作者: Shikha SHARMA , Alessandro ZANAZZI , German MORA , John W JOHNSTON , Todd A THOMPSON
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摘要: Holocene sequences of beach ridges that commonly occur along the coastline of the upper Great Lakes provide a good avenue for long-term reconstructions of lake levels. These reconstructions indicate large and relatively rapid lake-level fluctuations for the past 4,700 years that resulted from the interplay of climate, differential isostatic rebound, and outlet dynamics. The goal of our study is to decouple the role of climate in controlling long-term lake levels. Our approach consists of analyzing peat sequences from three sites bordering Lake Superior. These sites were selected because relative lake-level curves have already been produced using the internal architecture and timing of development of beach ridges. In particular, we use stable isotope ratios in detrital organic matter to assess changes in paleo-environmental conditions.Peat samples were collected from the deepest point of swales with the aid of a wide-diameter piston corer and hand-augers. Terrestrial plant macrofossils and charcoal fragments were collected from the peat samples for radiocarbon dating. Radiocarbon dates indicate that the peat sequences span the last 3,500 years. A sub-set of collected terrestrial macrofossils was used for isotopic analysis. The macrofossils were air-dried, powdered, homogenized, and washed with alkaline solutions to remove soluble organic acids. The carbon and nitrogen isotope ratios were determined for the macrofossils, resulting in values ranging from–28.7 to–27.0 per mil for carbon isotopes and from–2.5 to+ 2.1 per mil for nitrogen isotopes. There is a weak covariance between carbon isotope ratios and paleo-lake levels. Higher carbon …