Understanding the movement of root-knot nematodes encumbered with or without Pasteuria penetrans |
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| Authors: | Ioannis Vagelas Mike D Dennett Barbara Pembroke Pandelis Ipsilandis Simon R Gowen |
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| Institution: | 1. Department of Plant Production , Technological Educational Institute of Larissa , Larissa , Greece;2. School of Biological Sciences , University of Reading , Reading , UK;3. School of Agriculture, Policy and Development , University of Reading , Reading , UK;4. Department of Project Management , Technological Educational Institute of Larissa , Larissa , Greece |
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| Abstract: | Pasteuria penetrans is a naturally occurring bacterial parasite of plant parasitic nematodes showing satisfactory results in a biocontrol strategy of root-knot nematodes (Meloidogyne spp.). The endospores attach to the outside nematode body wall (cuticle) of the infective stage second-stage juveniles (J2) of Meloidogyne populations. Optimal attachment level should be around 5–10 endospores per juvenile, as enough endospores will initiate infection without reducing the ability of the nematode to invade roots. Greater than 15 endospores may disable the nematode in its movements, and invasion may not take place. In this research, evidence is provided that P. penetrans spores disturbed the nematode forward movement by disorganising the nematode's head turns. The results based on Markov chain and Cochran probability model show that even a low number of 5–8 spores of P. penetrans attached to the nematode cuticle have a significant impact on that movement, which plays a role in nematode locomotion. |
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| Keywords: | nematode motion statistical analysis modelling |
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