetness duration required for infection, and temperature.     

薇甘菊柄锈菌生物学及其寄主专一性

在检疫温室条件下对外来入侵植物薇甘菊的寄生菌——薇甘菊柄锈菌的生物学及其寄主专化性进行了研究。结果表明，薇甘菊柄锈菌可以侵染植物叶片和叶柄等营养器官。受侵染部位起始出现褪绿斑，12～15d，自叶背产生黄色冬孢子堆，并逐步坏死和脱落，最终致寄主死亡。冬孢子黄至暗褐色，包埋在寄主组织中，无明显休眠期。高湿条件下，冬孢子易萌发产生担孢子进行再侵染。采用悬挂法对29个科、62个属的72种植物进行了寄主专化性测定，结果表明，薇甘菊柄锈菌在菊科植物天门冬、紫茎泽兰、向日葵、地胆草上形成褪绿斑，但未发现菌丝和吸器。薇甘菊柄锈菌可成功侵染薇甘菊和同属植物假泽兰。     

Rhamnus lycioides in Tunisia is a new aecial host of oat crown rust

Puccinia coronata was not previously described on Rhamnus spp. in Tunisia. Three sites in the northwest of Tunisia, where Rhamnus is reported to be abundant, were surveyed for the presence of pycnia and aecia of oat crown rust caused by Puccinia coronata f. sp. avenae. Two Rhamnus species (R. lycioides and R. alaternus) were encountered in the sites. Pycnia with viable pycniospores and aecia with viable aeciospores were found on R. lycioides. However, no characteristic structures of crown rust were found on R. alaternus. Aeciospores collected from leaves of R. lycioides were used to inoculate oat plants usually susceptible to oat crown rust. Typical uredinia containing oat crown rust urediniospores appeared on the leaves of these plants. Moreover, the sixteen Pc-gene differential oat lines, used by oat researchers to study the virulence pattern in oat crown rust populations, were artificially inoculated with aeciospores from R. lycioides. These inoculated lines showed resistance/susceptibility similar to the registered resistance level of these lines to crown rust under field conditions in Tunisia. These results indicate that R. lycioides, a common and endemic part of the vegetation in the northwest of Tunisia, is a new aecial host of oat crown rust. The aeciospores produced on this forest plant could constitute the source of the virulence diversity already detected via the Pc-gene line trials.     

Quantitative relationships between inoculum of Melampsora larici-epitea and corresponding disease on Salix

Six Salix clones were inoculated with urediniospores of four isolates of Melampsora larici-epitea at five inoculum levels using a leaf-disc method. Disease reactions were recorded using a digital camera; the number and size of uredinia were examined using image analysis software; and spore yield per leaf disc was measured. In three Salix / Melampsora combinations, S.  ×  mollissima 'Q83'/Q1 (LET4); S. viminalis '78183'/V1 (LET1); and S.  ×  stipularis /V1, pustule numbers increased as inoculum density became higher. In the remainder, S. viminalis 'Mullatin'/V1; S.  ×  calodendron /DB (LET3); and S. burjatica 'Korso'/K (LR1), pustule numbers initially increased, then decreased as inoculum densities exceeded 140–360 spores per disc. Calculated infection efficiency ranged from 0·11 to 0·20 on the three willows inoculated with V1: 0·16–0·68 for S.  ×  calodendron /DB; 0·20–0·55 for 'Q83'/Q1; and 0·07–0·48 for Korso/K. In single-spore inoculations, up to 10% of spores produced single uredinia. Infection efficiency increased sharply between inoculum densities of 1–40 spores per leaf disc. Spore yield was more closely correlated to pustule area (accounting for 61·2% variance for the combined data) than to the number of pustules (42·7% variance). For spore yields in relation to pustule numbers, clone-specific individual lines having different intercepts and slopes fitted significantly better than either a single line for all the tested willows, or parallel lines fitted to each clone ( P  < 0·001). For spore yields in relation to pustule area, clone-specific individual parallel lines were significantly better than a single line ( P  < 0·001).     

UNTERSUCHUNGEN ZUR BIOLOGIE UND ÖKOLOGIE DER HÜHNER-HIRSE ECHWOCHLOA CRUS-GALLI L. BEAUV.

Summary. 1. Echinochloa crus-galli is a typical grass weed of root crops in warmer regions, germinating late and thus covering the soil at a late stage. It originates in central and east Asia and is now a weed of world-wide importance.
2. High temperatures are necessary for germination which begins in spring, but not before the soil temperature reaches 15° C. Minimum, optimum and maximum germination temperatures of 13° C, 20–30° C and 40° C were found in S.W. Germany.
3. Seeds of E. crus-galli are dormant during the first 3–4 months after harvest. Those developing relatively early in the growing season require rather longer for after-ripening than seeds which mature later.
4. For optimum germination, water saturation of the soil of 70–90% is required.
5. Soil acidity has some influence, and there is an apparent germination optimum around neutrality. Light also induces germination.
6. Seeds can emerge from a relatively wide range of depths. Greatest emergence and the strongest plants resulted from seeds at 2–6 cm, but even from 10 cm a high percentage of seedlings is likely to emerge.
7. Further development proceeds rapidly. The first panicles arc already formed 6–7 weeks after emergence in favourable conditions, but full maturity is possible only if there are high temperatures in late summer.
8. E. crus-galli is a hygrophilous species, with best development on medium heavy soil, sandy loam or loamy sand with sufficient water supply.
9. E. crus-galli is indifferent to the lime content of the soil.
10. Best development occurs with high fertility, and a rich supply of nitrogen is especially important.
Recherches sur la biologie et écologie du panic Echinochloa crus-galli (L.) Beauv.     

Phakopsora montana, another grapevine leaf rust pathogen in Japan

A new grapevine leaf rust (GLR) was found to be caused by Phakopsora montana. This new fungus naturally infects Crimson Glory vine (Vitis coignetiae), forming uredinia and telia on the leaves. Under experimental conditions, the fungus was pathogenic to table grape cultivars Delaware and Kyoho (V.?×?labruscana), Amur River grape (V. amurensis), and V. ficifolia, on which it produced urediniospores. Inoculation experiments proved that the pathogen alternates hosts, forming spermogonia and aecia on Meliosma tenuis. The new pathogen resembles P. meliosmae-myrianthae (=P. euvitis), a common GLR fungus; however, its spermogonial/aecial stage is restricted to M. tenuis, contrary to P. meliosmae-myrianthae with its spermogonial/aecial stage restricted to M. myriantha. Aeciospores of the new pathogen are evenly thin-walled, whereas the aeciospore wall is conspicuously thickened apically in P. meliosmae-myrianthae. Phakopsora montana is known to occur only on V. coignetiae in nature; however, table grape cultivars Delaware and Kyoho were not resistant to P. montana under experimental conditions. These results indicate that P. montana has caused a certain proportion of the GLR disease recorded in Japan with a possible mixed infection with P. meliosmae-myrianthae.