Does Canopy Position Affect Wood Specific Gravity in Temperate Forest Trees?

doi:10.1093/aob/mcg054

AOBPreview originally published online on February 20, 2003

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Annals of Botany 91: 529-537, 2003
© 2003 Annals of Botany Company

Does Canopy Position Affect Wood Specific Gravity in Temperate Forest Trees?

D. W. WOODCOCK¹ and A. D. SHIER¹

¹ Department of Geography, University of Hawaii-Manoa, 445 Social Science, Honolulu, HI 96822, USA

* For correspondence. Fax +00 1 808 956 3512, e-mail woodcock{at}hawaii.edu

Received: 8 July 2002; Returned for revision: 27 September 2002; Accepted: 10 December 2002 Published electronically: 20 February 2003

The radial increases in wood specific gravity known in manytree species have been interpreted as providing mechanical supportin response to the stresses associated with wind loading. Thisinterpretation leads to the hypothesis that individuals reachingthe canopy should (1) be more likely to have radial increasesin specific gravity and (2) exhibit greater increases than individualsin the subcanopy. Wood specific gravity was determined for threespecies of forest trees (Acer rubrum, Fagus grandifolia andTsuga canadensis) growing in central Massachusetts, USA. Acerrubrum shows radial increases in specific gravity, but theseincreases are not more pronounced in canopy trees; the othertwo species show a pattern of radial decreases. The degree ofradial increase or decrease is influenced by tree height anddiameter. Of the dominant tree species for which we have data,A. rubrum, Betula papyrifera and Pinus strobus show radial increasesin specific gravity, whereas F. grandifolia, T. canadensis andQuercus rubra show decreases. The occurrence of radial increasesin B. papyrifera and P. strobus, which are often canopy emergents,suggests that it is overall adaptive strategy that is importantrather than position (canopy vs. subcanopy) of any individualtree. It is suggested that radial increases in specific gravityare associated with early-successional status or characteristicsand decreases with late-successional status or persistence inmature forest.

Key words: Canopy, subcanopy, tree biomechanics, wood specific gravity, radial trends, Mixed Northern Hardwoods Forest, biomass.

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