180-cm tall, BugDorm-6630 insect cage is suitable for large potted plants. Front and back panels are of clear plastic for observing insect activity. Top and two side panels are of Polyester netting (96 x 26 mesh) for ventilation. A thin strip is sewn across the ceiling from which to suspend objects such as feeders.
There are three openings in the front panel of BugDorm-6630 insect rearing cage. The zippered opening is large enough to insert large plants. On the zippered opening are two 18-cm sleeve openings for addition or removal of insects and replacement of food without letting insects escape.
The framework of BugDorm-6620 insect cage is of durable aluminum and constructed outside the enclosure. There are no places for insects to hide inside the cage.
Pack Contents
1 x Fabric Cage Body
20 x Aluminum Pipes (L59 cm)
8 x Nylon Plastic Joints (3-Way)
8 x Nylon Plastic Joints (2-Way)
Studies Using This Line of Products
Crava et al. (2016). BMC Genomics, 17(1), 1-15.
Dancau et al. (2017). Biocontrol Science and Technology, 27(1), 3-16.
George et al. (2019). The Florida Entomologist, 102(3), 464-468.
Maniania et al. (2020). IOBC-WPRS Bulletin, 150, 33-38.
Shu et al. (2021). The Pan-Pacific Entomologist, 97(2), 67-74.
Robinson et al. (2021). Scientific Reports, 11(1), 1-11.
Veronesi et al. (2022). Crop Protection, 156, 105941.
Arnone et al. (2022). Environmental Science and Pollution Research, 1-16.
Veronesi et al. (2022). New Zealand Journal of Crop and Horticultural Science, 1-8.
Chae et al. (2022). Toxins, 14(12), 852.
Abram et al. (2022). The Journal of the Lepidopterists' Society, 76(1), 25-39.
Griesheimer et al. (2023). Journal of Chemical Ecology, 1-9.
Ivey et al. (2023). Journal of Insect Science, 23(5), 8.
Veronesi et al. (2023). Agronomy, 13(12), 3019.
Griesheimer et al. (2023). Journal of Chemical Ecology, 1-9.
Allan, S. A. (2024). Environmental Entomology, nvad120.
De Santis et al. (2024). Agriculture, 14(7), 1010.