Abstract
Abstract. Occupancy frequency distributions are commonly used as an approach to describe and analyse interspecific distribution patterns. However, the relative importance of biological versus artefactual mechanisms in shaping occupancy distributions is still largely undetermined. We evaluated the importance of different and interacting artefactual effects on the shape of occupancy distributions in local plant communities. The effects of sampling protocol parameters (i.e. size and number of sample units, sample extent, coverage, and intensity) on the shape of the occupancy distributions were examined separately. We identified the mechanisms that cause the effects by tracking the shifts of individual species between occupancy classes with varying parameters. Furthermore, the impact of different species abundance distributions and increasing levels of intraspecific aggregation on occupancy distributions was investigated by means of artificial assemblages. We show the following results: 1) increases in the number of sample units, sample extent, coverage, and intensity all result in a unimodal occupancy distribution with the mode in the lowest occupancy class; 2) an increase in sample unit size leads to a bimodal distribution; 3) changes that occur in the shape of the occupancy distributions with varying sampling protocol parameters can be explained by the movements of the species between occupancy classes; 4) different species abundance distributions may cause occupancy distributions with a left-hand mode or a bimodal distribution; and 5) the number of species in the highest occupancy class decreases with increasing degree of aggregation. The mode that almost always occurs in the lowest occupancy class is most likely due to the high number of rare species existing in most communities; the mode in the highest class emerges as a pure artefact that occurs when the sample unit size is relatively large compared to the sample extent. Consequently, the exclusion or separation of concurrent artefactual mechanisms is crucial when investigating the biological causes for the shape of occupancy distributions.
Highlights
Occupancy frequency distributions are commonly used as an approach to describe and analyse interspecific distribution patterns
With a quadrat size of 1 m2, 30 out of 35 plant communities exhibited a significant mode in the lowest occupancy class; among them, 20 communities had a second mode in the highest class; i.e. they demonstrated a bimodal occupancy distribution (Table 2)
Sample extent, sample intensity, and sample coverage as a consequence of increasing sample number all led to a unimodal occupancy distribution with a satellite mode (Table 5)
Summary
Occupancy frequency distributions are commonly used as an approach to describe and analyse interspecific distribution patterns. Et al (2007) explicitly kept the sampling intensity constant while varying the spatial extent, whereas Van Rensburg et al (2000) equalised the sample numbers of all spatial scales by randomly reducing the larger sample numbers to the level of the smallest one In the former studies, the relationship between spatial extent and the shape of the occupancy distribution may be masked by the impact of the different sizes and/or numbers of sample units used. This underestimation may be due to the fact that the relative importance of artefactual versus biological mechanisms in terms of shaping occupancy distributions is still largely undetermined (McGeoch and Gaston 2002). The underlying mechanisms that generate changes in the shape of occupancy distributions as a result of varying sampling protocol have not been detailed to date
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