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1.
Carlos A. Cruz-Cruz Gerardo Ramírez-Tec Karlina García-Sosa Fabiola Escalante-Erosa Lionel Hill Anne E. Osbourn Luis M. Peña-Rodríguez 《European journal of plant pathology / European Foundation for Plant Pathology》2010,126(4):459-463
The previously detected antifungal activity against Mycosphaerella fijiensis of aqueous infusions of healthy banana (Musa acuminata cv. Grande Naine) leaves, suggested the production of phytoprotectants by the plant. The bioassay-guided VLC-purification
of the lyophilized infusion of the leaves of 4-month old healthy banana (M. acuminata cv. Grande Naine) plants, resulted in the purification of a phytoanticipin with strong antifungal activity against M. fijiensis Morelet, the causal agent of black Sigatoka, the most destructive and devastating disease of bananas and plantains in the
world. The LC-MS analysis of the purified phytoanticipin suggests a steroidal saponin structure with four sugar units attached
to the C-3 position of a diosgenin-like aglycone. This represents the first report of phytoanticipins occurring in M. acuminata. 相似文献
2.
J. N. Kimunye E. Were F. Mussa A. Tazuba K. Jomanga A. Viljoen R. Swennen F. K. Muthoni G. Mahuku 《Plant pathology》2020,69(1):50-59
Sigatoka leaf diseases are a major constraint to banana production. A survey was conducted in Tanzania and Uganda to assess the distribution of Pseudocercospora species and severity of Sigatoka leaf diseases. Pseudocercospora species were identified using species-specific primers. Sigatoka-like leaf diseases were observed in all farms and on all cultivars, but disease severity varied significantly (P < 0.001) between countries, districts/regions within countries, altitudinal ranges and banana cultivars. In all regions except Kilimanjaro, P. fijiensis, the causal agent of black Sigatoka, was the only pathogen associated with Sigatoka disease. Mycosphaerella musae was associated with Sigatoka-like symptoms in Kilimanjaro region. Black Sigatoka disease was more severe in Uganda, with a mean disease severity index (DSI) of 37.5%, than in Tanzania (DSI = 19.9%). In Uganda, black Sigatoka disease was equally severe in Luwero district (mean DSI = 40.4%) and Mbarara district (mean DSI = 37.9%). In Tanzania, black Sigatoka was most severe in Kagera region (mean DSI = 29.2%) and least in Mbeya region (mean DSI = 11.5%). Pseudocercospora fijiensis, the most devastating sigatoka pathogen, was detected at altitudes of up to 1877 m a.s.l. This range expansion of P. fijiensis, previously confined to altitudes lower than 1350 m a.s.l. in East Africa, is of concern, especially for smallholder banana farmers growing the susceptible East African Highland bananas (EAHB). Among the banana varieties sampled, the EAHB, FHIA hybrids and Mchare were the most susceptible. Here, the loss of resistance in Yangambi KM5, a banana variety previously resistant to P. fijiensis, is reported for the first time. 相似文献
3.
Carlos A. Cruz-Cruz Karlina García-Sosa Fabiola Escalante-Erosa Luis M. Peña-Rodríguez 《Journal of General Plant Pathology》2011,77(2):93-100
Although Mycosphaerella fijiensis, the causal agent of black sigatoka disease of banana, has been known to produce numerous lipophilic host-selective (HSTs)
and nonhost selective phytotoxins (non-HSTs), only recently we have reported that the pathogen also produces hydrophilic phytotoxins.
Here we examined the effect of light on the toxicity of the hydrophilic phytotoxins and estimated the electrolyte leakage
and H2O2 and superoxide generation in detached banana leaves to study their mode of action at the cellular level. Nonhost plant species
were also tested to determine whether the toxins are HSTs or non-HSTs. Our results suggest that the hydrophilic phytotoxins
are non-HSTs, that their phytotoxicity is not light dependent, and that they may act at the plasma membrane by altering permeability
through oxidative damage, by inducing ROS production as part of their mechanism of action. 相似文献
4.
Production of hydrophilic phytotoxins by <Emphasis Type="Italic">Mycosphaerella fijiensis</Emphasis>
Carlos A. Cruz-Cruz Karlina García-Sosa Fabiola Escalante-Erosa Luis M. Peña-Rodríguez 《Journal of General Plant Pathology》2009,75(3):191-195
We have established a reproducible strategy to purify hydrophilic phytotoxins present in the aqueous filtrate of Mycosphaerella fijiensis Morelet. The lyophilized culture filtrate is initially treated with activated charcoal, then successively purified using
vacuum liquid chromatography and semipreparative high performance liquid chromatography. Phytotoxic activity was tested using
a leaf-spot assay on healthy banana leaves.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
5.
This research examined the variation in the response of eight commercial wheat cultivars to Microdochium nivale isolates using both in vivo FHB tests (AUDPC and RHW measurements) and in vitro detached leaf assays (LGR). Irrespective of fungal variety, the two Italian cvs Fortore and Norba exhibited the greatest amount of visual disease symptoms (mean AUDPC=2.2 and 2.3, respectively), being significantly more susceptible than the other six cultivars (AUDPC 1.24) (P < 0.05). Irrespective of fungal variety, the Italian cv. Norba and the Irish cv. Falstaff were more susceptible than the other cultivars (except Fatima 2) in terms of RHW (P < 0.05), while the cvs Fortore, GK Othalom and Consort were more resistant than the other five cultivars (P < 0.05). In the detached leaf assay, the Hungarian cv. GK Othalom and the Italian cv. Norba were more susceptible (mean LGR=0.79 and 0.81 mm day–1, respectively) to M. nivalethan the other six cultivars (mean LGR=0.51–0.72) (P < 0.05). Analysis of the relationship between head and leaf reaction to M. nivaleinfection revealed no significant correlation. 相似文献
6.
Gloria P Cañas‐Gutiérrez Mónica J Angarita‐Velásquez Juan M Restrepo‐Flórez Paola Rodríguez Claudia X Moreno Rafael Arango 《Pest management science》2009,65(8):892-899
BACKGROUND: Mycosphaerella fijiensis Morelet causes black sigatoka, the most important disease in bananas and plantains. Disease control is mainly through the application of systemic fungicides, including sterol demethylation inhibitors (DMIs). Their intensive use has favoured the appearance of resistant strains. However, no studies have been published on the possible resistance mechanisms. RESULTS: In this work, the CYP51 gene was isolated and sequenced in 11 M. fijiensis strains that had shown different degrees of in vitro sensitivity to propiconazole, one of the most widely used DMI fungicides. Six mutations that could be related to the loss in sensitivity to this fungicide were found: Y136F, A313G, Y461D, Y463D, Y463H and Y463N. The mutations were analysed using a homology model of the protein that was constructed from the crystallographic structure of Mycobacterium tuberculosis (Zoff.) Lehmann & Neumann. Additionally, gene expression was determined in 13 M. fijiensis strains through quantitative analysis of products obtained by RT‐PCR. CONCLUSION: Several changes in the sequence of the gene encoding sterol 14α‐demethylase were found that have been described in other fungi as being correlated with resistance to azole fungicides. No correlation was found between gene expression and propiconazole resistance. Copyright © 2009 Society of Chemical Industry 相似文献
7.
Blanca Fontaniella Carlos Vicente Roberto de Armas María Estrella Legaz 《European journal of plant pathology / European Foundation for Plant Pathology》2007,119(4):401-409
Polyamine and phenolic acid levels as well as activities of some enzymes of their biosynthetic metabolism were examined in
two sugarcane (Saccharum officinarum) cultivars differing in susceptibility to leaf scald, a disease caused by the bacterium, Xanthomonas albilineans. Juice obtained from both infected cultivars showed significantly increased levels of free putrescine and ornithine decarboxylase
activity. However, the pathogen induced different changes in the two cultivars in subsequent metabolic steps. Whereas acid
insoluble conjugated spermidine completely disappeared from the highly susceptible cv. C 439-52, an increase in acid insoluble
conjugated polyamines was observed in the moderately susceptible cv. L 55-5. Phenolic acid metabolism also differed in the
two cultivars. Since total phenolic acid content and phenylalanine ammonium lyase activity was greater in both cultivars after
infection, distribution of phenolic acids between free or conjugated forms diverted into different pathways. The level of
susceptibility of the two cultivars is discussed in terms of changes in these compounds. 相似文献
8.
Helge Sierotzki Sandro Parisi Ute Steinfeld Isabel Tenzer Sylvie Poirey Ulrich Gisi 《Pest management science》2000,56(10):833-841
Field isolates of Mycosphaerella fijiensis, causing black Sigatoka of banana, were characterised for their sensitivity to different inhibitors of the cytochrome bc1 enzyme complex (Qo respiration inhibitors, strobilurin fungicides), using physiological, biochemical and molecular genetic methods. Strobilurin‐resistant isolates exhibited very high resistance factors both in mycelial growth inhibition and NADH consumption assays. Cross‐resistance was observed among all Qo inhibitors, including trifloxystrobin, azoxystrobin, famoxadone, strobilurin B and myxothiazol. However, the Qi and the cytochrome aa3 inhibitors, antimycin A and potassium cyanide, respectively, were not cross‐resistant to Qo inhibitors. In sensitive but not in resistant isolates, mixtures of Qo inhibitors and SHAM, an inhibitor of the alternative oxidase (AOX), were more active than the components alone, indicating that the alternative pathway is essential in metabolism, but not causal for resistance. In the cell‐free NADH‐consumption assay, the Qo inhibitors affected the sensitive but not the resistant isolates, suggesting that AOX was not active in sub‐mitochondrial particles. In whole cells, however, the AOX has a basic expression level and is probably not inducible by trifloxystrobin. Sequencing of the cytochrome b gene of sensitive and resistant M fijiensis isolates revealed a difference in the nucleotide sequence leading to a single amino acid change from glycine to alanine at position 143 in the resistant isolate. This change is known to occur also in the naturally tolerant basidiomycete Mycena galopoda. It is suggested that the field isolates of M fijiensis can acquire resistance to Qo inhibitors due to a target site alteration with a single base pair change. Resistant isolates do not seem to contain a mixture of mutated and non‐mutated DNA, indicating a complete selection of resistant mitochondria and a maternally donated mode of resistance. © 2000 Society of Chemical Industry 相似文献
9.
Bacterial fruit blotch of melon: screens for disease tolerance and role of seed transmission in pathogenicity 总被引:1,自引:0,他引:1
Ofir Bahar Giora Kritzman Saul Burdman 《European journal of plant pathology / European Foundation for Plant Pathology》2009,123(1):71-83
Bacterial fruit blotch (BFB) of cucurbits, caused by Acidovorax avenae subsp. citrulli, is a serious threat to the watermelon and melon industries. To date, there are no commercial cultivars of cucurbit crops
resistant to the disease. Here we assessed the level of tolerance to bacterial fruit blotch of various commercial cultivars
as well as breeding and wild lines of melon, using seed-transmission assays and seedling-inoculation experiments. Selected
cultivars were also tested in a greenhouse experiment with mature plants. All tested cultivars/lines were found to be susceptible
to the pathogen, and most of them showed different responses (relative tolerance vs. susceptibility) in the different assays;
however, some consistent trends were found: cv. ADIR339 was relatively tolerant in all tested assays, and cv. 6407 and wild
lines BLB-B and EAD-B were relatively tolerant in seed-transmission assays. We also provide evidence supporting a strong correlation
between the level of susceptibility of a cultivar/line and the ability of the pathogen to adhere to or penetrate the seed.
To the best of our knowledge, this is the first attempt to assess melon cultivars/lines for bacterial fruit blotch response. 相似文献
10.
Sara Fondevilla José I. Cubero Diego Rubiales 《European journal of plant pathology / European Foundation for Plant Pathology》2007,119(1):53-58
Mycosphaerella pinodes is one of the most devastating pea pathogens. Pea cultivars with adequate levels of resistance to control the disease are
not so far available. However, promising levels of resistance have been identified in wild accessions of pea. In the present
investigation the inheritance of resistance to M. pinodes was studied in two crosses between the susceptible pea cv. ‘Ballet’ and the partially wild resistant accessions P665 (Pisum sativum subsp. syriacum) and P42 (P. sativum subsp. sativum var. arvense). Both additive and dominant effects were important in control of resistance and susceptibility dominated over resistance. 相似文献
11.
Jean-Michel Risède Philippe Simoneau 《European journal of plant pathology / European Foundation for Plant Pathology》2004,110(2):139-154
Pathogenicity and genetic variation were investigated within a collection of 104 banana-infecting isolates of Cylindrocladium (teleomorph Calonectria) originating from different countries and representing previously described morphological taxa or species. These root-rot fungi, along with endoparasitic nematodes, have been reported to be causal agents of necrotic lesions that induce root breakage and toppling of banana plants. Little is known about the individual pathogenic effects of the species involved or their genetic diversity. In the present study, among the five morphological taxa found in the banana rhizosphere, only isolates showing an atypical morphology relative to Cylindrocladium gracile (named Cy. gracile-like isolates) and Cy. spathiphylli isolates were pathogenic on banana cultivar Grande Naine. When comparing the latter isolates with others of the same species, but originating from different hosts, an analysis of rDNA spacer polymorphism partitioned isolates of Cy. spathiphylli by host into a banana – tea group and a Heliconia – Spathiphyllum group. Furthermore, isolates from Heliconia were not pathogenic on banana. A pathogenicity assessment of representative isolates from the Cy. gracile-like and the Cy. spathiphylli taxa on six different banana cultivars yielded no evidence of differential interactions between isolates and banana genotypes. Significant differences in susceptibility between banana genotypes were nevertheless detected that could potentially be exploited by breeders. Random amplified polymorphic DNA analysis revealed a genetic similarity ranging from 70% to 100% within Cy. spathiphylli isolates from bananas regardless of the geographic origin. Moreover, Cy. gracile-like isolates were highly similar but showed only 60% similarity relative to the Cy. gracile reference isolates, thus raising questions about their species status. 相似文献
12.
Interactions between Barley yellow dwarf virus (BYDV) and Fusarium species causing Fusarium head blight (FHB) in winter wheat cvs Agent (susceptible to FHB) and Petrus (moderately resistant
to FHB) were studied over three years (2001–2003) in outdoor pot experiments. FHB developed more rapidly in cv. Agent than
in cv. Petrus. The spread of FHB was greater in BYDV-infected plants than in BYDV-free plants. Thousand grain weight (TGW)
was reduced more in Fusarium-infected heads of cv. Agent than in cv. Petrus. A highly significant negative correlation was found between disease index
and TGW in cv. Agent (r = −0.916), while in cv. Petrus the correlation was less significant (r = −0.765). Virus infection reduced TGW in cv. Petrus more than in cv. Agent. In plants with both infections, TGW reductions
in cv. Petrus corresponded to those of BYDV infection, and in cv. Agent TGW was more diminished than in BYDV infection. Effects
of different treatments determined over three years on ergosterol contents in grain were generally similar to effects on disease
indices. Grain weight per ear and ear weight of the different treatments of both cultivars largely corresponded with the TGW
results. Deoxynivalenol (DON) content in grain of cv. Agent infected with Fusarium spp. was 11–25 times higher compared to the corresponding treatments in cv. Petrus. The DON content in grain of plants of
the two cultivars infected with both pathogens was higher than that of plants infected only with Fusarium over the three years. 相似文献
13.
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
14.
J. M. Torres H. Calderón E. Rodríguez-Arango J. G. Morales R. Arango 《European journal of plant pathology / European Foundation for Plant Pathology》2012,133(4):887-898
Black leaf streak or “black Sigatoka” is one of the most important diseases affecting bananas and plantains worldwide. Very few studies have been published on the host-pathogen interaction of this pathosystem, particularly at the molecular level. The aim of this work was to analyze, under controlled conditions, the enzyme activity of peroxidase (POX), phenylalanine ammonia lyase (PAL), β-1, 3-glucanase (GLU) and chitinase (CHI) as well as the production of H2O2 in banana plants infected with Mycosphaerella fijiensis. Defence responses were examined and compared in a resistant (Calcutta 4) and a susceptible (Williams) cultivar. Plants were inoculated and tested for enzyme activity at 0, 6, 12, 18, 24, 48 and 72?h after infection (HAI) and 6, 9, 12, 15 and 18?days after inoculation (DAI). A rapid induction of PAL, POX and GLU was observed in the resistant cultivar at 6–18 HAI as well as H2O2 production at 72 HAI. In contrast, in the susceptible cultivar, induction of these enzymes was only observed from 6 DAI. These results suggest that the first 72 HAI are important in determining the response of the host to the disease. Further studies characterizing banana responses to M. fijiensis at the early stages of the infection are necessary in order to better understand this host-pathogen interaction. 相似文献
15.
Janet Kimunye Evans Were Rony Swennen Altus Viljoen George Mahuku 《Plant pathology》2021,70(7):1651-1664
Black Sigatoka, caused by Pseudocercospora fijiensis, is one of the most devastating diseases of banana. In commercial banana-growing systems, black Sigatoka is primarily managed by fungicides. This mode of disease management is not feasible for resource-limited smallholder farmers. Therefore, bananas resistant to P. fijiensis provide a practical solution for managing the disease, especially under smallholder farming systems. Most banana and plantain hybrids with resistance to P. fijiensis were developed using few sources of resistance, which include Calcutta 4 and Pisang Lilin. To broaden the pool of resistance sources to P. fijiensis, 95 banana accessions were evaluated under field conditions in Sendusu, Uganda. Eleven accessions were resistant to P. fijiensis. Black Sigatoka symptoms did not progress past Stage 2 (narrow brown streaks) in the diploid accessions Pahang (AA), Pisang KRA (AA), Malaccensis 0074 (AA), Long Tavoy (AA), M.A. Truncata (AA), Tani (BB), and Balbisiana (BB), a response similar to the resistant control Calcutta 4. These accessions are potential sources of P. fijiensis resistance and banana breeding programmes can use them to broaden the genetic base for resistance to P. fijiensis. 相似文献
16.
R. E. Niks G. M. Butler 《European journal of plant pathology / European Foundation for Plant Pathology》1993,99(3):139-148
Three cultivars of white cabbage with different levels of resistance toMycosphaerella brassicicola were tested for seedbed infection. Seedlings grown in seedbeds, to which infected plant debris was added as an inoculum, showed typical ring spot lesions on the cotyledons and first two leaves before seedlings reached the transplanting stage, whereas non-inoculated controls had few lesions only. Differences in levels of resistance between cultivars were present in seedlings grown under field conditions. Disease severity of transplants at the end of the season reflected disease severity of seedlings before transplanting in each cultivar.To lower the risk of a severe epidemic of ringspot at the end of the growing season, the seedbed should be protected from infection byM. brassicicola. 相似文献
17.
Takuma Sugimoto Shinya Yoshida Masataka Aino Kazuhiko Watanabe Kuniko Shiwaku Mikihiro Sugimoto 《Journal of General Plant Pathology》2006,72(2):92-97
Since 1987, Phytophthora root and stem rot of soybean [Glycine max (L.) Merr. cv. Tanbakuro], caused by Phytophthora sojae Kaufman and Gerdemann, has been increasing in the Sasayama, Nishiwaki, and Kasai regions in Hyogo, the most famous soybean
(cv. Tanbakuro)-producing areas in Japan. In 2002 to 2004, 51 isolates (one from each field) of P. sojae were recovered from 51 fields in Hyogo. These isolates were tested for virulence on six Japanese differential soybean cultivars
used for race determination in Japan, and three additional ones containing four Rps genes used in Indiana, USA. Race E was the most prevalent from 2002 to 2004, followed by races A, C, D, and four new races
(proposed as races K, L, M, and N). Interestingly, none of the new races had high virulence on the Japanese differential cultivars,
compared with other races in each area. One (race N) was avirulent on all six soybean differentials. There was a difference
in race distribution on each of three individual areas; race E seemed to be a major component of the P. sojae population in Sasayama, whereas race A and the new race M were the most prevalent in Nishiwaki and Kasai, respectively. Rps6 (cv. Altona) and Rps1a + Rps7 (cv. Harosoy 63) were infected by 90.2% and 33.3% of all isolates, respectively. However, Rps1d (cv. PI103091) was not susceptible to any of the 51 isolates, nor was cv. Gedenshirazu-1. These two soybean cultivars were
considered to be potential sources of resistance to breed new resistant cultivars with the desirable characteristics of cv.
Tanbakuro for this region. 相似文献
18.
M. Zandjanakou‐Tachin P. S. Ojiambo I. Vroh‐Bi A. Tenkouano Y. M. Gumedzoe R. Bandyopadhyay 《Plant pathology》2013,62(2):298-308
Mycosphaerella species that cause the ‘Sigatoka disease complex’ account for significant yield losses in banana and plantain worldwide. Disease surveys were conducted in the humid forest (HF) and derived savanna (DS) agroecological zones from 2004 to 2006 to determine the distribution of the disease and variation among Mycosphaerella species in Nigeria. Disease prevalence and severity were higher in the HF than in the DS zone, but significant (P < 0·001) differences between agroecological zones were only observed for disease severity. A total of 85 isolates of M. fijiensis and 11 isolates of M. eumusae were collected during the survey and used to characterize the pathogenic structure of Mycosphaerella spp. using a putative host differential cultivar set consisting of Calcutta‐4 (resistant), Valery (intermediate) and Agbagba (highly susceptible). Area under disease progress curve (AUDPC) was higher on all cultivars when inoculated with M. eumusae than with M. fijiensis, but significant (P < 0·05) differences between the two species were only observed on Valery. Based on the rank‐sum method, 8·3% of the isolates were classified as highly aggressive and 46·9% were classified as aggressive. About 11·5% of all the isolates were classified as least aggressive, and all of these were M. fijiensis. The majority of M. eumusae isolates (seven out of 11; 64%) were classified as aggressive. A total of nine pathotype clusters were identified using cluster analysis of AUDPC. At least one M. fijiensis isolate was present in all the nine pathotype clusters, while isolates of M. eumusae were present in six of the nine clusters. Isolates in pathotype clusters III and V were the most aggressive, while those in cluster VIII were the least aggressive. Shannon’s index (H) revealed a more diverse Mycosphaerella collection in the DS zone (H = 1·81) than in the HF (H = 1·50) zone, with M. fijiensis being more diverse than M. eumusae. These results describe the current pathotype structure of Mycosphaerella in Nigeria and provide a useful resource that will facilitate screening of newly developed Musa genotypes for resistance against two important leaf spot diseases of banana and plantain. 相似文献
19.
Cora Boedo Valérie Le Clerc Mathilde Briard Philippe Simoneau Michel Chevalier Sonia Georgeault Pascal Poupard 《European journal of plant pathology / European Foundation for Plant Pathology》2008,121(1):55-66
The interaction between Alternaria dauci and two carrot cultivars differing in their resistance to leaf blight was investigated by microscopy. The fungal development
between 1 and 15 days post-inoculation was quite similar in the susceptible cv. Presto and the partially resistant cv. Texto:
After conidial germination, leaf adhesion of the pathogen was achieved with mucilaginous filaments; hyphae penetrated the
leaves directly with/without the formation of appressoria-like structures or via stomata; the fungus spread by epiphytic hyphae with hyphopodia and subcuticular mycelia. Intense necrotic plant cell reactions
occurred under the fungal structures. At 21 days post-inoculation, typical features of fungal development were noted for each
cultivar: growing hyphae emerged from stomata in cv. Presto, whereas conidiophores without conidia were observed in cv. Texto.
Leaf tissues of both cultivars were strongly damaged and vesicle-like structures (assumed to be plant phenolics) were abundantly
present between mesophyll cells. A real-time PCR method was developed for in planta quantification of A. dauci. Between 1 and 15 days post-inoculation, the fungal biomass was equivalent in the two cultivars and was about fourfold higher
in cv. Presto than cv. Texto at 21 and 25 days post-inoculation. Taken together, our results indicated that A. dauci was able to colonize both cultivars in a similar manner during the first steps of the interaction, then fungal development
in the partially resistant cultivar was restricted due to putative plant defence reactions. The results of this study enhance
the overall understanding of infection processes in the A. dauci-carrot pathosystem. 相似文献
20.
A method is presented to quantify the net effect of disease management on greenhouse gas (GHG) emissions per hectare of crop and per tonne of crop produce (grain, animal feed, flour or bioethanol). Calculations were based on experimental and survey data representative of UK wheat production during the period 2004–06. Elite wheat cultivars, with contrasting yields and levels of disease resistance, were compared. Across cultivars, fungicides increased yields by an average of 1·78 t ha?1 and GHG emissions were reduced from 386 to 327 kg CO2 eq. t?1 grain. The amount by which fungicides increased yield – and hence reduced emissions per tonne – was negatively correlated with cultivar resistance to septoria leaf blotch (Mycosphaerella graminicola, anamorph Septoria tritici). GHG emissions of treated cultivars were always less than those of untreated cultivars. Without fungicide use, an additional 0·93 Mt CO2 eq. would be emitted to maintain annual UK grain production at 15 Mt, if the additional land required for wheat production displaced other UK arable crops/set aside. The GHG cost would be much greater if grassland or natural vegetation were displaced. These additional emissions would be reduced substantially if cultivars had more effective septoria leaf blotch resistance. The GHGs associated with UK fungicide use were calculated to be 0·06 Mt CO2 eq. per annum. It was estimated that if it were possible to eliminate diseases completely by increasing disease resistance without any yield penalty and/or developing better fungicides, emissions could theoretically be reduced further to 313 kg CO2 eq. t?1 grain. 相似文献