Two methods of analyzing charcoal in sediment reveal changes in charcoal accumulation across temperate eastern North America during the last several hundred years. In one method the analyst counts mostly small particles that reflect regional emissions; in the other, the analyst counts only larger particles derived mostly from such local sources as catchment fires. We used these methods to compare charcoal accumulation at 14 lakes from the prairie/forest border in Minnesota to eastern Maine. The two methods gave concordant accumulation rates for sediments of pre-1850 age at each of 4 lakes analyzed by both methods. This concordance is consistent with the interpretation that pre-1850 emissions were controlled by broad-scale factors, such as climatically controlled regional differences in fuels and moisture. Since 1900 large particles decreased greatly, and small particles decreased slightly, in Minnesota and Wisconsin. By contrast in the Northeast the large particle accumulation has remained at the low values measured in pre-1900 sediments at most sites, while small particles increased everywhere east of central New York and Pennsylvania. The observed patterns suggest that (1) large particles primarily reflect local fires that were common in the Midwest before fire suppression became effective, (2) large particles were rare in the Northeast, especially before extensive land clearance, (3) small particles reflect regional combustion that increased in the Northeast after extensive use of fire for land clearance and wood burning for industrial purposes of the 19th century, and (4) small particles remain abundant in the Midwest long after effective fire suppression, probably because these well-dispersed small particles have a large source area that extends beyond the local wildfires that account for large particles before European settlement.
Abstract. Spatial trends in pre-industrial biomass burning emissions for eastern North America were reconstructed from sediment charcoal data. Petrographic thin sections were prepared from varved lake sediments along a transect of sites extending from NW Minnesota eastward to NE Maine. Results showed an exponential decline in charcoal abundance with distance east from the prairie/forest border. This result quantifies burning along the broad climate/vegetation gradient from xeric woodland to mesic eastern deciduous forest. Post-settlement charcoal accumulation showed no such geographic pattern, varying from site-to-site, likely reflecting local variability in land use and combustion sources. Results suggest the total emissions of large (> 10 pm diameter) charcoal particles decreased by a factor of three during the twentieth century.
We present a method for identifying analogs for past fire regimes and use it to assess similarity between late Quaternary fire regimes in northern Wisconsin and central New York and a reference set of charcoal series from just prior to presettlement time. The analog method is based on comparisons of distributions of charcoal accumulation rates from annually laminated sediments using a Kolmogorov-Smirnov two-sample D statistic (D). D is a nonparametric statistic expressing the difference between distributions that does not require assumptions concerning the shape of the distributions (e.g. normality, homoscedasticity) and it summarizes differences in a single index. Our study consists of (i) mapping D values obtained by comparisons between pairs of 'reference' charcoal series from the immediate presettlement (calibration) and (ii) identifying possible presettlement analogs from this reference set for Late Quaternary charcoal distributions. Our calibration analysis identified geographic transitions in charcoal transition that were much steeper than apparent from pollen data. Otherwise, geographic patterns in presettlement charcoal and pollen are comparable, including a group of oak/hardwood forest sites in Wisconsin, central Ontario, and New York having similar values, and another group of mostly northern hardwood/hemlock sites in Pennsylvania and Maine. Application to charcoal series dated after 11 000 yr BP at Wisconsin and New York suggests that fire regimes may have been different from those occurring at any of our reference sites. Differences in seasonality of climates and different fuel structures are a possible explanation.
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