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Showing 3 results for Abootorabi
Four Marigold Species as Control Agents of Root Knot Nematodes
Elmira Abootorabi,
Volume 6, Issue 1 (2-2017)
Abstract

Abootorabi E. 2017. Four marigold species as control agents of root knot nematodes. Plant Pathology Science 6(1):68-79.

The Root knot nematodes (Meloidogyne spp.) are major limiting factors in growing many agricultural crops. With the aim of producing a healthy crop, cultivation of some plants with allelopathic effects on nematodes is one of the most effective control measure against root knot nematodes. This method can be used as an excellent substitute of chemical treatment. Marigolds (Tagetes spp.) are herbaceous plants of family Astraceae with more than 50 species, can be used as ornamental cover crops. Nematicidal effects of marigolds on several nematodes had been proved. Marigolds produce alpha-terthienyl enzyme, which can control root-knot nematodes and other pests and pathogens such as fungi, bacteria and insects. It also has positive role in promoting growth of bedding plants. In this article, important marigold species including Tagetes tenuiifolia Cav., T. minuta L., T. patula L. and T. erecta L., have been introduced.


8- Introduction of three native entomopathogenic nematodes of Iran and their impact on honeycomb moth
Elmira Abootorabi, Laleh Ebrahimi,
Volume 11, Issue 1 ((Autumn & Winter) 2022)
Abstract
Abootorabi E, Ebrahimi L (2022) Introduction of three entomopathogenic nematodes of Iran and their impact on honeycomb moth. Plant Pathology Science 11(1):89-99.        
 Doi: 10.2982/PPS.11.1.89.
 
Introduction: The aim of this study was to collect and identify entomopathogenic nematodes native to Iran and to evaluate their pathogenicity on honeycomb moth larvae (Galleria mellonella). Materials and Methods: Thirteen isolates of entomopathogenic nematodes were collected from different provinces of Iran and identified based on morphological characters. The percentage mortality of G. mellonella larvae infected with these isolates at 25 ± 1 and 32 ± 1 °C was determined in a one-to-one assay, and the ability of the isolates to find a target and the mortality of the insect in the sand column test were determined. Results: Seven isolates of Heterorhabditis bacteriophora, two isolates of Steinernema feltiae, and five isolates of S. carpocapsae were identified. The ability of isolates of all three nematode species to penetrate the insect's body has been shown to be up to 93% within 48-72 hours post-infection at 25 ± 1°C. The optimum temperature for the biological activity of the identified isolates was 25±1°C. S. carpocapsae found a target faster than the other two species in the sand column test. Conclusion: Isolates of S. carpocapsae have higher potential in targeting and pathogenicity of honeycomb moth larvae than the other two nematode species.


The reaction of 32 tomato genotypes to root-knot nematode Meloidogyne javanica
Elmira Abootorabi,
Volume 12, Issue 1 ((Autumn & Winter) 2023)
Abstract
Abootorabi E (2023) The reaction of 32 tomato genotypes to root-knot nematode Meloidogyne javanica. Plant Pathology Science, 12(1):25-35.    
Doi: 10.2982/PPS.12.1.25
 
Introduction: This research was conducted with the aim of determining the reaction of 32 tomato genotypes from the plant gene bank of Iran to the root-knot nematode Meloidogyne javanica, to identify resistant genotypes during two years under greenhouse conditions. Materials and Methods: After purifying the nematode population and planting the seeds of 32 tomato genotypes and reaching the stage of 3-4 leaves, each treatment was inoculated with 6000 eggs and larvae of M. javanica in five replicates, and 60 days after inoculation, vegetative traits and traits related to nematode population were determined in each treatment, and based on gall index (GI) and nematode reproductive factor (Rf), the reaction of genotypes to nematode was determined. Results: Eighteen  genotypes with Rf>1 and GI>2, 23 genotypes with Rf<1 and GI>2, and three genotypes TN-72-938, TN-72-1041 and TN-72-1012 with Rf≤1 and GI≤2, were identified as susceptible, moderately resistant, and resistant to this destructive nematode respectively. Conclusion: These three resistant genotypes can be used in the M. javanica management program.



 
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