Avocado cultivar and tree-to-tree leaf compositional differences affect infestation severity of Pseudocysta perseae (Hemiptera: Tingidae).

IF 1.8 3区 农林科学 Q2 ENTOMOLOGY Environmental Entomology Pub Date : 2024-10-11 DOI:10.1093/ee/nvae066
Michael J Bosch, Peishih Liang, Xiuxiu Sun, Sierra Hall, Ken Love, David Cox, Tracie Matsumoto, Peter A Follett, Dara G Stockton
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Abstract

Avocado lace bug, Pseudocysta perseae (Heidemann) (Hemiptera: Tingidae), is a sap-feeding insect that feeds on the underside of avocado leaves. First observed in 2019, P. perseae has spread throughout the Hawaiian islands, causing premature leaf drop and decrease in avocado yield. Due to Hawai'i's approximately 200 cultivars comprised of all 3 avocado races with extensive racial hybrids, we were able to investigate whether certain cultivars were more prone to experiencing higher P. perseae abundances and infestations compared to others. We conducted longitudinal abundance surveys on Hawai'i Island across several common avocado varieties monitoring changes in P. perseae abundance. These surveys were supplemented with longitudinal infestation severity surveys across 4 avocado lineages (Mexican, Guatemalan, West Indian, and Guatemalan × West Indian hybrid). Additionally, we collected leaves of 'Sharwil', 'Hass', 'Kahalu'u', and 'Nishikawa' cultivars looking at associations between P. perseae abundance and cultivar, herbivory-related biomechanical traits, and soluble sugar content. We found that some cultivars, such as 'Malama', typically experience lower P. perseae abundances compared to cultivars such as 'Kahalu'u', 'Beshore', and 'Sharwil'. Guatemalan × West Indian hybrid trees were also shown to have a higher probability of experiencing more severe P. perseae infestations compared to other lineages. Lastly, soluble sugar content, specifically fructose content, had a positive effect on juvenile P. perseae abundance. These findings suggest that cultivar differences in P. perseae infestations may exist, but tree-to-tree leaf compositional differences, such as soluble sugar content, may be a large driver of variation in P. perseae abundance.

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鳄梨栽培品种和树与树之间叶片成分的差异会影响 Pseudocysta perseae(半翅目:廷科)的侵扰严重程度。
牛油果花边蝽(Pseudocysta perseae (Heidemann))(半翅目:廷科)是一种吸食汁液的昆虫,以牛油果叶片背面为食。P. perseae 于 2019 年首次被观察到,现已蔓延到整个夏威夷群岛,导致叶片过早脱落和鳄梨产量下降。由于夏威夷有大约 200 个栽培品种,包括所有 3 个牛油果品系和大量的种族杂交品种,因此我们能够调查某些栽培品种是否比其他栽培品种更容易出现较高的 P. perseae 丰度和虫害。我们在夏威夷大岛上对几个常见的鳄梨品种进行了纵向丰度调查,以监测 P. perseae 丰度的变化。除这些调查外,我们还对 4 个牛油果品系(墨西哥、危地马拉、西印度和危地马拉 × 西印度杂交种)的虫害严重程度进行了纵向调查。此外,我们还采集了'Sharwil'、'Hass'、'Kahalu'u'和'Nishikawa'等栽培品种的叶片,研究毅果丰度与栽培品种、食草相关生物力学特征和可溶性糖含量之间的关系。我们发现,与 "Kahalu'u"、"Beshore "和 "Sharwil "等栽培品种相比,"Malama "等栽培品种的毅子藻丰度通常较低。与其他品系相比,危地马拉×西印度杂交树也更有可能遭受更严重的毅子锈菌侵染。最后,可溶性糖含量,特别是果糖含量,对柿蚜幼虫数量有积极影响。这些研究结果表明,在虫害方面可能存在栽培品种差异,但树与树之间的叶片成分差异(如可溶性糖含量)可能是虫害丰度变化的主要驱动因素。
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来源期刊
Environmental Entomology
Environmental Entomology 生物-昆虫学
CiteScore
3.90
自引率
5.90%
发文量
97
审稿时长
3-8 weeks
期刊介绍: Environmental Entomology is published bimonthly in February, April, June, August, October, and December. The journal publishes reports on the interaction of insects with the biological, chemical, and physical aspects of their environment. In addition to research papers, Environmental Entomology publishes Reviews, interpretive articles in a Forum section, and Letters to the Editor.
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