Weak tradeoff between xylem safety and xylem-specific hydraulic efficiency across the world's woody plant species.

Authors

Sean M Gleason
Mark Westoby
Steven Jansen
Brendan Choat
Uwe G Hacke
Robert B Pratt
Radika Bhaskar
Tim J Brodribb
Sandra J Bucci
Kun-Fang Cao
Hervé Cochard
Sylvain Delzon
Jean-Christophe Domec
Ze-Xin Fan
Taylor S Feild
Anna L Jacobsen
Daniel M Johnson
Frederic Lens
Hafiz Maherali
Jordi Martínez-Vilalta
Stefan Mayr
Katherine A McCulloh
Maurizio Mencuccini
Patrick J Mitchell
Hugh Morris
Andrea Nardini
Jarmila Pittermann
Lenka Plavcová
Stefan G Schreiber
John S Sperry
Ian J Wright
Amy E Zanne, George Washington University

Document Type

Journal Article

Publication Date

9-17-2015

Journal

The New phytologist

Inclusive Pages

1-14

DOI

10.1111/nph.13646

Abstract

The evolution of lignified xylem allowed for the efficient transport of water under tension, but also exposed the vascular network to the risk of gas emboli and the spread of gas between xylem conduits, thus impeding sap transport to the leaves. A well-known hypothesis proposes that the safety of xylem (its ability to resist embolism formation and spread) should trade off against xylem efficiency (its capacity to transport water). We tested this safety-efficiency hypothesis in branch xylem across 335 angiosperm and 89 gymnosperm species. Safety was considered at three levels: the xylem water potentials where 12%, 50% and 88% of maximal conductivity are lost. Although correlations between safety and efficiency were weak (r(2) < 0.086), no species had high efficiency and high safety, supporting the idea for a safety-efficiency tradeoff. However, many species had low efficiency and low safety. Species with low efficiency and low safety were weakly associated (r(2) < 0.02 in most cases) with higher wood density, lower leaf- to sapwood-area and shorter stature. There appears to be no persuasive explanation for the considerable number of species with both low efficiency and low safety. These species represent a real challenge for understanding the evolution of xylem.

Comments

Reproduced with permission of Wiley Online Library. The New Phytologist.

Creative Commons License

This work is free of known copyright restrictions.

APA Citation

Gleason, S. M., Westoby, M., Jansen, S., Choat, B., Hacke, U. G., Pratt, R. B., Bhaskar, R., Brodribb, T. J., Bucci, S. J., Cao, K.-F., Cochard, H., Delzon, S., Domec, J.-C., Fan, Z.-X., Feild, T. S., Jacobsen, A. L., Johnson, D. M., Lens, F., Maherali, H., Martínez-Vilalta, J., Mayr, S., McCulloh, K. A., Mencuccini, M., Mitchell, P. J., Morris, H., Nardini, A., Pittermann, J., Plavcová, L., Schreiber, S. G., Sperry, J. S., Wright, I. J. and Zanne, A. E. (2015), Weak tradeoff between xylem safety and xylem-specific hydraulic efficiency across the world's woody plant species. New Phytologist. doi: 10.1111/nph.13646

Peer Reviewed

1

Open Access

1