1,721,007 research outputs found
SUPPRESSIVE EFFECT OF COMPOSTED OLIVE MILL WASTES SOIL AMENDMENTS ON THE ROOT-KNOT NEMATODE MELOIDOGYNE INCOGNITA
No full textIncorporation into the soil of olive mill wastes after an appropriate composting process (composted - OMW) can represent a possible solution to the problem of their disposal and in addition can improve plant resistance to nematode attack by stimulating root development and plant growth because of their large content of nutritive elements. Therefore, a field experiment was undertaken in southern Italy to investigate the suppressive effect of incorporation into the soil of olive composted pomace, both fresh and exhausted, on the root-knot nematode Meloidogyne incognita. Composted olive pomace obtained by mixing fresh solid cake with farmyard manure and another compost obtained by mixing exhausted solid cake with poultry manure and wheat straw at doses of 10, 20 and 40 t ha-1, were compared with two controls: i) untreated control; ii) treatment with fenamiphos (traditional nematicide) at 0.3 t ha-1. All treatments were applied before transplanting tomato plants on a sandy soil infested by the nematode. Tomato crop yield, soil nematode population and root gall index were recorded in all plots. The results obtained showed that crop yield in amended plots was enhanced and that both composted - OMW were suppressive on M. incognita
Control of root-knot nematodes with biomasses from Medicago sativa and their bioactive saponins
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The potential of Citrullus colocynthis oil as a biocide against phytoparasitic nematodes
No full textThe high content of nematicidal fatty acids in Citrullus colocynthis seed oil could result in a novel product with a nematicidal potential. In this study, C. colocynthis oil was evaluated for its in vitro activity both against infective juveniles and eggs of the root-knot nematode Meloidogyne incognita and against infective specimens of the lesion nematode Pratylenchus vulnus, as well as against the suppressiveness of M. incognita in an experiment on potted tomatoes. The fatty acid composition of the tested oil was determined by gas chromatography analysis. Linoleic acid methyl ester (44.63%) and oleic acid (26.48%) were the two main fatty acid components, but there were also consistent percentages of erucic acid methyl ester (10.08%), palmitic acid (7.88%), and stearic acid (5.86%). C. colocynthis oil was highly toxic to M. incognita juveniles (>73% mortality) after a 24-h exposure to a 25 μg mL−1 solution, whereas infective specimens of P. vulnus were less sensitive with 46.6% mortality after a 24-h exposure to a 100 μg mL−1 oil solution. The viability of M. incognita eggs was strongly affected by C. colocynthis oil treatments with more than 64% egg mortality resulting from a 72-h immersion in a 250 μg mL−1 oil solution. Soil treatments with C. colocynthis oil resulted in a significant reduction of both M. incognita eggs and gall formation on tomato roots, as well as of nematode density in the soil, in comparison to the non-treated control. Tomato plant growth was not negatively affected by C. colocynthis oil treatments, though a slight increase in plant biomass was recorded at just the highest concentrations of oil. This research demonstrates the nematicidal properties of C. colocynthis oil and, thus, its potential for the formulation of new products that could be applied in the context of organic or integrated management of phytoparasitic nematodes
Control of root-not nematodes with biomasses from alfalfa (Medicago sativa L.) and their bioactive saponins
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Nematicidal potential of Brassicaceae
No full textBrassicaceae Burnett (syn. Cruciferae A. L. de Jussieu) include many important economic plants used as edibile or ornamental. They are commonly known as the “mustard” plant family due to the sharp, potent flavour of their main metabolites, the glucosinolates (GLSs) which contain sulfur. Glucosinolates coexist in vivo with glycosylated thioglucosidases, myrosinase(s), responsible of their hydrolysis with the production of bioactive cognate isothiocyanates (ITC). GLSs and ITCs function as defence bioactive metabolites against plant pathogens, insects and herbivores. The present review paper focus on GLSs role as bionematicides. The current knowledge on the efficacy of these phytochemicals against the most common phytoparasitic nematodes affecting crops of agriculture importance such as tomato, potato and grapevine is reported. Data from our ongoing research on the in vitro biocidal activity of glucosinolate extracts, and their main components, against the virus-vector nematode Xiphinema index Thorne & Allen and the carrot cyst nematode Heterodera carotae Jones are also described
Controllo di Meloidogyne javanica su pomodoro mediante solarizzazione e dose ridotta di fumigante.
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