4.7 Article

Climate-related trends in sapwood biophysical properties in two conifers: avoidance of hydraulic dysfunction through coordinated adjustments in xylem efficiency, safety and capacitance

Related references

Note: Only part of the references are listed.
Article Plant Sciences

Capacitive effect of cavitation in xylem conduits: results from a dynamic model

Teemu Holtta et al.

PLANT CELL AND ENVIRONMENT (2009)

Article Plant Sciences

Hydraulic Failure Defines the Recovery and Point of Death in Water-Stressed Conifers

Tim J. Brodribb et al.

PLANT PHYSIOLOGY (2009)

Article Plant Sciences

New Insights into the Mechanisms of Water-Stress-Induced Cavitation in Conifers

Herve Cochard et al.

PLANT PHYSIOLOGY (2009)

Review Plant Sciences

Safety and efficiency conflicts in hydraulic architecture: scaling from tissues to trees

John S. Sperry et al.

PLANT CELL AND ENVIRONMENT (2008)

Article Multidisciplinary Sciences

Maximum height in a conifer is associated with conflicting requirements for xylem design

Jean-Christophe Domec et al.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2008)

Article Plant Sciences

Mechanical reinforcement of tracheids compromises the hydraulic efficiency of conifer xylem

Jarmila Pittermann et al.

PLANT CELL AND ENVIRONMENT (2006)

Article Plant Sciences

The hydraulic architecture of Pinaceae - a review

J Martinez-Vilalta et al.

PLANT ECOLOGY (2004)

Article Plant Sciences

Whole-tree water transport scales with sapwood capacitance in tropical forest canopy trees

FC Meinzer et al.

PLANT CELL AND ENVIRONMENT (2003)

Article Plant Sciences

How do water transport and water storage differ in coniferous earlywood and latewood?

JC Domec et al.

JOURNAL OF EXPERIMENTAL BOTANY (2002)

Article Ecology

Influence of soil porosity on water use in Pinus taeda

UG Hacke et al.

OECOLOGIA (2000)