ISBN:

0300-9483

Keywords:

absolute age, Angiospermae, assemblages, boreal environment, Bryophyta, C-14, Canada, carbon, Cenozoic, clastic sediments, Coniferales, diamicton, eastern canada, glacial environment, glacial extent, Gymnospermae, Hudson Bay Lowlands, ice sheets, Isotopes, Laurentide ice sheet, lithostratigraphy, microfossils, miospores, MIS 3, Ontario, paleoclimatology, paleoenvironment, palynomorphs, Plantae, Pleistocene, pollen, quantitative analysis, Quaternary, radioactive isotopes, sediments, Spermatophyta, statistical analysis, terrestrial environment, upper Pleistocene, vegetation

Abstract:

We examine pollen, macrofossils and sedimentological proxies from the Ridge Site, an 18-m sequence of glacial and non-glacial sediments exposed along the bank of the Ridge River in the southern Hudson Bay Lowlands (HBL), Canada. As the HBL is located in the previously glaciated region of North America, palaeorecords from this region have important implications for understanding ice-sheet palaeogeography and climate for the late Pleistocene. Two diamicton units were interpreted as subglacial till deposited by a glacier flowing toward the south-southwest (lower diamicton) and west-southwest (upper diamicton), respectively. Confined between these tills is a 6-m non-glacial unit, constrained to Marine Isotope Stage 3 (MIS 3; c. 57 000 to c. 29 000 a BP) by three radiocarbon dates. Quantitative analyses of the pollen record (dominated by Sphagnum, Cyperaceae, Pinus, Picea, Salix, Alnus and Betula) suggest that average summer temperature (June, July, August) was 14.6+ or -1.51 degrees C, which is similar to that of the present day at the site. Total annual precipitation was 527+ or -170 mm as compared to 705 mm present-day. The macrofossil record confirmed the local presence of Betula, Salix and conifers. Our results, in combination with other records from the periphery of the Laurentide Ice Sheet, suggest that vast boreal forest-type vegetation, along with a drier interstadial climate, existed in the region during MIS 3. We also compare pollen-derived palaeoclimate reconstructions from the Ridge Site with reconstructions from a previously published site along the Nottaway River, HBL, which was dated to MIS 5a-d (c. 109 000 to c. 82 000 a BP). This comparison suggests that, with additional data, it may be possible to differentiate MIS 3 and MIS 5 deposits in the HBL on the basis of relative continentality, with MIS 3 characterized by lower total annual precipitation, and MIS 5 by values similar or greater than present-day. Abstract Copyright (2010), John Wiley & Sons, Ltd.

Notes:

GeoRef, Copyright 2018, American Geological Institute.<br/>2017-068605<br/>Ridge River