Hagstrum, David W. and Thomas W. Phillips. 2017. Evolution of Stored-Product Entomology: Protecting the World Food Supply. Annual Review of Entomology 62: 379–397.
p. 390 Publication of research on stored-product insects by 934 authors over the past 100 years reveals that research has become geographically dispersed, with 14 countries contributing from 1911 to 1945, 33 countries from 1946 to 1980, and 65 countries from 1981 to 2015 (https://storedproductinsects.com/history/directory-of-stored-product-insect-paper-authors-past-and-present/)
Local conferences on stored-product entomology were held in Germany between 1925 and 1935 and in Italy from 1972 to the present (https://storedproductinsects.com/columns/italian-pest-management-symposium-1972-2012/).
Outreach via magazine columns has a long history, such as in American Miller by Willis Grant Johnson from 1895 to 1907 (e.g., 76), Northwestern Miller by Richard Thomas Cotton from 1960 to 1965 (e.g., 29), and more recently in Grain Journal by Linda Mason from 1993 to 2009 and Milling Journal by Bhadriraju Subramanyam from 2002 to the present. For a list of these magazine columns see https://storedproductinsects.com/columns/other-trade-journal-articles/
Athanassiou, Christos G., Thomas W. Phillips, and Waqas Wakil. 2019. Biology and Control of the Khapra Beetle, Trogoderma granarium, a Major Quarantine Threat to Global Food Security. Ann.Rev.Entomol. 64: 131–148.
p. 12 David Hagstrum was particularly helpful with information from his website, https://www.storedproductinsects.com
Supplement Table 1 This table is a modification of a table at an internet website maintained by David Hagstrum at https://storedproductinsects.com/biology/regulatory-control-of-khapra-beetle/
Supplement Table 3 This table is a modification of a table at an internet website maintained by David Hagstrum, https://storedproductinsects.com/biology/regulatory-control-of-khapra-beetle/
Hagstrum, David W. and Christos G. Athanassiou 2019. Improving Stored Product Insect Pest Management: From Theory to Practice. Insects 10, 332.
p. 1 Traps catch can be influenced by many factors which need to be considered in interpreting the trap catch and making pest management decisions [12]. 12. Storedpoductinsects.com: Interpretation of trap catch. Available online: https://storedproductinsects.com/biology/interpretation-of-trap-catch/ (accessed on 30 September 2019).
p. 2 Life history has been studied for 248 species [17]. 17. Storedpoductinsects.com: Life histories of stored product insects and mites. Available online: https://storedproductinsects.com/biology/life-histories-of-stored-product-insects-and-mites/ (accessed on 30 September 2019).
p.2 Studies also have evaluated the suitability of diets for the development of 92 pest species [18]. 18. Storedpoductinsects.com: Suitability of food. Available online: https://storedproductinsects.com/newspecies/suitability-of-foods/ (accessed on 30 September 2019).
p. 3 Research on synergistic combinations of pest management methods has been expanded recently [34]. 34. Storedproductinsects. Available online: https://storedproductinsects.com/new-species/combining-pestcontrol-methods/ (accessed on 30 September 2019).
Campbell, James F., Christos G. Athanassiou, David W. Hagstrum and Kun Yan Zhu 2022. Tribolium castaneum: A Model Insect for Fundamental and Applied Research. Ann. Rev. Entomol. 67: 347–365
p. 349 (https://storedproductinsects.com/new-species/comparison-of-species-list/). The suitability of 215 commodities for development, reproduction, or population growth of T.castaneum has been studied (https://storedproductinsects.com/biology/suitability-of-commodities-asfood-for-tribolium-castaneum/), with reports of infestation published for 61 of these commodities (see sidebar titled Human-Aided Global Movement of Tribolium castaneum).
p. 349 Direct damage can result from reductions in amount of commodity through feeding (https://storedproductinsects.com/economic-lossesfrom-tribolium-castaneum-infestations/).
p. 356 Trap catch is influenced by many aspects of biology that need to be understood and considered in interpreting captures in traps and making pest management decisions (https://storedproductinsects.com/biology/interpretation-of-trap-catch/)
Bingham, Georgina V. and David W. Hagstrum 2024. Importance of Sanitation for Stored Product Pest Management. Insects 15(1), 3
p. 6 For more references on the benefits of food in reducing the susceptibility of insects to pesticides, see [25]. 25. Food on Susceptibility of Stored-Product Insects. Available online: https://storedproductinsects.com/biology/food-onsusceptibility-of-stored-product-insects/ (accessed on 6 September 2023).
p. 8 Sixty species infest commodities in the field and reproduce during storage [51,52]. 51. Pre-Harvest Infestation. Available online: https://storedproductinsects.com/biology/pre-harvest-infestation/ (accessed on 6 September 2023).
Phillips, Thomas W. and David W. Hagstrum 2024. Chapter 1. Stored-Product Insects: Biology and Management Relevant to Controlled Atmospheres and Fumigation. p. 1-37. In Control And Management Of Pests In Stored Products edited by Digvar S. Jayas, CRC Press, Boca Raton
p. 7 footnote Table 1.1 Common Stored-Product Insect Species by Taxonomic Grouping, Number of Geographical Regions Where Present, Habits, and Habitats
In 53 studies, insect species found at grain elevators and flat storages (E), flour and feed mills (M), commercial marketing channels (C), or two or all of these. From https://storedproductinsects.com/new-species/comparison-of-species-list/.
p. 10. For more on the ecology of A. advena and some additional references, see Ahasverus advena, a Cosmopolitan Pest of Stored Products. From https://storedproductinsects.com/ahasverusadvena-a-cosmopolitan-pest-of-stored-products/
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