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AajoudA., RavetonM., AouadiH., TissutM. and RavanelP.2006. Uptake and xylem transport of fipronil in sunflower. Journal of Agricultural and Food Chemistry54:5055–60.10.1021/jf060408116819916Search in Google Scholar
AajoudA., RavetonM., Azrou-IsghiD., TissutM. and RavanelP.2008. How can the fipronil insecticide access phloem?Journal of Agricultural and Food Chemistry56:3732–7.10.1021/jf800043h18442251Search in Google Scholar
CadetP. and SpaullV. W.2005. Nematode parasites of sugarcane, in LucM., SikoraR. A. and BridgeJ. (Eds), Plant parasitic nematodes in subtropical and tropical agriculture, 2nd ed., CAB International, Wallingford, 645–74.Search in Google Scholar
ColeL. M., NicholsonR. A. and CasidaJ. E.1993. Action of phenylpyrazole insecticides at the GABA-gated chloride channel. Pesticide Biochemistry and Physiology46:47–54.10.1006/pest.1993.1035Search in Google Scholar
CucN. T. T., SonN. T., TrungT. M., văn TrangN., ĐangL. M. and PilonM.2010. Hot water treatment prevents Aphelenchoides besseyi damage to Polianthes tuberosa crops in the Mekong Delta of Vietnam. Crop Protection29:599–602.10.1016/j.cropro.2010.01.006Search in Google Scholar
GunasekaraA. S., TruongT., GohK. S., SpurlockF. and TjeerdemaR. S.2007. Environmental fate and toxicology of fipronil. Journal of Pesticide Science32:189–99.10.1584/jpestics.R07-02Search in Google Scholar
InghamR. E.1994. Nematodes, in WeaverR. W. (Ed.), Methods of soil analysis. Part 2. Microbiological and biochemical properties, American Society of Agronomy, Madison, WI, 459–90.Search in Google Scholar
KawanobeM., MiyamaruN., YoshidaK., KawanakaT. and ToyotaK.2014. Plant-parasitic nematodes in sugarcane fields in Kitadaito Island (Okinawa), Japan, as a potential sugarcane growth inhibitor. Nematology16:807–20.10.1163/15685411-00002810Search in Google Scholar
KawanobeM., MiyamaruN., YoshidaK., KawanakaT. and ToyotaK.2015. Quantification of lesion nematode (Pratylenchus zeae), stunt nematode (Tylenchorhynchus leviterminalis), spiral nematode (Helicotylenchus dihystera), and lance nematode (Hoplolaimus columbus), parasites of sugarcane in Kitadaito, Okinawa, Japan, using real-time PCR. Nematological Research45:35–44.10.3725/jjn.45.35Search in Google Scholar
KawanobeM., MiyamaruN., YoshidaK., KawanakaT. and ToyotaK.2016. A field experiment with nematicide treatment revealed potential sugarcane yield loss caused by plant-parasitic nematodes in Okinawa, Japan. Nematological Research46:9–16.10.3725/jjn.46.9Search in Google Scholar
KawanobeM., MiyamaruN., YoshidaK., KawanakaT., FujitaT. and ToyotaK.2019. Sugarcane yield loss in the ratoon crop carried over from the plant crop damaged by plant-parasitic nematode in a heavy clay field in Okinawa, Japan. Nematological Research49:1–6.10.3725/jjn.49.1Search in Google Scholar
KawasakiS., TominagaJ., YabutaS., FukuzawaY., UenoM. and KawamitsuY.2014. Effects of fipronil bait on sugarcane growth and yield on Kume Island, Okinawa, Japan. Tropical Agriculture and Development58:135–9.Search in Google Scholar
MandalK. and SinghB.2013. Persistence of fipronil and its metabolites in sandy loam and clay loam soils under laboratory conditions. Chemosphere91:1596–603.10.1016/j.chemosphere.2012.12.05423369635Search in Google Scholar
MohamedF., SenarathnaL., PercyA., AbeyewardeneM., EagleshamG., ChengR., AzherS., HittarageA., DissanayakeW., SheriffR., DaviesW., BuckleyN. and EddlestonM.2004. Acute human self-poisoning with the N-phenylpyrazole insecticide fipronil-a GABAA-gated chloride channel blocker. Journal Toxicology: Clinical Toxicology42:955–63.10.1081/CLT-200041784Search in Google Scholar