Factors influencing the effectiveness of non-pathogenic Fusarium solani strain Fs5 in the suppression of root-knot nematode in tomato [Lycopersicon esculentum Mill.]

Four experiments were carried out under greenhouse conditions to evaluate the effectiveness of Fusarium solani strain Fs5 against the root-knot nematode Meloidogyne javanica. The effect of population densities of M. javanica, various application rates of F. solani, moisture regimes and levels of ben...

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Bibliographic Details
Published in:Phytopathologia mediterranea 2003-04, Vol.42 (1), p.17-26
Main Authors: Siddiqui, I.A, Shaukat, S.S. (Karachi Univ. (Pakistan). Dept. of Botany)
Format: Article
Language:English
Subjects:
ANTAGONISM
ANTAGONISME
ANTAGONISMO
BENZALDEHYDE
BENZALDEHÍDO
BENZALDEIDE
BENZALDÉHYDE
BIOLOGICAL CONTROL
COLTURE IN SERRA
CONTENUTO D'ACQUA DEL SUOLO
CONTROL BIOLÓGICO
CONTROLLO BIOLOGICO
CRECIMIENTO
CRESCITA
CROISSANCE
CULTIVOS DE INVERNADERO
ESPERIMENTI IN VASO
EXPERIMENTACIÓN EN CONTENEDOR
EXPERIMENTAL INFECTION
EXPÉRIMENTATION EN POT
Fungi
Fusarium
FUSARIUM SOLANI
GREENHOUSE CROPS
GROWTH
INFECCIÓN EXPERIMENTAL
INFECTION EXPÉRIMENTALE
INFESTACIÓN
INFESTATION
INFESTAZIONE
INFEZIONE SPERIMENTALE
LUTTE BIOLOGIQUE
LYCOPERSICON ESCULENTUM
MELOIDOGYNE JAVANICA
Nematode eggs
Nematodes
PARASITISM
PARASITISME
PARASITISMO
PARASSITISMO
Plant parasitic nematodes
Plant roots
PLANTE DE SERRE
Plants
POT EXPERIMENTATION
RESEARCH PAPERS
SINTOMI
Soil fungi
Soil nematodes
Soil water
SYMPTOME
SYMPTOMS
SÍNTOMAS
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Summary:Four experiments were carried out under greenhouse conditions to evaluate the effectiveness of Fusarium solani strain Fs5 against the root-knot nematode Meloidogyne javanica. The effect of population densities of M. javanica, various application rates of F. solani, moisture regimes and levels of benzaldehyde, a volatile compound of plant origin affecting the plant-nematode-fungus interaction, were also studied. F. solani parasitized eggs and females of M. javanica and thereby reduced root-knot severity in tomato. Although the fungus was frequently isolated from root tissues, it did not produce phytotoxic symptoms; instead, there was enhanced plant growth. At higher nematode densities, inner root colonization by the fungus increased. The rates of fungal infection on M. javanica eggs and females also increased with increasing nematode densities and fungal inoculum levels. Nematode invasion and subsequent root-knot increased with increasing soil moisture, in both F. solani-treated and untreated plants. However, root-knot development was lower at all moisture regimes when F. solani was applied to the soil. Root colonization by F. solani and parasitism on female nematodes was highest at 50% moisture holding capacity (MHC) whereas egg parasitism by the fungus was greatest at 75% MHC. With increasing concentration of benzaldehyde in soil, nematode penetration and subsequent root-knot infection were progressively reduced. Root colonization by F. solani was greatest in soil treated with benzaldehyde at 2 μg g⁻¹ of soil in the presence of M. javanica. Increasing benzaldehyde concentrations resulted in increased parasitism of M. javanica females by F. solani but in lower parasitism of the eggs. Treatments with F. solani led to better plant growth when they were combined with benzaldehyde at 2 μg g⁻¹ of soil.
ISSN:0031-9465
1593-2095
DOI:10.14601/Phytopathol_Mediterr-1687