不同向日葵品种对黄萎病的抗性*

采用浸根接种法鉴定不同向日葵种质资源对黄萎病的抗性差异。结果表明：40份供试向日葵品种依据抗性划分标准共分为3类,其中中抗品种有5份如：‘118’、‘新葵杂5号’等;低抗品种有8份如‘767’、‘KJ003’等;其余27份供试材料均呈现感病;没有鉴定出免疫和高抗的向日葵品种。     

向日葵的检疫性有害生物

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。     

Genetic diversity and differentiation of <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis> populations in sunflower

Ninety-six isolates of sunflower Sclerotinia sclerotiorum (Lib.) de Bary from Inner Mongolia (IM) in China, from Canada and the United Kingdom (UK) were sampled to investigate the genetic diversity and structure using Sequence-Related Amplified Polymorphism. A total of 123 polymorphic bands were obtained, ranging in size from 100 to 500 base pairs. The five populations of S. sclerotiorum isolated from the three countries showed various levels of genetic variability. The percentage of polymorphic loci varied from 30.89% in the UK population to 97.56% in the Middle IM population. The values of Shannon index (i) varied from 0.1876 in the UK population to 0.5301 in the West IM population. The heterozygosity of the five geographic populations obtained by estimating allele frequency varied from 12.91% in the UK population to 35.44% in the West IM population. The genetic identity, as indicated by the Nei unbiased identity index, ranged from 0.9744 between populations from Canada and East IM to 0.6477 between populations from West IM and UK. UPGMA cluster analysis using Nei’s genetic distance gave distances ranging from 0.0259 to 0.4343. The rates of gene flow among five geographic populations ranged from 1.5406 between West IM and UK populations to 18.4149 between West IM and Middle IM populations. The four populations from West IM, Middle IM, East IM and Canada were clustered into one subgroup in which the isolates from West and Middle IM belonged to one population, whereas those from East IM and Canada essentially were another population. The isolates from the UK formed a population that was significantly distinct from other populations.     

Advances in sunflower downy mildew research

This review summarises the progress in research on sunflower downy mildew as reported in publications of the past 10 to 15 years, the period since the last comprehensive review on Plasmopara halstedii. Particular attention is paid to subjects that showed much progress and may be of particular interest to sunflower pathologists, mycologists or molecular biologists. Accordingly, single sections are devoted to the problems of taxonomic and phylogenetic aspects, host specificity, the host—pathogen interaction including resistance phenomena, as well as epidemiology and disease management. Reflecting the progress achieved in some fields and illuminating the deficits in others should stimulate the reader's interest in this very significant pathosystem.     

Competition between Ridolfia segetum and sunflower

Studies on competition between Ridolfia segetum Maris, and sunflower (Helianthemum annuus L.) were conducted at eight locations in southern Spain in 1990 and 1991. in order to define competition models and to estimate from these economic thresholds as affected by crop inputs and potential yields. Competition losses in sunflower crops ranged from 19% to 56% of weed–free yields. There were slightly better correlations between percentage sunflower reduction and weed density than with weed dry weight, (?0.66 and ?0.59, respectively). The weed competitive index, or sunflower crop dry weight reduction per unit dry weight of R. segetum, was 1.09. The percentage yield losses due to weed density (NPR_t) were fitted to multiple linear, quadratic, exponential and hyperbolic models. The hyperbolic equation, %RSY=100 (1+1/b*NPR_t)^?1, where b=0.14 and is the R. segetum competitive ability index, had the lowest error sum of squares (SSE), and gave the best biological explanation for the competition response. Early emergence (before mid–March) made weeds about 1.5 times more competitive than late emergence. The economic threshold to offset the cost of a shallow post–emergence tillage, assuming 70% control efficiency, ranged from about 2.5 plants m ^?2 for low–yielding crops(1200kgha^?1) to less than one plant m^?2 for higher–yielding crops (2800 kg ha^?1).     

Cross-pathogenicity of <Emphasis Type="Italic">Verticillium dahliae</Emphasis> between potato and sunflower

This study examined cross-pathogenicity of the soilborne pathogen Verticillium dahliae between potato and sunflower. Four week-old potato and sunflower seedlings were inoculated with ten isolates from each of the two host species. Potato cultivars (Kennebec, susceptible, and Ranger Russet, moderately resistant) and sunflower hybrids (IS8048, susceptible, and 6946, moderately resistant) were assessed for disease severity and percent infection at 2 weeks, 3 weeks, 4 weeks, 5 weeks, and 6 weeks after inoculation (w.a.i), and for vascular discolouration at 6 w.a.i., using visual scales developed for each host species. The experiments were conducted in 2006 and repeated in 2007. Based on percent infection and disease severity, most V. dahliae isolates were highly aggressive on both host species. The tested isolates caused higher disease levels in the susceptible than in the moderately resistant phenotypes. They also caused more vascular discolouration in their original than in the alternative host. However, the isolates originating from sunflower caused less infection and disease severity on both hosts, compared to their potato counterparts. Cluster analysis based on all of the criteria used to assess pathogenicity led to three groups of isolates: (i) most V. dahliae potato isolates, which ranged with the highly aggressive control isolates, (ii) one V. dahliae sunflower isolate, which showed a similar pathogenicity level to the weakly-aggressive V. albo-atrum sub-group II control isolate, with no more symptoms than in the non-inoculated plants, and (iii) most V. dahliae sunflower isolates with mildly- to weakly-aggressive levels. Based on these results, V. dahliae cross-pathogenicity is very effective between potato and sunflower. Therefore, rotations involving these species should be avoided, especially where sunflower follows potato.     

Putative virus disease of sunflower in Zambia

Symptoms of a virus-like disease of unknown aetiology were observed in sunflower in five provinces of Zambia during the 1998 growing season. In the 20 surveyed farmers'fields, disease incidence was 80–100%. Yield loss in seed production as a result of the putative virus (or virus complex) was estimated at 60%. The virus was not seed-borne in sunflower. The weed Tridax procumbens was found to be an alternative host of the virus, and the virus was transmitted by Aphis gossypii from the weed to sunflower. Serological analysis suggests that the virus (or virus complex) is closely related to luteoviruses. It is tentatively named sunflower yellow blotch virus (SYBV).     

向日葵螟生物学研究进展

向日葵螟是向日葵上的重要害虫。近年来,欧洲向日葵螟在我国造成的经济损失越来越大。本文综述了向日葵螟的两个种—欧洲向日葵螟和美洲向日葵螟的生物学研究进展。最后对向日葵螟的综合防治进行了展望。     

Plant-pathogen interactions of sunflower and Macrophomina phaseolina in vitro and in vivo

The relative pathogenicity of isolates of Macrophomina phaseolina was comparable both on sunflower tissue cultures and on mature plants and seedlings. The relative susceptibility of the different sunflower lines in vitro showed a similar pattern for cotyledon callus cultures, but not for immature embryo cultures. Although these protocols appear to be unsuitable for the selection of novel disease resistance, they do offer the potential for a rapid, non-destructive screen for resistant material.     

Characterisation of sunflower root colonisation by <Emphasis Type="Italic">Phoma macdonaldii</Emphasis>

Phoma macdonaldii, the causal agent of black stem disease of sunflower (Helianthus annuus), also attacks roots and collars of the plants, resulting in early death. Totally resistant lines do not exist for infection of the aerial parts, but tolerant lines have been characterised. This paper presents a study on colonisation of a partially resistant and a susceptible sunflower line by P. macdonaldii. The fungus was transformed with a constitutively expressed reporter gene encoding the jellyfish green fluorescent protein via Agrobacterium tumefaciens, and colonisation of sunflower roots by this transformed strain was studied by various microscopy techniques including confocal and scanning electron microscopy. The results show that penetration of the fungus into the root occurred through natural fissures or through the epidermis and was similar in both lines. In contrast, the colonisation rate of the stele was reduced in the partially resistant line, and the morphology of the fungal hyphae was also affected. The effect on hyphal morphology was strongest in the stele, indicating a localised production of defence compounds in this line.     

The geographical distribution of sunflower diseases in China

In various areas of China, the fourth largest sunflower-producing country in the world, 25 sunflower diseases have been reported: 19 caused by fungi, one virus disease and five caused by different species of broomrape. Their geographical distribution and economic significance are discussed. Fungi are the most prevalent disease causing agents in every region. More species of broomrape have been recorded in China than in any other country in the world. Orobanche coerulescens has not previously been reported to attack sunflower but is an important cause of disease in China. The number of diseases recorded differs among the regions, with 14 in North-east China, 11 each in North, North-west and South-west China, 10 in East China and six in Central and South China. This distribution broadly corresponds to the intensity of sunflower production. Only Puccinia helianthi and Septoria helianthi are reported in all the regions; 64% of the diseases are restricted to one or two regions. Alternaria helianthi, Septoria helianthi, Sclerotinia sclerotiorum and Orobanche coerulescens are considered to be the most important, causing 10-50% losses in yield, and even crop failure in some areas in some years. Much work remains to be done on disease control to promote the development of sunflower production in China.     

向日葵筒状小花和瘦果性状与欧洲葵螟寄主选择的关系

为明确欧洲葵螟Homoeosoma nebulellum Denis et Schiffermüller寄主选择的物理机制,通过对14个向日葵品种（系）筒状小花及瘦果的形态指标观察,采用籽粒被害虫情指数进行田间寄主选择性试验,研究了向日葵的形态性状和欧洲葵螟寄主选择的关系。欧洲葵螟对不同向日葵品种（系）具有明显的选择性,且对食葵品种（系）的选择性均显著高于油葵品种（系）。食葵瘦果多为中长或长形（≥1.5 cm）,油葵瘦果则属于短或特短形（<1.5 cm）。向日葵各形态指标在不同品种（系）间均存在极显著差异,食葵的花盘直径、筒状小花开口、子房壁厚度、瘦果果壁厚度、瘦果果壁茸毛密度均大于油葵,且各指标与籽粒被害虫情指数之间、各指标互相之间也均呈显著正相关关系。表明选育较小花盘的向日葵品种（系）可减少葵螟对向日葵的为害。     

向日葵黑斑病研究进展及其综合防治

向日葵黑斑病是一种重要的真菌病害,我国于20世纪60年代首次报道,目前对向日葵生产仍存在巨大威胁。本文综述了向日葵黑斑病的病原和寄主范围、向日葵黑斑病的症状和危害、国外种传黑斑病菌的检测、种传Alternaria helianthi对种子萌发和种苗活力的影响以及国内外有关黑斑病菌A. helianthi和A. alternata毒素的相关研究和向日葵黑斑病的综合防治。     

Methodology of virulence screening and race characterization of Plasmopara halstedii,and resistance evaluation in sunflower – a review

Sunflower downy mildew is a disease of high global economic impact as well as a causal agent that is extremely difficult to eradicate. During the past decades, several approaches for the determination of Plasmopara halstedii (Ph) races have been used worldwide and are discussed in this review. Procedures of isolation, cultivation and maintenance of Ph isolates, as well as the screening of sunflower for resistance, are also critically reviewed. The predominant, globally used resistance screening protocol is a ‘whole seedling immersion’ inoculation. ‘Soil drench’ inoculation allows more precise control of the number of Ph zoosporangia applied to a single sunflower seedling. A detached leaf assay has been described, but it has been used mainly for Ph subcultivation and fungicide tests. For race determination, a differential set consisting of nine sunflower genotypes has been used since 1988, coupled with a numerical triplet code for virulence phenotyping of Ph. The increasing variability in global Ph populations has demonstrated the inadequacy of the current set of differentials, and several researchers have proposed additional public lines as new differentials. Furthermore, bulk isolates may show different results in repeated tests, as Ph may contain genetically distinct zoospores within a single zoosporangium. For precise race determination, single zoosporangia or single zoospore isolates are advisable. However, due to low success of isolation, approximately 1–2%, this method cannot be applied in routine Ph race screening. Methods surveyed in this review have a broad spectrum of applications, including taxonomic studies.     

Tobacco streak virus in sunflower (Helianthus annuus)

Tobacco streak virus (TSV) was isolated from a plant of sunflower (Helianthus annuus) showing severe necrosis and chlorosis in the leaves. The virus was identified as TSV by serology and, to some extent, by host range. The type of symptoms varied with the host plant in which the virus had been propagated in successive transfers. Test plants inoculated with the virus propagated inNicotiana rustica produced symptoms which very much differed from those brought about by the virus from eitherN. clevelandii orChenopodium amaranticolor.The significance of the host-mediated variation in symptoms is discussed.Samenvatting Tabaksstrepenvirus (TSV) werd geïsoleerd uit zonnebloem (Helianthus annuus) die sterke necrose en chlorose van de bladeren vertoonde. De identiteit van het virus werd vastgesteld op grond van serologische reacties en, tot op zekere hoogte, de symptomatologie. Het type symptoom op de toetsplanten bleek echter sterk afhankelijk te zijn van de plant waarvan het inoculum afkomstig was. Was het virus verschillende malen achtereen vermeerderd inNicotiana rustica dan waren de symptomen op de toetsplanten zeer verschillend van die, welke werden veroorzaakt door virus vermeerderd inN. clevelandii ofChenopodium amaranticolor. De betekenis van deze door de waardplant bewerkstelligde variatie in symptomen wordt besproken.