共查询到20条相似文献,搜索用时 62 毫秒
1.
L. J. Dallagnol F. A. Rodrigues A. R. M. Chaves F. X. R. Vale F. M. DaMatta 《Plant pathology》2013,62(1):120-129
The effect of soluble silicon (Si) on photosynthetic parameters and soluble sugar concentrations was determined in leaves of rice cv. Oochikara and mutant plants of Oochikara defective in active Si uptake [low silicon 1 (lsi1)]. Plants were grown in hydroponic culture amended with 0 (?Si) or 2 mm Si (+Si), under either low or high photon flux density (PFD) and with or without inoculation with Bipolaris oryzae, the causal agent of brown spot of rice. Leaf Si concentration increased by 141 and 435% in +Si cv. Oochikara and by 119 and 251% in +Si lsi1 mutant plants under high and low PFD, respectively, compared with ?Si plants. Plant biomass accumulation was improved by Si regardless of PFD, especially plants for cv. Oochikara. Brown spot severity was highest in ?Si plants for cv. Oochikara and lsi1 mutant plants under low PFD. In the presence of Si, disease severity in plants grown under both low and high PFD was reduced, except for lsi1 mutant plants under high PFD. Plant inoculation reduced the photosynthetic parameters measured regardless of plant material or Si supply. A decrease of net carbon assimilation rate (A) of inoculated plants under low PFD compared with non‐inoculated plants was associated with damage in the photosynthetic apparatus, except for +Si cv. Oochikara in which stomatal restriction [low water vapour conductance (gs)] contributed to A reduction. Under high PFD, damage to the photosynthetic apparatus of inoculated plants was the main reason for the reduction in A for +Si and ?Si lsi1 mutant plants. In addition, for ?Si cv. Oochikara, a reduction in gs contributed to reduced A. However, for +Si cv. Oochikara, gs was the limiting factor for A. Inoculated plants of +Si cv. Oochikara had higher A values than +Si lsi1 mutant plants, regardless of environmental conditions. Soluble sugars were not detected in leaf tissues of plants under low PFD. For high PFD, Si improved the hexose concentration in non‐inoculated plants at 144 h after inoculation (hai) for lsi1 mutant plants and from 96 hai onwards for cv. Oochikara compared with ?Si plants. However, plant inoculation reduced hexose concentration compared with non‐inoculated plants, mainly in +Si plants, regardless of plant material. Sucrose concentration increased in leaves of cv. Oochikara in the presence of Si whether inoculated or not. For +Si lsi1 mutant plants, sucrose concentration increased only at 48 hai compared with ?Si plants, whether inoculated or not. The results of this study show that a minimum Si concentration is needed in leaf tissues of rice plants to avoid the negative impact of B. oryzae infection on photosynthesis and sugar concentration. High leaf Si concentration resulted in an increased soluble sugar concentration and together, but in independent ways, soluble sugar and Si reduced brown spot severity of rice. 相似文献
2.
Response of photosynthesis and chlorophyll a fluorescence in leaf scald‐infected rice under influence of rhizobacteria and silicon fertilizer 
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下载免费PDF全文 A. C. S. O. Bueno G. L. S. Castro D. D. Silva Junior H. A. Pinheiro M. C. C. Filippi G. B. Silva 《Plant pathology》2017,66(9):1487-1495
Leaf scald caused by Monographella albescens reduces the photosynthetic area, causing yield losses in rice. This study investigated the efficacy of the rhizobacteria Burkholderia pyrrocinia (BRM‐32113) and Pseudomonas fluorescens (BRM‐32111), combined with silicon (Si) fertilization, to reduce lesion size and the area under the disease progress curve (AUDPC), as well as to minimize the negative effects on gas exchange, chlorophyll a fluorescence, chlorophyll content and the activity of oxidative stress enzymes. The experiment used a completely randomized design with four replications and seven treatments. Compared with plants only fertilized with Si, plants fertilized with Si and treated with BRM‐32113 showed reductions of 22% in scald lesion expansion and 37% in AUDPC, a 27% increase in the rate of CO2 assimilation (A), a 33% decrease in the internal CO2 concentration (Ci), and a 40% increase in ascorbate peroxidase activity. It was therefore concluded that the combination of BRM‐32113 with Si fertilization reduces the severity of leaf scald, protecting the photosynthetic apparatus, thus representing a sustainable method of reducing the loss of income caused by leaf scald in rice. 相似文献
3.
Renée A. Rioux Cameron M. Stephens Paul L. Koch Mehdi Kabbage James P. Kerns 《Plant pathology》2021,70(3):722-734
Clarireedia jacksonii causes dollar spot disease of cool-season turfgrasses in the United States and produces the phytotoxin oxalic acid. The role of oxalic acid in host–pathogen interactions of C. jacksonii is unknown and there are multiple challenges to studying these interactions in natural turfgrass hosts. Consequently, identification of model plants to study C. jacksonii–host interactions and the role of oxalic acid in pathogenesis is necessary. Controlled environment inoculation assays were used to evaluate pathogenesis of C. jacksonii in various model plants and investigate the role of oxalic acid in symptom development. Observations at microscopic and macroscopic levels demonstrated that infection progressed similarly in all monocots tested (creeping bentgrass, wheat, barley, rice, Brachypodium distachyon) but not in the dicot Arabidopsis thaliana. Plant oxalic acid content increased from near zero to around 0.2–0.4 mM following inoculation with C. jacksonii in creeping bentgrass, barley, and wheat. Conversely, oxalic acid content remained near zero in A. thaliana and was not well correlated with inoculation in rice and B. distachyon, both of which had higher endogenous oxalic acid levels than other monocots. Time-course oxalic acid quantification experiments with creeping bentgrass and B. distachyon further supported a link between symptom development and in planta oxalic acid content and identified 48 hr postinoculation as a critical time-point for investigating the role of oxalic acid in C. jacksonii pathogenesis. These studies demonstrate that various monocots can serve as tractable model systems for studying C. jacksonii–host interactions and that increases in oxalic acid content are associated with C. jacksonii symptom development. 相似文献
4.
P. Kastelein M. Krijger R. Czajkowski P. S. van der Zouwen R. van der Schoor H. Jalink J. M. van der Wolf 《Plant pathology》2014,63(2):255-263
Xanthomonas fragariae is the causative agent of angular leaf spot disease of strawberry. Greenhouse experiments were conducted using a X. fragariae isolate tagged with a green fluorescent protein (GFP) for detailed population dynamic studies in and on leaves after spray‐inoculation. The GFP‐tagged bacteria were monitored with dilution plating of leaf washings and leaf extracts, and analysis of intact leaves using a non‐invasive monitoring system called PathoScreen, based on laser radiation of fluorescent cells in plant tissues and signal recording with a sensitive camera. PathoScreen was also used to monitor bacteria grown on an agar medium after leaf printing. During the first 3 days after inoculation, bacterial populations washed off leaves rapidly decreased by at least a factor of 1000, after which populations remained stable until 14 days post‐inoculation (dpi), when symptoms first started to appear. Thereafter, populations increased to a level of 1012 colony‐forming units (CFU) g?1 of leaf material or higher. Similarly, densities in leaf extracts were low during the first 3 days after inoculation, at a level of 100–1000 CFU g?1 of leaf tissue. Gradually populations increased to a level of 109–1012 CFU g?1 at 28 dpi. Higher densities of epiphytic populations were found on the abaxial side than on the adaxial leaf side during the first 2 weeks after inoculation. After spray‐inoculation of leaves, bacterial populations released from infected plants remained low until symptoms appeared, after which plants became highly infectious, in particular under high humidity. 相似文献
5.
M. C. G. Gasparoto H. D. Coletta‐Filho R. B. Bassanezi S. A. Lopes S. A. Lourenço L. Amorim 《Plant pathology》2012,61(4):658-664
The objectives of this work were (i) to determine the influence of temperature on infection of citrus by ‘Candidatus Liberibacter asiaticus’ and ‘Candidatus Liberibacter americanus’, the two bacterial species associated with citrus huanglongbing (HLB) in Brazil, and (ii) to determine the influence of temperature on citrus colonization by ‘Ca. L. asiaticus’, which has taken over from ‘Ca. L. americanus’ as the predominant species in Brazil since 2008. Two experiments were carried out with graft‐inoculated Valencia oranges on Rangpur lime rootstocks. Immediately after inoculation the plants were maintained for 423 days in growth chambers under the following night/day temperature conditions: 17/22, 22/27 or 27/32°C, with a dark/light photoperiod of 8/16 h. Infection and colonization of plants were determined using quantitative PCR (qPCR). ‘Candidatus Liberibacter americanus’ did not infect the plants maintained at 27/32°C; however, infection by ‘Ca. L. asiaticus’ occurred at all studied temperatures. Two months after inoculation, ‘Ca. L. asiaticus’ was distributed throughout the inoculated plants, with mean Ct values in the range of 30–31 for leaves and 25–28 for roots. Over time, ‘Ca. L. asiaticus’ reached the highest titres in mature leaves (mean Ct value = 26·7) of citrus plants maintained at 22/27°C. ‘Candidatus Liberibacter asiaticus’ colonization of citrus plants was negatively affected by the daily temperature regime of 27/32°C (mean Ct value in mature leaves = 33·6). 相似文献
6.
Complex interplay of future climate levels of CO2, ozone and temperature on susceptibility to fungal diseases in barley 下载免费PDF全文
下载免费PDF全文 Barley (Hordeum vulgare) was grown in different climatic environments with elevated [CO2] (700 vs 385 ppm), [O3] (60/90 vs 20 ppb) and temperature (24/19 vs 19/12°C day/night) as single factors and in combinations, to evaluate the impact of these climatic factors on photosynthesis and susceptibility to powdery mildew and spot blotch disease. No significant increase in net CO2 assimilation rate was observed in barley grown under elevated [CO2] at ambient temperature. However, this rate was positively stimulated under elevated temperature together with a slightly higher potential quantum efficiency of PSII, both at ambient and elevated [CO2], suggesting that photosynthesis was not limited by [CO2] at ambient temperature. When growing under elevated temperature or [O3], infection by the biotrophic powdery mildew fungus decreased, whereas disease symptoms and growth of the toxin‐secreting hemibiotrophic spot blotch fungus increased compared to ambient conditions, implying that climate‐induced changes in disease severity could be linked to the trophic lifestyle of the pathogens. Elevated [CO2] decreased powdery mildew infection but had no effect on spot blotch disease compared to ambient condition. However, the effect of elevated [CO2], [O3] and temperature did not act in an additive manner when combined. This led to a surprising disease development in the combination treatments, where powdery mildew infection increased despite the individual reducing effect of the climatic factors, and spot blotch disease decreased despite the individual promoting effect of temperature and ozone, emphasizing the importance of conducting multifactorial experiments when evaluating the potential effects of climate change. 相似文献
7.
Resistance and systemic dispersal of Xanthomonas fragariae in strawberry germplasm (Fragaria L.) 下载免费PDF全文
下载免费PDF全文 M. Bestfleisch K. Richter A. Wensing J.N. Wünsche M.‐V. Hanke M. Höfer E. Schulte H. Flachowsky 《Plant pathology》2015,64(1):71-80
The angular leaf spot disease caused by Xanthomonas fragariae is an important plant disease with major impact for the strawberry nursery industry. Currently there is no plant protection product available for controlling the disease effectively. Planting of resistant cultivars seems to be promising, but all commercially used cultivars are susceptible and no donor with a high level of resistance has yet been found. Therefore, a total of 145 genotypes from the Fruit Genebank Dresden (Germany) were evaluated for resistance to X. fragariae by artificial inoculation. Six genotypes were classified as partly resistant, out of which only two (US4808 and US4809) are octoploid. Fragaria vesca f. alba, Fragaria nilgerrensis ‘Yunnan’, F. vesca ‘Illa Martin’ and F. moschata ‘Bauwens’ were also classified as partially resistant, but they are only of limited use for breeding because of their variable ploidy level. Fully resistant genotypes could not be detected. The systemic dispersal of the bacteria in strawberry plants was investigated after inoculation of leaves with X. fragariae strain XF3.9.C and the GFP‐tagged strain XF3.9.C(pKAN). The systemic spread was evaluated after 3, 7, 14 and 28 days post‐inoculation (dpi) by nested PCR and fluorescence microscopy. After 3 dpi, X. fragariae could be found in all tissues tested including the inoculated leaf, its petiole, the rhizome, the heart bud up to the youngest fully expanded leaf and its petiole. The systemic spread was also detectable in partially resistant genotypes. 相似文献
8.
Complexes of the type [M(apabh)Cl] and [M(Hapabh)(H2O)SO4], where M = Mn(II), Co(II), Ni(II), Cu(II) and Zn(II); Hapabh = acetone p-amino acetophenone benzoylhydrazone have been synthesized and characterized. Electronic spectra and μeff values suggest a square planar geometry for Co(II), Ni(II) and Cu(II) chloride complexes, whereas, octahedral geometry for the sulfato complexes. ESR data show isotropic spectra for [Cu(apabh)Cl] and axial spectra for [Cu(Hapabh)(H2O)SO4] and dx2−y2 as the ground state for both Cu(II) complexes. The ligand acts as tridentate monobasic in all chloro complexes bonding through two >CN and a deprotonated enolate groups, whereas tridentate neutral in all sulfato complexes coordinating through two >CN and a >CO groups. Thermal analysis (TGA & DTA) of [Ni(apabh)Cl] complex shows a multi-step exothermic decomposition pattern. The complexes show a significant antifungal activity against Rizoctonia sp., Aspergillus sp. and Penicillium sp. and a considerably fair antibacterial activity against Pseudomonas sp. and Clostridium sp. The activity increases at higher concentration of the compound. 相似文献
9.
为了探讨籽瓜叶片光合能力对源库调节的响应,以种子大小显著不同的3个籽瓜品种为材料,于开花坐果期通过整枝、摘叶、疏果将叶果比分别调整为10、20、30、40、50,并分别于幼果期、果实膨大期、果实成熟期测定叶片叶绿素含量及气体交换速率,收获后测定果实产量。结果表明,籽瓜功能叶叶绿素含量(SPAD值)、净光合速率(Pn)、气孔导度(Gs)和蒸腾速率(Tr)随果实生育期演进逐渐降低,胞间CO22浓度(Ci)逐渐增大。3个供试品种间SPAD、Pn、Gs、Tr和Ci差异显著,大种子品种H26的气体交换参数(Pn、Gs、Ci、Ti)显著低于中等种子品种H14,H14显著低于小种子品种H3,但SPAD和Ci变化规律相反。叶片SPAD、Pn、Gs、Tr均值及其果实生育期降幅均随叶果比增大而显著降低(叶果比50除外),但叶片SPAD值和气体交换参数变化幅度无显著的品种间差异,说明一定范围内降低叶果比能提高叶片光合能力,但摘叶处理或叶果比过高均会加速叶绿素降解,诱发叶片衰老。3个品种单株果实产量随叶果比增大而提高,50(1.18 kg)>40(1.17 kg)和30(1.17 kg)>20(1.16 kg)>10(0.87 kg),H3单株果实产量(0.88 kg)显著低于H26(1.20 kg)和H14(1.25 kg)。以上结果表明,适宜范围的源库比能够提高籽瓜叶片光合能力,延缓叶片衰老,有利于籽瓜果实高产。 相似文献
10.
Yuuri Hirooka Jun Takeuchi Hiromichi Horie Keiko T. Natsuaki 《Journal of General Plant Pathology》2008,74(1):66-70
Brown leaf spot disease caused by Cylindrocladium was found on Howea belmoreana on Hachijojima Island, Tokyo, Japan, in December 2001. Typical symptoms were incited after artificial inoculation. A culture
of white mycelia, isolated from leaf spot symptoms, produced reddish perithecia of a nectriaceous fungus. Based on morphological
and molecular analyses, this fungus was identified as Calonectria ilicicola (anamorph: Cylindrocladium parasiticum). Pathogenicity of this fungus on five plants cultivated on Hachijojima Island was confirmed by artificial inoculation. This
report is the first on Cylindrocladium brown leaf spot of H. belmoreana caused by C. ilicicola (anamorph: Cy. parasiticum). 相似文献
11.
Morphophysiological response of young olive trees to verticillium wilt under different surface drip irrigation regimes 下载免费PDF全文
下载免费PDF全文 A. Santos‐Rufo J. J. Hidalgo J. C. Hidalgo V. Vega D. Rodríguez‐Jurado 《Plant pathology》2018,67(4):848-859
The effects of irrigation on verticillium wilt in olive, in terms of morphological, biomass and physiological parameters were evaluated on pot‐grown trees maintained in the field for 3 years. Plants inoculated and noninoculated with Verticillium dahliae were irrigated to high and low range of soil water content (HR and LR) at daily (DF; about 2 days/event), weekly (WF) and daily‐weekly (DWF) drip‐irrigation frequency. Morphological parameters, relative biomass and biomass water‐use efficiency were higher at LR than at HR (with few exceptions) and at DF than at other frequencies in noninoculated and inoculated plants, but the fungus reduced those parameters by 17.0–38.5%. Lower root weight ratio, relative biomass and shoot length as area originated at HR in noninoculated plants, could be favourable to the accumulation of root infections and the amount of fungus per tissue length in inoculated plants because higher infection was known at HR. Moreover, higher aerial biomass and length promoted by irrigation at DF could prevent the more severe expression of symptoms, which occurred at WF and DWF in the presence of Verticillium. Negative correlations were found between indicated parameters and disease. Lower water stress (SΨ), and higher stomatal conductance (gs) and net photosynthesis at DF in noninoculated plants could limit the disease by improving water status, as SΨ was increased by the fungus only at WF and DWF, and gs and disease were negatively correlated. LR‐DF treatment minimized the disease and kept the growth, water‐use efficiency and physiological parameters in inoculated plants to levels close to noninoculated plants. 相似文献
12.
Wang Yan Xiu Yanfang Zhu Baihong Chen Ya Hu Mohammed Mujitaba Dawuda 《Arid Land Research and Management》2019,33(1):97-113
To study the effect of paclobutrazol (PBZ) on Malus halliana seedlings under water stress, principal component analysis (PCA) and membership function analysis (MFV) were employed to evaluate the effects of PBZ on gas exchange, fluorescence, and physiological characteristics. M. halliana seedlings, each with approximately ten leaves, were subjected to drought conditions and different concentrations of exogenous PBZ (CK, C0, C1, C2, C3, and C4) were then applied in pot experiments. The results showed that the effects of PBZ were concentration dependent. Compared to the CK treatment, the use of PBZ increased the intercellular CO2 concentration (Ci), nonphotochemical quenching coefficient (NPQ), peroxidase activity (POD), relative electrical conductivity (REC), and proline (Pro) and malondialdehyde (MDA) contents. The POD activity was higher by 124.24, 132.26, 93.75, 77.42, 85.29, and 90.63% in the CK, C0, C1, C2, C3, and C4 groups, respectively, at 15 days than at 0 day. The decrease in the net photosynthetic rate (PN), stomatal conductance (gs), transpiration rate (E), maximum quantum yield of PS2 (ΦPSII), maximal quantum yield of PSII photochemistry (Fv/Fm), photochemical quenching coefficient (qP), catalase (CAT), and superoxide dismutase (SOD) activity were effectively controlled. The gs of the CK and C2 groups at 15 days were reduced by 55.74% and 22.55%, respectively, compared to that of the treated seedlings at 0 day. In summary, the results of the evaluation by PCA and MFV showed that the effect of PBZ on M. halliana seedlings under water stress was most significant when the concentration was 100?mg L?1. 相似文献
13.
Competitive traits of the invasive grass Arundo donax are enhanced by carbon dioxide and nitrogen enrichment 下载免费PDF全文
下载免费PDF全文 Increased atmospheric carbon dioxide (CO2) and soil nitrogen (N) may confer competitive advantages to invasive species over native plant species. We conducted a two‐way factorial experiment, growing the model invasive plant Arundo donax in CO2 growth chambers to test how CO2 and N availability interact to affect plant growth and biomass allocation. CO2 was supplied at c. 400 mg L?1 and c. 750 mg L?1. N was supplied as ammonium nitrate at 640, 320 and 80 mg L?1. We hypothesised that the fertilisation effect of CO2 enrichment would offset limitations from N deficiency. The results indicated that A. donax plants grown with enriched CO2 and abundant N accumulated approximately 50–100% more biomass and allocated approximately 50% more biomass to rhizomes than plants grown under ambient CO2 conditions. Neither treatment affected the leaf area per unit mass (specific leaf area; SLA). Greater growth will likely increase A. donax's competitive potential, because increased rhizome biomass has been associated with increased stress tolerance and post‐disturbance resprouting capacity. The consistent SLA under all treatments suggests that A. donax has a morphological strategy that prioritises increasing leaf quantity over increasing individual leaves' photosynthetic potential. These results reveal the ecological strategies that contribute to the successful establishment, dominance and persistence of this invasive plant species. 相似文献
14.
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
15.
Bakanae disease, caused by Fusarium fujikuroi, was investigated under different CO2 and temperature environments in order to simulate climate changes in the F. fujikuroi–rice pathosystem. F. fujikuroi-infected plants were grown under six phytotron conditions: low (18/22 °C night/day), medium (22/26 °C), and high (26/30 °C) temperature, at either ambient (450 ppm) or elevated (850 ppm) CO2 concentrations. Bakanae disease index (DI), seedling death incidence, fungal DNA quantity, and chlorophyll and carbohydrate contents varied significantly in infected plants as a consequence of changes in both CO2 and temperature. Plant height and dry weight were only influenced by single factors (temperature for height, and temperature or CO2 for dry weight), and not by the CO2 × temperature interaction. Medium and high temperatures (irrespective of the CO2 level) increased the DI significantly (range from 67.5% to 95.8%) compared to low temperatures (range from 45.8% to 47.5%). Under elevated CO2 levels, noticeable differences in the expression of four rice defence-related genes and fungal DNA quantity were observed between those plants grown at higher temperatures and those at lower temperatures. Overall, combined and single effects of elevated CO2 and high temperatures seem to be favourable for bakanae disease development in the Mediterranean basin. 相似文献
16.
Three C4 grass (Setaria incrassata, Astrebla squarrosa and Bothriochloa decipiens) and one C3 legume (Clitoria ternatea) suppressive fodder species, were re‐evaluated against the growth of the C3 Parthenium hysterophorus under an ambient (390 μmol mol?1) and an elevated atmospheric CO2 concentration (550 μmol mol?1). Under the elevated atmospheric CO2, shoot dry biomass and suppression index (SI) value of the C4 S. incrassata were both reduced by 32% and 0.7 respectively, while those for A. squarrosa were reduced by 23% and 0.3. In contrast and under the same elevated atmospheric CO2 concentration, the shoot dry biomass and SI of the C4 B. decipiens were increased by 8% and 0.1 respectively, while those for the C3 C. ternatea were increased by 38% and 0.8. Our results suggest that C3 fodder plants along with certain C4 species could be utilised for the effective management of P. hysterophorus under the future elevated atmospheric CO2 conditions. However, this system needs more fodder species to be investigated. Our results suggest that rising CO2 per se may alter the efficacy of suppressive fodder management of an invasive C3 species, P. hysterophorus. 相似文献
17.
Bacterial spot of cucurbits, caused by Xanthomonas cucurbitae, is an emerging disease of cucurbits. This study was conducted to identify Cucurbita species that are resistant to X. cucurbitae. We developed a reliable method for inoculating cucurbit plants by spraying plants with X. cucurbitae suspensions containing carborundum. Symptoms of the disease developed within 7 days after inoculation. Subsequently, we evaluated the virulence of six isolates of X. cucurbitae in the greenhouse and observed that X. cucurbitae isolated from cucurbit fields in Illinois, Michigan, Kansas, Ohio, and Wisconsin were more virulent than the reference ATCC 23378 strain. Then, we screened 81 commercial cultivars of gourds, pumpkins, and squashes, as well as 300 Cucurbita spp. accessions, for their resistance to X. cucurbitae under greenhouse and field conditions. In the greenhouse study, all commercial cultivars and some of the accessions developed typical symptoms of bacterial spot disease, while some of the accessions developed fewer lesions. In the field studies, infection of leaves and fruits was caused by both natural inoculum and spray-inoculation of plants with a suspension of the X. cucurbitae isolate from Illinois. Among 300 accessions tested, 9 and 21 accessions were classified as resistant and less resistant, respectively. Resistant and less resistant accessions belong to the species Cucurbita maxima, C. maxima subsp. maxima, C. maxima subsp. andreana, and C. okeechobeensis subsp. martinezii. This is the first report of potential resistance to bacterial spot of cucurbits. 相似文献
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Limitations on the acceptable proportion (incidence) of pods with white mould may lead to the rejection of entire fields of processing snap bean. The low tolerances (no more than 2% to 6% of pods with white mould) are difficult to estimate with sufficient precision in the field when time is limited. These constraints motivated this study of white mould across three spatial hierarchical levels: pods, plants and quadrats consisting of two adjacent plants within rows. Hierarchical relationships are required when designing formal rules for estimating the incidence of pods with white mould from units higher in the spatial hierarchy. Disease assessments were made on all pods from 38 within‐row transects of 40 plants each of the snap bean cultivar Hystyle. Using probability‐based principles, equations were derived and fitted to data on the incidence of white mould on pods (ipod), plants (ipad) and quadrats (iq(2)), which led to a function directly linking ipod to iq(2). The variance of ipod increased with iq(2), but that may be of little consequence at the lower values of iq(2) likely to be associated with ipod values at processor‐set tolerances. For example, at iq(2) = 0.1 there was a 92% probability that ipod was less than 0.02. Assessing iq(2) may be more efficient than directly estimating ipod because iq(2) was about an order of magnitude higher than ipod. Results suggest it may be feasible to design sampling plans for estimating the proportion of pods with white mould from an assessment of the proportion of diseased quadrats. 相似文献
20.
研究新疆天山野果林建群种新疆野苹果(Malus sieversii)光合生理特性,对于该种群保育及其生态功能评价具有重要意义。通过野外测定新疆新源天然野果林中不同径级64株新疆野苹果南向枝条上部叶和下部叶饱和光强下的净光合速率(A)、气孔导度(gs)和比叶面积(SLA)。结果表明:随着径级增加,上部叶和下部叶的Aarea、Amass显著增加。gs随径级的增加先增加再降低,在径级Ⅲ(树干0.5 m高处直径25~35 cm)时达最大。上部叶比下部叶有着高的Aarea、Amass和gs。回归分析表明:随着树干直径增加,Aarea和gs呈二次多项式增加,Amass呈线性增加。SLA随径级增加变化不显著,上部叶SLA显著低于下部叶。上部叶的Aarea高于下部叶,但由于SLA显著减小,在Amass上两者差异减小。随gs增加,上部叶Aarea呈幂函数增加,下部叶Aarea呈二次多项式增加。 相似文献