猕猴桃品种对细菌性溃疡病的抗性机制

研究了安徽省猕猴桃主栽品种金魁(高抗)、早鲜(中抗)、魁蜜(抗病)、华美2号(感病)、秦美(中感)和金丰(高感)对细菌性溃疡病的抗性机制.结果表明:形态结构抗性方面,感病品种的皮孔密度和长度及气孔密度、长度和宽度都明显高于抗病品种,抗、感品种间皮孔、气孔的排列方式也存在一定差异.相关分析表明,皮孔密度和长度及气孔密度、长度和宽度与品种发病率都有较高的相关性,尤其以皮孔长度和气孔长度相关性最高,r分别为0.9278和0.9794;生理生化抗性方面,品种未感染溃疡病菌前,芽中的POD酶活性与品种抗性存在规律性不强,一年生枝条、叶片中的POD酶活性与品种抗性有密切关系.品种感染溃疡病菌后,POD酶活性均升高,但抗病品种中酶活提高倍数高于感病品种.一年生枝条上病斑越大,POD酶活性越高.POD同工酶谱带表现出与酶活相一致的规律.     

猕猴桃品种酚类物质及可溶性蛋白含量与抗溃疡病的关系

以安徽省猕猴桃主栽品种金魁、早鲜、魁蜜、华美2号、秦美、金丰为研究对象,于展叶孕蕾期分别取发病的枝条、叶片,以未发病健株的相应组织为对照,分析枝条、叶片中酚类物质和可溶性蛋白的含量变化。结果表明：抗病品种健株枝条、叶片中可溶性蛋白含量显著高于易感病品种,说明枝条中可溶性蛋白含量与品种抗性成正相关。自然发病后,感病品种枝条中可溶性蛋白含量增加,抗病品种可溶性蛋白含量降低。抗病品种健枝条、叶片中酚类物质含量高于易感病品种的健枝、叶,发病后抗感品种酚类物质含量都增加。     

湘西地区猕猴桃细菌性溃疡病抗性资源筛选及其抗性机理研究

由Pseudomonas syringae pv.actinidiae(Psa)引起的溃疡病是猕猴桃生产中威胁最大的细菌性病害。种植抗病品种是防治猕猴桃溃疡病最有效途径,猕猴桃抗源是抗病育种的物质基础。本试验通过离体接种,在室内评价了4个不同种的7个猕猴桃资源及品种对溃疡病的抗性。结果表明:供试材料离体叶片、枝条接种溃疡病菌后,其发病时间、病斑大小、发病率差异明显。按病斑大小排序,其抗性强弱依次为毛花猕猴桃‘M9808’>对萼猕猴桃‘S9801’>美味猕猴桃‘M-06’>美味猕猴桃‘米良1号’>中华猕猴桃‘Z-12’>中华猕猴桃‘东红’>中华猕猴桃‘红阳’(CK)。其中,毛花猕猴桃‘M9808’抗病性最强,表现为发病最晚,离体叶片、枝条分别于接种后10 d、20 d发病,比对照推迟了8 d、10 d;病斑最小,为对照的1/25、1/11;发病率最低,为对照的1/28、1/10。抗病性相关酶活性比对发现,不同材料的PAL、CAT、POD酶活性差异较大,抗性材料均高于感病材料,且峰值出现时间早于感病材料。其中,毛花猕猴桃‘M9808’的PAL峰值最高,接种后5 d出现,比对照早10 d;CAT、POD峰值接种后10 d出现,比对照早5 d。说明毛花猕猴桃‘M9808’对溃疡病抗性最强,可作为今后猕猴桃抗病育种或抗性砧木的理想材料。这为猕猴桃抗病育种提供了理论依据,为猕猴桃溃疡病的防控提供了参考。     

猕猴桃品种中糖分及木质素含量 与抗溃疡病的关系

以安徽省猕猴桃主栽品种金魁、早鲜、魁蜜和金丰为研究对象，于展叶孕蕾期分别取发病的枝条、叶片，以未发病的健株相应组织为对照，采用生理生化的方法，分析枝条、叶片中木质素和可溶性糖的含量变化以及与抗溃疡病的关系。结果表明：抗病品种金魁健株枝条、叶片中可溶性糖及木质素含量显著高于感病品种金丰。自然发病后，抗感病品种枝条、叶片中可溶性糖含量都降低，感病品种降低更多，金魁叶片可溶性糖含量下降4．20％，金丰叶片可溶性糖含量下降55.35％；木质素含量都升高，且抗病品种金魁叶片中的木质素含量比感病品种金丰高得多，其变化率分别为7．17％、3．01％，枝条中的木质素含量变化率分别为110．39％、68．98％，其差异达到显著水平。相关分析表明，枝条中木质素、可溶性糖含量与品种发病率也呈负相关，γ分别为-0．9583和-0．9282；叶片中木质素、可溶性糖含量与品种发病率呈负相关，γ分别为-0．8099和-0、8266。从而说明枝条、叶片中可溶性糖及木质素含量与品种抗性呈正相关。抗感品种淀粉含量无明显规律性变化，与品种抗性关系不大。     

猕猴桃溃疡病调查研究

对陕西西安(周至、户县、长安)地区12个村60个猕猴桃园的猕猴桃溃疡病发病特点调查分析,发现品种、树龄与猕猴桃溃疡病的发生直接相关,4个主栽品种(红阳、亚特、秦美和海沃德)中红阳最感病,亚特和海沃德次之,秦美发病最轻;且随着树龄的增大溃疡病危害相应加重(3~13 a生)。地区之间猕猴桃溃疡病严重程度存在着不同程度的差异,除地区间小气候外,管理水平也是影响溃疡病发生的重要因素之一。     

软枣猕猴桃种质资源溃疡病抗性鉴定方法的建立与评价

以51份软枣猕猴桃Actinidia arguta种质资源为材料,以中华猕猴桃Actinidia chinensis Planch‘红阳’、美味猕猴桃Actinidia chinensis var.deliciosa‘徐香’为对照,利用丁香假单胞菌猕猴桃致病变种Pseudomonas syringae pv.actinidiae PSAM228对软枣猕猴桃离体枝条和叶片进行人工接种和溃疡病抗性评价。结果表明,不同年份半木质化离体枝条接种后的感病结果基本一致并达极显著相关水平,相关系数为0.9359,半木质化离体枝条接种可作为软枣猕猴桃溃疡病抗性鉴定的方法;根据病情指数将软枣猕猴桃种质资源按感病程度分为高抗、中抗、感病、中感和高感5个级别,其中高抗资源33份,中抗资源18份,没有感病、中感和高感级次的种质资源。     

不同猕猴桃品种RAPD分析及其与抗溃疡病的关系

对不同猕猴桃品种的分子生物学试验表明：猕猴桃的DNA浓度在920 μg/mL符合RAPD分析的要求。通过60个随机引物的PCR扩增,报道了6个不同品种和类型猕猴桃种质资源的RAPD多态性,计算了它们之间的遗传距离,构建了聚类图,并讨论了其亲缘关系。聚类分析图反映出来源于安徽省主要猕猴桃产区的6个样品可以分为3组,其中抗病与感病的相对较为集中,由此可推断出现这种聚类的原因可能是由于它们基因组中有相同的DNA片段。抗病品系都有一条1 458 bp DNA片段,而感病品系均没有该带。故该片段可能与猕猴桃植株抗溃疡病相关。RAPD多态性从分子水平上反映出了猕猴桃种质资源不同品种及不同类型间复杂的遗传背景,为抗病育种的亲本选配提供了依据,也为合成猕猴桃抗溃疡病探针并用于检测猕猴桃抗溃疡病种质和分子标记辅助育种奠定了基础。     

云南31个核桃品种对黑斑病的抗病性评价

为了解云南主栽核桃品种对细菌性黑斑病的抗性,采用离体接种的方法分别接种核桃黄单胞杆菌(Xanthomonas arboricola pv. juglandis)和成团泛菌(Pantoea agglomerans),对接种叶片的病斑面积进行系统聚类分析,进而鉴定31个核桃品种对2种细菌性黑斑病病原菌的抗病性。结果表明,接种核桃黄单胞杆菌后,以平方欧式距离2对聚类结果进行分割,将试验品种分为4类,分别有27个抗病品种、2个中抗品种、1个中感品种和1个感病品种;接种成团泛菌后,以平方欧式距离5对聚类结果分割,将试验品种分为4类,分别有25个抗病品种、4个中抗品种、1个中感品种和1个感病品种。     

棉花抗黄萎病品种选育方法探讨

 在棉花抗病育种中,通过病圃或重病地选择抗病单株是常规的选育方法,但其在抗黄萎病育种中的效果并不理想。如何提高抗黄萎病育种效率,促进育种进程是目前急需解决的问题之一。为此,19982002年我们在北京人工病圃,对不同抗病杂交组合和选育方法的选育效果进行了研究。结果表明,在双亲本均为抗(耐)品种的杂交后代群体中,以9月中旬是抗病还是感病并没有多少关联,对黄萎病抗性的选育应选群体抗病性强的株系或组合,以其丰产性为主要选育目标;只有抗与抗(或高耐)的组合中才能选出黄萎病抗性更高的株系;在抗(耐)品种中,后期无论是抗或感的单株其后代的抗病性差异不明显     

水稻品种苗期阶段对白叶枯病的抗性研究

 根据水稻品种各叶期对白叶枯病的抗性表现和强弱程度可分为四类:(1)全期抗病型;(2)全期中抗型;(3)苗感成株抗病型;和(4)全期感病型。可以看出,水稻品种除少数苗感成抗型外,其余三种抗性类型苗期与成株期的抗性反应是一致的。由于中抗、成抗和感病品种各叶期的抗性有随着叶位的升高而抗性增强的趋势,不同抗性品种在苗期阶段抗感对比均较成株期明显。因此,水稻品种对白叶枯病的抗性鉴定采用苗期鉴定方法是可行的。影响水稻品种苗期抗性的因素是:苗龄(叶期)、观察时期、品种与菌株的组合等。     

Evaluation of the wild Actinidia germplasm for resistance to Pseudomonas syringae pv. actinidiae

Bacterial canker of kiwifruit caused by Pseudomonas syringae pv. actinidiae (Psa) is a catastrophic disease that threatens the global kiwifruit industry. As yet, no cure has been developed. Planting resistant cultivars is considered as one of the most effective ways to control Psa. However, most existing cultivars lack Psa-resistance genes. Wild Actinidia resources contain rich genetic diversity and may have powerful disease-resistance genes under long-term natural selection, but lack of knowledge about the resistance to Psa for most Actinidia species results in some excellent wild resistant genotypes being underutilized. In this study, the response to Psa of 104 wild genotypes of 30 Actinidia species (including 37 taxa) was tested with an in vitro bioassay, and a considerable number of individuals from different species with tolerance or high resistance to Psa were identified. The results showed high consistency between years. This is the first large-scale evaluation of diverse Actinidia species with resistance to Psa through an in vitro bioassay. The resistant genotypes of A. chinensis identified could be used in future kiwifruit improvement programmes. The findings should help provide an understanding of the resistance to Psa.     

猕猴桃种质材料对褐斑病抗性评价

正由多主棒孢菌(Corynespora cassiicola)引起的猕猴桃褐斑病是一种重要的猕猴桃病害,在四川、广西、江西等地均有报道,主要导致早期落叶,促使秋稍萌发,消耗树体养分,影响树势和次年的开花座果,使猕猴桃的品质和产量受到严重影响~([1～3])。多主棒孢菌的寄主范围十分广泛,除危害猕猴桃外,还可危害橡胶、黄瓜等100余种寄主植物~([4])。     

Over-expression of the Arabidopsis <Emphasis Type="BoldItalic">NPR1</Emphasis> gene in citrus increases resistance to citrus canker

Citrus canker, caused by the bacterial pathogen Xanthomonas citri subsp. citri (Xcc), is a serious leaf and fruit spotting disease affecting many important citrus cultivars including grapefruit and certain sweet oranges. Currently, efficacious and economical disease control measures for highly susceptible citrus cultivars are lacking. Development of commercial cultivars with greater field resistance to citrus canker is the optimum strategy for effective disease management. In this study, we generated transgenic ‘Duncan’ grapefruit (DG) and ‘Hamlin’ sweet orange (Ham) expressing the Arabidopsis NPR1 gene (AtNPR1), which is a key positive regulator of the long-lasting broad-spectrum resistance known as systemic acquired resistance (SAR). Our results indicate that over-expression of AtNPR1 in citrus increases resistance to citrus canker and that the resistance is related with the expression levels of AtNPR1 in the transgenic plants. The line (DG 42-2) with the highest expression level of AtNPR1 was also the most resistant, which developed significant fewer lesions accompanied by a ten-fold reduction in Xcc population. The lesions developed on DG 42-2 were smaller and darker than those on the control and lacked callus formation. These lesion phenotypes resemble those on canker resistant kumquats and canker susceptible citrus trees treated with SAR-inducing compounds. Therefore, over-expression of AtNPR1 in citrus is a promising approach for development of more resistant cultivars to citrus canker.     

Resistance of kiwifruit cultivars to ceratocystis wilt: An approach considering the genetic diversity and variation in aggressiveness of the pathogen

Kiwifruit (Actinidia spp.) is native to southern China, but was first cultivated in New Zealand and then spread worldwide. Emerging diseases such as ceratocystis wilt have attracted the attention of kiwifruit growers due to the great losses observed in southern Brazil. Effective control can be achieved by screening for resistance, but the genetic variability of the pathogen must be considered. Thus, this study aimed to assess the genetic diversity and variation in aggressiveness of Ceratocystis isolates from kiwifruit in southern Brazil and then evaluate the resistance of kiwifruit cultivars with the most aggressive isolates. A collection of 46 isolates were obtained from southern Brazil and 14 simple-sequence repeat (SSR) markers was successfully used for genotyping. Out of 14 markers, 13 were polymorphic and identified 26 genotypes. Fourteen distinct genotypes were tested on a susceptible cultivar to select the most aggressive ones. Finally, inoculation with an equal mixture of five of the most aggressive isolates was used to evaluate the resistance of seven kiwifruit cultivars: Red Arguta, Green Arguta, Allison, Chieftain, Hayward, Monty, and Tomury. Cultivars varied in levels of susceptibility, with disease severity ranging from 40% to 100%. Considering the length of stem lesions, Chieftain showed the lowest level of severity at 40%, while no wilt symptoms were observed at 45 days after inoculation. In addition to the seven cultivars, a half-sibling progeny with 618 plants of the rootstock cv. Bruno was also assessed, but only seven individuals were resistant. These seven plants can be cloned and used as resistant rootstocks in commercial orchards.