Low tropical diversity during the adaptive radiation of early land plants
Low tropical diversity during the adaptive radiation of early land plants
The latitudinal biodiversity gradient, with tropical regions acting as ‘evolutionary cradles’, is a cornerstone of current biogeographical and ecological theory1. In the modern world floral biodiversity and biomass are overwhelmingly concentrated in the tropics, and it is often assumed that the tropics were evolutionary cradles throughout land plant evolutionary history. For example, the origination and diversification of angiosperms is believed to have taken place in the Cretaceous tropics2 and modern gymnosperms in the Permian tropics3. Here, we show that during the first major diversification of land plants, in the Late Silurian–Early Devonian, land plant biodiversity was much lower at the equator compared to medium-high southern latitudes. Throughout this crucial interval of plant evolution, tropical vegetation remained depauperate and of very low taxonomic biodiversity, although with similar morphological disparity to the more diverse higher latitude floras. Possible explanations for this low tropical floral biodiversity include palaeocontinental configuration or adverse palaeotropical environmental conditions. We discount the possibility that it was simply a fortuitous feature of the biogeographical spread of the earliest vascular land plants.
104-109
Wellman, Charles H.
508e1b0c-bb06-4723-bd7c-bd889fa83791
Berry, Christopher M.
5d08651a-8782-47da-8d5c-010806586ef9
Davies, Neil S.
17622222-bea2-46b9-bda4-ca628d64a5c4
Lindemann, Franz-josef
280ec71e-65b4-417c-8920-2a3e7493adae
Marshall, John E. A.
cba178e3-91aa-49a2-b2ce-4b8d9d870b06
Wyatt, Amy
8ce18fbf-2292-497e-9a8c-1fea40b680e9
Wellman, Charles H.
508e1b0c-bb06-4723-bd7c-bd889fa83791
Berry, Christopher M.
5d08651a-8782-47da-8d5c-010806586ef9
Davies, Neil S.
17622222-bea2-46b9-bda4-ca628d64a5c4
Lindemann, Franz-josef
280ec71e-65b4-417c-8920-2a3e7493adae
Marshall, John E. A.
cba178e3-91aa-49a2-b2ce-4b8d9d870b06
Wyatt, Amy
8ce18fbf-2292-497e-9a8c-1fea40b680e9
Wellman, Charles H., Berry, Christopher M., Davies, Neil S., Lindemann, Franz-josef, Marshall, John E. A. and Wyatt, Amy
(2022)
Low tropical diversity during the adaptive radiation of early land plants.
Nature Plants, 8 (2), .
(doi:10.1038/s41477-021-01067-w).
Abstract
The latitudinal biodiversity gradient, with tropical regions acting as ‘evolutionary cradles’, is a cornerstone of current biogeographical and ecological theory1. In the modern world floral biodiversity and biomass are overwhelmingly concentrated in the tropics, and it is often assumed that the tropics were evolutionary cradles throughout land plant evolutionary history. For example, the origination and diversification of angiosperms is believed to have taken place in the Cretaceous tropics2 and modern gymnosperms in the Permian tropics3. Here, we show that during the first major diversification of land plants, in the Late Silurian–Early Devonian, land plant biodiversity was much lower at the equator compared to medium-high southern latitudes. Throughout this crucial interval of plant evolution, tropical vegetation remained depauperate and of very low taxonomic biodiversity, although with similar morphological disparity to the more diverse higher latitude floras. Possible explanations for this low tropical floral biodiversity include palaeocontinental configuration or adverse palaeotropical environmental conditions. We discount the possibility that it was simply a fortuitous feature of the biogeographical spread of the earliest vascular land plants.
Text
Wellmen Revised manuscript 2 (unmarked)
- Accepted Manuscript
More information
Accepted/In Press date: 25 November 2021
e-pub ahead of print date: 3 February 2022
Additional Information:
Funding Information:
The 2018 expedition to northern Spitsbergen was funded by National Geographic Society grant CP-131R-17. We thank the Governor of Svalbard for permission to undertake the fieldwork (RiS-ID 10970).
Publisher Copyright:
© 2022, The Author(s), under exclusive licence to Springer Nature Limited.
Identifiers
Local EPrints ID: 455610
URI: http://eprints.soton.ac.uk/id/eprint/455610
ISSN: 2055-0278
PURE UUID: f9ba5c18-725c-4bfb-a454-8ec6045cd498
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Date deposited: 29 Mar 2022 16:36
Last modified: 15 Oct 2024 04:01
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Contributors
Author:
Charles H. Wellman
Author:
Christopher M. Berry
Author:
Neil S. Davies
Author:
Franz-josef Lindemann
Author:
Amy Wyatt
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