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5-Units BugDorm-1 Model (DP1000) For Insect Rearing Cage

$379.99
Unit price  per 
5-Units BugDorm-1 Model (DP1000) For Insect Rearing Cage
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Description

The all-time popular BugDorm-1 insect cage was first introduced to world entomologists in 1996 at the 20th International Congress of Entomology in Florence, Italy. It's modular design for easy cleaning makes BugDorm-1 an ideal rearing or breeding cage for disease vectors and agricultural pests such as mosquitoes and houseflies. Major features of BugDorm-1 insect cage include:

* Easy installation; no duct-tape, no tools
* Easy access through 15-cm stockinet sleeve opening
* Easy observation through mesh and semi-transparent panels
* Easy disassembly for storage, cleaning, and parts replacement

BugDorm-1 insect cage is lightweight, but sturdy. When assembled, it supports weights as heavy as 90 kilos. When disassembled, one BugDorm-1 can pack into a box as small as L31 x W31 x H9 cm.

Specification

Dimensions: W30 x D30 x H30 cm
Net Weight: 1,110 grams
Main Material: Woven Mesh | Polypropylene
Mesh Size: 24 x 24 | 1,350 µm aperture
Clear Panel: Front, Top
Mesh Panel: Back, Right, Left
Opening: 1 x Front Sleeve 

Reference studies using this series of products:
Allen et al. (2001). Journal of Medical Entomology, 38(5), 701-710.
Rodriguez-Saona et al. (2002). Journal of Chemical Ecology, 28(9), 1733-1747.
Willrich & Leonard (2004). Journal of Economic Entomology, 97(3), 924-933.
Ponlawat et al. (2005). Journal of Medical Entomology, 42(5), 821-825.
Faria et al. (2007). PLoS One, 2(7), e600.
Meihls et al. (2008). PNAS, 105(49), 19177-19182.
Siegert et al. (2009). Journal of Economic Entomology, 102(6), 2061-2071.
Stanczyk et al. (2010). PNAS, 107(19), 8575-8580.
Windbichler et al. (2011). Nature, 473(7346), 212-215.
Benelli & Canale (2012). BioControl, 57(6), 767-777.
Bargielowski et al. (2013). PNAS, 110(8), 2888-2892.
McMeniman et al. (2014). Cell, 156(5), 1060-1071.
Drake et al. (2015). Scientific Reports, 5(1), 1-7.
Viana et al. (2016). PNAS, 113(32), 8975-8980.
Duvall et al. (2017). Current Biology, 27(23), 3734-3742.
Johnson et al. (2017). PLoS Neglected Tropical Diseases, 11(9), e0005902.
Cooper et al. (2018). Current Biology, 28(18), 2940-2947.
Bahar et al. (2018). Scientific Reports, 8(1), 1-9.
Dennis et al. (2019). Current Biology, 29(9), 1551-1556.
Da Silva et al. (2019). Scientific Reports, 9(1), 1-9.
Duvall et al. (2019). Cell, 176(4), 687-701.
Edgerton et al. (2020). PNAS, 117(7), 3711-3717.
Redhai et al. (2020). Nature, 580(7802), 263-268.
Iikura et al. (2020). Scientific Reports, 10(1), 1-12.
Lahondère et al. (2020). PNAS, 117(1), 708-716.
Mahat & Clarke (2021). BioControl, 66(3), 297-306.
Krzywinska et al. (2021). Current Biology, 31(5), 1084-1091.
Aubry et al. (2021). Nature Communications, 12(1), 1-14.
Newton et al. (2021). Science Advances, 7(20), eabe4507.
Jeyaprakasam et al. (2022). Scientific Reports, 12(1), 1-13.
Cribellier et al. (2022). Current Biology, 32, 1–15.
Lefteri et al. (2022). PNAS, 119(24), e2114309119.
Paton et al. (2022). PLoS Pathogens, 18(6), e1010609.
De Obaldia et al. (2022). Cell, 185(22), 4099-4116.
Chung et al. (2022). PLoS Neglected Tropical Diseases, 16(9), e0010780.

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