CBGP, INRAE, CIRAD, IRD, Institut Agro Montpellier, Univ. Montpellier, Montpellier, France.
UMR CBGP, Institut Agro Montpellier, INRAE, CIRAD, IRD, Univ. Montpellier, Montpellier, France.
Exp Appl Acarol. 2024 Jun;93(1):169-195. doi: 10.1007/s10493-024-00917-4. Epub 2024 May 14.
Trichomes are well-known efficient plant defense mechanisms to limit arthropod herbivory, especially in Solanaceae. The present study aims to evaluate the impact of trichome types on the development, survival and dispersal of Tetranychus urticae, and the phytoseiid predatory mite Typhlodromus (Anthoseius) recki. Six Solanum lycopersicum cultivars and two wild Solanum species, S. cheesmaniae and S. peruvianum, presenting contrasting densities and types of trichomes, were considered. Cultivars and species were characterized by counting each trichome type on leaves, petioles and stems. Mites stuck on petiole and stem and alive mites on the leaflet used for mite release and in the whole plant were counted three weeks after T. urticae plant infestation. Tetranychus urticae settlement and dispersal were differently affected by trichomes. Trichome types V and VI did not affect settlement and dispersal, whereas trichome types I and IV on the petiole had the highest impacton mites. Trichomes on leaves slightly affected mite establishment, there appears to be a repellent effect of trichome types I and IV. The low densities of both T. urticae and its predator detected for the cv. Lancaster could not be clearly associated to the trichome types here considered. The predator did not seem to be affected by plant characteristics, but rather by T. urticae numbers on the plant. The trichome traits unfavorable to T. urticae, did not affect the predator which showed high efficiency to control this pest on all the plant genotypes considered, but at a favorable predator:prey ratio (1:1). Altogether, these results are encouraging for the use of T. (A.) recki as a biological control agent of T. urticae regardless of the trichome structure of the tomato cultivars, but other conditions should be tested to conclude on practical implementations.
表皮毛是限制节肢动物取食的有效植物防御机制,在茄科植物中尤为明显。本研究旨在评估表皮毛类型对二斑叶螨的发育、生存和扩散以及捕食性螨虫智利小植绥螨的影响。考虑了具有不同表皮毛密度和类型的 6 个番茄栽培品种和 2 个野生茄属植物,即 S. cheesmaniae 和 S. peruvianum。通过计数叶片、叶柄和茎上的每种表皮毛类型来对栽培品种和物种进行特征描述。在番茄植株被二斑叶螨侵染 3 周后,统计贴附在叶柄和茎上的螨虫数量以及叶片上活螨数量。二斑叶螨的定居和扩散受到表皮毛的不同影响。表皮毛类型 V 和 VI 对定居和扩散没有影响,而叶柄上的表皮毛类型 I 和 IV 对螨虫的影响最大。叶片上的表皮毛对螨虫的建立略有影响,表皮毛类型 I 和 IV 似乎具有驱避作用。对于 Lancaster 栽培品种,检测到的二斑叶螨及其捕食者的密度较低,不能明确与这里考虑的表皮毛类型相关联。捕食者似乎不受植物特征的影响,而是受植株上二斑叶螨数量的影响。不利于二斑叶螨的表皮毛特性,并不影响捕食者,捕食者对所考虑的所有番茄基因型中的这种害虫表现出高效的控制作用,但在有利的捕食者:猎物比例(1:1)下。总的来说,这些结果令人鼓舞,可以使用智利小植绥螨作为二斑叶螨的生物防治剂,而无需考虑番茄栽培品种的表皮毛结构,但还需要测试其他条件才能得出实际实施的结论。
