Bottom Collector for Standard SLAM Trap

  • Model:BT1007
 
Ordered Quantity (2) 1-3 4+
 Discount -0% -10%
Price per Unit ($219.73 AUD) $219.73 AUD $197.76 AUD

** Used with the standard SLAM trap only

The bottom collector is made to fit with our standard SLAM trap (BT1014) so that the SLAM trap can sample species, e.g. Coleoptera, that fold their wings and drop after striking an obstacle.  This bottom collector has a coarse mesh (2 by 2 cm grid) on top to stop large leaves and twigs from clogging the bottom collecting bottle.

Pack Contents
x1 Plastic Sheet Funnel
x2 Shock-corded Poles
x1 Bottle Connector Inner Ring (pre-installed)
x1 Bottle Connector Outer Ring (pre-installed)
x2 Collection Bottles

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Collection of related articles from the last 10 years:
Assessing baseline stress physiology as an integrator of environmental quality in a wild avian population: Implications for use as a conservation biomarker. Madliger et al. (2015). Biological Conservation, 192, 409-417.
Naturalization and control of Coptotermes gestroi (Blattodea: Rhinotermitidae) in a Taiwanese forest. Chiu et al. (2016). Journal of Economic Entomology, 109(3), 1317-1325.
Fly and wasp diversity responds to elements of both the visible and invisible fire mosaic. Brown & York (2017). International Journal of Wildland Fire, 26(5), 434-443.
Overview of Mitaraka survey: research frame, study site and field protocols. Touroult et al. (2018). Zoosystema, 40(1), 327-365.
The pitfalls of biodiversity proxies: Differences in richness patterns of birds, trees and understudied diversity across Amazonia. Ritter et al. (2019). Scientific Reports, 9(1), 1-13.
Practical field ecology: a project guide. Wheater et al. (2020). John Wiley & Sons.
Standards and best practices for monitoring and benchmarking insects. Montgomery et al. (2021). Frontiers in Ecology and Evolution, 8, 579193.
Measuring the Impact of Conservation: The Growing Importance of Monitoring Fauna, Flora and Funga. Stephenson et al. (2022). Diversity, 14(10), 824.
Differentiating the effects of organic management, pesticide reduction, and landscape diversification for arthropod conservation in viticulture. Kaczmarek et al. (2023). Biodiversity and Conservation, 1-17.
Factors affecting catches of bark beetles and woodboring beetles in traps. Dodds et al. (2024). Journal of Pest Science, 1-27.