RIVERINE WETLAND VEGETATION - IMPORTANCE OF SMALL-SCALE AND LARGE-SCALE ENVIRONMENTAL VARIATION

The purpose of this study was to evaluate the relative importance of small-scale variation in abiotic factors and large-scale spatio-temporal variation on the distribution of wetland vegetation of a section of the Upper St. Lawrence River in Quebec. Vegetation data have been classified with agglomerative clustering into 11 community types, from Acer rubrum, Acer saccharinum and Fraxinus swamps, to scrubs dominated by Salix petiolaris, Alnus rugosa var. americana or Myrica gale, to Typha, Typha/Lythrum, Carex lacustris and Calamagrostis canadensis marshes. Canonical Correspondence Analysis (CANOCO) suggested that peat thickness and water level are the most important abiotic variables correlated with plant community composition. As a whole, small-scale variation accounts for 25.6% of the species variation. Another 21.6% is explained by large-scale variation based on location data summarizing large-scale spatial distribution, and historical landscape dynamics differentiated into (a) no net loss of wetlands, (b) net loss of wetland, and (c) changes within wetlands, which are correlated with the actual variation in herbaceous and scrubby vegetation. The interaction between small-scale and large-scale variations explains another 1.7%. In total, 48.9% of the species variation is explained by the two data sets, leaving 51.1% unexplained. Whereas the omission of some abiotic variables is possible, it is hypothesized that the abiotic conditions measured in this study play an important role, especially in the distribution of forested swamps. In addition, past history, particularly that of human interventions, becomes another important factor leading to the observed importance of large-scale spatio-temporal variables. This is particularly true for Alnus rugosa var. americana shrublands. Time lag between a relative stabilization of species distribution and the reduction of natural disturbances (water level fluctuations and fires) could be a possible cause of the importance of spatio-temporal variables and the undetermined portion of species variation.