Abstract
Most research on boundaries between vegetation types emphasizes the contrasts and similarities between conditions on either side of a boundary, but does not compare boundary to non-boundary vegetation. That is, most previous studies lack suitable controls, and may therefore overlook underlying aspects of landscape variability at a regional scale and underestimate the effects that the vegetation itself has on the soil. We compared 25 soil chemistry variables in rainforest, sclerophyll vegetation and across rainforest-sclerophyll boundaries in north-eastern Queensland, Australia. Like previous studies, we did find some contrasts in soil chemistry across vegetation boundaries. However we did not find greater variation in chemical parameters across boundary transects than in transects set in either rainforest or woodland. We also found that soil on both sides of the boundary is more similar to “rainforest soil” than to “woodland soil”. Transects in wet sclerophyll forests with increasing degrees of rainforest invasion showed that as rainforest invades wet sclerophyll forest, the soil beneath wet sclerophyll forest becomes increasingly similar to rainforest soil. Our results have implications for understanding regional vegetation dynamics. Considering soil-vegetation feedbacks and the differences between soil at boundaries and in non-boundary sites may hold clues to some of the processes that occur across and between vegetation types in a wide range of ecosystems. Finally, we suggest that including appropriate controls should become standard practice for studies of vegetation boundaries and edge effects worldwide.
Highlights
Boundaries between different vegetation types occur throughout the world in a variety of environments and range in scale from localized communities to interfaces that span hemispheres [1], [2]
Another characteristic of the vegetation of the Australian Wet Tropics is the presence of a narrow band of tall open wet sclerophyll forests (WSF; Figure S4) that can form an ecotone between rain forests (RF) and SF vegetation
Our findings have strong implications for other boundary and edge effect studies in ecology, not just in tropical vegetation, but as far reaching as studies of boundaries caused by currents and eddies in marine systems (e.g. [56])
Summary
Boundaries between different vegetation types occur throughout the world in a variety of environments and range in scale from localized communities to interfaces that span hemispheres (such as the 13,000 km of boreal boundary between tundra and taiga) [1], [2]. Abrupt boundaries between vegetation types are an especially dramatic landscape component where two distinct vegetation forms (e.g. tropical rain forest and fire-prone savannas) abut against each other rather than being separated by a wide ecotone. These abrupt boundaries have long intrigued researchers and the role of soil in delimiting vegetation and maintaining these boundaries continues to be debated (see [3,4,5]).
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