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Effect of Pasteuria penetrans against Meloidogyne spp., on peanut cultivars

Effect of Pasteuria penetrans against Meloidogyne spp., on peanut cultivars

A.A. Mokbel

Department of Plant Pathology, Faculty of Agriculture, Alexandria University, Alexandria, Egypt
Current address: Department of Biology, Faculty of Science, Jazan University, Kingdom of Saudi Arabia
Corresponding author email: [email protected]

ABSTRACT

Twelve phytoparasitic nematode genera were found infected or associated with the rhizosphere of peanut plants.
Meloidogyne arenaria was the most common nematode in all collected soil samples followed by Tylenchorhynchus
spp., Helicotylenchus spp., M. javanica and Pratylenchus penetrans. All tested peanut cultivars were resistant to M.
incognita race 2 and moderately resistant to M. javanica. Whereas, peanut cvs. Balady, Ismailia 1 and Giza 6 were
found highly susceptible to M. arenaria race 1 and Giza 4 and Giza 5 cvs. were susceptible. The suppressive
efficacy of using three isolates of Pasteuria penetrans (Pp) against M. arenaria race 1 infected peanut was tested
through two microplot experiments during two growing seasons 2011-12. Treatments in 1st season with two
concentrations of the three mixed Pp isolates caused the highest reduction of 74.8-86.9% in number of nematode
root galls, egg-masses/root system and number of J2/250 cm3 soil compared with any single Pp isolate application.
Meanwhile, all treatments in 2nd season with both concentrations of all Pp isolates either alone or as a mixed isolates
resulted in 65.7-94.7% reduction in all nematode parameters. Treatments with high concentration of all Pp isolates
either alone or as mixed resulted 61.4-72.2% encumbered J2 in the 1st season and increased to 93.2-97.9% in the 2nd
season. Treatments with two concentrations of mixed isolates and PpT isolate resulted in a significant increase of
51.7-77.0% in dry weights of shoot and root systems and number of peanut pods/plant, followed by treatments with
the same concentrations of PpB and PpG isolates, which showed 32.7-48.5% increase. Number of bacterial
nodules/root system was significantly increased with Pp treatments in both seasons. However, numbers of adherent
endospores on J2 cuticle were ranged 3.6-9.4 and 6.2-11.4 endospore/J2 in the 1st and 2nd season, respectively. High
Pp concentrations resulted in the highest numbers of adherent endospores.

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Pakistan Journal of Nematology

June

Pakistan Journal of Nematology, Vol. 42, Iss. 1, Pages 1-87

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