The evolution of seed dormancy: Environmental cues, evolutionary hubs, and diversification of the seed plants

Charles G. Willis; Carol C. Baskin; Jerry M. Baskin; Josh R. Auld; D. Lawrence Venable; Jeannine Cavender-Bares; Kathleen Donohue; Rafael Rubio de Casas; K. Bradford; L. Burghardt; S. Kalisz; S. Meyer; J. Schmitt; S. Strauss; A. Wilczek

doi:10.1111/nph.12782

The evolution of seed dormancy: Environmental cues, evolutionary hubs, and diversification of the seed plants

Charles G. Willis, Carol C. Baskin, Jerry M. Baskin, Josh R. Auld, D. Lawrence Venable, Jeannine Cavender-Bares, Kathleen Donohue, Rafael Rubio de Casas, K. Bradford, L. Burghardt, S. Kalisz, S. Meyer, J. Schmitt, S. Strauss, A. Wilczek

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254 Scopus citations

Abstract

Summary: Seed dormancy, by controlling the timing of germination, can strongly affect plant survival. The kind of seed dormancy, therefore, can influence both population and species-level processes such as colonization, adaptation, speciation, and extinction. We used a dataset comprising over 14 000 taxa in 318 families across the seed plants to test hypotheses on the evolution of different kinds of seed dormancy and their association with lineage diversification. We found morphophysiological dormancy to be the most likely ancestral state of seed plants, suggesting that physiologically regulated dormancy in response to environmental cues was present at the origin of seed plants. Additionally, we found that physiological dormancy (PD), once disassociated from morphological dormancy, acted as an 'evolutionary hub' from which other dormancy classes evolved, and that it was associated with higher rates of lineage diversification via higher speciation rates. The environmental sensitivity provided by dormancy in general, and by PD in particular, appears to be a key trait in the diversification of seed plants.

Original language	English (US)
Pages (from-to)	300-309
Number of pages	10
Journal	New Phytologist
Volume	203
Issue number	1
DOIs	https://doi.org/10.1111/nph.12782
State	Published - Jul 2014

Keywords

Environmental cueing
Extinction
Germination
Physiological dormancy
Speciation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Willis, C. G., Baskin, C. C., Baskin, J. M., Auld, J. R., Venable, D. L., Cavender-Bares, J., Donohue, K., de Casas, R. R., Bradford, K., Burghardt, L., Kalisz, S., Meyer, S., Schmitt, J., Strauss, S., & Wilczek, A. (2014). The evolution of seed dormancy: Environmental cues, evolutionary hubs, and diversification of the seed plants. New Phytologist, 203(1), 300-309. https://doi.org/10.1111/nph.12782

Willis, CG, Baskin, CC, Baskin, JM, Auld, JR, Venable, DL, Cavender-Bares, J, Donohue, K, de Casas, RR, Bradford, K, Burghardt, L, Kalisz, S, Meyer, S, Schmitt, J, Strauss, S & Wilczek, A 2014, 'The evolution of seed dormancy: Environmental cues, evolutionary hubs, and diversification of the seed plants', New Phytologist, vol. 203, no. 1, pp. 300-309. https://doi.org/10.1111/nph.12782

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N2 - Summary: Seed dormancy, by controlling the timing of germination, can strongly affect plant survival. The kind of seed dormancy, therefore, can influence both population and species-level processes such as colonization, adaptation, speciation, and extinction. We used a dataset comprising over 14 000 taxa in 318 families across the seed plants to test hypotheses on the evolution of different kinds of seed dormancy and their association with lineage diversification. We found morphophysiological dormancy to be the most likely ancestral state of seed plants, suggesting that physiologically regulated dormancy in response to environmental cues was present at the origin of seed plants. Additionally, we found that physiological dormancy (PD), once disassociated from morphological dormancy, acted as an 'evolutionary hub' from which other dormancy classes evolved, and that it was associated with higher rates of lineage diversification via higher speciation rates. The environmental sensitivity provided by dormancy in general, and by PD in particular, appears to be a key trait in the diversification of seed plants.

AB - Summary: Seed dormancy, by controlling the timing of germination, can strongly affect plant survival. The kind of seed dormancy, therefore, can influence both population and species-level processes such as colonization, adaptation, speciation, and extinction. We used a dataset comprising over 14 000 taxa in 318 families across the seed plants to test hypotheses on the evolution of different kinds of seed dormancy and their association with lineage diversification. We found morphophysiological dormancy to be the most likely ancestral state of seed plants, suggesting that physiologically regulated dormancy in response to environmental cues was present at the origin of seed plants. Additionally, we found that physiological dormancy (PD), once disassociated from morphological dormancy, acted as an 'evolutionary hub' from which other dormancy classes evolved, and that it was associated with higher rates of lineage diversification via higher speciation rates. The environmental sensitivity provided by dormancy in general, and by PD in particular, appears to be a key trait in the diversification of seed plants.

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The evolution of seed dormancy: Environmental cues, evolutionary hubs, and diversification of the seed plants

Abstract

Keywords

UN SDGs

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