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  • STEPPS 8000 Year Forest Composition Estimates, Northeastern US, Level 2
  • Trachsel, Mathias
    Dawson, Andria; Mount Royal University
    Paciorek, Christopher J.; University of California, Berkeley
    Jackson, Stephen T.; Southwest Climate Science Center and University of Arizona
    McLachlan, Jason S.; University of Notre Dame
    Williams, John W.; University of Wisconsin, Madison
    Cogbill, Charles; Harvard Forest
    Foster, David; Harvard Forest and Harvard University
    Shuman, Bryan; University of Wyoming
    Oswald, W. Wyatt; Harvard Forest and Emerson College
  • 2020
  • Trachsel, M., A. Dawson, C. Paciorek, S. Jackson, J. McLachlan, J. Williams, C. Cogbill, D. Foster, B. Shuman, and W. Oswald. 2020. STEPPS 8000 Year Forest Composition Estimates, Northeastern US, Level 2 ver 0. Environmental Data Initiative. https://doi.org/DOI_PLACE_HOLDER (Accessed 2024-12-28).

  • Reconstructions of prehistoric vegetation composition help establish natural baselines, variability, and trajectories of forest dynamics before and during the emergence of intensive anthropogenic land use. Pollen–vegetation models (PVMs) enable such reconstructions from fossil pollen assemblages using process-based representations of taxon-specific pollen production and dispersal. However, several PVMs and variants now exist, and the sensitivity of vegetation inferences to PVM selection, variant, and calibration domain is poorly understood. Here, we compare the reconstructions, parameter estimates, and structure of a Bayesian hierarchical PVM, STEPPS, both to observations and to REVEALS, a widely used PVM, for the pre–Euro-American settlement-era vegetation in the northeastern United States (NEUS). We also compare NEUS-based STEPPS parameter estimates to those for the upper midwestern United States (UMW). Both PVMs predict the observed macroscale patterns of vegetation composition in the NEUS; however, reconstructions of minor taxa are less accurate and predictions for some taxa differ between PVMs. These differences can be attributed to intermodel differences in structure and parameter estimates. Estimates of pollen productivity from STEPPS broadly agree with estimates produced for use in REVEALS, while comparison between pollen dispersal parameter estimates shows no significant relationship. STEPPS parameter estimates are similar between the UMW and NEUS, suggesting that STEPPS parameter estimates are transferable between floristically similar regions and scales. See more details in Trachsel, M., Dawson, A., Paciorek, C.J., Williams, J.W., McLachlan, J.S., Cogbill, C.V., Foster, D.R., Goring, S.J., Jackson, S.T., Oswald,W.W., Shuman, B.N. (2020). Comparison of settlement-era vegetation reconstructions for STEPPS and REVEALS pollen–vegetation models in the northeastern United States. Quaternary Research, 95, 23-42. doi:10.1017/qua.2019.81This material is based upon work supported by the National Science Foundation under grants #DEB-1241874, 1241868, 1241870, 1241851, 1241891, 1241846, 1241856, 1241930.

  • N: 48.0      S: 39.5      E: -66.0      W: -79.5
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  • Data Entities:
    1. STEPPS-fractional-composition_NEUS-mean  (2.2 MiB; 5 downloads) 
    2. STEPPS-fractional-composition_NEUS-sd  (2.2 MiB; 5 downloads) 
    3. STEPPS-fractional-composition_NEUS_2.5_percentile  (2.2 MiB; 5 downloads) 
    4. STEPPS-fractional-composition_NEUS_5_percentile  (2.2 MiB; 5 downloads) 
    5. STEPPS-fractional-composition_NEUS_10_percentile  (2.2 MiB; 4 downloads) 
    6. STEPPS-fractional-composition_NEUS_16.6_percentile  (2.2 MiB; 4 downloads) 
    7. STEPPS-fractional-composition_NEUS_50_percentile  (2.2 MiB; 4 downloads) 
    8. STEPPS-fractional-composition_NEUS_83.30_percentile  (2.2 MiB; 4 downloads) 
    9. STEPPS-fractional-composition_NEUS_90_percentile  (2.2 MiB; 5 downloads) 
    10. STEPPS-fractional-composition_NEUS_95_percentile  (2.2 MiB; 5 downloads) 
    11. STEPPS-fractional-composition_NEUS_97.5_percentile  (2.2 MiB; 5 downloads) 
  • We are using the CC-BY 4.0 (Creative Commons Attribution 4.0 International) License. Details of this license can be found here: http://creativecommons.org/licenses/by/4.0/legalcode
  • DOI PLACE HOLDER

Copyright 2024 Environmental Data Initiative. This material is based upon work supported by the National Science Foundation under grants #2223103 and #2223104. Any opinions, findings, conclusions, or recommendations expressed in the material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation. Please contact us with questions, comments, or for technical assistance regarding this web site or the Environmental Data Initiative. Please read our privacy policy to know what information we collect about you and to understand your privacy rights.

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