COS 68-9 - The effects of ancient human disturbance on Amazonian vegetation

Thursday, August 11, 2016: 10:50 AM
222/223, Ft Lauderdale Convention Center
Crystal McMichael, Palaeoecology & Landscape Ecology, Institute for Biodiversity & Ecosystem Dynamics, University of Amsterdam, Netherlands, Dolores Piperno, Smithsonian National Museum of Natural History and Smithsonian Tropical Research Institute, Mark B. Bush, Biological Sciences, Florida Institute of Technology, Melbourne, FL and Eduardo Góes Neves, Museu de Arqueologia e Etnologia, Universidade de São Paulo, São Paulo, Brazil
Background/Question/Methods

The ecological status of prehistoric Amazonian forests remains widely debated. Here, we assessed the degree of ancient human impacts across western Amazonia based on archaeological and paleoecological data using methodologies that would allow inter-regional comparisons. We also aimed to establish baselines for estimating the legacies of ancient disturbances on modern vegetation. We analyzed charcoal and phytolith assemblages from soil samples from an archaeological site, sites in close proximity to archaeological sites, sites from riverine and interfluvial forests, and a biological research station believed to contain some of the least disturbed forests within Amazonia. We then quantitatively compared phytolith assemblages within and between the surveyed regions. 

Results/Conclusions

Palm enrichment was evident at the archaeological site, and the biological station survey contained little to no evidence of ancient human activity. The other sites exhibited a gradient of ancient disturbance across the landscape. The phytolith assemblages showed statistically significant between-region variations that indicated our metrics were sufficiently sensitive to detecting ancient disturbance. Our data highlight the spatial heterogeneity of ancient human disturbances in Amazonian forests. The quantification of these disturbances provides empirical data and a more concrete link between the composition of the modern forest and ancient disturbance regimes. Accounting for ancient disturbances will allow a deeper understanding of the landscape heterogeneity observed in the modern forests.