Title : Sublethal concentrations of conventional nematicides alter the physiological activities of Meloidogyne incognita and suppress parasitism - Abdel-Rahman_2023_Sci.Rep_13_229 |
Author(s) : Abdel-Rahman AA , Kesba HH , Mohamed HG , Kamel DF , Ahmed FS |
Ref : Sci Rep , 13 :229 , 2023 |
Abstract :
Reducing nematicide dose rates could be a useful strategy for mitigating their negative effects on health and the environment. In this study, enzymatic activities and the parasitic ability of Meloidogyne incognita after exposure to sub-lethal concentrations (0.25, 1, 2, and 5sppm) of ethoprophos, fenamiphos, and oxamyl were investigated. Although the tested concentrations did not show nematicidal properties in vitro, they reduced root galls by at least 30% at 0.25sppm and up to 67% at 5sppm in pots, besides disrupting nematode fertility. For all three nematicides at 2sppm, a chemotaxis assay showed that >= 11% of the nematode population was successfully oriented to the host roots, compared to 44% in the control. Ethoprophos and fenamiphos at 5sppm showed poor inhibitory effects on acetylcholinesterase (AChE) activity (5.6% and 12.5%, respectively). In contrast, the same nematicides were shown to be strong ATPase inhibitors, causing 82.4% and 82.8% inhibition, respectively. At the same concentration, oxamyl moderately inhibited AChE and ATPase-specific activities, the inhibition being 22.5% and 35.2%, respectively. This study suggests that the use of very low nematicide concentrations could be a promising strategy for nematode management. Furthermore, it has also highlighted the role of ATPases as a possible target site for suppressing nematode activity in the development of future nematicides. |
PubMedSearch : Abdel-Rahman_2023_Sci.Rep_13_229 |
PubMedID: 36604555 |
Abdel-Rahman AA, Kesba HH, Mohamed HG, Kamel DF, Ahmed FS (2023)
Sublethal concentrations of conventional nematicides alter the physiological activities of Meloidogyne incognita and suppress parasitism
Sci Rep
13 :229
Abdel-Rahman AA, Kesba HH, Mohamed HG, Kamel DF, Ahmed FS (2023)
Sci Rep
13 :229