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1.
Hydrogen peroxide (H2O2) localization and roles of peroxidases, malondialdehyde and reduced glutathione were compared in leaves of apricot (Prunus armeniaca) plants asymptomatic, European Stone Fruits Yellows (ESFY)-symptomatic and recovered. Nested PCR analysis revealed that Candidatus Phytoplasma prunorum, is present in asymptomatic, symptomatic and recovered apricot trees, confirming previous observations on this species, in which recovery does not seem to be related to the disappearance of phytoplasma from the plant.H2O2was detected cytochemically by its reaction with cerium chloride, which produces electron-dense deposits of cerium perhydroxides. H2O2was present in the plasmalemma of the phloem cells of recovered apricot plant leaves, but not in the asymptomatic or symptomatic material. Furthermore, by labelling apricot leaf tissues with diaminobenzidine DAB, no differences were found in the localization of peroxidases.Protein content in asymptomatic, symptomatic and recovered leaves was not significantly different from one another. In contrast, guaiacol peroxidase activity had the following trend: symptomatic > recovered > asymptomatic, whereas reduced glutathione content followed the opposite trend: asymptomatic > recovered > symptomatic. Moreover, no differences were observed in malondialdehyde concentrations between asymptomatic, symptomatic and recovered leaves. The overall results suggest that H2O2 and related metabolites and enzymes appear to be involved in lessening both pathogen virulence and disease symptom expression in ESFY-infected apricot plants. 相似文献
2.
新疆野苹果和秦冠的抗黑星病特性 总被引:3,自引:0,他引:3
透射电镜观察表明, 苹果叶片上表皮角质层厚度在品种间存在显著差异, 新疆野苹果和秦冠叶片的角质层厚度显著高于富士和嘎啦的;同一品种不同龄期叶片的角质层厚度随着叶龄增长而增厚, 且黑星病严重度与叶片上表皮角质层厚度间存在显著的负相关关系。苹果品种抗病性组分分析结果表明, 新疆野苹果的病害严重度最低, 约为嘎啦的1/22, 潜育期最长, 为嘎啦的2.0倍, 无(或少有)病斑出现, 不产孢。秦冠的严重度约为嘎啦的1/14, 潜育期约为嘎啦的1.5倍, 产孢量约为嘎啦的1/26。黑星病菌在新疆野苹果和秦冠叶片上的侵染概率及病斑扩展速率均显著低于富士和嘎啦。因此, 新疆野苹果和秦冠对黑星病的抗病性表现在抗侵入和抗扩展两个方面。 相似文献
3.
The pathogenicity and virulence of ten GreekPseudomonas syringae pv.syringae strains from different hosts (citrus, pear, apple, peach and cherry) were evaluated using three different laboratory methods,
which produced results in good agreement. All ten strains were virulent on apple, pear, cherry and peach trees. The extent
of tissue colonized varied considerably among strains and cultivars. On excised shoots and twigs of apple and pear, strains
BPI 176, BPI 203, PI 2 and PI 14 were the most virulent and strains BPI 689, BPI 992, BPI 4, BPI 20, PI 18 and PI 19 were
the least virulent. On excised shoots and twigs of peach and cherry, strains BPI 176, BPI 203, PI 2, PI 14, PI 18 and PI 19
were the most virulent and strains BPI 4 and BPI 20 were the least virulent. Moderate virulence was evinced by strains BPI
689 and BPI 992. These pathogenicity assays are proposed as rapid and reproducible screening systems to evaluate the susceptibility
of apple, pear, cherry and peach cultivars to this bacterial pathogen. 相似文献
4.
P. Sobiczewski E. T. Iakimova A. Mikiciński E. Węgrzynowicz‐Lesiak B. Dyki 《Plant pathology》2017,66(5):842-855
An important issue related to the epidemiology of fire blight, a devastating disease of apples and pears, is how its causal agent, the bacterium Erwinia amylovora, survives and disseminates in the environment. Almost no information is available on the possibility of this pathogen overwintering as a necrotroph. In this study, bacterial survival in dead apple and tobacco (a non‐host) leaf tissues was addressed. In necrotized leaves collected 5, 6, 7 and 8 months following shoot inoculation of apple trees, viable E. amylovora cells were present in over 50% of samples from the midrib and in over 10% of samples from lateral veins, but were never found in parenchyma. Using a PCR‐based method, pathogen DNA was detected in more than 50% of samples that were found to be free of viable cells by conventional plating out. However, PCR analysis was insufficient to distinguish between the DNA of viable and dead bacteria. Sugars appropriate for bacterial growth were found in dead apple leaves. In spot‐inoculated attached apple and tobacco leaves, a remarkable increase in the bacterial population was observed in lesions that developed as a hypersensitive response (HR). As in other necrotrophic interactions, bacterial proliferation was associated with massive hydrogen peroxide production and progression toward plant cell death. The results indicate that E. amylovora has an ability to survive as a semi‐necrotroph or necrotroph, which allows for overwintering in dead apple leaves. 相似文献
5.
Ascospores of Mycosphaerella pomi, the pathogen of Brooks fruit spot of apple, were produced in pseudothecia on previously infected and overwintered apple leaves from late April through early August in Aomori Prefecture, Japan. In June 2003, the ascospores were germinating and producing Cylindrosporium-type conidia on apple fruit and leaf surfaces in an orchard. After ascospores were sprayed on apple leaves, Cylindrosporium-type conidia developed on the leaf surfaces. Such Cylindrosporium-type conidia caused typical symptoms of Brooks fruit spot on apple trees after inoculations. These results suggested that the Cylindrosporium-type conidia also serve as an infection source, in addition to the ascospores, for Brooks fruit spot in apple orchards. 相似文献
6.
The evaluation of host-plant susceptibility to Erwinia amylovora and of colonization of host-plant tissue by individual strains was facilitated by labelling the pathogen with green fluorescent protein (GFP). Colonization of apple leaves assayed with a fluorescence microscope was associated with visual disease ratings on plants to describe virulence (= aggressiveness) of the fireblight pathogen. Resistance induced with 2,6-dichloro-isonicotinic acid (INA) and benzo(1,2,3-) thiadiazol-7-carbothioic acid-S-methyl ester (BTH, the active component of BION™) restricted colonization by the pathogen to an area adjacent to the inoculation site. Migration in leaves was associated with symptom formation on pear slices and host plants of mutant strains. Non-virulent E. amylovora mutants did not migrate into the leaf veins and strains with intermediate-to-low virulence moved slowly. To compare the migration efficiency of individual wild-type strains in apple and plum cultivars, a blend of five wild-type E. amylovora strains with specific numbers of short-sequence DNA repeats (SSRs) in the common plasmid pEA29 was applied to distinguish them by PCR. Fast-moving strains identified in the GFP assays were dominant, independent of the apple cultivar. When apple shoots, pear slices or leaves of apple plants were coinoculated with streptomycin (Sm)-resistant strains and the corresponding parent strains, Sm-resistant mutants were able to dominate the wild-type strain for tissue colonization. 相似文献
7.
为了探讨苹果叶片抗病相关蛋白的表达特性,进一步解析苹果叶片自身防御反应分子机制,本文以抗病苹果品种‘华月’为试材,采用iTRAQ定量蛋白质组技术分析苹果链格孢菌处理前后,苹果叶片总蛋白差异表达情况。结果表明,与无菌水处理的叶片相比,病原菌接种后的叶片共筛选到433个差异表达蛋白,聚类分析结果较好,其中257个蛋白显著上调,176个蛋白显著下调。进一步开展差异蛋白筛选及功能分析,筛选后的53个蛋白依据功能可划分为7类,分别为代谢过程相关,防御或逆境应答反应相关,蛋白质代谢过程相关,细胞分裂相关,细胞壁修饰相关,细胞过程相关及其他功能未知蛋白。代谢通路分析表明,KEGG共富集到7个结果,64个蛋白在7条通路中得到注释,且这些蛋白对这7条信号通路均具有显著影响(P<0.05)。亚细胞定位分析结果表明,共49个蛋白得到成功定位,其中35个蛋白定位于叶绿体,表明叶片细胞中大量的叶绿体蛋白参与了病原菌胁迫应答反应。其他蛋白中,7个定位于细胞质,3个定位于细胞质膜,其余4个分别定位于细胞壁、胞外、过氧化物酶体及内质网。除了防御或逆境反应相关蛋白,光合作用及其他代谢相关蛋白也参与了苹果叶片细胞的防御反应。病程相关的PR类蛋白中包括3个过氧化物酶类蛋白(PR-9)、1个类甜蛋白(PR-5)及1个MLP样蛋白(PR-10),过敏反应相关的MLP样蛋白在果树应答逆境胁迫的研究中的报道较少,MLP蛋白的差异表达可能也与苹果叶片的防御反应相关。本研究进一步证实了苹果叶片应答链格孢菌胁迫的抗性相关蛋白中,PR类蛋白的差异表达可能是影响苹果叶片细胞抗病反应的关键因子,研究结果为进一步解析果树抗病分子机制提供了参考。 相似文献
8.
Hiroki Noda Noriko Yamagishi Hajime Yaegashi Fei Xing Jipeng Xie Shifang Li Tao Zhou Tsutae Ito Nobuyuki Yoshikawa 《Journal of General Plant Pathology》2017,83(2):83-90
The causal agent of apple mosaic disease has been previously thought to be solely caused by apple mosaic virus (ApMV). In this study, we report that a novel ilarvirus is also associated with apple mosaic disease. Next-generation sequencing analysis of an apple tree showing mosaic symptoms revealed that the tree was infected with three apple latent viruses (apple stem pitting virus, apple stem grooving virus, and apple chlorotic leaf spot virus) and a novel ilarvirus (given the name apple necrotic mosaic virus (ApNMV)) that is closely related to Prunus necrotic ringspot virus (PNRSV) and ApMV. The genome of ApNMV consists of RNA1 (3378 nt), RNA2 (2767 nt), and RNA3 (1956 nt). A phylogenetic analysis based on the coat protein amino acid sequences indicated that the novel virus belongs to the same subgroup 3 of the genus Ilarvirus as PNRSV and ApMV. The presence of mosaic leaves, which tend to be unevenly distributed in diseased apple trees, was correlated with the internal distribution of ApNMV. RT-PCR detection of mosaic-diseased apple trees in Japan indicated that ApNMV was detected in apple trees introduced from China, whereas ApMV was detected from cultivated apple trees in domestic orchards. Consistent with these findings, a survey of mosaic-diseased apple trees in major apple-producing provinces in China revealed that the majority of apple trees showing mosaic symptoms in China are infected with ApNMV. 相似文献
9.
Natural recovery from wilt disease symptoms was evaluated in young olive trees root dip inoculated with Verticillium dahliae in a growth chamber over a 12 week period and, later on, when the trees were transplanted in a V. dahliae-free soil in a lathhouse during a period of 127 weeks. Recovery in an individual tree was considered when a plant showed
symptom remission after having reached a maximum value of symptom severity. Recovery accounted for 53% of 464 trees that showed
wilt symptoms during observations in the two environments. The remaining trees died. Recurrent wilt symptoms were not observed
in recovered trees, and recovery was usually accompanied by the production of new green tissues. Recovery was clearly higher
in trees inoculated with a non-defoliating (ND) isolate (86.4%) of the pathogen than in those inoculated with a defoliating
(D) isolate (23.9%). The percentage of recovery and the level of resistance were significantly correlated. Recovery accounted
for 92.1% of the cases in resistant and moderately susceptible cultivars, reaching 100% in plants inoculated with the ND isolate
(Table 2); meanwhile it was three times lower (30.1% of the plants) in susceptible and extremely susceptible diseased trees.
In the lathhouse, periodical tissue isolations for monitoring the progress of infections over a period of 127 weeks in recovered
trees, showed that the pathogen could only be isolated from trees 19 weeks after inoculation. Pathogen isolation was significantly
higher from susceptible and extremely susceptible cultivars (84.6%) than from resistant and moderately susceptible ones (33.3%).
Results showed that if a tree overcomes infection by pathogen from a single inoculation, and it is able to begin a recovery
process, it will not express wilt symptoms again in a pathogen-free environment. The pathogen remained inactive or dead over
time in recovered trees. Thus, new infections from rootlets would be necessary for new symptom expression. Recovery from Verticillium wilt is an important natural mechanism that occurs in a high percentage of infected olive trees, and can complement the resistance
of the cultivar, particularly in conditions of low inoculum densities of low virulence isolates of the pathogen in the soil. 相似文献
10.
Megumu Tanahashi Takashi Nakano Hajime Akamatsu Motoichiro Kodama Hiroshi Otani Kumiko Osaki-Oka 《European journal of plant pathology / European Foundation for Plant Pathology》2016,145(4):787-795
A disease caused by Alternaria alternata occurred on the leaves of European pear cultivar Le Lectier in Niigata Prefecture, Japan, and was named black spot of European pear. In conidial inoculation tests, the causal pathogen induced not only small black lesions on the leaves of European pear cultivar Le Lectier, but severe lesions on the leaves of apple cultivar Red Gold, which is susceptible to the A. alternata apple pathotype (previously called A. mali) causing Alternaria blotch of apple. Interestingly, the apple pathotype isolate showed the same pathogenicity as the European pear pathogen. HPLC analysis of the culture filtrates revealed that A. alternata causing black spot of European pear produced AM-toxin I, known as a host-specific toxin of the A. alternata apple pathotype. AM-toxin I induced veinal necrosis on leaves of Le Lectier and General Leclerc cultivars, both susceptible to the European pear pathogen, at 5?×?10?7 M and 10?6 M respectively, but did not affect leaves of resistant cultivars at 10?4 M. PCR analysis with primers that specifically amplify the AM-toxin synthetase gene detected the product of expected size in the pathogen. These results indicate that A. alternata causing black spot of European pear is identical to that causing Alternaria blotch of apple. This is the first report of European pear disease caused by the A. alternata apple pathotype. This study provides a multiplex PCR protocol, which could serve as a useful tool, for the epidemiological survey of these two diseases in European pear and apple orchards. 相似文献
11.
J. Moral P. S. F. Lichtemberg A. Papagelis J. Sherman T. J. Michailides 《European journal of plant pathology / European Foundation for Plant Pathology》2018,151(4):1095-1099
During 2015 and 2016, we detected blighted leaves of pistachio (Pistacia vera) trees in different orchards in Arizona (USA). A Phoma-like species was isolated from pycnidia that appeared embedded in the leaf tissue. The pathogen was identified by means of morphological characteristics and DNA analysis (by sequencing of the ITS, BT, and EF regions) as Didymella glomerata. The optimum temperature for mycelial growth of the pathogen was around 25 °C. Inoculation tests were conducted on healthy and wounded pistachio leaves, fruits, and shoots of the cv. Kerman (female) and the cv. Peters (male). Overall, the pathogen was highly virulent on leaves of both pistachio cultivars and did not need injuries for infection. Conversely, the pathogen did not cause any macroscopic symptoms on the inoculated fruits and shoots but showed a certain endophytic behavior in the shoots. Also, data on the ability of different fungicides to inhibit the in vitro mycelial growth of the pathogen are presented. 相似文献
12.
Pusey PL 《Phytopathology》1997,87(11):1096-1102
ABSTRACT Nonseasonal availability of pomaceous flowers could improve laboratory detection and prefield testing of biocontrol agents for fire blight of pear and apple. Crab apple was selected as a model because of its high flower productivity on 1-year-old wood, high susceptibility to fire blight, and availability from nurseries. Cultivars Manchurian and Snowdrift were manipulated to bloom once by transferring dormant nursery trees from a cold room to a greenhouse and a second time by defoliating trees and applying 1% cytokinin and 0.1% gibberellins to the buds with a brush. Different sets of trees were induced at different times to bloom, so that flowers were produced 12 months in the year. When known bacterial antagonists (Erwinia herbicola strain C9-1 and Pseudomonas fluorescens strain A506) were applied alone or in combination to the stigmas of detached crab apple blossoms prior to inoculation with the pathogen (E. amylovora strain Ea153), population interactions over time were comparable to those reported in previous studies involving pear or apple. In a subsequent series of experiments, the relative effects of 12 bacterial strains on stigmatic populations of strain Ea153 were similar for detached blossoms of crab apple in the laboratory, blossoms of intact crab apple trees in the greenhouse, and blossoms of pear and apple in the field. Additionally, when stigmas of detached crab apple blossoms were inoculated with antagonists (strains C9-1 and A506) and the pathogen, and later subjected to a 24-h wetting period, bacterial populations in the flower hypanthium increased and disease was suppressed. These studies indicate that crab apple blossoms can serve as a suitable model for year-round evaluation and study of biocontrol agents for fire blight. 相似文献
13.
Erich Seemüller Jannicke Gallinger Wilhelm Jelkmann Wolfgang Jarausch 《European journal of plant pathology / European Foundation for Plant Pathology》2018,151(3):767-779
To study inheritance of Malus sieboldii-derived apple proliferation resistance, 14 cross combinations were performed with the tetraploid apomictic M. sieboldii and first and second generation parental lines as donor of resistance and Malus x domestica scion cultivars and apple rootstocks as donor of pomological traits. In the progeny examined mainly three classes were present consisting of mother-like plants with the allele composition of the maternal apomict (ML), hybrids based on fertilization of an unreduced egg cell (hybrid I), and fully recombinant plants (hybrid II). Two-year screening of inoculated plants in the nursery revealed that progeny classes ML and H I responded similarly to infection and that about half of the progeny showed satisfactory resistance. No appropriate resistance was identified in progeny class H II. This might be due to the fact that in fully recombinant offspring M. sieboldii haplotypes have been reduced from 4n to 1-2n or were entirely lost. Following nursery-growing, promising trees were evaluated for six more years in the orchard. Nearly all of them showed satisfactory resistance but were mostly less productive and more vigorous than trees on clonal standard rootstock M9. However, mainly among the offspring of progeny 4608 × M9, resistant genotypes were identified showing pomological properties similar to M9. 相似文献
14.
This study investigated inter-simple sequence repeat (ISSR), vegetative compatibility, and aggressiveness diversity in 101 isolates of Diplodia bulgarica recovered from apple trees displaying symptoms of canker and decline in West Azarbaijan province of Iran. Marker analyses revealed high within population diversity, low genetic differentiation, high gene flow, and sharing of multilocus genotypes (MLGs) among geographic populations. Moreover, clustering and multivariate analyses identified two highly differentiated genetic clusters with limited admixture between them. These findings may suggest that the pathogen has been introduced from two genetically divergent sources and has been moved within the region through infected materials. The large number of MLGs, low clonal fraction, and absence of a widely distributed dominant genotype may explain the occurrence of recombination in this pathogen. However, significant linkage disequilibrium in the populations and limited admixture between genetic clusters may indicate the rare occurrence of recombination in D. bulgarica populations in West Azarbaijan, and that the pathogen has not been in the province long enough to reach equilibrium. Vegetative compatibility analyses revealed the occurrence of anastomosis between nonself pairings and high vegetative compatibility group diversity within populations. All studied MLGs produced necrotic lesions on detached shoots of Red Delicious apple but differed in their aggressiveness levels. Our results provide new insights into genetic and phenotypic variation of D. bulgarica that can assist in developing management strategies. Our findings also highlight the vital need for quarantine measures and the production of healthy plant materials to prevent the introduction and spread of the pathogen in Iran. 相似文献
15.
Castellar Camilla Jauch Felipe Moreira Rafaele Regina da Silva Silveira Duarte Henrique De Mio Louise Larissa May 《European journal of plant pathology / European Foundation for Plant Pathology》2021,160(3):599-609
Apple blotch (Marssonina coronaria) is a foliar disease of increasing importance globally. Methods to quantify the disease and knowledge about epidemiology are required for new studies on the disease. The objectives of this study were to develop a standard area diagram set (SADs) to assess apple blotch severity and to describe the temporal progress of the disease under field conditions on older and younger leaves of two apple cultivars. For the development of SADs, symptomatic leaves were collected and scanned to obtain the actual severity. Based on the pattern of the disease, a SADs was elaborated and validated. Leaf severities were estimated without and with SADs by 12 raters to validate the tool. After validation, the SADs was used to assess apple blotch in older and younger leaves of selected shoots during the vegetative cycle of cvs. Eva and Gala. SADs severities ranged from 0.2 to 96%. Accuracy, precision, and reliability of the estimates were significantly improved when the SADs was used. In the field, the onset of apple blotch was in late spring and greater increases in severity occurred during summer. Rates of disease progress ranged from 0.09 to 0.13. Epidemics were different in older and younger leaves at the end of the apple vegetative cycle for both cultivars tested. Our work provided a tool for apple blotch quantification and described the disease progress curve under subtropical conditions, which can contribute as basis for future studies.
相似文献16.
Fire blight (Erwinia amylovora), a potentially devastating disease in apple, can cause floral, fruit and structural damage and even tree death. Most commercial apple cultivars are susceptible and the resistance/susceptibility of many modern cultivars has not been evaluated. Fire blight resistance/susceptibility is difficult to phenotype due to quantitative resistance, impacts of tree vigour and environment on susceptibility, and the erratic nature of the disease. Resistance/susceptibility levels were determined for 94 apple cultivars and important breeding parents. In 2016 and 2017, multiple actively growing shoots per tree (about three trees per cultivar) were challenged with E. amylovora Ea153n via a cut-leaf inoculation method. Proportion of current season's shoot length blighted (SLB) was calculated for each shoot. To classify cultivar responses, estimated marginal SLB means were compared to four controls, representing highly susceptible (HS) to highly resistant (HR), via Dunnett's tests. Cultivar responses ranged from HS to HR with estimated marginal SLB means of 0.001–0.995 in 2016 and 0.000–0.885 in 2017. Most cultivars demonstrated similar resistance/susceptibility levels in both years (ρ = 0.657, P < 0.0001). K-means clustering was used to classify cultivars into three resistance/susceptibility groups based on incidence, average severity (SLB), and maximum severity values (maximum SLB and age of wood infected). Sixteen cultivars were consistently moderately resistant (MR) to HR while the remainder ranged from HS to MR. An updated comparison of susceptibility of important cultivars is provided. Resistance/susceptibility information gained could be used to identify genetic loci associated with resistance/susceptibility and/or inform parental selection in apple scion breeding programmes. 相似文献
17.
The potential of acibenzolar-S-methyl (Benzo [1,2,3]thiadiazole-7-carbothioic acid-S-methyl ester, ASM; Bion 50 WG) and of an extract of Hedera helix, to protect M26 apple rootstocks against fire blight was determined under controlled conditions. Marked differences were observed in the rate and extent of multiplication as well as in pathogen cell viability between control and ASM and H. helix-treated rootstocks. Although the pathogen multiplied abundantly in the plant tissue of water-treated rootstocks and showed severe damage, ASM and the plant extract of H. helix applied prior to inoculation with the causal agent of fire blight, E. amylovora (strain 7/74), suppressed disease development and bacterial multiplication. Physiological observations of ASM and plant extract-treated rootstocks indicated that restriction of pathogen colonization in plant tissue was correlated with a pronounced increase of peroxidase (POX) and chitinase activity. Furthermore, physiological changes caused by these treatments in host cells were characterized by POX labeling methods with SDS-Page electrophoresis. Differences in expression of the POX and protein bands were observed in tissues of plants treated with different inducers. POX activity was determined by the presence of three strong bands in plant extract-treated leaves, two strong bands and one very weak band of about 20.1 and 43 kDa were visible in ASM-treated leaves. Evidence is provided that ASM, as well as extract of H. helix are equally capable of inducing of resistance responses in M26 apple rootstock, which result in an increased resistance to E. amylovora—the fire blight pathogen. These findings demonstrate that both treatments have the ability to induce the activation of defense genes leading to the accumulation of structural and biochemical activities at strategic sites, and these can be associated with induction of resistance against fire-blight. 相似文献
18.
Epidemics of apple powdery mildew were monitored on leaves of vegetative extension shoots in a mixed-cultivar orchard in 1979. 1980 and 1981. Cultivars Cox's Orange Pippin. Golden Delicious. Ida Red and Suntan were very susceptible but little mildew developed on cv. Discovery in any year. Results with cvs Crispin and Spartan were less consistent due, in part, to differing patterns of vegetative growth. The rankings of cultivars for disease incidence (proportion of leaves with mildew), number of colonies and mildewed area were similar, and were also consistent on fungicide-sprayed and unsprayed trees in 1981. Less disease occurred on fungicide-treated Golden Delicious than on Cox's Orange Pippin. Most infections occurred on the rolled leaves at the shoot tip. Spore production was greatest on leaves at positions -1 to -4 where leaf 0 was the youngest and leaf - 1 the adjacent and older unrolled leaf. 相似文献
19.
V. Caffier B. Le Cam P. Expert M. Tellier M. Devaux M. Giraud M. Chevalier 《Plant pathology》2012,61(5):915-924
Atypical scab‐like symptoms were reported for the first time in 2007 in the south of France on fruits of apple cultivars carrying the Rvi6 (=Vf) major resistance gene to Venturia inaequalis. With microscopic observations, nucleotide sequence data and pathological tests, it was shown that the causal agent was Venturia asperata. Scanning electron microscopy was used to compare its infection process and conidiogenesis to those of Venturia inaequalis on apple and Venturia pirina on pear. Venturia asperata produced fewer hyphae and fewer spores than the two other Venturia species, and resulted in weaker symptoms. This fungal species was previously described as a saprotroph on apple leaf litter. This is the first report of damage on apple fruits caused by V. asperata. Changes in host and cultural practices may have created a new context favourable for the emergence of this pathogen. It was also detected on symptomless leaves and on overwintered leaves on the ground. Pseudothecia developed on overwintered leaves and released ascospores over a 2‐month period from the end of March until the end of May, suggesting that the fungus is able to survive from season to season. However, it is not yet known if this new disease will establish over coming years and become an emergent disease. 相似文献
20.
Zhonghui Li Meng Wang Yan Yang Shixiang Zhao Yulin Zhang 《Arid Land Research and Management》2017,31(4):388-403
Soil degradation and aridity due to long-term unbalanced fertilization and scarce precipitation limit the productivity of apple trees in the Loess Plateau of China. The aim of the present study was to investigate the effects of composted manure (CM) plus chemical fertilizer (CF) applications on the aridity response and yield of apple trees. Five treatments [CF (C), CF plus 5/10?kg?CM I per tree (CM1-L/H), and CF plus 5/10?kg?CM II per tree (CM2-L/H)] were applied in a 10-year-old Red Fuji apple (Malus domestica Borkh.) orchard over a 4-year study period. The application of CM plus CF increased soil organic carbon, decreased soil bulk density, and optimized porosity. Low (5?kg per tree; CML) and high (10?kg per tree; CMH) CM application rates respectively increased soil water storage in the 20–60?cm layer by 1.4% and 4.8%, increased available soil water content in the 0–100?cm soil layer by 4.1%–44.8% and 10.4%–60.2%, elevated the water content of apple leaves (w%) by 1.3% and 3.7%, improved leaf potential by 15.9% and 30.0%, and decreased proline content by 16.1% and 28.5%. Thus, CM application decreased damage due to aridity and enhanced the photosynthetic capacity of apple trees, ultimately elevating apple yield by 8.8% and 13.3% under CML and CMH. The application of CM plus CF is an effective fertilization strategy for mitigating aridity stress and improving apple yield in the Loess Plateau. 相似文献