Research Unit of Integrated Crop Production, Centre Regional de la Recherche Agronomique d'Agadir, plant protection laboratory, Inezgane, Morocco.
Biotechnology and Environmental Engineering Team, Laboratory for Process Environmental and Energy Engineering, National School of Applied Sciences, Ibn Zohr University, Agadir, Morocco.
PLoS One. 2020 Apr 16;15(4):e0231496. doi: 10.1371/journal.pone.0231496. eCollection 2020.
In agroecosystems, soil biodiversity is increasingly becoming more recognized as providing benefits to both plants and human health. It performs a wide variety of ecological services beyond the recycling of nutrients to plant growth and manage pests and diseases below the economic injury level. This study investigated the effects of three Pseudomonas isolates (Q172B, Q110B and Q036B), isolated from untreated tomato rhizospheric soil, as a biological control agent of Bemisia tabaci which is a key pest of tomato crops. The study was conducted under laboratory and glasshouse conditions and the water treatment was used as a control. Adult mortality rates were assessed during three days at 24h interval and larva mortality rates were evaluated during six days after treatment at 48h interval. Results indicate that Q036B isolate has a faster effect on B. tabaci adult and larvae. Under laboratory conditions, all three Pseudomonas isolates (Q110B, Q036B and Q172B) have a significant effect on B. tabaci adult mortality compared to control. The earliest and the most important mortality rate of 76% was recorded by Q036B. Two isolates Q036B and Q110B caused a significant mortality on B. tabaci larvae; with highest mortality effect (79%) was observed for Q036B compared to control. However, Q172B has no mortality effects on B. tabaci larvae under laboratory conditions. In glasshouse conditions, only Q036B provided high mortality rates of 91% at 168h after treatment. The results of this study indicate that the Pseudomonas isolate Q036B significantly suppresses B. tabaci in tomato plant and could substitute the excessive use of chemicals. Current research indicates that soil biodiversity could be promising to preserve agro-ecological sustainability.
在农业生态系统中,土壤生物多样性越来越被认为对植物和人类健康都有益。它提供了多种生态服务,不仅可以回收养分促进植物生长,还可以在经济损害水平以下管理病虫害。本研究调查了从未经处理的番茄根际土壤中分离出的三种假单胞菌(Q172B、Q110B 和 Q036B)作为烟粉虱(Bemisia tabaci)生物防治剂的效果,烟粉虱是番茄作物的主要害虫。该研究在实验室和温室条件下进行,以水处理作为对照。在 24 小时的间隔内,评估了成虫死亡率,在处理后 48 小时的间隔内,评估了幼虫死亡率。结果表明,Q036B 分离株对烟粉虱成虫和幼虫的作用更快。在实验室条件下,与对照相比,三种假单胞菌(Q110B、Q036B 和 Q172B)对烟粉虱成虫的死亡率均有显著影响。Q036B 记录了最早和最重要的 76%死亡率。两种分离株 Q036B 和 Q110B 对烟粉虱幼虫有显著的致死作用;与对照相比,Q036B 的致死效果最高(79%)。然而,Q172B 在实验室条件下对烟粉虱幼虫没有致死作用。在温室条件下,只有 Q036B 在处理后 168 小时提供了高达 91%的高死亡率。本研究结果表明,假单胞菌分离株 Q036B 能显著抑制番茄植株上的烟粉虱,可替代过度使用化学农药。目前的研究表明,土壤生物多样性有望维持农业生态系统的可持续性。
