Advanced vascular function discovered in a widespread moss

T J Brodribb¹, M Carriquí^{2

3}, S Delzon⁴, S A M McAdam⁵, N M Holbrook⁶

Affiliations

¹ School of Natural Sciences, University of Tasmania, Hobart, Tasmania, Australia. timothyb@utas.edu.au.
² School of Natural Sciences, University of Tasmania, Hobart, Tasmania, Australia.
³ Research Group on Plant Biology under Mediterranean Conditions, Departament de Biologia, Universitat de les Illes Balears - Instituto de Investigaciones Agroambientales y de la Economía del Agua, Palma, Spain.
⁴ Université Bordeaux, BIOGECO, INRAE, Pessac, France.
⁵ Purdue Center for Plant Biology, Department of Botany and Plant Pathology, Purdue University, West Lafayette, IN, USA.
⁶ Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, MA, USA. holbrook@oeb.harvard.edu.

PMID: 32170283
DOI: 10.1038/s41477-020-0602-x

Advanced vascular function discovered in a widespread moss

T J Brodribb et al. Nat Plants. 2020 Mar.

. 2020 Mar;6(3):273-279.

doi: 10.1038/s41477-020-0602-x. Epub 2020 Mar 9.

Authors

T J Brodribb¹, M Carriquí^{2

3}, S Delzon⁴, S A M McAdam⁵, N M Holbrook⁶

Affiliations

¹ School of Natural Sciences, University of Tasmania, Hobart, Tasmania, Australia. timothyb@utas.edu.au.
² School of Natural Sciences, University of Tasmania, Hobart, Tasmania, Australia.
³ Research Group on Plant Biology under Mediterranean Conditions, Departament de Biologia, Universitat de les Illes Balears - Instituto de Investigaciones Agroambientales y de la Economía del Agua, Palma, Spain.
⁴ Université Bordeaux, BIOGECO, INRAE, Pessac, France.
⁵ Purdue Center for Plant Biology, Department of Botany and Plant Pathology, Purdue University, West Lafayette, IN, USA.
⁶ Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, MA, USA. holbrook@oeb.harvard.edu.

PMID: 32170283
DOI: 10.1038/s41477-020-0602-x

Abstract

The evolution of terrestrial plants capable of growing upwards into the dry atmosphere profoundly transformed the Earth. A transition from small, 'non-vascular' bryophytes to arborescent vascular plants during the Devonian period is partially attributed to the evolutionary innovation of an internal vascular system capable of functioning under the substantial water tension associated with vascular water transport. Here, we show that vascular function in one of the most widespread living bryophytes (Polytrichum commune) exhibits strong functional parallels with the vascular systems of higher plants. These parallels include vascular conduits in Polytrichum that resist buckling while transporting water under tension, and leaves capable of regulating transpiration, permitting photosynthetic gas exchange without cavitation inside the vascular system. The advanced vascular function discovered in this tallest bryophyte family contrasts with the highly inefficient water use found in their leaves, emphasizing the importance of stomatal evolution enabling photosynthesis far above the soil surface.

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Comment in

Of mosses and vascular plants.
Duckett JG, Pressel S. Duckett JG, et al. Nat Plants. 2020 Mar;6(3):184-185. doi: 10.1038/s41477-020-0619-1. Nat Plants. 2020. PMID: 32170281 No abstract available.

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Advanced vascular function discovered in a widespread moss

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Advanced vascular function discovered in a widespread moss

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