The BugDorm-4H4545 insect cage is straightforward to assemble by connecting plastic poles with connectors. It is equipped with Nylon netting (40×32 mesh/inch, 720 µm aperture) ON ALL SIDES, including the floor, which keeps most insects out or from entering the cage while ensuring excellent ventilation.
The front panel features an 18-cm sleeve opening and a large zippered opening, providing convenient access for adding or removing insects and replacing food. A thin strip sewn across the ceiling allows for suspending objects like feeders.
Constructed from lightweight fiberglass, the BugDorm-4H4545 framework is assembled outside the enclosure, reducing potential hiding spots for insects within. The cage's durable, UV-resistant Nylon mesh also makes this cage suitable for outdoor use.
Package Contents
Package Contents
x1 Fabric Cage Body
x12 Fiberglass Rods (Ø4 mm, L45 cm)
x4 Webbed Plastic Joints (3-Way)
x4 Plastic Joints (3-Way)
Studies Using This Line of Products
Collins et al. (2009). Journal of Economic Entomology, 102(5), 1791-1800.
Weldon & Taylor (2010). Physiological Entomology, 35(4), 385-390.
Weldon & Taylor (2011). Entomologia Experimentalis et Applicata, 139(1), 17-24.
Joffe et al. (2012). Pest Management Science, 68(2), 178-184.
Dávila-Flores et al. (2013). Oecologia, 173(4), 1425-1437.
Rouchet et al. (2014). Evolution, 68(6), 1607-1616.
Pappas et al. (2015). PLoS One, 10(5), e0127251.
Sanders et al. (2016). Ecology Letters, 19(7), 789-799.
Frago et al. (2017). Nature Communications, 8(1), 1-9.
Pérez et al. (2018). Scientific Reports, 8(1), 1-10.
Sanders et al. (2018). Current Biology, 28(15), 2474-2478.
Alford et al. (2019). Pest Management Science, 75(6), 1750-1759.
Keesey et al. (2019). Nature Communications, 10(1), 1-16.
Hannah et al. (2019). Current Zoology, 65(4), 483-492.
Strobl et al. (2019). International Journal for Parasitology, 49(8), 605-613.
Charters et al. (2020). Current Biology, 30(10), 1801-1808.
Adnan et al. (2020). Scientific Reports, 10(1), 1-14.
Majumder et al. (2020). Microorganisms, 8(6), 795.
George et al. (2020). Scientific Reports, 10(1), 1-10.
Moraglio et al. (2021). Entomologia Experimentalis et Applicata, 169(1), 52-63.
Beebe et al. (2021). PNAS, 118(41), e2106828118.
Inskeep et al. (2021). Pest Management Science, 77(5), 2522-2529.
Peri et al. (2021). BioControl, 66(3), 329-342.
Holloway et al. (2022). Pest Management Science, 78(2), 653-661.
Sanders et al. (2022). Science of The Total Environment, 831, 154893.
Giovannini et al. (2022). Journal of Pest Science, 95(2), 605-618.
Kempraj et al. (2022). Scientific Reports, 12(1), 1-9.
Gonthier et al. (2022). Pest Management Science, 79(4), 1431-1441.
O'Reilly & Stanley (2023). Science of The Total Environment, 164399.
Kennedy et al. (2023). Scientific Reports, 13(1), 10059.
Akter et al. (2023). Pest Management Science, 79(12), 4858-4867.
Li et al. (2023). International Journal of Molecular Sciences, 24(2), 1798.
Milonas et al. (2023). Scientific Reports, 13(1), 8721.
Gilliéron et al. (2024). BioControl, 1-15.
Ferrater et al. (2024). Journal of Economic Entomology, toae098.
Häner & Haye (2024). BioControl, 1-11.
Mastrantonio et al. (2024). Scientific Data, 11(1), 471.
Reyes‐Haro et al. (2024). Pest Management Science, Early View.
Lin et al. (2024). Journal of Economic Entomology, 117(4), 1430-1438.
Dorai et al. (2024). Journal of Economic Entomology, 117(4), 1377-1384.
