Variation in the diversity and richness of parasitoid wasps based on sampling effort

Author:

Saunders Thomas E.1ORCID,Ward Darren F.12ORCID

Affiliation:

1. School of Biological Sciences, University of Auckland, Auckland, New Zealand

2. Landcare Research, Auckland, New Zealand

Abstract

Parasitoid wasps are a mega-diverse, ecologically dominant, but poorly studied component of global biodiversity. In order to maximise the efficiency and reduce the cost of their collection, the application of optimal sampling techniques is necessary. Two sites in Auckland, New Zealand were sampled intensively to determine the relationship between sampling effort and observed species richness of parasitoid wasps from the family Ichneumonidae. Twenty traps were deployed at each site at three different times over the austral summer period, resulting in a total sampling effort of 840 Malaise-trap-days. Rarefaction techniques and non-parametric estimators were used to predict species richness and to evaluate the variation and completeness of sampling. Despite an intensive Malaise-trapping regime over the summer period, no asymptote of species richness was reached. At best, sampling captured two-thirds of parasitoid wasp species present. The estimated total number of species present depended on the month of sampling and the statistical estimator used. Consequently, the use of fewer traps would have caught only a small proportion of all species (one trap 7–21%; two traps 13–32%), and many traps contributed little to the overall number of individuals caught. However, variation in the catch of individual Malaise traps was not explained by seasonal turnover of species, vegetation or environmental conditions surrounding the trap, or distance of traps to one another. Overall the results demonstrate that even with an intense sampling effort the community is incompletely sampled. The use of only a few traps and/or for very short periods severely limits the estimates of richness because (i) fewer individuals are caught leading to a greater number of singletons; and (ii) the considerable variation of individual traps means some traps will contribute few or no individuals. Understanding how sampling effort affects the richness and diversity of parasitoid wasps is a useful foundation for future studies.

Funder

The Centre for Biodiversity & Biosecurity

Ministry of Business, Innovation & Employment

Publisher

PeerJ

Subject

General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

Reference45 articles.

1. Choosing the best non-parametric richness estimator for benthic macroinvertebrates databases;Basualdo;Revista de La Sociedad Entomológica Argentina,2011

2. Nonparametric estimation and comparison of species richness;Chao,2016

3. Consequences of changing biodiversity;Chapin;Nature,2000

4. Statistical methods for estimating species richness of woody regeneration in primary and secondary rain forests of NE Costa Rica;Chazdon,1997

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