Vegetation–environment interactions in a sub-arctic primary succession

Abstract

Biological modification of the physical environment is a characteristic feature of primary succession that is of particular importance in stressful, high-latitude habitats. However, the degree of spatiotemporal variability in biotic reaction is poorly understood. This is a significant gap in our knowledge of primary succession, as spatiotemporal variability in biotic reaction may be linked to divergent development during succession. The aim of this research was to infer long-term, spatiotemporal changes in vegetation and environmental parameters during primary succession from a chronosequence of lava flows in Iceland. Vegetation surveys and measurement of key environmental variables (temperature, relative humidity and wind speed) were carried out on seven lava flows aged 26–848 years. The duration of snow cover was inferred from temperature data using a novel technique. Paired measurements were taken in topographical low and high points, as previous studies in this location have indicated divergent vegetation development according to topographical position. The analysis indicated the long-term amelioration of microclimate. Vegetation development was associated with increased soil temperatures, decreased wind speeds and increased duration of snow-lie. There was also evidence that microenvironmental changes paralleled changes in vegetation structure, although the relationship varied according to the environmental parameter studied. It is likely that positive feedback between shrub development and snow accumulation structures the vegetation on the study sites. These findings have implications for sub-arctic areas where shrub cover is expanding due to climate change and for the development of vegetation on terrain exposed by retreating ice.