Sap flow rates and sapwood density are critical factors in within- and between-tree variation in CO2 efflux from stems of mature Dacrydium cupressinum trees

Publication Status is "Submitted" Or "In Press: 
LDEO Publication: 
Publication Type: 
Journal Article
Year of Publication: 
2005
Authors: 
Bowman, W. P.; Barbour, M. M.; Turnbull, M. H.; Tissue, D. T.; Whitehead, D.; Griffin, K. L.
Editor: 
Journal Title: 
New Phytologist
Journal Date: 
Sep
Place Published: 
Tertiary Title: 
Volume: 
167
Issue: 
3
Pages: 
815-828
Section / Start page: 
Publisher: 
ISBN Number: 
0028-646X
ISSN Number: 
Edition: 
Short Title: 
Accession Number: 
ISI:000230995000017
LDEO Publication Number: 
Call Number: 
Key Words: 
co2 efflux; dacrydium cupressinum; sap flux density; sapwood density; stem respiration; xylem transport; maintenance respiration rates; loblolly-pine; wood density; contrasting climates; leaf respiration; root respiration; growth; temperature; forest; xyl;
Abstract: 

Measurements of CO2 efflux from stems and branches, sap velocity, and respiratory activity of excised wood cores were conducted in Dacrydium cupressinum trees that differed in diameter, age, and canopy emergence. The objective of this study was to determine if consistent linkages exist among respiratory production of CO2 within stems, xylem transport of CO2, and the rate of CO2 diffusing from stem surfaces.Stem CO2 efflux was depressed during periods of sap flow compared with the efflux rate expected for a given stem temperature and was positively correlated with sapwood density. By contrast, no significant relationships were observed between CO2 efflux and the respiratory activity of wood tissues.

Notes: 

952HQTimes Cited:11Cited References Count:61

URL: 
<Go to ISI>://000230995000017
DOI: 
DOI 10.1111/j.1469-8137.2005.01478.x