Michailides Themis J, Morgan David P
Department of Plant Pathology, University of California, Davis, Kearney Agricultural Research and Extension Center, Parlier 93648.
Plant Dis. 2016 Jul;100(7):1405-1413. doi: 10.1094/PDIS-09-15-1077-RE. Epub 2016 Apr 8.
Panicle and shoot blight of pistachio caused by species of Botryosphaeriaceae fungi remains one of the major diseases of pistachio in California, with the highest potential for crop destruction because buds and fruit clusters (panicles) are killed. Pistachio fruit can also be damaged by various insect pests. For instance, hemipteran insects are considered major pests of pistachio and can attack maturing fruit, causing necrotic areas on the fruit epicarp (epicarp lesion). Surveys in pistachio orchards showed a putative association of punctures of pistachio fruit with infection by Botryosphaeriaceae fungi, resulting in panicle and shoot blight. This study was undertaken to determine any association of Botryosphaeriaceae fungi with fruit bearing epicarp lesions and whether hemipteran insects can actively carry propagules of the pathogens to healthy fruit and cause disease. Three large insects of the order Hemiptera (Thyanta pallidovirens, Acrosternum hilare, and Leptoglossus clypealis) were used in pathogen-spread and infection experiments. The most frequently isolated species of the family Botryosphaeriaceae in pistachio, Neofusicoccum mediterraneum, was used in these transmission experiments. Significantly higher incidence of fruit infected by N. mediterraneum was recorded when pistachio clusters were sprayed with a spore suspension of N. mediterraneum and caged with the above insects than the level of infected fruit sprayed similarly with the pathogen but caged without any insects. Furthermore, increasing the number of insects caged with pistachio clusters resulted in an increase of insect feeding punctures and, subsequently, disease incidence. Similarly, increasing the number of wounds per fruit made with a needle, simulating injuries caused by the insect's stylet, resulted in significantly higher incidence of infected fruit than for wounded fruit with fewer injured sites. In addition, bird-injured fruit were also associated with higher incidence of panicle blight than fruit not injured by birds, especially in orchards with high disease incidence. In laboratory experiments, wounding or applying fruit sap to nonwounded fruit resulted in significantly higher incidence of infected fruit than in nonwounded fruit without sap. In field experiments, wounding of fruit before or after inoculation with N. mediterraneum resulted in higher disease incidence than nonwounded and inoculated fruit. Additionally, fruit sap enhanced initial mycelial growth of N. mediterraneum. Protecting fruit clusters from injuries by hemipteran insects or birds using mesh cages significantly reduced the incidence of panicle and shoot blight. The association of wounding by hemipteran insects and birds with high incidence of infected pistachio fruit may explain partially the broad distribution of Botryosphaeria panicle and shoot blight among pistachio orchards of the central San Joaquin Valley, even in areas where inoculum sources are not nearby.
由葡萄座腔菌科真菌引起的阿月浑子穗枯病和枝枯病仍是加利福尼亚州阿月浑子的主要病害之一,因其会杀死芽和果穗(圆锥花序),所以对作物的破坏潜力最大。阿月浑子果实也会受到各种害虫的损害。例如,半翅目昆虫被认为是阿月浑子的主要害虫,会攻击成熟果实,在果实外果皮上造成坏死区域(外果皮病斑)。对阿月浑子果园的调查显示,阿月浑子果实的刺伤与葡萄座腔菌科真菌的感染之间存在一种假定关联,从而导致穗枯病和枝枯病。本研究旨在确定葡萄座腔菌科真菌与带有外果皮病斑的果实之间是否存在关联,以及半翅目昆虫是否能主动将病原体的繁殖体传播到健康果实上并引发病害。在病原体传播和感染实验中使用了三种大型半翅目昆虫(苍白广翅蜡蝉、绿蝽和西黄狭盲蝽)。在这些传播实验中使用了阿月浑子中最常分离出的葡萄座腔菌科物种——地中海新壳梭孢。当用地中海新壳梭孢的孢子悬浮液喷洒阿月浑子果穗并用上述昆虫笼养时,记录到被地中海新壳梭孢感染的果实发病率显著高于同样喷洒病原体但不笼养任何昆虫的感染果实水平。此外,增加与阿月浑子果穗笼养在一起的昆虫数量会导致昆虫取食刺伤增加,随后病害发病率也增加。同样,用针增加每个果实的伤口数量,模拟昆虫口针造成的损伤,会导致感染果实的发病率显著高于伤口较少的受伤果实。此外,与未受鸟类损伤的果实相比,受鸟类损伤的果实穗枯病发病率也更高,尤其是在病害发病率高的果园。在实验室实验中,对未受伤的果实进行伤口处理或涂抹果实汁液,导致感染果实的发病率显著高于未涂抹汁液的未受伤果实。在田间实验中,在接种地中海新壳梭孢之前或之后对果实进行伤口处理,其病害发病率高于未受伤且接种的果实。此外,果实汁液促进了地中海新壳梭孢的初始菌丝生长。使用网笼保护果穗免受半翅目昆虫或鸟类的伤害,可显著降低穗枯病和枝枯病的发病率。半翅目昆虫和鸟类造成的伤口与阿月浑子感染果实的高发病率之间的关联,可能部分解释了圣华金河谷中部阿月浑子果园中葡萄座腔菌穗枯病和枝枯病的广泛分布,即使在附近没有接种源的地区也是如此。
