ARCTIC A 50-Million-Year-Old Fossil Forest from Strathcona Fiord, Ellesmere Island, Arctic Canada: Evidence for a Warm Polar Climate
ABSTRACT. The remains of a fossil forest are buried within a sedimentary sequence of Eocene age (approximately 50 million years old) near Strathcona Fiord, Ellesmere Island. Large petrified tree stumps are preserved in their original growth positions in coals of the Eureka Sound Group, a sequence of...
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| Format: | Text |
| Language: | English |
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1988
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| Online Access: | http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.583.5618 http://pubs.aina.ucalgary.ca/arctic/arctic41-4-314.pdf |
| Summary: | ABSTRACT. The remains of a fossil forest are buried within a sedimentary sequence of Eocene age (approximately 50 million years old) near Strathcona Fiord, Ellesmere Island. Large petrified tree stumps are preserved in their original growth positions in coals of the Eureka Sound Group, a sequence of sandstones, siltstones and coals deposited in a deltdfloodplain environment. The dimensions of 83 stumps were recorded and their positions plotted on a plan of the exposed area of coal. The fossil stumps are roughly conical in shape, up to 1.8 m high and with roots spreading up to 5 m in diameter. They are closely spaced on the coal, some only 1 m apart. A density of 1 stump in 27 mz (367 stumps.Ha-’) was calculated for this forest. The stumps represent large forest trees that grew in freshwater, swampy conditions between large river channels. Their buttressed roots provided extra support in the waterlogged peats. The rivers periodically shifted their courses, flooding the forests and burying them under silts and sands. Wide growth rings in the fossil wood, in addition to evidence from associated sediments and vertebrate faunas, indicate favourable growing conditions in a mild, cool/wann temperate climate with high rainfall. Palaeolatitude studies suggest that the forest lay close to its present high-latitude position during the Eocene. Such a forest is therefore evidence that the Eocene polar climate was much wanner than today and that the trees were able to tolerate a polar sunlight regime of continuous summer sunlight followed by months of winter darkness. |
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