Genetic Variation in Wood Property and Growth of Taiwania (Taiwania cryptomerioides Hayata)-Reference-Cited by-同舟云学术

Genetic Variation in Wood Property and Growth of Taiwania (Taiwania cryptomerioides Hayata)

Published:2013-12-01 Issue:1-6 Volume:62 Page:265-276
ISSN:2509-8934
Container-title:Silvae Genetica
language:en
Short-container-title:

Author:

Chung Jeng-Der¹,Chiu Chih-Ming²,Nigh Gordon³,Chien Ching-Te²,Ying Cheng C.³

Affiliation:

1. Taiwan Forestry Research Institute, 53 Nan-Hai Road, Taipei , Taiwan, Province of China 10066

2. Taiwan Forestry Research Institute, 53 Nan-Hai Road, Taipei , Province of China[a] , 10066

3. B.C. Ministry of Forests, Lands and Natural Resource Operations, Forest Analysis and Inventory Branch, P.O. Box 9512, Stn. Prov. Govt., Victoria , B.C., Canada

Abstract

Abstract The genetic variation in wood property and growth of Taiwania (Taiwania cryptomerioides) was investigated at two test sites in the same general location, but one at 1200 m (LK20) and another at 1900 m (LK24). A rangewide sample of 48 open-pollinated families in Taiwan was involved. The test plantations were 16 years old when the wood property data were collected. Traits studied include wood specific gravity, tracheid length, ring width. DBH at ages13, 16, and 22 and height at age 13 were also analyzed. Site environment had a dominant effect on growth and wood density, but showed little interaction with family. The site effect was evident in large between-site differences in means, range of family means, and size of family variance components and heritability estimates. These differences are attributable to the site characteristics of LK24 (high elevation, upper slope near a mountain crest) and an unfavourable local climate. Taiwania is fast growing and produces quality wood, and is also an interesting species from the perspective of evolutionary biology. Protection of its genetic variability should be a priority to be managed. We propose that the existing five progeny tests be protected since these tests well-represent the genetic variability of the species in Taiwan.

Publisher

Walter de Gruyter GmbH

Subject

Genetics,Forestry

Reference44 articles.

1. CHIU, C. M., G. NIGH, C. T. CHIEN and C. C. YING (2010a): Diameter distribution models for thinned Taiwania (Taiwania cryptomerioides) plantations. Australian Forestry 73: 3-11.

2. CHIU, C. M., G. NIGH, C. T. CHIEN and C. C. YING (2010b): Growth patterns of plantation-grown Taiwania cryptomerioides following thinning. Australian Forestry 73: 246-253.

3. CHUNG, J. D., S. R. GUO and J. C. YANG (2001): Preliminary results of flower promotion and seeding in reestablished clonal orchards of Calocedrus formosana (English Summary). Taiwan Journal of Forest Science 16: 131-196.

4. CHUNG, J. D., G. NIGH, C. T. CHIEN and C. C. YING (2011): Genetic variation and tree improvement of Konishii fir (Cunninghamia lanceolata (Lamb.) var. Konishii). Silvae Genetica 60: 196-205.

5. FARJON, A. and C. N. PAGE (complier) (1999): Status survey and conservation action plan - conifers. International Union of Conservation Network (IUCN). IUCN Publications Services Unit, UK.

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