2015 GSA Annual Meeting in Baltimore, Maryland, USA (1-4 November 2015)

Paper No. 40-6
Presentation Time: 9:00 AM-5:30 PM

SOIL PROTOZOAN AND ARTHROPOD FOSSILS GIVE CLUES TO A DYNAMIC MOISTURE REGIME ON THE LEEWARD SLOPE OF KOHALA VOLCANO, HAWAII


BARRETT, Kevin D., Botany, University of Wisconsin-Madison, 430 Lincoln Drive, Madison, WI 53706 and HOTCHKISS, Sara C., Botany Department, University of Wisconsin, 430 Lincoln Drive, Madison, WI 53706, kevin.barrett@wisc.edu

Around AD 800, Polynesians arrived on the Hawaiian Islands where they expanded and intensified distinct agricultural practices in the islands’ wet and dry regions. Dryland farming productivity in particular would have been sensitive to atmospheric rearrangements of the ENSO and PDO systems that affect rainfall in Hawaii. The few detailed terrestrial paleoclimate records in Hawaii are mainly derived from vegetation proxies (e.g. pollen, seeds, fruits, and plant biomarkers) which are heavily influenced by widespread landscape modification following human arrival. Here we present initial results of an independent paleomoisture proxy: fossil remains of moisture-sensitive testate amoebae (Protozoa: Rhizopoda) and cladocera (water fleas) preserved in continuous late-Holocene bog sediments on Kohala Volcano uplsope of the ancient Kohala agricultural field system, one of the largest dryland field systems in Hawaii. Hydrologic conditions inferred from testate amoebae and cladoceran fossil assemblages correlate with observed decadal moisture regimes in Hawaii and state changes of the PDO system during the last century. Testate ameoabe and cladoceran fossils in older sediments spanning the past two millenia reveal an alternating history of very wet, lake-forming conditions on the bog surface to periods when bog soils were much drier than today's, demonstrating that this method can be paired with vegetation proxies to provide a better understanding of hydroclimate variability in prehistoric Hawaii.