Abstract
Essential oil (EO) and hydrosol (HL) isolated from an indigenous plant species Satureja hellenica were evaluated against Meloidogyne incognita and M. javanica. Particularly, the activity of extracts on a second stage juvenile’s (J2s) motility, the hatching of J2s from eggs, egg differentiation and the effect on J2s in soil were tested. A paralysis of 100% of the J2s of both species was recorded after 96 h of immersion in the essential oil, at a dose of 2000 μL/L. At the same dose, the percentage of paralyzed J2s after 48 h of immersion was more than 80%, for both Meloidogyne species. The use of hydrosol has shown encouraging results only in the dilution of 50%, where for both Meloidogyne species tested, the percentage of paralyzed J2s was more than 70% after 48 h of immersion, while the percentage was increased to 90% after 96 h of immersion. Egg differentiation was ceased after immersion, either in EO or HL. However, this decrease in egg differentiation was evident only at higher concentrations of EO and at the highest HL dilution (0.5 v/v). The hatching of M. incognita J2s was decreasing as the dose was increasing. The lowest numbers of hatched J2s were recorded at the doses of 2000 and 4000 μL/L. A clear reduction in M. javanica J2s hatching was observed as the dose was increased to 250 μL/L, a fact constantly observed as the dose was increasing up to 4000 μL/L. Lower numbers of nematodes were recorded in roots grown in infested soil after the application of EO or HL at the highest doses. The EO of S. hellenica is characterized by the presence of p-cymene (27.46%) and carvacrol (23.25%), and in a lesser extent of other constituents, such as borneol (6.79%), carvacrol methylether (6.77%), γ-terpinene (4.63%) and 4-terpineol (3.65%). Carvacrol was the major constituent found in the HL (50.12%), followed by borneol and 4-terpineol (20.42 and 6.72%, respectively).
Highlights
Plant parasitic nematodes are the most destructive group of plant pathogens worldwide, and their control is extremely challenging [1]
Thirty-two constituents were identified from the Essential oil (EO), while 18 constituents were recorded in the hydrosol
The EO is characterized by the presence of p-cymene (27.46%) and carvacrol (23.25%), and in a lesser extent of other constituents such as borneol
Summary
Plant parasitic nematodes are the most destructive group of plant pathogens worldwide, and their control is extremely challenging [1]. In the recent past years, a lot of nematicides have been widely used to suppress the root-knot nematodes (RKN) populations in vegetable production. Some nematicides, such as methyl bromide, have been banned, due to their adverse effect on the environment. Nematodes management is based on cultural practices, crop rotation, resistant cultivars or root stocks and the use of a limited number of synthetic chemical nematicides. A lot of research has been undertaken to find new molecules which are effective against plant parasitic nematodes [5,6,7,8,9,10]. Plant derived phytochemicals can be used as pesticides themselves, or they can serve as model compounds for the agrochemical industry [6]
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