Cenozoic climate change shaped the evolutionary ecophysiology of the Cupressaceae conifers

Jarmila Pittermann, Stephanie A. Stuart, Todd E. Dawson, and Astrid Moreau
PNAS June 12, 2012 109 (24) 9647-9652; https://doi.org/10.1073/pnas.1114378109

  1. Edited by Andrew H. Knoll, Harvard University, Cambridge, MA, and approved April 4, 2012 (received for review September 14, 2011)

Abstract

The Cupressaceae clade has the broadest diversity in habitat and morphology of any conifer family. This clade is characterized by highly divergent physiological strategies, with deciduous swamp-adapted genera-like Taxodium at one extreme, and evergreen desert genera-like Cupressus at the other. The size disparity within the Cupressaceae is equally impressive, with members ranging from 5-m-tall juniper shrubs to 100-m-tall redwood trees. Phylogenetic studies demonstrate that despite this variation, these taxa all share a single common ancestor; by extension, they also share a common ancestral habitat. Here, we use a common-garden approach to compare xylem and leaf-level physiology in this family. We then apply comparative phylogenetic methods to infer how Cenozoic climatic change shaped the morphological and physiological differences between modern-day members of the Cupressaceae. Our data show that drought-resistant crown clades (the Cupressoid and Callitroid clades) most likely evolved from drought-intolerant Mesozoic ancestors, and that this pattern is consistent with proposed shifts in post-Eocene paleoclimates. We also provide evidence that within the Cupressaceae, the evolution of drought-resistant xylem is coupled to increased carbon investment in xylem tissue, reduced xylem transport efficiency, and at the leaf level, reduced photosynthetic capacity. Phylogenetically based analyses suggest that the ancestors of the Cupressaceae were dependent upon moist habitats, and that drought-resistant physiology developed along with increasing habitat aridity from the Oligocene onward. We conclude that the modern biogeography of the Cupressaceae conifers was shaped in large part by their capacity to adapt to drought.

Footnotes

  • 1To whom correspondence should be addressed. E-mail: jpitterm{at}ucsc.edu.

  • 2Present address: Department of Biological Sciences, Macquarie University, North Ryde, NSW 2109, Australia.

  • Author contributions: J.P. and T.E.D. designed research; J.P., S.A.S., and A.M. performed research; J.P. and S.A.S. analyzed data; and J.P., S.A.S., and T.E.D. wrote the paper.

  • The authors declare no conflict of interest.

  • This article is a PNAS Direct Submission.

  • This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1114378109/-/DCSupplemental.

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Ecophysiology of the Cupressaceae conifers
Jarmila Pittermann, Stephanie A. Stuart, Todd E. Dawson, Astrid Moreau
Proceedings of the National Academy of Sciences Jun 2012, 109 (24) 9647-9652; DOI: 10.1073/pnas.1114378109
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