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1.
向日葵的检疫性有害生物 总被引:12,自引:0,他引:12
根据FAO“有害生物风险分析准则”评估,初步提出了12种向日葵的潜在检疫性有害生物。其中,我国尚未发生或尚未报道的有褐色茎腐病菌、茎点霉黑茎病菌、向日葵红色种子象、向日葵灰色种子象、向日葵叶甲和向日葵瘿蚊等6种,国内局部地区已有发生的有向日葵霜霉病菌和向日葵黑斑病菌等2种,已列入了我国各类检疫性有害生物名单的种类有黄萎轮枝孢、棉根腐病菌、列当属和菟丝子属寄生种子植物等。 相似文献
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向日葵列当是危害我国向日葵最严重的杂草。为明确我国向日葵田列当的发生危害情况及防治现状,采用对角线5点取样法对新疆、内蒙古、吉林和河北等主要向日葵种植区进行调查,对向日葵列当的寄生率和寄生强度等数据进行分析。结果表明,向日葵列当在向日葵产区广泛分布,严重危害向日葵的生产,其对食葵的寄生率高于油葵,对抗性品种的寄生率较低。在所有调查地区中内蒙古地区向日葵列当发生最严重,寄生率高达100%,寄生强度达到38.5,单株寄生数量最高,达118株;新疆地区的向日葵列当寄生率居中,吉林、河北向日葵列当发生相对较轻。通过实地调研结合文献报道,对目前国内外向日葵列当的研究进展进行了综述,研究结果为指导向日葵列当防治提供参考。 相似文献
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列当(Orobanche spp.and Phelipanche spp.)是一种在世界范围内危害严重的根寄生杂草,防除列当的研究也越来越多。正确地采集和预培养列当种子是获得正确防除列当研究结果的前提。列出了大田正确采集列当种子的方法,以及对采集到的种子进行过筛提纯、加洗洁精和吐温20清洗后,再表面消毒和预培养,并通过发芽试验检验此方法的可行性。结果表明,经过处理的向日葵列当、瓜列当种子的发芽率最高分别为54.4%、59.1%。此方法可以应用于列当的采集和预处理过程中,可为列当研究和防除提供参考。 相似文献
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烟草及向日葵上列当Orobanche cumana的发生及其生物防治 总被引:2,自引:0,他引:2
近年,在河北省部分烟草和向日葵种植地发现大量寄生性杂草列当发生并造成严重为害。经鉴定为向日葵列当Orobanche cumana Wallr.。向日葵、烟草、番茄和黄瓜等作物的根分泌物能够刺激向日葵列当O. cumana种子萌发,而油葵根的分泌物则不能刺激向日葵列当种子萌发。利用列当致病镰刀菌L2菌株进行田间生物防治,防治效果达到92.4%。L2菌株对小麦、玉米、棉花、烟草和向日葵等作物生长无影响,L2菌株粗毒素能够抑制列当种子萌发,并造成列当种子萌芽管损伤。 相似文献
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引起油葵黑斑病的病原菌在我国一直采用向日葵链格孢Alternaria helianthi这个学名。然而国际上已更名为向日葵拟链格孢Alternariaster helianthi。2017年从陕西省华阴市采集到油葵黑斑病样品。通过单孢分离获得6株病原菌菌株,致病性检测后选取2个代表菌株进行形态学研究,并基于ITS和LSU基因进行系统发育分析。结果表明,2个病原菌菌株为小球腔菌科Leptosphaeriaceae拟链格孢属Alternariaster向日葵拟链格孢Alternariaster helianthi。 相似文献
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The production of sunflower is threatened by Orobanche cumana (broomrape) infections in many countries of southern and eastern Europe. The most virulent race of this parasitic weed, race F, is widespread in Spain. Most of the current commercial hybrids of resistant sunflower do not completely prevent broomrape emergence in the field. The performance (broomrape incidence and severity, final yields and oil contents) of four resistant and two susceptible sunflower hybrids was studied in different years in several O. cumana – infested locations. O. cumana – sunflower interactions were characterised by low severity and intermediate incidence in the resistant hybrids; both depended on the environment. An increase in sunflower yield because of the use of resistant hybrids was most noticeable under heavy field infestations and under drought. Characterisation of 20 populations of O. cumana classified as race F in terms of the standardised area under the degree of attack progress curve (SAUDC) and O. cumana incidence (BI) suggested differential intrinsic pathogenicities. These results highlight the variability within race F of O. cumana , mirroring the environmentally dependent horizontal resistance in sunflower. 相似文献
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向日葵列当是一种全寄生的种子植物,对向日葵生产造成严重的影响,而选育抗列当品种是目前防控向日葵列当最为有效的防控措施。由于向日葵列当种群存在生理小种分化现象,因此明确不同地区的向日葵列当生理小种的类型以及分布对于抗列当品种的布局非常重要。本研究利用国际通用的向日葵列当生理小种鉴别寄主,对阴山北麓地区的武川县和四子王旗共计7个向日葵地块中采集的列当种子的生理小种进行了鉴定,结果表明除了呼和浩特市武川县头号村采集的向日葵列当样本为E小种外,其他6个不同地点采集到的向日葵列当样本均鉴定为G小种。为了更好地对向日葵品种抗列当水平进行准确的评价,本研究选择了已经鉴定为E、F和G三个小种类型的向日葵列当的样本进行了单株纯化以及扩繁。扩繁得到的列当的种子将用于准确评价向日葵不同的育种材料和品种对列当不同生理小种的抗性水平。 相似文献
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Parasitic weed species of the genus Orobanche are a serious threat for the production of several crops in Europe, Africa and Asia. In contrast to other broomrape species of agronomic importance, O. ramosa (branched broomrape) has a broad host range and in Europe particularly affects hemp, tobacco, tomato and, in recent times, oilseed rape. Two separate sets of experiments investigated the effect of two populations of O. ramosa on nine tobacco cultivars grown in Europe and belonging to the three major tobacco types: Virgin (flue-cured), Burley (light air-cured) and dark air-cured under standardized glasshouse conditions. The two broomrape populations were discriminated by means of polymorphic DNA fragments obtained by PCR of the intersimple sequence repeat regions (ISSRs). The Orobanche populations exhibited different levels of pathogenicity but all various tobacco cultivars were susceptible. Dark air-cured tobacco cultivars were the least susceptible to both broomrape populations. Virgin and Burley tobacco cultivars were more susceptible to one population of O. ramosa . 相似文献
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Radi Aly Hanan Eizenberg Marina Kocherman Jacklin Abu-Nassar Leena Taha Ibrahim Saadi 《European journal of plant pathology / European Foundation for Plant Pathology》2012,133(3):523-526
Broomrape (Phelipanche and Orobanche spp.) are obligate holoparasites that attack roots of almost all economically-important crops in semiarid regions of the world. Broomrape seeds are extremely small (dust-like seeds), averaging 200 to 300?μm in size and because of the miniscule seed size it is difficult to detect and confirm via conventional methods. In this study our aim was to develop a PCR-based assay specific for broomrape soil-borne seeds and sensitive enough to detect a single or few broomrape seeds in a soil sample. For this purpose, we used complementary polymerase chain reaction (PCR) primers based upon unique sequences in the internal transcribed spacer (ITS) regions of the nuclear ribosomal DNA of Phelipanche aegyptiaca. Genomic DNA was extracted from soil samples artificially infested with broomrape seeds or tissue of Phelipanche aegyptiaca Pers., Orobanche cumana Wallr. and Phelipanche crenata Forsk. and subjected to PCR analysis. Using ITS-350 primers, a specific PCR product (350?bp) was amplified and detected in all samples containing broomrape species, but was not detected in soil sample free of broomrape seeds or tissues. Additionally, the PCR-based assay was sensitive enough to detect even a single broomrape seed in the soil. As expected the universal internal control primers amplified a PCR product (555?bp) of genomic DNA extracted from soil samples with or without broomrape tissues or seeds. This diagnostic method is simple, reliable and rapid and could help for assessment of broomrape seed contamination in a crop field. 相似文献
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Sanjay Singh Rathore Kapila Shekhawat Om Prakash Premi Basant Kumar Kandpal Jitendra Singh Chauhan 《Weed Biology and Management》2014,14(3):145-158
Broomrapes (Phelipanche and Orobanche spp.) are obligate root parasites of the family Orobanchaceae. The natural variation in Orobanchaceae exists in plants involving Triphysaria versicolor (facultative hemiparasite), Striga hermonthica (obligate hemiparasite) and Phelipanche aegyptiaca, formerly Orobanche aegyptiaca (holoparasite). The family Orobanchaceae has 90 genera. The four major parasitic species of broomrape are Phelipanche ramosa in the Brassicas, especially in rapeseed, Phelipanche cernua in tobacco and sunflower, P. aegyptiaca in solanacious crops and in Brassica juncea and Phelipanche crenata in leguminous crops. They are prevalent, infesting nearly 1.2% of the world's arable land. In India, P. ramosa and P. aegyptiaca cause severe infestations of Brassica and have threatened its cultivation in major growing areas. In addition, a single broomrape plant can release >100 000 seeds that remain viable for decades in the soil. This provides the parasite with a great genetic adaptability to environmental changes, including host resistance, agronomical practices and herbicide treatments. Different control measures, such as manual weeding, herbicide applications, solarization, crop rotation and integrated broomrape management practices, have been proposed in order to reduce the broomrape menace and improve yields in farmers' fields. Breeding for broomrape resistance also could be an economic, feasible and environmental friendly control method. The present article reviews the current status of research on broomrape in India and abroad, as well as suggests strategies for its effective management. 相似文献
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L Molinero‐Ruiz A B García‐Carneros M Collado‐Romero S Raranciuc J Domínguez J M Melero‐Vara 《Weed Research》2014,54(1):87-96
The parasitic weed Orobanche cumana (sunflower broomrape) constrains sunflower production in eastern and southern Europe and in the Middle East. Although genetic resistance is the most effective control method, new parasite races evolve overcoming sunflower resistance. In this work, highly virulent populations of O. cumana were analysed for pathogenicity and genetic diversity. The virulence of 11 populations from Hungary, Romania, Spain and Turkey was assessed and compared after infection of sunflower inbred lines to differentiate races of the parasite under glasshouse conditions. Molecular diversity among and within 27 parasite populations was studied by RAPD‐PCR, UPGMA and amova analyses. Highly virulent race F was identified in Hungary, Spain and Turkey. The most virulent race (G) was also found in Turkey. The molecular analysis among highly virulent populations of O. cumana identified four molecular clusters, respectively, grouping populations from Central Spain, Hungary, South Spain and Turkey. The genetic homogeneity within parasite populations was confirmed, since no molecular divergences were found within them. This work constitutes the first geographical study of O. cumana together with pathogenicity and molecular traits inherent to each geographical group, and provides useful information for possible phylogenetic analyses of O. cumana. In addition, molecular markers associated with geographical origin could be developed and used as diagnostic tools to track new broomrape introductions into areas free of virulent races where they might represent a threat to sunflower production. 相似文献
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Different races of the parasitic Orobanche cumana (sunflower broomrape) have been reported in Spain, race F being the most virulent. Full resistance in sunflower to races A–E is achieved with each of the single major genes Or1 to Or5 respectively. However, parasitised hybrids allegedly resistant to race F were observed in early 2002. The purpose of this study was to verify broomrape incidences (BI) on resistant sunflower genotypes, to assess the mixture of races within field populations and to test for partial resistance to race F in the sunflower hybrids showing a low degree of attack (DA) by the weed. Tests were conducted under field conditions in two locations of southern Spain. While no significant differences were found for yield and BI between locations, the DA on the cultivars depended on the location. With high infection levels and significantly lower yield in susceptible controls, marked differences in BI and DA were found within resistant cultivars, but all of them showed similar crop yield. When artificially inoculated with several populations of race F, line P96 and mainly line L86, were consistently slightly infected, suggesting they were inbred lines responsible for horizontal resistance in infested fields. L86 was extremely susceptible to race E populations, which is unusual as sunflower resistance to one race provided resistance to all the previously described races of O. cumana. No different virulences were detected within two groups of subpopulations (races E and F) inoculated onto resistant sunflower genotypes. However, race F subpopulations showed significant differences in aggressiveness, which seems to be related to horizontal (multigenic) resistance of the crop to the parasitic weed. 相似文献
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O. R. SOUTHWOOD 《Weed Research》1971,11(4):240-246
Two 5-year trials were conducted in New South Wales on the control of broomrape (Orobanche minor Sm.), a plant parasite of subterranean clover (Trifolium subterraneum L.) and skeleton weed (Chondrilla juncea L.). Applications of superphosphate to two soils of low phosphorus status stimulated clover growth, which caused a reduction in the number of skeleton weed plants and a decrease in the broomrape population. Similar but less effective control was obtained when subterranean clover pasture was sprayed with 2,4-DB for skeleton weed control as soon as the clover seedlings had developed trifoliate leaves. In spring, sheep readily grazed the broomrape stems before flowering, causing death of the plants. Autumn application of super phosphate, coupled with grazing of the pasture by sheep, significantly reduced broomrape density. 相似文献
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Dor E Yoneyama K Wininger S Kapulnik Y Yoneyama K Koltai H Xie X Hershenhorn J 《Phytopathology》2011,101(2):213-222
The parasitic flowering plants of the genera Orobanche and Phelipanche (broomrape species) are obligatory chlorophyll-lacking root-parasitic weeds that infect dicotyledonous plants and cause heavy economic losses in a wide variety of plant species in warm-temperate and subtropical regions. One of the most effective strategies for broomrape control is crop breeding for broomrape resistance. Previous efforts to find natural broomrape-resistant tomato (Solanum lycopersicon) genotypes were unsuccessful, and no broomrape resistance was found in any wild tomato species. Recently, however, the fast-neutron-mutagenized tomato mutant SL-ORT1 was found to be highly resistant to various Phelipanche and Orobanche spp. Nevertheless, SL-ORT1 plants were parasitized by Phelipanche aegyptiaca if grown in pots together with the susceptible tomato cv. M-82. In the present study, no toxic activity or inhibition of Phelipanche seed germination could be detected in the SL-ORT1 root extracts. SL-ORT1 roots did not induce Phelipanche seed germination in pots but they were parasitized, at the same level as M-82, after application of the synthetic germination stimulant GR24 to the rhizosphere. Whereas liquid chromatography coupled to tandem mass spectrometry analysis of root exudates of M-82 revealed the presence of the strigolactones orobanchol, solanacol, and didehydro-orobanchol isomer, these compounds were not found in the exudates of SL-ORT1. It can be concluded that SL-ORT1 resistance results from its inability to produce and secrete natural germination stimulants to the rhizosphere. 相似文献
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Says-Lesage V Roeckel-Drevet P Viguié A Tourvieille J Nicolas P de Labrouhe DT 《Phytopathology》2002,92(3):308-313
ABSTRACT Diaporthe/Phomopsis helianthi causes brown stem canker of sunflower (Helianthus annuus) and is responsible for considerable yield loss. This species shows considerable variation for morphological characters, growth, and pathogenicity. Molecular variability of two sample groups was assessed with amplified fragment length polymorphism (AFLP) markers. Isolates of the first sample were collected from infected sunflower tissues from the main regions in France where the crop is grown, whereas isolates from the second sample came from stems within a single field of sunflower. A soybean strain was taken as an outgroup for AFLP analyses. Within sample one, the greatest genetic distance among isolates was 0.97, whereas it was 0.44 within sample two isolates. For the whole of France, the average genetic distance was 0.68, whereas in the one field it was 0.12. Nei's genetic diversity indices were 0.20 and 0.06 for France and for one field, respectively. The greatest genetic distance was found between isolates from the most northern crops. The greatest genetic distance between D. helianthi isolates and the strain isolated from soybean was similar to that observed for D. helianthi isolates from different geographical areas. The problems in defining the genus Phomopsis are discussed. It is shown that internal transcribed spacer sequencing could be a useful criteria for Diaporthe/Phomopsis species determination. The considerable genetic variability of the pathogen could lead to the occurrence of new strains that could be more aggressive or more resistant to chemical control. 相似文献
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Field studies were carried out to evaluate the efficacy of imazaquin and glyphosate in controlling broomrape (Orobanche crenata Forsk. and O. aegyptiaca Pers.) in faba bean (Vicia faba L.) in Northern Syria. Several rates and times of application of the herbicides were tested. Nearly complete control of broomrape was achieved with both the herbicides when they were sprayed twice (when the broomrape attachments to the faba bean roots were at tubercle stage of develoment and 15 days later) at a rate of application of 80 g a.i. ha?1 for glyphosate and 10 g a.i. ha?1 for imazaquin. However, the yield of faba bean did not increase with these treatments, suggesting that the herbicides at these rates were still causing some physiological disorder in the plant that counteracted the beneficial effect of broomrape control on the performance of faba bean plants. 相似文献