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Australian Forestry Volume 66, 2003 - Issue 3
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Articles

Kino vein formation in Eucalyptus globulus and E. nitens

Alieta Eyles Co-operative Research Centre for Sustainable Production Forestry, Private Bag 12, Hobart, Tasmania, 7001, Australia; School of Agricultural Science, University of Tasmania, Private Bag 54, Hobart, Tasmania, 7001, Australia
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Caroline Mohammed Co-operative Research Centre for Sustainable Production Forestry, Private Bag 12, Hobart, Tasmania, 7001, Australia; School of Agricultural Science, University of Tasmania, Private Bag 54, Hobart, Tasmania, 7001, Australia; CSIRO Forestry and Forest Products, Private Bag 12, Hobart, Tasmania, 7001, Australia
Pages 206-212 | Received 11 Dec 2002, Published online: 15 Apr 2013

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KM Little & RAW Gardner. (2021) Relative performance of coppice versus seedlings of 16 eucalypt taxa over two rotations in northern coastal Zululand, South Africa. Southern Forests: a Journal of Forest Science 83:2, pages 99-110.
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Shwu-Woan Lee, Wei-Jing Hung & Zong-Tsi Chen. (2017) A new flavonol from the kino of Eucalyptus citriodora. Natural Product Research 31:1, pages 37-42.
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Articles from other publishers (13)

Mohitul Hossain, Erik Veneklaas, Giles Hardy & Pieter Poot. (2022) Climatic origin of provenances of Corymbia calophylla affects canker disease susceptibility, caused by Quambalaria coyrecup , and interactions with drought stress . Forest Pathology 52:6.
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Valentina Benítez, Álvaro Camargo, Pablo Raimonda, Carlos Mantero & Claudia Marcela Ibáñez. (2022) Early stages of decay in Eucalyptus grandis trees inoculated with brown-rot fungi . Canadian Journal of Forest Research 52:7, pages 1060-1070.
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Paulo Cabrita. (2020) Holocrine secretion and kino flow in angiosperms: their role and physiological advantages in plant defence mechanisms. Trees 34:5, pages 1183-1204.
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Mohitul Hossain, Erik J Veneklaas, Giles E St J Hardy & Pieter Poot. (2019) Tree host–pathogen interactions as influenced by drought timing: linking physiological performance, biochemical defence and disease severity. Tree Physiology 39:1, pages 6-18.
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Flavio Ruffinatto & Alan CrivellaroFlavio Ruffinatto & Alan Crivellaro. 2019. Atlas of Macroscopic Wood Identification. Atlas of Macroscopic Wood Identification 11 29 .
Stephen C. Sillett, Robert Van Pelt, Russell D. Kramer, Allyson L. Carroll & George W. Koch. (2015) Biomass and growth potential of Eucalyptus regnans up to 100m tall. Forest Ecology and Management 348, pages 78-91.
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Marçal Soler, Eduardo Leal Oliveira Camargo, Victor Carocha, Hua Cassan‐Wang, Hélène San Clemente, Bruno Savelli, Charles A. Hefer, Jorge A. Pinto Paiva, Alexander A. Myburg & Jacqueline Grima‐Pettenati. (2014) The E ucalyptus grandis R 2 R 3‐ MYB transcription factor family: evidence for woody growth‐related evolution and function . New Phytologist 206:4, pages 1364-1377.
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Antonio Carlos Ferraz Filho, José Roberto Soares Scolforo & Blas Mola-Yudego. (2014) The coppice-with-standards silvicultural system as applied to Eucalyptus plantations — a review. Journal of Forestry Research 25:2, pages 237-248.
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Ann M. Patten, Daniel G. Vassão, Michael P. Wolcott, Laurence B. Davin & Norman G. Lewis. 2010. Comprehensive Natural Products II. Comprehensive Natural Products II 1173 1296 .
Matthew G. Hamilton, Bruce L. Greaves, Brad M. Potts & Gregory W. Dutkowski. (2007) Patterns of longitudinal within-tree variation in pulpwood and solidwood traits differ among Eucalyptus globulus genotypesLes variations longitudinales intra-arbre des propriétés papetières et du bois varient entre les génotypes d’Eucalyptus globulus. Annals of Forest Science 64:8, pages 831-837.
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Danielle Wiseman, Philip Smethurst, Libby Pinkard, Tim Wardlaw, Chris Beadle, Malcolm Hall, Craig Baillie & Caroline Mohammed. (2006) Pruning and fertiliser effects on branch size and decay in two Eucalyptus nitens plantations. Forest Ecology and Management 225:1-3, pages 123-133.
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E.A. Pinkard, C. Mohammed, C.L. Beadle, M.F. Hall, D. Worledge & A. Mollon. (2004) Growth responses, physiology and decay associated with pruning plantation-grown Eucalyptus globulus Labill. and E. nitens (Deane and Maiden) Maiden. Forest Ecology and Management 200:1-3, pages 263-277.
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A. Eyles, N. W. Davies, T. Mitsunaga, R. Mihara & C. Mohammed. (2004) Role of Eucalyptus globulus wound wood extractives: evidence of superoxide dismutase‐like activity . Forest Pathology 34:4, pages 225-232.
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