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1.
Distinguishing sporulating and nonsporulating lesions as a method for evaluating the resistance of sugarcane genotypes to orange rust 
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下载免费PDF全文 A. S. Moreira A. F. Nogueira‐Júnior C. R. N. B. Gonçalves N. A. Souza A. Bergamin Filho 《Plant pathology》2018,67(8):1680-1686
Sugarcane breeding programmes rank the resistance of genotypes to Puccinia kuehnii, causal agent of orange rust, according to levels of disease severity. However, during the screening stages, this method of assessment can lead to precipitous elimination of genotypes with promising agronomic traits but showing mild symptoms of rust such as flecks or lesions that do not produce spores. This study aimed to propose a new method to classify the resistance of sugarcane genotypes to orange rust by counting sporulating lesions. Five sugarcane varieties with different levels of resistance to P. kuehnii were inoculated with two pathogen populations under controlled conditions. The disease severity (SEV), total number of lesions (TNL), and total number of sporulating lesions (TNSL) were evaluated in a 20 cm leaf fragment from the most diseased leaf. The TNL and TNSL evaluations were performed at 11, 16 and 21 days after inoculation (DAI) and SEV at 21 DAI. The thresholds of 80% and 8% of sporulating lesions (SL) separated susceptible from the intermediate varieties and intermediate from the resistant ones, respectively. It is proposed that the method of counting sporulating lesions be used in screening genotypes for resistance to P. kuehnii in sugarcane breeding programmes. 相似文献
2.
Pathogenic and molecular comparison of Puccinia kuehnii isolates and reactions of sugarcane varieties to orange rust 下载免费PDF全文
下载免费PDF全文 A. S. Moreira A. F. Nogueira Junior C. R. N. B. Gonçalves N. A. Souza A. Bergamin Filho 《Plant pathology》2018,67(8):1687-1696
Sugarcane orange rust, a disease caused by Puccinia kuehnii, was first reported in Brazil in 2009. There are no studies comparing the Brazilian P. kuehnii collections and the reaction of important sugarcane varieties under controlled conditions. This work compared the reaction of seven sugarcane varieties inoculated with six different P. kuehnii isolates from Brazilian sugarcane areas and verified the pathogenic and genetic variability of these isolates. The incubation (I) and latency (L) disease periods, disease severity (SEV), total number of lesions (TNL), total number of sporulating lesions (TNSL), and percentage of sporulating lesions (%SL) were evaluated. Furthermore, ITS1 and IGS ribosomal sequences of all P. kuehnii isolates used in this study were compared with pathogen sequences from 13 different countries. The disease incubation ranged from 7 to 10 days and the latency ranged from 10 to 21 days. SEV and TNL showed large variations and few significant differences between the reaction of the varieties to P. kuehnii, in contrast with the variables TNSL and %SL. The P. kuehnii isolates did not compose different virulent races, but the isolate from one site (Araras) was a more aggressive race. The ITS1 and IGS ribosomal sequences of six P. kuehnii isolates were identical with each other and to most P. kuehnii American sequences deposited at GenBank. The studied sequences of P. kuehnii isolates differed from the sequences from Asia, Tahiti and Oceania. 相似文献
3.
N. C. Glynn L. J. Dixon L. A. Castlebury L. J. Szabo J. C. Comstock 《Plant pathology》2010,59(4):703-711
Puccinia kuehnii and P. melanocephala cause orange and brown rust of sugarcane, respectively. Puccinia kuehnii has been confirmed in Asia, Australia and recently, the Caribbean basin, whereas P. melanocephala is distributed among the majority of sugarcane growing regions. Differentiating these two economically significant pathogens visually is problematic and limited to material exhibiting mature disease symptoms or spores. Partial ITS1, ITS2 and complete 5·8S sequences were generated from P. kuehnii and P. melanocephala isolates from around the world. PCR primers and dual labelled hydrolysis probes were designed for each pathogen for use in real‐time PCR and optimized using locked nucleic acids (LNA). The primers amplified DNA from their target pathogens and not from other species of Puccinia or fungal species isolated from sugarcane leaves. Optimized real‐time PCR conditions allowed the detection of 0·19 pg of P. kuehnii or P. melanocephala genomic DNA and differentiated the pathogens on sugarcane leaves prior to observing typical symptoms in the field. Primer‐introduced restriction analysis‐PCR (PIRA‐PCR) was used to detect a single nucleotide polymorphism (Pk ITS1 183A>G) in ITS1 of P. kuehnii. Allele 183A was observed in all samples, whereas 183G was detected in 52% of samples from Asia and Australia yet absent from all Caribbean basin samples. Long distance spore dispersal, dispersal through an intermediate location or improper movement of contaminated material could explain the introduction of P. kuehnii to the Western hemisphere. However, the current proliferation of the pathogen in the Americas is limited to isolates which contain only the 183A allele. 相似文献
4.
G. L. Mesquita F. A. O. Tanaka F. C. B. Zambrosi R. Chapola D. Cursi G. Habermann N. S. Massola Jr V. P. Ferreira S. A. Gaziola R. A. Azevedo 《Plant pathology》2019,68(7):1296-1307
Orange rust (Puccinia kuehnii) is a serious disease compromising the sustainability of sugarcane (Saccharum spp.) production. The objective of this research was to study whether supplemental manganese (Mn) supplied through foliar sprays ameliorates negative effects of orange rust on sugarcane and, if so, to reveal the underlying mechanisms. The experiment was conducted using a sugarcane variety susceptible to the disease; a single spray of Mn at 5 g L−1 (Mn0.5%) or 10 g L−1 (Mn1%), plus a control (Mn0%) was performed before pathogen inoculation. Symptom severity, antioxidant metabolism, lignin deposition and anatomical organization were evaluated. Photosynthesis was also measured in newly expanded leaves and plants were harvested to estimate growth responses. The percentage diseased leaf area was reduced from 15% under Mn0% to 2.2% and 0.9% under Mn0.5% and Mn1%, respectively. This decrease was accompanied by increases in biomass production in the plants. Scanning and light microscopy images revealed that Mn treatment caused direct damage to the fungal spores and improved lignin deposition in the mesophyll. In the presence of the disease, Mn-sprayed leaves exhibited lower levels of oxidative stress, in addition to improved structural organization of xylem and phloem vessels compared to the untreated control. The negative effects of orange rust on gas exchange and photochemistry were also ameliorated by Mn application. The results give insight into the mechanisms underlying augmented sugarcane resistance to orange rust under supplementary foliar Mn spray and contribute to the development of sustainable crop production systems by offering alternatives for reduction of disease damage. 相似文献
5.
Phakopsora meliosmae-myrianthae, the causal agent of Asian grapevine leaf rust, significantly reduces the photosynthetic efficiency of grapevine leaves in green symptomless tissues surrounding lesions. This study took a close look at grapevine leaf colonization kinetics by P. meliosmae-myrianthae and compared it to P. pachyrhizi–soybean and Uromyces appendiculatus–bean colonization. It is already known from the literature that soybean rust, similar to grapevine rust, has a negative effect on leaf photosynthesis greater than would be expected based on visual lesions. However, in contrast to soybean and grapevine rusts, the effect of bean rust on leaf photosynthesis is proportional to the diseased leaf area. Colonization progress was monitored by fungal biomass assessed via histological staining and quantitative polymerase chain reaction (qPCR). Individual lesions of P. meliosmae-myrianthae on grapevine, P. pachyrhizi on soybean and U. appendiculatus on common bean leaves were evaluated every 3–4 days, and the number of uredinia was counted. Staining showed that mycelial colonization did not extend beyond the lesion border. The number of P. pachyrhizi and P. meliosmae-myrianthae uredinia within the lesions increased over time (on average 14-fold), whereas the number of U. appendiculatus uredinia remained the same. These findings were corroborated by qPCR, which revealed a greater increase in fungal biomass for Phakopsora spp. than for U. appendiculatus until 12 days post-inoculation. The high number of satellite uredinia within lesions might be directly related to the impact of this pathogen in photosynthetic efficiency on symptomless areas of diseased grapevine leaves. This study identified accelerated formation of satellite uredinia as an important feature of grapevine colonization by P. meliosmae-myrianthae. 相似文献
6.
A. Vicent J. Badal M.J. Asensi N. Sanz J. Armengol J. García-Jiménez 《European journal of plant pathology / European Foundation for Plant Pathology》2004,110(3):245-251
Young leaves of 62 citrus cultivars were inoculated with conidia of three Spanish isolates of Alternaria alternata pv. citri, the causal agent of brown spot of citrus. Hybrids with Dancy mandarin, King mandarin or their derivates as a parent, grapefruit cultivars and the mandarin cultivars Guillermina, Emperor, Clemenpons and Esbal were highly susceptible to the pathogen. Satsuma cultivar Clausellina and orange cultivars, with the exception of Sanguinelli, were slightly susceptible. Lemon and lime cultivars were not susceptible, with the exception of Mexican lime (Citrus aurantifolia), which was slightly susceptible. Although this study shows a range of potential hosts for this pathogen, to date the only affected cultivars in Spain are Fortune and Nova mandarins, and Minneola tangelo. The susceptibility of Fortune fruits decreased as diameter increased, being susceptible through the whole season. This was confirmed with field observations in autumn where fruit infections have been detected when the diameter reaches 6–7 cm. 相似文献
7.
Chinthani S. Karandeni Dewage Aiming Qi Henrik U. Stotz Yong-Ju Huang Bruce D. L. Fitt 《Plant pathology》2021,70(9):2104-2114
Pyrenopeziza brassicae, cause of light leaf spot (LLS), is an important pathogen of oilseed rape and vegetable brassicas and has a wide geographic distribution. Exploitation of host resistance remains the most sustainable and economically viable solution for disease management. This study evaluated 18 oilseed rape cultivars or breeding lines for host resistance against P. brassicae in glasshouse experiments. Selected cultivars/lines were inoculated with eight single-spore isolates of the pathogen obtained from three different regions in England. Analysis of P. brassicae infection-related changes on host plants identified leaf deformation as a characteristic feature associated with P. brassicae infection, this showed poor correlation to LLS severity measured as the amount of pathogen sporulation on infected plants. Resistant host phenotypes were identified by limitation of P. brassicae sporulation, with or without the presence of a necrotic response (black flecking phenotype). Investigation of this pathosystem revealed significant differences between cultivars/lines, between isolates, and significant cultivar/line-by-isolate interactions. In total, 37 resistant and 16 moderately resistant interactions were identified from 144 cultivar/line-by-isolate interactions using statistical methods. Most of the resistant/moderately resistant interactions identified in this study appeared to be nonspecific towards the isolates tested. Our results suggested the presence of isolate-specific resistant interactions for some cultivars. Several sources of resistance have been identified that are valuable for oilseed rape breeding programmes. 相似文献
8.
Robert S. Fritz Leif Johansson Boel åstrom Mauritz Ramstedt Håkan HÄggström 《European journal of plant pathology / European Foundation for Plant Pathology》1996,102(9):875-881
Pure species and F1 hybrid families ofSalix viminalis andS. dasyclados were tested for resistance to four single uredinium isolates ofMelampsora rust in laboratory experiments using excised leaves. Rust isolates were derived from:S. viminalis, S. dasyclados, aS. viminalis x triandra hybrid, andS. daphnoides. Incidence of infection, number of uredinia per leaf, and numbers of spores per uredinium were measured. As expected, the isolate fromS. daphnoides did not infect any of the willow species or hybrids tested. For the other three rust isolates that were tested, the parent from which the isolate was derived was susceptible, the other parent was resistant, and hybrids were intermediate in resistance for incidence and uredinia per leaf. These patterns indicate additive inheritance of these resistance traits in hybrids. Numbers of spores per uredinium were similar on the hybrids and the susceptible parent for one rust isolate, suggesting dominant inheritance of this trait in the hybrids. 相似文献
9.
The use of cultivar mixtures is increasingly practical in wheat stripe rust management. Field experiments with wheat cultivar
mixtures were conducted to determine their effects on temporal and spatial patterns of stripe rust epidemics in three regions.
In the Beijing and Gangu fields, where the epidemics were caused by artificial inoculation, disease incidence and the area
under the disease progress curve (AUDPC) of the cultivar mixtures were significantly lower (P < 0.05) than those of the susceptible pure stands. We defined the relative effectiveness of cultivar mixture on disease development
related to that in pure stands (REM). The results demonstrated that in many treatments of mixtures of susceptible cultivar with resistant cultivars at various
ratios in different locations, their effects on disease reduction were positive (REM < 1). The reduction of epidemic rate in cultivar mixtures expressed in either early season or late season depended on the
initial pattern of disease and cultivar mixture treatments. Semivariograms were used to determine the spatiotemporal patterns
of disease in the Gangu field. The spatial analysis showed clear spatial patterns of the disease in all four directions of
the fields on susceptible pure stands but not on cultivar mixtures. The results implied that the mechanisms of cultivar mixture
on disease management might include the interruption of disease spatial expansion and a physical barrier to pathogen inoculum
by resistant cultivars. 相似文献
10.
Cécilia Fontyn Anne-Catherine Zippert Ghislain Delestre Thierry C. Marcel Frédéric Suffert Henriette Goyeau 《Plant pathology》2022,71(7):1511-1524
Puccinia triticina is a highly damaging wheat pathogen. The efficacy of leaf rust control by genetic resistance is mitigated by the adaptive capacity of the pathogen, expressed as changes in its virulence combinations (pathotypes). An extensive P. triticina population survey has been carried out in France over the last 30 years, describing the evolutionary dynamics of this pathogen in response to cultivar deployment. We analysed the data set for the 2006–2016 period to determine the relationship between the Lr genes in the cultivars and virulence in the pathotypes. Rust populations were dominated by a small number of pathotypes, with variations in most of the virulence frequencies related to the corresponding Lr gene frequencies in the cultivated landscape. Furthermore, the emergence and spread of a new virulence matched the introduction and use of the corresponding Lr gene (Lr28), confirming that the deployment of qualitative resistance genes is an essential driver of evolution in P. triticina populations. However, principal component analysis (PCA) revealed that certain pathotype–cultivar associations cannot be explained solely by the distribution of Lr genes in the landscape. This conclusion is supported by the predominance of a few pathotypes on some cultivars, with the persistence of several other compatible pathotypes at low frequencies. Specific interactions are not, therefore, sufficient to explain the distribution of virulence in rust populations. The hypothesis that quantitative interactions between P. triticina populations and bread wheat cultivars—based on differences in aggressiveness—is also a driver of changes in pathotype frequencies deserves further investigation. 相似文献
11.
Manchanahally Shivanna Meera Manchanahally Byrappa Shivanna Koji Kageyama Mitsuro Hyakumachi 《European journal of plant pathology / European Foundation for Plant Pathology》1995,101(4):421-430
Initial experiment on the reactions of five Japanese cultivars of cucumber toColletotrichum orbiculare infection in the greenhouse revealed that cv Suyo and Gibai were susceptible and moderately susceptible, respectively, while cv Shogoin fushinari and Sagami hanjiro were resistant to infection byC. orbiculare; cv Ochiai fushinari was moderately resistant. The ability of 16 plant growth promoting fungi (some isolates belonged to species ofPhoma and some non-sporulating isolates) isolated from zoysiagrass rhizospheres to induce systemic resistance in the above five cucumber cultivars was tested by growing plants in potting medium infested with barley grain inocula of PGPF in the greenhouse. The second true leaves of 21-day-old plants were challenge inoculated withC. orbiculare and disease assessed. Nine, out of 16 isolates, caused significant reduction of disease caused byC. orbiculare in at least two cultivars.Phoma isolates (GS8-1 and GS8-2) and non-sporulating isolates (GU21-2, GU23-3, and GU24-3) significantly reduced the disease in all the five cultivars. The disease suppression in cucumber was due to the induction of systemic resistance, since the inducer(s) and the pathogen were separated spatially and that the inducer did not colonize aerial portions. The resistance induced by certain isolates in a susceptible cultivar was less than that in a resistant cultivar. Disease suppression caused by isolate GU21-2 was similar to theC. orbiculare induced control in certain cultivars. The average rate of expansion of lesion diameter on leaves due toC. orbiculare was slower due to induction with the selected plant growth promoting fungi compared to the uninduced control plants. Roots of four cultivars were colonized by only three isolates, however, roots of one cultivar (Suyo) was colonized by five isolates suggesting the cultivar-specific root colonization ability.Abbreviations cv
cultivar(s)
- PGPF
plant growth promoting fungal isolates
- PGPR
plant growth promoting rhizobacteria 相似文献
12.
Harun M. Murithi Rafael M. Soares George Mahuku H. Peter van Esse Matthieu H. A. J. Joosten 《Plant pathology》2021,70(3):655-666
Phakopsora pachyrhizi is a biotrophic fungus that causes rust on soybean, leading to devastating yield losses. Development of resistant cultivars for deployment in different geographic regions requires a comprehensive understanding of the prevalent P. pachyrhizi pathotypes. To determine the pathotypes existing in four East African countries, 65 isolates were tested on 11 soybean host differentials. In addition, the virulence spectrum of isolates collected from the same region over multiple years was compared. The majority of the isolates (54%) belonged to pathotype 1000, which was found in all countries. The pathotypes with the most complex virulence spectrum, which comprised isolates from Kenya and Malawi, were virulent on four differentials. All pathotypes were virulent on soybean genotypes carrying the Rpp1 resistance gene to P. pachyrhizi, but they were avirulent on cultivars carrying the Rpp1b, Rpp2, or Rpp3 gene, as well as on cultivar No6-12-1 that carries Rpp2, Rpp4, and Rpp5. Two of the pathotypes were virulent on cultivar UG 5 that carries Rpp1 and Rpp3 and on Hyuuga that carries Rpp3 and Rpp5. The isolates collected from different countries differed in their virulence spectrum across the years. Shannon's index (H) and Simpson's index (S) of diversity indicated that the isolates from Malawi were more diverse (H = 1.55, S = 0.90) while those from Uganda had lower diversity (H = 0.78, S = 0.46 ). The Rpp genes that were found to provide resistance to all pathotypes of P. pachyrhizi can be employed for soybean breeding aimed at durable rust resistance. 相似文献
13.
Jie Li Rongyue Zhang Yinhu Li Chaohua Long Wengfeng Li Hongli Shan Wenjie Lu Yingkun Huang 《Plant pathology》2023,72(1):89-99
Brown stripe disease is a severe foliar fungal disease of sugarcane worldwide and is widespread in all sugarcane planting areas in China. Brown stripe is a major disease that seriously affects the output and quality of the sugarcane industry in Yunnan Province, China's second-largest sugar base, while the pathogen of this disease remains not yet fully understood. To address this, we isolated and identified the fungi associated with 68 leaf samples showing typical symptoms of brown stripe from 22 sugarcane varieties in different areas of Yunnan Province. A total of 113 isolates were obtained, which were morphologically similar. Of these, 64 representative isolates were sequenced for the internal transcribed spacer region (ITS), GAPDH and EF-1α loci. All representative isolates grouped with the type strain of Bipolaris setariae in the phylogenetic trees inferred with individual and concatenated sequences of ITS, GAPDH and EF1-α. Pathogenicity test results showed that B. setariae strains were able to induce typical symptoms of brown stripe. The results obtained in this study clarify that only B. setariae is associated with sugarcane brown stripe in Yunnan, China. It is recorded here for the first time as a pathogen causing sugarcane brown stripe in Yunnan, and it is able to infect many major cultivars and new varieties, posing a new threat to the sugar industry in Yunnan Province. In addition, these results provide the scientific basis for the future breeding of disease-resistant varieties and effective prevention and control of sugarcane brown stripe disease. 相似文献
14.
Usman Ijaz Michael Ayliffe Kedar Adhikari Harbans Bariana Urmil Bansal 《Plant pathology》2020,69(7):1227-1236
Uromyces viciae-fabae, rust of faba bean, parasitizes other legume crops such as lentils (Lens culinaris) and field peas (Pisum sativum) in some environments. In this study we examined the host range of two Australian isolates of U. viciae-fabae collected and purified from a faba bean crop and classified as U. viciae-fabae ex V. faba. Field pea (P. sativum), chickpea (Cicer arientinum), lupin (Lupinus spp.), lentil (L. culinaris), and mung bean (Vigna radiata) genotypes were tested with these isolates, as well as resistant and susceptible genotypes of the faba bean host. Race specificity for these two pathogen isolates was observed on Vicia faba, with two faba bean genotypes showing partial resistance. Both U. viciae-fabae isolates also colonized field pea seedlings and successfully produced uredinia under glasshouse conditions, despite this fungus not being known as a pathogen of Australian field pea crops. No sporulation of either isolate of U. viciae-fabae ex V. faba was observed on any of the remaining legume species tested. However, obvious differences in fungal growth were observed, ranging from small infection sites with very rare haustorium formation in mung bean to more extensive growth and the development of potential uredinial structures in chickpea. These observations are discussed in relation to the phylogenetic relationship of these host and nonhost species. 相似文献
15.
Mathias De Backer Hossein Alaei Erik Van Bockstaele Isabel Roldan-Ruiz Theo van der Lee Martine Maes Kurt Heungens 《European journal of plant pathology / European Foundation for Plant Pathology》2011,130(3):325-338
Puccinia horiana is the causal agent of chrysanthemum white rust or Japanese rust. This microcyclic autoecious rust has a quarantine status
and can cause major damage in the commercial production of Chrysanthemum x morifolium. Given the international and often trans-continental production of planting material and cut flowers of chrysanthemum and
the decreasing availability of registered fungicides in specific regions, breeding for resistance against P. horiana will gain importance and will need to involve the appropriate resistance genes for the pathotypes that may be present. As
pathotypes have not been well characterized in this system, the main objective was to build an international collection of
isolates and screen these on a large collection of cultivars to identify different pathotypes. Using a robust and high throughput
bioassay, we tested 36 selected cultivars with 22 individual single-pustule isolates of P. horiana. The isolates originated from three different continents over 4 different collection years and included some isolates from
cultivars previously reported as resistant. In most cases the bioassays resulted in a clear scoring of interaction phenotypes
as susceptible or resistant, while in several cases consistent intermediate phenotypes were found, often on specific cultivars.
Twenty-four of the cultivars gave a differential interaction phenotype profile. All isolates produced a unique profile, infecting
a minimum of 4 and a maximum of 19 differential cultivars. Based on the Person analysis of these profiles, this pathosystem
contains at least seven resistance genes (and seven avirulence genes), demonstrating the highly complex race structure in
this pathosystem. 相似文献
16.
S. J. Paternotte H. A. Van Kesteren 《European journal of plant pathology / European Foundation for Plant Pathology》1993,99(3):169-172
In 1991 serious losses caused byVerticillium wilt were found on two holdings in the Westland glasshouse district in the Netherlands in which theVerticillium resistant tomato cultivars Calypso and Criterium were grown in soilless systems. Isolates from diseased plants were identified asVerticillium albo-atrum.In inoculation experimentsVerticillium resistant tomato cultivars were seriously affected by the new isolates but not by a control isolate. Moneydor, a susceptible cultivar without the Ve gene, was the most seriously diseased by all isolates. The isolates from theVerticillium resistant tomato cultivars were less virulent on the susceptible cultivar than the control isolate. 相似文献
17.
Simple sequence repeat markers support the presence of a single genotype of Puccinia psidii in Australia 下载免费PDF全文
下载免费PDF全文 A non‐native rust of Myrtaceae was first detected in Australia in 2010, and was later identified as Puccinia psidii. The presence of many native species of Myrtaceae and a lack of understanding of genetic variability in P. psidii in Australia led to the current study. Low coverage genome sequencing of P. psidii suggested a genome size of c. 142 Mb. A set of 240 simple sequence repeat (SSR) primers was designed based on the genome sequence information generated. Seventeen isolates of P. psidii comprising 14 from Australia, two from Brazil and one from Hawaii were selected to study genetic variation in the pathogen. Out of 240 initially screened markers, 74% showed amplification among P. psidii isolates and 38% were polymorphic. Primers were fluorescently labelled and genotyping revealed three distinct genotypes among the isolates: one comprising Australian isolates and an isolate from Hawaii, and the second and third comprising two Brazilian isolates. Locus USYD_Pp151 produced a fourth genotype for the Hawaiian isolate of P. psidii. Markers revealed that all Australian isolates were genetically similar to the one from Hawaii. There was no genetic variation among the Australian isolates of P. psidii, supporting the hypothesis that only one genotype of P. psidii was introduced into Australia. The SSR markers developed in this study are highly specific to P. psidii and can be used confidently as a new profiling tool to monitor evolution of P. psidii in Australia and elsewhere. 相似文献
18.
F.J. López-Escudero C. del Río J.M. Caballero M.A. Blanco-López 《European journal of plant pathology / European Foundation for Plant Pathology》2004,110(1):79-85
Resistance of 23 important olive cultivars to Verticillium dahliae has been evaluated in four experiments under controlled conditions. Nine-month-old nursery olive plants were inoculated with a cotton non-defoliating (ND) (V4) or a cotton defoliating (D) (V117) isolate of V. dahliae. Resistance was evaluated by assessing symptom severity using a 0–4 rating scale and estimating the area under disease progress curves. The percentage of plants killed and of those which recovered from the disease were used as additional parameters for including a particular cultivar into a defined category. Most of the evaluated cultivars were susceptible, although at different levels, to both isolates of V. dahliae. All cultivars were more susceptible to the D pathotype than to the ND one. A group of 11 cultivars, including several important Spanish cultivars, were susceptible or extremely susceptible to both pathotypes of V. dahliae. A second group showed differences of resistance depending on the pathotype used. They were susceptible or extremely susceptible to the D pathotype but resistant or moderately susceptible to the ND one. Finally, 'Frantoio', 'Oblonga' and 'Empeltre' were moderately susceptible to the D isolate of V. dahliae and resistant to the ND one. The resistance of 'Empeltre' was evident by the plant ability to recover from infection with either isolates. 'Empeltre' is considered to be a valuable cultivar for inclusion in breeding programmes for resistance to Verticillium wilt. 相似文献
19.
L. Araujo W. M. Silva Bispo I. S. Cacique M. F. A. Cruz F. A. Rodrigues 《Plant pathology》2014,63(6):1282-1295
Mango wilt, caused by Ceratocystis fimbriata, is one of the most important diseases affecting mango yields in Brazil. Information regarding the infection process of C. fimbriata in the stem tissues of mango from different cultivars and the basis of host resistance to the pathogen is rare in the literature. Thus, the objective of the study was to investigate how infection by two isolates of C. fimbriata can be affected by mango cultivar‐specific mechanisms of resistance. Disease progress on the inoculated stem tissues of the mango cultivars was evaluated and stem sections were obtained from the site of inoculation and prepared for histopathological observations using light microscopy. The factors mango cultivars and C. fimbriata isolates and their interaction were significant for all measures of disease development. Plants from the cultivars Espada, Haden and Palmer inoculated with isolates of C. fimbriata were more susceptible, whereas plants from the cultivars Tommy and Ubá were moderately resistant and resistant, respectively. Histopathologically, fungal isolates apparently massively colonized the stem tissues of plants from the susceptible cultivars Espada, Haden and Palmer, starting from the collenchyma and moving in the direction of the cortical parenchyma, xylem vessels and pith parenchyma. By contrast, on stem tissues of plants from the resistant cultivars Tommy Atkins and Ubá, most of the cells reacted to C. fimbriata infection by accumulating amorphous material. The results from the present study strongly indicated the importance of phenolic compounds for mango cultivar resistance against infection by Brazilian C. fimbriata isolates. 相似文献
20.
Thomas Thomidis Themis J. Michailides Efstathia Exadaktylou 《European journal of plant pathology / European Foundation for Plant Pathology》2011,131(4):661-668
Shoot blights and fruit rots comprise the most serious diseases of peaches in Greece. In this study, the importance of the
fungus Neofusicoccum parvum as a casual agent of a fruit rot and shoot blight of peach trees in Greece was investigated. This pathogen was isolated from
both immature and mature peach fruit of the cultivar “Catherine” and later on from mature fruit of the peach cultivars “Andross”,
“RedHaven”, “Sun Crest” and “Sun Cloud”. In the first year of investigation, N. parvum was found causing preharvest fruit rot and shoot blights of peach trees only at the location “Ammos-Mesi-Meliki Verias” in
the prefecture of Imathia (the main peach production area of Greece) at incidences of 30 and 8%, respectively. However, in
2006 N. parvum was isolated from more locations such as Diavatos, Veria, Kopanos and Agia Marina in the prefecture of Imathia, but only
at less than 3% of the total surveyed rotted peach fruit and blighted shoots. The pathogen overwintered as sub-epidermal pycnidia
in blighted shoots or mummified fruit that remained on peach trees. This study also showed that the optimum temperature for
mycelial growth and conidial germination of N. parvum was 25 oC. Pathogenicity tests using peach fruit showed that isolates of N. parvum and Diplodia seriata (isolated from pistachio grown in the same region) showed no significant differences in their virulence. In laboratory inoculation
tests using detached shoots from 25 peach and nectarine cultivars, N. parvum isolates obtained from rotted peaches caused different size cankers on these cultivars. The cultivar Big Top was the most
susceptible while the cultivar Maria Bianca the least susceptible. 相似文献