EurekaMag.com logo
+ Site Statistics
References:
53,869,633
Abstracts:
29,686,251
+ Search Articles
+ Subscribe to Site Feeds
EurekaMag Most Shared ContentMost Shared
EurekaMag PDF Full Text ContentPDF Full Text
+ PDF Full Text
Request PDF Full TextRequest PDF Full Text
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter
Follow on LinkedInFollow on LinkedIn

+ Translate

Radial variation in basic density and anatomical structure in wood of Eucalyptus globulus, E. pellita and E. acmenioides



Radial variation in basic density and anatomical structure in wood of Eucalyptus globulus, E. pellita and E. acmenioides



IPEF, Instituto de Pesquisas e Estudos Florestais (36): 35-42



A study of samples of 10-yr-old trees in Sao Paulo taken at b.h. showed that basic density increased from the pith towards the bark in E. pellita and E. acmenioides; in E. globulus, density decreased after 50% of the sample radius. In all species, fibre length increased in the radial direction; a tendency to stabilize was not observed until the 10th yr of growth.

(PDF emailed within 1 workday: $29.90)

Accession: 001925308

Download citation: RISBibTeXText



Related references

Effect of shrinkage, basic density and some macroscopic anatomical characteristics on the waviness of radial-cut veneers of Eucalyptus globulus. Ciencia e Investigacion Forestal 6(2): 149-156, 1992

Radial variation of basic density and anatomical constituents of eucalyptus saligna and eucalyptus grandis woods. IAWA (International Association of Wood Anatomists) Bulletin 5(4): 347, 1984

Genetic variation for growth and wood density in Eucalyptus globulus ssp. globulus in Tasmania (Australia). Silvae Genetica 46(4): 236-241, 1997

Radial variation of basic density of the wood of Eucalyptus grandis W Hill ex Maiden. Floresta: 3, 553-559, 2008

Nondestructive sampling of Eucalyptus globulus and E. nitens for wood properties. I. Basic density. Wood Science and Technology 35(1/2): 27-39, 2001

Functional relationships between wood structure and vulnerability to xylem cavitation in races of Eucalyptus globulus differing in wood density. Tree Physiology: 1-9, 2017

Functional relationships between wood structure and vulnerability to xylem cavitation in races of Eucalyptus globulus differing in wood density. Tree Physiology 38(2): 243-251, 2018

Within and between-tree variation of bark content and wood density of eucalyptus globulus in commercial plantations. IAWA Journal 22(3): 255-265, 2001

Where to shoot your pilodyn: Within tree variation in basic density in plantation Eucalyptus globulus and E. nitens in Tasmania. New Forests 15(3): 205-221, 1998

Basic density and fibre length at breast height of Eucalyptus globulus ssp. globulus for parameter prediction of the whole tree. IAWA Journal 24(2): 173-184, 2003

Provenance and site variation of wood density in Eucalyptus globulus Labill. at harvest age and its relation to a non-destructive early assessment. Forest Ecology and Management 149(1/3): 235-240, 2001

Effect of density variation on strength properties of plantation-grown Eucalyptus globulus labill. ssp. Globulus. Journal of the Institute of Wood Science 14(4): 180-184, 1997

Microfibril angle prediction of Eucalyptus pellita wood samples based on radial and tangential section by near infrared spectroscopy. Guang Pu Xue Yu Guang Pu Fen Xi 30(9): 2355-2359, 2015

Variation in basic density and anatomical properties of Eucalyptus tereticornis clones. Journal of Tropical Forest Products 9(1/2): 59-67, 2003

Clonal variation in basic density and anatomical properties of Eucalyptus tereticornis - four to five years. Indian Forester 131(9): 1187-1200, 2005