References
- Ali, J., Alborn, H., and Stelinski, L.. 2010. Subterranean herbivore induced volatiles released by citrus roots upon feeding by Diaprepes abbreviatus recruit entomopathogenic nematodes. Journal of Chemical Ecology 36: 361-368.
- Bargmann, C. I., Hartwieg, E., and Horvitz, H. R.. 1993. Odorant-selective genes and neurons mediate olfaction in C. elegans. Cell 74: 515-527.
- Curtis, R. H. C.. 2008. Plant-nematode interactions: Environmental signals detected by the nematode’s chemosensory organs control changes in the surface cuticle and behaviour. Parasite 15: 310-316.
- Dash, M., Dutta, T. K., Phani, V., Papolu, P. K., Shivakumara, T. N., and Rao, U.. 2017. RNAi-mediated disruption of neuropeptide genes, nlp-3 and nlp-12, cause multiple behavioral defects in Meloidogyne incognita. Biochemical and Biophysical Research Communications 490: 933-940.
- Dutta, T. K., Powers, S. J., Kerry, B. R., Gaur, H. S., and Curtis, R. H. C.. 2011. Comparison of host recognition, invasion, development and reproduction of Meloidogyne graminicola and M. incognita on rice and tomato. Nematology 13: 509-520.
- Dutta, T. K., Papolu, P. K., Banakar, P., Choudhary, D., Sirohi, A., and Rao, U. 2015. Tomato transgenic plants expressing hairpin construct of a nematode protease gene conferred enhanced resistance to root-knot nematodes. Frontiers in Microbiology 6: 260.
- Eo, J., Nakamoto, T. N., Otobe, K., and Mizukubo, T. M.. 2007. The role of pore size on the migration of Meloidogyne incognita juveniles under different tillage systems. Nematology 9: 751-758.
- Eo, J., Otobe, K., and Mizukubo, T.. 2008. Absence of geotaxis in soil-dwelling nematodes. Nematology 10: 147-149.
- Farnier, K., Bengtsson, M., Becher, P. G., Witzell, J., Witzgall, P., and Manduríc, S.. 2012. Novel bioassay demonstrates attraction of the white potato cyst nematode Globodera pallida (Stone) to non-volatile and volatile host plant cues. Journal of Chemical Ecology 38: 795-801.
- Gardener, S., and Jones, J. G.. 1984. A new solidifying agent for culture media which liquefies on cooling. Journal of General Microbiology 130: 731-733.
- Hida, H., Nishiyama, H., Sawa, S., Higashiyama, T., and Arata, H.. 2015. Chemotaxis assay of plant-parasitic nematodes on a gel-filled microchannel device. Sensors and Actuators B: Chemical 221: 1483-1491.
- Hoagland, D. R., and Arnon, D. I.. 1950. The water-culture method for growing plants without soil, University of California, College of Agriculture, Agricultural Experiment Station, Berkeley, CA.
- Jones, J. T., Haegeman, A., Danchin, E. G. J., Gaur, H. S., Helder, J., Jones, M. G. K., Kikuchi, T., Manzanilla-Lopez, R., Palomares-Rius, J. E., Wesemael, W. M. L., and Perry, R. N.. 2013. Top 10 plant-parasitic nematodes in molecular plant pathology. Molecular Plant Pathology 14: 946-961.
- Ko, M. P., and Van Gundy, S. D.. 1988. An alternative gelling agent for culture and studies of nematodes, bacteria, fungi, and plant tissues. Journal of Nematology 20: 478-485.
- Kumari, C., Dutta, T. K., Banakar, P., and Rao, U.. 2016. Comparing the defence related gene expression changes upon root-knot nematode attack in susceptible versus resistant cultivars of rice. Scientific Reports 6: 22846.
- Palomares-Rius, J. E., Escobar, C., Cabrera, J., Vovlas, A., and Castillo, P.. 2017. Anatomical alterations in plant tissues induced by plant-parasitic nematodes. Frontiers in Plant Science 8: 1987.
- Papolu, P. K., Gantasala, N. P., Kamaraju, D., Banakar, P., Sreevathsa, R., and Rao, U.. 2013. Utility of host delivered RNAi of two FMRFamide like peptides, flp-14 and flp-18, for the management of root-knot nematode, Meloidogyne incognita. PLoS One 8: e80603.
- Perry, R. N.. 2005. An evaluation of types of attractants enabling plant-parasitic nematodes to locate plant roots. Russian Journal of Nematology 13: 83-88.
- Rasmann, S., Kollner, T. G., Degenhardt, J., Hiltpold, I., Toepfer, S., Kuhlmann, U., Gershenzon, J., and Turlings, T. C. J.. 2005. Recruitment of entomopathogenic nematodes by insect-damaged maize roots. Nature 434: 732-737.
- Rengarajan, S., and Hallem, E. A.. 2016. Olfactory circuits and behaviors of nematodes. Current Opinion in Neurobiology 41: 136-148.
- Reynolds, A. M., Dutta, T. K., Curtis, R. H. C., Powers, S. J., Gaur, H. S., and Kerry, B. R.. 2011. Chemotaxis can take plant-parasitic nematodes to the source of a chemoattractant via the shortest possible routes. Journal of the Royal Society Interface 8: 568-577.
- Robinson, A. F.. 2000. Techniques for studying nematode movement and behavior on physical and chemical gradients. Society of Nematologists Ecology Committee.
- Spence, K. O., Lewis, E. E., and Perry, R. N.. 2008. Host finding and invasion by entomopathogenic and plant-parasitic nematodes: evaluating the ability of laboratory bioassays to predict field results. Journal of Nematology 40: 93-98.
- Wang, C. L., Lower, S., and Williamson, V. M.. 2009a. Application of pluronic gel to the study of root-knot nematode behaviour. Nematology 11: 453-464.
- Wang, C., Bruening, G., and Williamson, V. M.. 2009b. Determination of preferred pH for root-knot nematode aggregation using pluronic F-127 gel. Journal of Chemical Ecology 35: 1242-1251.
- Wang, C., Lower, S., Thomas, V. P., and Williamson, V. M.. 2010. Root-knot nematodes exhibit strain-specific clumping behavior that is inherited as a simple genetic trait. PLoS One 5: e15148.
- Whitehead, A. G., and Hemming, J. R.. 1965. A comparison of some quantitative methods of extracting small vermiform nematodes from soil. Annals of Applied Biology 55: 25-38.
- Wuyts, N., Swennen, R., and De Waele, D.. 2006. Effects of plant phenylpropanoid pathway products and selected terpenoids and alkaloids on the behavior of the plant-parasitic nematodes Radopholus similis, Pratylenchus penetrans and Meloidogyne incognita. Nematology 8: 89-101.