Full Length Research Paper
References
Alabama Cooperative Extension System (2005). Fumigating agricultural commodities with phosphine. |
|
Australian Bureau of Statistics (ABS) (2010). Value of agricultural commodities produced, 2009/2010. Catalogue No. 7503.0 |
|
Arbogast R, Kendra P, Mankin R, McGov¬ern J (2000). Monitoring insect pests in retail stores by trap¬ping and spatial analysis. J. Econ. Entomol. 93:1531-1542. |
|
Arbogast R, Weaver D, Kendra P, Brenner R (1998). Implications of spatial distribution of insect populations in storage ecosystems. Environ. Entomol. 27:202-216. |
|
Athié I, Mills KA (2005). Resistance to phosphine in stored-grain insect pests in Brazil. Braz. J. Food Technol. 8:143-147. |
|
Campbell J, Arbogast R (2004). Stored-product insects in our mill: population dynamics and response to fumigation treatments. Entomol. Exp. Appl. 112:217-225. |
|
Campbell J, Mullen M (2004). Distribution and dispersal behaviour of trogodermavariabile and plodiainterpunctella outside a food processing plant. J. Econ. Entomol. 97:1455-1464. |
|
Campbell J, Mullen M, Dowdy A (2002). Monitoring stored-product pests in food processing plants: a case study using pheromone trapping, contour mapping and mark-recapture. J. Econ. Entomol. 95:1089-1101. |
|
Chami M, Newman C, Emery R (2011). Strong phosphine resistance eradication in Western Australia. Cooperative Research Centre for National Plant Biosecurity (CRCNPB). Australia. |
|
Chaudhry M (1997). A review of the mechanisms involved in the action of phosphine as an insecticide and phosphine resistance in stored-product insects. Pestic. Sci. 49:213-228. |
|
Chaudhry M, Price N (1989). Biochemistry of phosphine up-take in susceptible and resistant strains of two species of stored product beetles. Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol. 94:425-430. |
|
Chaudhry M, Price N (1990). Insect mortality at doses of phosphine which produce equal up-take in susceptible and resistant strains of rhyzoperthadominica (f) (coleoptera: bostrychidae). J. Stored Prod. Res. 26:101-108. |
|
Ching'oma G (2006). Spatial distribution and movement of the lesser grain borer, rhyzoperthadominica (f). PhD Thesis. Kansas State University, Manhattan. |
|
Cogburn R, Vick K (1981). Distribution of angoumois grain moth, almond moth, and Indian meal moth in rice fields and rice storage in Texas as indicated by pheromone-baited adhesive traps. Environ. Entomol. 10:1003-1007. |
|
Collins P (2009). Strategy to manage resistance to phosphine in the Australian grain industry. Cooperative Research Centre for National Plant Biosecurity (CRCNPB). Australia. |
|
Collins PJ (1998). Resistance to grain protectants and fumigants in insect pests of stored products in Australia. Stored Grain in Australia: Proceedings of the Australian Post-Harvest Technical Conference. CSIRO, Canberra, Australia pp. 55-57. |
|
Collins PJ Daglish G, Bengston M, Lambkin T, Pavic H (2002). Genetics of resistance to phosphine in rhyzoperthadominica (f). J. Econ. Entomol. 95(4):862-869. |
|
Commonwealth Scientific and Industrial Research Organisation (CSIRO) (2011). Industry's battle against grain bugs reliant on phosphine. Australia. |
|
Cooperative Bulk Handler (CBH) Group (2014). Operations harvest guide 14-15, a guide for growers and carters delivering grain to CBH group receival points. |
|
Department of Foreign Affairs and Trade (DFAT) (2012). Australian agriculture, fisheries and forestry. Commonwealth of Australia, Canberra, Australia. |
|
Doud C, Phillips T (2000). Activity of plodiainterpunctella (lepidoptera: pyralidae) in and around our mills. J. Econ. Entomol. 93:1842-1847. |
|
Dowdy A, McGaughey W (1994). Seasonal activity of stored-product insects in and around farm-stored wheat. J. Econ. Entomol. 87(5):1351-1358. |
|
Emery R, Nayak M, Holloway J (2011). Lessons learned from phosphine resistance monitoring in Australia. Stewart Postharvest Solutions (UK) Ltd. |
|
Fields P, Loon J, Dolinski M, Harris J, Burkholder W (1993). The distribution of rhyzoperthadominica (f) in Western Canada. Can. Entomol. 125:317-328. |
|
Florec V, Sadler RJ, White B, Dominiak BC (2012). Optimal design of area wide management scheme for fruit flies in Australia. In: 56th Australian Agricultural and Resource Economics Society Annual Conference, 7-10 February 2012. Aust. Agri. and Res. Econ. Society Frem. Aust. |
|
Ignatowicz S (1997). Cases of phosphine resistance in the grain weevil, sitophilusgranarius found in Poland. Proc of the 7th Inter Working Conf. Stor-prod. Protec. 1. |
|
Kot M, Schaffer WM (1986). Discrete-time growth dispersal models. Math. Biosci. 80:109-136. |
|
Mahroof R, Edde P, Robertson B, Puckette J, Phillips T (2010). Dispersal of Rhyzoperthadominica (Coleoptera: Bostrichidae) in different habitats. Environ. Entomol. 39(3). |
|
Nakakita H, Kuroda J (1986). Differences in phosphine up-take between susceptible and resistant strains of insects. J. Pestic. Sci. 11:21–26. |
|
Nanasen C (2004). Fumigants and pheromones. A Newsletter for the Insect Control Pest Management Industry. 70. |
|
Nansen C, Phillips T, Parajulee M, Franqui R (2004). Comparison of direct and indirect sampling procedures for plodiainterpunctella in a maize storage facility. J. Stor. Prod Res. 40:151–168. |
|
Norwood C (2010). Gene knowledge helps model and monitor resistance. GRDC Ground Cover. Issue 89. |
|
Price N (1984). Active exclusion of phosphine as a mechanism of resistance in rhyzoperthadominica (coleoptera: bostrychidae). J Stored Prod. Res. 20:163–168. |
|
Prickett AJ (1994). Animal feed mills 1992, England and Wales, Pest management. MAFF Central Science Laboratory. Report 54:73-74. |
|
R Foundation for Statistical Computing, 2011. ISBN 3–900051–07–0. |
|
Rajendran S, Narasimhan K (1994). The current status of phosphine fumigations in India.Proceedings of the 6th International Working Conference on Stored-Product Protection. Canberra, Australia. 148-152. |
|
Rees D (1998). Pest trends in the Australian grain bulk handling system. Australian Postharvest Technical Conference. Canberra, Australia. |
|
Shigesada N, Kawasaki K, Takeda Y, (1995). Stratified diffusion in biological invasions. Am. Nat. 146:229-251. |
|
Sinclair E, Haddrell R (1985). Flight of stored products beetles over a grain farming area in southern Queensland. J. Aust. Entomol. Soc. 24:9–15. |
|
Skellam JG (1951). Random dispersal in theoretical populations. Biometrika 38:196-218. |
|
Schulte S (2013). Briefing Note Agricultural Commodities June, Quarter 2013. New South Wales Irrigators' Council (NSWIC). |
|
Strong R (1970). Distribution and relative abundance of stored-product insects in California: a method of obtaining sample populations. J. Econ. Entom. 63:591-596. |
|
Taylor S, Dibley S (2009). Economic analysis of phosphine management: stage 1. Cooperative Research Centre for National Plant Biosecurity (CRCNPB), technical report. |
|
The State of Queensland (Department of Agriculture and Fisheries) 2010-2015. Fumigation to control insects in stored grain. Queensland Government. |
|
Throne J, Cline D (1991). Seasonal abundance of maize weevils (coleoptera: curcuhonidae) in South Carolina. J. Agric. Entom. 8(2):93-100. |
|
Throne J, Cline L (1989). Seasonalflight activity of the maize weevil, sitophiluszeamaismotschulsky (coleoptera: curculionidae), and the rice weevil, s oryzae (l), in South Carolina. J. Agric. Entom. 6:183-192. |
|
Tyler PS, Taylor RWD, Rees DP (1983). Insect resistance to phosphine fumigation in food warehouses in Bangladesh. Int. Pest. Control 25:10-13, 21. |
|
United Nations Environment Programme (UNEP) (2010). Methyl Bromide alternatives for applicators, commodity owners, shippers and their agents. UNEP, Vienna. |
|
Vick K, Coffelt J, Weaver W (1987). Presence of four species of stored-product moths in storage and field situations in north-central Florida as determined with sex pheromone-baited traps. Fla. Entomol. 70:488-492. |
|
White G, Lambkin T (1990). Baseline responses to phosphine and resistance status of stored-grain beetle pests in Queensland, Australia. J. Econ. Entomol. 83:1738-1744. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0