camelliaoleifera

Listing of Useful Plants of the World
[formerly Listing of Potential New Crops for Australia]

NOTICE: Information on the background to this Listing is available. The analysis of numbers of papers/mentions over time was completed in 1997, using the Agricola database (1970-1996). Hard copies of the Listing (553 pages; over 4200 new crops listed with the analyses of numbers of papers over time included) are available from the publisher, Dr Rob Fletcher; see Advice on Publications Available.

The references listed below are from the Biological Abstracts database (1988-2000) and are courtesy of SilverPlatter Information. For more information re Silverplatter, go to www.silverplatter.com.

Camellia oleifera
see Camellia sasanqua

Analysis of numbers of papers/mentions over time (Agricola database 1970-1996):

Source: AGRICOLA database (1970-1996)

Common Name(s):
Crop Use(s):
Reference Source(s):
Number of Papers/Mentions: 19

References (Biological Abstracts 1988-2000):

[These references are from the Biological Abstracts database and are courtesy of SilverPlatter Information. For more information re SilverPlatter, go to www.silverplatter.com. References are listed alphabetically by author within years, with most recent references first; addresses of author(s) have been included when available. To search within this page, we suggest using Find in Page, within the Edit menu of the Web Browser.]

Wang, B. (1999). The Dagangshan mountain forest eco-system research station. Forest Research. Oct. 12(5): 561-562.

Yang, Y. W., P. Ding, et al. (1999). Factors affecting habitat used by Elliot's pheasant (Symaticus ellioti) in mixed coniferous and broadleaf forests. Acta Zoologica Sinica. [print] Sept 45(3): 279-286. {a} Department of Biology, College of Life Science, Hangzhou University, Hangzhou, 310012, China

Li, P., B. Long, et al. (1998). The effect of S-3307 on the vegetative growth, blossoming and bearing fruit in oil-tea tree. Forest Research 11(5): 551-555. {a} Jiangxi Agric. Univ., Nanchang 330045, China

Wu, K., Y. Weng, et al. (1998). Comparison of antisenile effects of seed oil of Camellia grijsii and certain other oil from woody crops on 2BS cell culture. Forest Research 11(4): 355-360. {a} Res. Inst. Subtrop. For., CAF, Fuyang, Zhejiang 311400, China

Wang, X. D. X. (1997). Recent status of the development and strategies of exploitation of non-wood forest products in China. Forest Research 10(2): 199-205. Northwestern Coll. Forestry, Yangling, Shanxi 712100, China

Xiong, N. W. K., X. Chen, et al. (1996). The studies on the results of improving the low-yield stands of Camellia oleifera by means of grafting clones and the determination of its clones. Forest Research 9(2): 184-188. {a} Fujian Res. Inst. Forestry, Fuzhou 3500012, China

Zhang, C. (1996). Preliminary study on pathology of resistance to anthracnose in different oil-tea camelliae type. Forest Research 9(4): 435-438. Res. Inst. Subtrop. Forestry, CAF, Fuyang, Zhejiang 311400, China

Johnson, G. R. and A. G. Hirsh (1995). Validity of screening for foliage cold hardiness in the laboratory. Journal of Environmental Horticulture 13(1): 26-30. {a} USDA Forest Serv., Pacific Northwest Research Station, 3200 Jefferson Way, Corvallis, OR 97330, USA

Su, W. and L. Pan (1995). Mechanism of supercooling in flower bud of Camellia oleifea. Science in China Series B Chemistry Life Sciences and Earth Sciences 38(6): 688-696. Shanghai Inst. Plant Physiol., Chinese Acad. Sciences, Shanghai 200032, China

Fang, J. (1994). Advances in science and technology on tea-oil tree and tung-oil tree in China. Forest Research 7(Mem.): 30-38. Reserach Inst. Subtropical Forestry, CAF, Fuyang, Zhejiang 311400, China

Wang, C. I., H. W. Yin, et al. (1994). Stability examination of oiltea oil and analysis of oil's tocopherol and sterol components. Bulletin of the Taiwan Forestry Research Institute New Series 9(1): 73-85. Taiwan For. Res. Inst., 53 Nan-hai Road, Taipei 100, Taiwan

Yoshida, T., T. Nakazawa, et al. (1994). A dimeric hydrolysable tannin from Camellia oleifera. Phytochemistry Oxford 37(1): 241-244. {a} Fac. Pharm. Sci., Okayama Univ., Tsushima, Okayama 700, Japan

Tang, L., E. Bayer, et al. (1993). Obtain, properties and utilization of Chinese teaseed oil. Fett Wissenschaft Technologie 95(1): 23-27. {a} Inst. Organische Chemie, Univ. Tuebingen, Auf der Morgenstelle 18, D-7400 Tuebingen, Germany

Zavada, M. S. and Z. X. Wei (1993). A contribution to the pollen morphology of Camellia (Theaceae). Grana 32(4-5): 233-242. {a} Dep. Biol., Univ. Southwestern La., Lafayette, LA 70504, USA

Zhuang, R., Huang, et al. (1992). Studies on the breeding of 19 new tea-oil varieties with high yield. Forest Research 5(6): 619-627. {a} Res. Inst. Subtropical Forestry, CAF, Beijing, China

Kondo, K., K. Taniguchi, et al. (1991). A karyomorphological study of twelve species of Chinese Camellia. Kromosomo 2(62): 2107-2114.

Ruilin, Z., R. Dong, et al. (1991). The establishments and benefits of the gene pools for the germ plasm resources of Camellia. Forest Research 4(2): 178-184.

Yang, Y., R. Bian, et al. (1991). The selection of gray models for some tree species in seedling stage. Forest Research 4(2): 211-216.

Wang, C. L. and Y. H. Lin (1990). The extraction and analysis of oils from selected species of oil tea Camellia in Taiwan. Bulletin Of Taiwan Forestry Research Institute New Series 5(1): 11-16.

Hakoda, N. and T. Akihama (1988). Morphological classification of cultivars in Camellia sasanqua Thunb. using principal component analysis and cluster analysis. Journal Of The Japanese Society For Horticultural Science 57(2): 233-242.

Hakoda, N. (1987). Studies on the interrelationships between cultivars of Camellia sasanqua Thunb. and species of the genus Camellia Linn., based on peroxidase isozymes. Journal Of The Japanese Society For Horticultural Science 56(3): 339-343.

Liao, X. K., W. X. Chen, et al. (1987). A study on the triglyceride composition of seed oils from several species of plants of genus Camellia. Acta Botanica Sinica 29(6): 629-635.

Wang, Z., Z. Jia, et al. (1986). Flavonoid constituents from oil cake of the seeds of Camellia oleifera. Acta Botanica Yunnanica 8(2): 157-160.

Nagata, T. and S. Sakai (1985). Caffeine, flavanol and amino acid contents in leaves of hybrids and species of the section Dubiae in the genus Camellia. Japanese Journal Of Breeding 35(1): 1-8.

Nagata, T. and S. Sakai (1984). Differences in caffeine, flavanol and amino acid content in leaves of cultivated species of Camellia. Japanese Journal Of Breeding 34(4): 459-467.

Index of botanical names:
[A] [B] [C] [D] [E] [F] [G] [H] [I] [J] [K] [L] [M]
[N] [O] [P] [Q] [R] [S] [T] [U] [V] [W] [X] [Y] [Z]

Index of common names:
[A] [B] [C] [D] [E] [F] [G] [H] [I] [J] [K] [L] [M]
[N] [O] [P] [Q] [R] [S] [T] [U] [V] [W] [X] [Y] [Z]

All information is included in good faith but The University of Queensland does not warrant or guarantee the accuracy of any information on these pages, nor does it accept responsibilities for any loss arising from the use of this information. Views and opinions do not represent those of the University of Queensland.

Contact: Dr Rob Fletcher, School of Agriculture and Horticulture, The University of Queensland, Gatton 4343; Telephone: 07 5460 1311 or 07 5460 1301; Facsimile: 07 5460 1112; International facsimile: 61 7 5460 1112; Email: r.fletcher@mailbox.uq.edu.au

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Latest update 30 January 2001 by: RF