Miller Magazine Issue: 118 October 2019

86 ARTICLE MILLER / OCTOBER 2019 REFERENCES Graph: Phosphine concentration (orange line) is fluctuating during the day, affected by grain temperature (blue line) and air currents in the grain mass (monitoring using the centaur. ag technology) Agrafioti P., Athanassiou C. G., Nayak M. K. (2019). De- tection of phosphine resistance in stored-product insects in Greece and evaluation of a field resistance test kit. J Stored Prod Res 82: 40-47. Araujo RA, Guedes RNC, Oliveira MGA et al (2008) En- hanced proteolytic and cellulolytic activity in insecticide-re- sistance strains of the maize weevil, Sitophilus zeamais. J Stored Prod Res 44:354–359 Benhalima, H., Chaudhry, M.Q., Mills, K.A., Price, N.R., 2004. Phosphine resistance in stored-product insects col- lected from various grain storage facilities in Morocco. J. Stored Prod. Res.40, 241-249. Chandhry M. Q., 2000.Phosphine resistance: a growing threat to an ideal fumigant. Pesticide Outlook, pp: 88-91. Chen, Z., Schlipalius, D., Opit, G., Subramanyam, B., Phillips, T.W., 2015. Diagnostic Molecular Markers for Phos- phine Resistance in U.S. populations of Tribolium castane- um and Rhyzopertha dominica. PloS One 10, 0121343. Collins, P.J., Daglish, G.J., Pavic, H., and Kopittke, R.A., 2005. Response of mixed-age cultures of phosphine-re- sistant and susceptible strains of lesser grain borer, Rhyzo- pertha dominica, to phosphine at a range of concentrations and exposure periods. J. Stored Prod. Res. 41, 373-385. FAO, 1976. Recommended methods for detection and measurement of resistance of agricultural pests to pesti- cides - tentative method for adults of some major pest spe- cies of stored cereals, with methyl-bromide and phosphine. FAO Method No 16. FAO Plant Prot. Bull. 23, 12–25. Holloway, J., Falk, M.J., Emery, R.N., Nayak, M.K., 2016. Resistance to phosphine in Sitophilus oryzae in Australia: A national analysis of trends and frequencies over time and geographical spreads. J. Stored Prod. Res. 69, 129-137. Kaur, R, Schilipalius, DI, Collins, PJ, Swain, AJ & Ebert, PR (2012) Inheritance and relative dominance, expressed as toxicity response and delayed development, of phos- phine resistance in immature stages of Rhyzopertha dom- inica (F.) (Coleoptera: Bostrichidae). J..Stored Prod. Res. 51, 74- 80. Konemann, CE, Hubhachen, Z, Opit, GP, Gautam, S & Bajracharya, NS., 2017.Phosphine resistance in Crypto- lestes ferrugineus(Coleoptera:Laemophloeidae) collected from grain storage facilities in Oklahoma, USA. J. Econ. Entomol.110, 1377-1383. Lorini, I., Collins, P.J., Daglish, G.J., Nayak, M.K., and Pavic, H., 2007. Detection and characterisation of strong re- sistance to phosphine in Brazilian Rhyzopertha dominica (F.) (Coleoptera: Bostrychidae). Pest Manag. Sci. 63, 358-364. Nayak, M.K., Collins, P.J., 2008. Influence of concen- tration, temperature and humidity on toxicity of phosphine against strongly phosphine-resistant psocid Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae). Pest Manag. Sci. 64, 971-976. Nayak, M.K., Holloway, J.C., Emery, R.N., Pavic, H., Bartlet, J. and Collins, P.J., 2013. Strong resistance to phosphine in the rusty grain beetle, Cryptolestes ferrugi- neus (Stephens) (Coleoptera: Laemophloeidae): its char- acterisation, a rapid assay for diagnosis and its distribution in Australia. Pest. Manag. Sci., 69, 48–53. Nayak, MK, Holloway J, Pavic H, Head M, Reid R and Collins PJ, 2010. Developing strategies to manage highly phosphine resistant populations of rusty grain beetles in large bulk storages in Australia, pp.396-401. Proceedings of the 10th International Working Conference on Stored Product Protection, ed. by Carvalho MO, Fields PG, Ad- ler CS, Arthur FH, Athanassiou CG, Campell JF, et al. Ju- lius-Kuhn Arch, 425, 396 – 401.