BugDorm-4E3030 Insect Rearing Cage

  • Model:BD4E3030
 
Ordered Quantity 1-5 6-11 12+
 Discount -0% -5% -10%
Price per Unit $88.20 AUD $83.79 AUD $79.38 AUD
  • Out of Stock
     Restock: 22 December 

BugDorm-4E3030 insect cage is very easy to assemble by simply connecting plastic poles with connectors.  The BugDorm-43030 has very fine Nylon netting (150x150 mesh, 160 µm aperture) all around, using no plastic sheet in any of the panels except the floor for better ventilation.  A thin strip is sewn across the ceiling from which to suspend objects, such as feeders.

The front panel has an 18-cm sleeve opening for adding or removing insects and replacing food material.

The BugDorm-4E3030 insect cage features a lightweight fiberglass framework assembled externally to the enclosure.  This design eliminates hiding spots for insects inside the cage.

Pack Contents
x1 Fabric Cage Body
x12 Fiberglass Rods (Ø4 mm, L30 cm)
x4 Webbed Plastic Joints (3-Way)
x4 Plastic Joints (3-Way)

Studies Using This Line of Products
Badenes-Perez et al. (2010). Pest Management Science, 66(8), 832-838.
Hunter et al. (2011). Florida Entomologist, 94(4), 1051-1054.
Petzold-Maxwell et al. (2012). Journal of Economic Entomology, 105(4), 1407-1418.
Machtinger & Geden (2013). Biological Control, 65(1), 130-134.
Badenes-Perez et al. (2014). Phytochemistry, 98, 137-144.
Haye et al. (2014). Journal of Pest Science, 87(3), 407-418.
Manley et al. (2015). PLoS One, 10(8), e0134453.
Bots et al. (2015). American Naturalist, 186(1), 141-150.
Reynolds et al. (2016). Journal of Economic Entomology, 109(3), 1254-1260.
Fraga et al. (2016). Journal of Pest Science, 90(4), 1107-1118.
Chari et al. (2017). PLoS Biology, 12(8), e1001935.
Tigreros et al. (2017). Ecology Letters, 20(4), 487-494.
Veronesi et al. (2018). Parasitology Research, 117(6), 1925-1932.
Moadeli et al. (2018). Journal of Economic Entomology, 111(5), 2288-2297.
Gonzales et al. (2018). Scientific Reports, 8(1), 1-14.
Costi et al. (2019). Journal of Applied Entomology, 143(3), 299-307.
Setti et al. (2019). Waste Management, 95, 278-288.
Biasazin et al. (2019). Ecology Letters, 22(1), 108-118.
Gassmann et al. (2020). Pest Management Science, 76(1), 268-276.
Gutiérrez-López et al. (2020). Parasitology, 147(4), 441-447.
Robinson et al. (2020). PLoS Neglected Tropical Diseases, 14(3), e0007719.
Santosh et al. (2021). Frontiers in Ecology and Evolution, 9, 17.
Tarusikirwa et al. (2021). Pest Management Science, 77(1), 184-193.
Khan et al. (2021). Scientific Reports, 11(1), 1-9.
Jones et al. (2021). Scientific Reports, 11(1), 1-12.
Somers et al. (2022). Science Advances, 8(2), eabl4844.
Bimbilé Somda et al. (2022). Scientific Reports, 12(1), 1-13.
Mutamiswa et al. (2022). Pest Management Science, 78(11), 4446-4457.
Faber et al. (2022). PeerJ, 10, e14247.
Kirkland et al. (2023). Pest Management Science, 79(5), 1851-1859.
Baig et al. (2023). Journal of Economic Entomology, 116(2), 505-512.
Elya et al. (2023). Elife, 12, e85410.
Ogawa et al. (2023). Current Biology, 33(20), 4392-4404.
Soto et al. (2023). PLoS Neglected Tropical Diseases, 17(9), e0011649.
Ward et al. (2023). Pest Management Science, 80(2), 866-873.
Zhang et al. (2024). Nature Communications, 15, 1980.
Dweck & Rutledge (2024). Open Biology, 14(3), 230438.
Hernandes et al. (2024). Pest Management Science, 80(6), 2950-2964.
Hurst et al. (2024). Scientific Reports, 14(1), 17521.
Kilpatrick et al. (2024). PLoS Pathogens, 20(8), e1012052.