Abstract
Human disturbance in northeastern North America over the past four centuries has led to dramatic change in vegetation composition and ecosystem processes, obscuring the influence of climate and edaphic factors on vegetation patterns. We use a paleoecological approach on Cape Cod, Massachusetts, to assess landscape-scale variation in pitch pine–oak vegetation and fire occurrence on the pre-European landscape and to determine changes resulting from European land use. Fossil pollen and charcoal preserved in seven lakes confirm a close link between landform and the pre-European distribution of vegetation. Pine forests, dominated by Pinus rigida, were closely associated with xeric outwash deposits, whereas oak–hardwood forests were associated with landforms having finer grained soils and variable topography. In general, fire was much more abundant on Cape Cod than most other areas in New England, but its occurrence varied geographically at two scales. On the western end of Cape Cod, fires were more prevalent in pine forests (outwash) than in oak–hardwood forests (moraines). In contrast, fires were less common on the narrow and north–south trending eastern Cape, perhaps because of physical limits on fire spread. The most rapid and substantial changes during the past 2000 years were initiated by European settlement, which produced a vegetation mosaic that today is less clearly tied to landform. Quercus and other hardwood trees declined in abundance in the early settlement period in association with land clearance, whereas Pinus has increased, especially during the past century, through natural reforestation and planting of abandoned fields and pastures. An increase in fossil charcoal following European settlement suggests that fire occurrence has risen substantially as a result of forest clearance and other land uses, reaching levels greater than at any time over the past 2000 years. Although fire was undoubtedly used by Native Americans and may have been locally important, we find no clear evidence that humans extensively modified fire regimes or vegetation before European settlement. Instead, climate change over the past several thousand years and European land use over the past 300 years have been the most important agents of change on this landscape. Corresponding Editor: S. T. Jackson
Highlights
Human disturbance in northeastern North America over the past four centuries has directly altered the structure and composition of modern vegetation, as entire landscapes have experienced variable intensities of resource extraction, agricultural clearance, and reforestation (Cronin 1983, Williams 1989, Turner et al.1990, Whitney 1994)
We identified similarities in past forest composition among sites using Detrended Correspondence Analysis (DCA) of all fossil pollen spectra combined
A paleoecological study of this system is valuable because it elucidates the extent and direction of ecological change before and during a time when the intensity and type of human activity shifted substantially
Summary
Human disturbance in northeastern North America over the past four centuries has directly altered the structure and composition of modern vegetation, as entire landscapes have experienced variable intensities of resource extraction, agricultural clearance, and reforestation (Cronin 1983, Williams 1989, Turner et al.1990, Whitney 1994). Vegetation composition and pattern are controlled by the frequency and intensity of natural disturbances (Pickett and White 1985, Foster et al 1997, 1998a), and modern disturbance regimes are closely tied to human activities, as is clearly true of fire (Whelan 1995, Pyne et al 1996). The result of these direct and indirect human impacts is vegetation.
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