Relative contribution of biotic and abiotic factors to population fluctuations of Auchenorrhyncha community that could play a role in the Cape Saint Paul Wilt Disease (CSPWD) (lethal yellowing) pathosystem in Ghana.

Elizabeth Tettey, Owusu F Aidoo, Isaac N Ativor, Egya N Yankey
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Abstract

As a major setback to the global coconut industry, lethal yellowing disease (LYD), caused by phytoplasmas, continues to threaten coconut palms in the Americas, the Caribbean, Africa, and Oceania. Despite its economic impacts, limited information exists on LYD vectors, which impedes the prevention and management of the disease. Using double-sided yellow sticky traps, we investigate the factors that influence the seasonal abundance and population dynamics of three sap-sucking insects of LYD, i.e., Diostrombus (Hemiptera: Derbidae) sp. and Patara sp. (Hemiptera: Derbidae), and Nedoptepa curta Dmitriev (Hemiptera: Cicadellidae), on five coconut genotypes (Sri Lanka Green Dwarf (SGD), Vanuatu Tall (VTT), SGD × VTT, Malayan Yellow Dwarf (MYD) × VTT, and West African Tall (WAT)) in the Western Region, and one (SGD) in the Central Region of Ghana from April 2019 to May 2021. The results showed that N. curta and Patara sp. were the most abundant species in the Western and Central Regions, respectively. There was a significant difference between the coconut cultivars and sap-sucking insects. The peak population development of the sap-sucking insects was recorded during the dry season on all the coconut genotypes at all sampling locations. A significant positive correlation was detected between temperature and the population of N. curta and Patara sp. In the Agona Nkwanta, VTT had the highest population of N. curta, whereas WAT had the highest population of Patara sp. and Diostrombus sp. These findings provide useful information for assessing the role of factors that could affect the Cape Saint Paul Wilt disease pathosystem.

生物因素和非生物因素对可能在加纳圣保罗角枯萎病(CSPWD)(致死性黄化病)病原系统中发挥作用的 Auchenorrhyncha 群落数量波动的相对影响。
由植物病原体引起的致命黄化病(LYD)继续威胁着美洲、加勒比海、非洲和大洋洲的椰子树,使全球椰子产业遭受重大挫折。尽管 LYD 对经济造成了影响,但有关 LYD 病媒的信息却很有限,这阻碍了该疾病的预防和管理。我们使用双面黄色粘性诱捕器调查了影响 LYD 的三种吸汁昆虫(即:Diostrombus(Hemipterus)、Diostrombus(Hemipterus)、Diostrombus(Hemipterus))的季节丰度和种群动态的因素、Diostrombus (Hemiptera: Derbidae) sp.和 Patara sp.(从 2019 年 4 月到 2021 年 5 月,在加纳西部地区的五个椰子基因型(斯里兰卡绿矮椰子(SGD)、瓦努阿图高大椰子(VTT)、SGD × VTT、马来亚黄矮椰子(MYD)× VTT 和西非高大椰子(WAT))和中部地区的一个椰子基因型(SGD)上,研究了三种 LYD 吸汁昆虫(即 Diostrombus (Hemiptera: Derbidae) sp.和 Patara sp.(半翅目:Derbidae)和 Nedoptepa curta Dmitriev(半翅目:蝉科)的吸汁动态。结果表明,西部和中部地区的椰子种类分别以 N. curta 和 Patara sp.最多。椰子栽培品种与吸汁昆虫之间存在明显差异。在所有取样地点的所有椰子基因型上,吸汁昆虫的种群发展高峰期都出现在旱季。这些发现为评估可能影响圣保罗角枯萎病病原系统的因素提供了有用的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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