Fine‐scale patterns of vegetation and environmental factors on an ombrotrophic mire expanse: a numerical approach

The vegetation within an ombrotrophic mire expanse in SE Norway is studied in detail. Percentage cover of 45 species in 436 sample plots (16 ×16 cm), dispersed on 26 transects, are recorded. In addition, species abundance in 6976 subplots (4×4 cm) are recorded. 14 variables are recorded for each of the sample plots, while only distance to the water‐table is estimated for the subplots. Spatial co‐ordinates are supplied for all sample‐ and subplots. DCA ordination of a data‐set consisting of 412 sample plots reveals two ecologically interpretable vegetational gradients: the hummock‐hollow gradient (DCA 1), and a gradient associated with the peat‐production of the bottom layer (DCA 2). Passive DCA of subplots is used to get an impression of within sample plot heterogeneity, and shows that the fine‐scale compositional turnover may be considerable. Partitioning of the variation in species abundance data is done by use of (partial) CCA. The fraction of unexplained variation is rather large for all the tested data‐sets, but within the total variation explained, both distance to the water‐table and spatial structure explain large parts.