Typhlodromus (Anthoseius) recki Wainstein(蛔虫:Phytoseiidae)沿 Solanceae 茎游动传播。

IF 1.8 2区 农林科学 Q2 ENTOMOLOGY
Experimental and Applied Acarology Pub Date : 2024-10-01 Epub Date: 2024-08-01 DOI:10.1007/s10493-024-00946-z
M-S Tixier, A Raeckelboom, L Tabary, M Douin, M Navajas, D Navia
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引用次数: 0

摘要

番茄作物会受到包括螨虫在内的多种害虫的侵害。虽然主要的捕食性螨虫不足以有效控制螨类害虫,但最近的研究表明,欧洲特有的植物螨Typhlodromus (Anthoseius) recki取得了令人鼓舞的成果。该研究的第一个目标是评估该物种沿番茄茎散布的能力,考虑到番茄属植物、秘鲁番茄属植物和芝士番茄属植物的六种基因型,这些基因型的毛状体数量和茎毛状体类型各不相同,先前的研究对这些基因型进行了准确描述。第二个目标是确定捕食者的形态特征如何解释沿番茄茎的扩散。为此,在实验室条件下,在引入捕食者后的四个时间段(10、25、55 和 100 分钟),对 8 种 Solanum 基因型的雌虫的伏地分散能力(茎交叉成功率、犹豫和逃跑行为、移动时间)进行了测试,每个时间段进行 5 分钟的视频观察。然后将雌虫安装在载玻片上,测量体长和体宽(前后部、中部和背部)。没有观察到番茄基因型对捕食者扩散能力的影响。不过,成功穿越茎干的标本的移动时间百分比(79.36%)高于失败的标本(43.60%)。此外,体中宽(DSW2)和背盾长(DSL)与扩散能力呈负相关。杂交成功的雌鱼的平均DSL和DSW2分别为342.3和160.9 μm,而杂交失败的雌鱼的平均DSL和DSW2分别为345.6和164.9 μm。这表明,越是纤细和相对较小的标本,越能移动并成功穿过茎干。腺毛(GT)VI型、其次是GT I和IV型,以及非腺毛(NGT)II和III型的数量似乎限制了其扩散。GT VI 似乎有排斥作用。相反,NGT V 的数量与高移动性和茎交叉率呈正相关。假定生物防治效率的主要障碍是沿番茄茎散播,这些初步结果应该会对生物防治的成功产生影响。具有 "最佳尺寸 "的螨虫比例似乎较低,应开展进一步研究,以更好地评估不同种群中具有这种理想尺寸的螨虫比例,并确定这些形态特征是否与不同的取食能力和/或非生物条件有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Ambulatory dispersal of Typhlodromus (Anthoseius) recki Wainstein (Acari: Phytoseiidae) along Solanceae stem.

Ambulatory dispersal of Typhlodromus (Anthoseius) recki Wainstein (Acari: Phytoseiidae) along Solanceae stem.

Tomato crops are attacked by several pests, including mites. While the main predatory mites are not effective enough to control mite pests, recent studies have shown encouraging results with the European endemic phytoseiid Typhlodromus (Anthoseius) recki. The first objective of the study was to assess the ability of this species to disperse along the tomato stem, considering six genotypes of Solanum lycopersicum, S. peruvianum and S. cheesmaniae with contrasted trichome numbers and types of stem trichomes, accuratetly characterised in a previous study. The second objective was to determine how predator morphological traits can explain dispersal along the tomato stem. For this, ambulatory dispersal ability of females (stem crossing rate success, hesitation and escape behavior, mobility periods) was tested in lab conditions on the eight Solanum genotypes, at four period of time after the predator introduction (10, 25, 55 and 100 min), with a video observation of 5 min at each period. The females were then mounted on slides and body length and width (at the fore hind, middle and back parts) measured. No effect of the tomato genotypes was observed on the dispersal ability of the predator. However, specimens that succeeded in crossing the stem, had a higher percentage of mobility time (79.36%) than those that failed (43.60%). Furthermore, body width at midbody (DSW2) and dorsal shield length (DSL) were negatively correlated with dispersal ability. The mean DSL and DSW2 of the females that succeed to cross were 342.3 and 160.9 μm, respectively vs. 345.6 and 164.9 μm, for females that did not succeed. This suggests that the more slender and relatively small the specimens, the more are mobile and able to successfully cross the stem. The number of glandular trichomes type (GT) VI and to a lesser extent GT I and IV, and non-glandular trichomes (NGT) II&III appear to limit dispersal. The GT VI seems to have a repellent effect. On the opposite, the number of NGT V were positively correlated with high mobility and stem crossing rates. Assuming that the main barrier to biological control efficiency is dispersal along tomato stems, these preliminary results should have implications for biological control success. The proportion of mites with 'optimal dimensions' appears to be low and further studies should be undertaken to better assess the proportion of mites with such ideal dimensions in different populations and also to determine whether these morphological traits are associated with different feeding abilities and/or abiotic conditions.

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来源期刊
CiteScore
3.90
自引率
9.10%
发文量
81
审稿时长
4-8 weeks
期刊介绍: Experimental and Applied Acarology publishes peer-reviewed original papers describing advances in basic and applied research on mites and ticks. Coverage encompasses all Acari, including those of environmental, agricultural, medical and veterinary importance, and all the ways in which they interact with other organisms (plants, arthropods and other animals). The subject matter draws upon a wide variety of disciplines, including evolutionary biology, ecology, epidemiology, physiology, biochemistry, toxicology, immunology, genetics, molecular biology and pest management sciences.
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