We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
How reliable are Malaise traps for biomonitoring? - A bivariate species abundance model evaluation using alpine Chironomidae ( Diptera).
- Authors
Diserud, Ola H.; Stur, Elisabeth; Aagaard, Kaare; Dytham, Calvin; Stewart, Alan
- Abstract
In this study, the potential of Malaise traps to collect representative portions of an insect community was investigated. To do so, the complete catch (nearly 22 000 specimens) of male Chironomidae ( Diptera) from five parallel Malaise traps along an alpine stream was identified and assigned to 108 different species. The traps were run for 4 weeks in June and July, 2008., The similarity in community composition between parallel samples, that is, from different traps the same week, was evaluated by fitting a bivariate Poisson-lognormal species abundance model. The estimated correlation in this bivariate distribution was used as a measure of similarity since this approach is utilising all the available species abundance information and accounts for the sampling process., Estimated similarities showed non-significant differences in chironomid community structure between parallel samples. The five Malaise traps sampled equally representative portions of the Chironomidae community present at the site, so the traps were found to be very reliable in the monitoring of Chironomidae community structure., Application of the bivariate correlation as a similarity measure offers advantages over traditional measures because it takes account of the complete species abundance distributions. This approach provides an approximately unbiased estimate of similarity despite varying sample sizes and detection/non-detection of species that are present, but rare.
- Subjects
ENVIRONMENTAL monitoring; DIPTERA; INSECT communities; INSECT ecology; CHIRONOMIDAE; MOUNTAIN plants; INSECT anatomy
- Publication
Insect Conservation & Diversity, 2013, Vol 6, Issue 5, p561
- ISSN
1752-458X
- Publication type
Article
- DOI
10.1111/icad.12012