Ancient Roots: The Hidden World of Deep-Time Forests Reveals a Secret of Global Change

As seen from its buried soil, the Earth’s oldest forest was diverse and grew on a periodically dry substrate, a new study shows. The sophisticated roots in this forest are reminiscent of modern seed plants, but come from Archaeopteris and, thus, predate the impact of seed-plant rooting on global for...

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Veröffentlicht in:	Current biology 2020-02, Vol.30 (3), p.R125-R127
1. Verfasser:	Rößler, Ronny
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description	As seen from its buried soil, the Earth’s oldest forest was diverse and grew on a periodically dry substrate, a new study shows. The sophisticated roots in this forest are reminiscent of modern seed plants, but come from Archaeopteris and, thus, predate the impact of seed-plant rooting on global forestation. As seen from its buried soil, the Earth’s oldest forest was diverse and grew on a periodically dry substrate, a new study shows. The sophisticated roots in this forest are reminiscent of modern seed plants, but come from Archaeopteris and, thus, predate the impact of seed-plant rooting on global forestation.
doi_str_mv	10.1016/j.cub.2019.12.036
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title	Ancient Roots: The Hidden World of Deep-Time Forests Reveals a Secret of Global Change
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