硅能补充突变产生的对豇豆蚜虫的抗性吗?

IF 1.2 3区 农林科学 Q3 ENTOMOLOGY Arthropod-Plant Interactions Pub Date : 2024-11-27 DOI:10.1007/s11829-024-10116-y
Kennedy J. Zimba, Philemon H. Sohati, Kalaluka Munyinda, Joe M. Roberts, Tom W. Pope
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引用次数: 0

摘要

本研究调查了在豇豆(Vigna unguiculata L.)上淋施硅是否能补充突变产生的对豇豆蚜虫(Aphis craccivora Koch)的抗性。Lutembwe 是赞比亚广泛种植的豇豆品种,但易感蚜虫。基因型 LT 3-8-4-1、LT 4-2-4-1 和 LT 11-3-3-12 是利用伽马射线辐照从 Lutembwe 衍生出的豇豆突变体,已被确认对豇豆蚜虫具有部分抗性。评估了豇豆基因型的硅积累能力和蚜虫的表现参数,包括菌落生长、平均相对生长率和取食行为。与未处理的植株相比,在施硅的植株中,LT 3-8-4-1、LT 4-2-4-1、LT 11-3-3-12 和 Lutembwe 基因型的硅浓度明显更高。与未处理的植物相比,在 Lutembwe 上施用硅会导致蚜虫群生长缓慢,平均相对生长率较低。硅处理过的 Lutembwe 植物上蚜虫取食的电穿透图记录表明,硅产生的蚜虫抗性是由基于韧皮部的抗性因子介导的。然而,在LT 3-8-4-1、LT 4-2-4-1和LT 11-3-3-12上施用硅并没有增强蚜虫的抗性。这可能是由于突变基因型的部分抗性掩盖了施硅对这些植物的益处。这些结果表明,施硅或使用突变基因型可能是管理豇豆上蚜虫的有效工具,但结合使用这些方法似乎没有什么好处。这对制定豇豆蚜虫综合害虫管理框架具有重要意义。
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Can silicon complement mutation-derived resistance to cowpea aphid?

This study investigated whether silicon applied as a drench to cowpea (Vigna unguiculata L.) could complement mutation-derived resistance to cowpea aphid (Aphis craccivora Koch). Lutembwe is a cowpea variety widely grown in Zambia but is susceptible to aphids. Genotypes LT 3-8-4-1, LT 4-2-4-1 and LT 11-3-3-12 are cowpea mutants derived from Lutembwe using gamma irradiation and have been identified as having partial resistance to cowpea aphid. Silicon accumulation capacity of cowpea genotypes and aphid performance parameters including colony growth, mean relative growth rate and feeding behaviour were assessed. Where silicon was applied to plants significantly higher silicon concentrations were recorded in LT 3-8-4-1, LT 4-2-4-1, LT 11-3-3-12 and Lutembwe genotypes compared to untreated plants. Silicon application on Lutembwe resulted in slower aphid colony growth and lower mean relative growth rates compared to untreated plants. Electrical penetration graph recordings of aphid feeding on silicon-treated Lutembwe plants showed that silicon-derived aphid resistance is mediated by phloem-based resistance factors. Silicon application to LT 3-8-4-1, LT 4-2-4-1 and LT 11-3-3-12, however, did not enhance aphid resistance. This may be due to the partial resistance of mutation-derived genotypes masking any benefits from silicon application to these plants. These results indicate that silicon application or use of mutation-derived genotypes may be effective tools with which to manage aphids on cowpea, but there appears to be little benefit of combining these approaches. This has important implications for developing an integrated pest management framework for cowpea aphid.

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来源期刊
Arthropod-Plant Interactions
Arthropod-Plant Interactions 生物-昆虫学
CiteScore
3.00
自引率
6.20%
发文量
58
审稿时长
6 months
期刊介绍: Arthropod-Plant Interactions is dedicated to publishing high quality original papers and reviews with a broad fundamental or applied focus on ecological, biological, and evolutionary aspects of the interactions between insects and other arthropods with plants. Coverage extends to all aspects of such interactions including chemical, biochemical, genetic, and molecular analysis, as well reporting on multitrophic studies, ecophysiology, and mutualism. Arthropod-Plant Interactions encourages the submission of forum papers that challenge prevailing hypotheses. The journal encourages a diversity of opinion by presenting both invited and unsolicited review papers.
期刊最新文献
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