RESEARCH ARTICLE

Effects of site conditions and methods of cultivation on growth of sawtooth oak plantations

  • Luozhong TANG , 1 ,
  • Dan ZHAO 1 ,
  • Chunfeng YAN 1 ,
  • Zhilong LIU 1 ,
  • Shengzuo FANG 1 ,
  • Mukui YU 2
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  • 1. College of Forest Resources and Environment, Nanjing Forestry University, Nanjing 210037, China
  • 2. Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Fuyang 311400, China

Published date: 05 Jun 2009

Copyright

2014 Higher Education Press and Springer-Verlag Berlin Heidelberg

Abstract

The effects of site conditions and cultivation on the growth of sawtooth oak (Quercus acutissima Carr.) plantations were evaluated at the Hongyashan forest farm, in Chuzhou City, Anhui Province, China. The results indicate that the position on the slope, the amount of gravel and the thickness of the soil were important factors in the growth of the sawtooth oak. Lower slope positions with small amounts of gravel and a thick soil were better for the growth of this species than middle slope positions with more gravel and a thin soil. Given the site conditions of the hilly and mountainous areas in Chuzhou City, the mixed Chinese fir (Cunninghamia lanceolata Hook.) and sawtooth oak forests did not improve forest productivity compared with pure sawtooth oak forests. Both urea and compound fertilizers promoted the growth of sawtooth oak, as did site preparation and intercropping. Two years after planting, the height growth of ordinary seedlings with a starting height of 0.6 m was higher than that of supper seedlings with a starting height of 1.0 m. Compared with planting, the early growth of the coppices was faster, but the later growth of the coppices was slower.

Cite this article

Luozhong TANG , Dan ZHAO , Chunfeng YAN , Zhilong LIU , Shengzuo FANG , Mukui YU . Effects of site conditions and methods of cultivation on growth of sawtooth oak plantations[J]. Frontiers of Forestry in China, 2009 , 4(2) : 185 -190 . DOI: 10.1007/s11461-009-0024-4

Acknowledgements

This work was supported by the “948” project of the Chinese Government (2005-4-44) and a public welfare project of China (No. 200704034).
1
Afforestation Office, State Forestry Administration, China (2003). Ecological construction and control methods of forest in upper reaches of Yangtze River. Pract For Tech, 9: 32 (in Chinese)

2
Arboretum Editor Committee of China (1981). Planting Technology of Main Trees in China. Beijing: China Forestry Publishing House, 500-506 (in Chinese)

3
Cai C Y, Wang X Y, Ding B R (2001). Research on economic benefits of Quercus acutissima for fuel in Jianghuai hills area. For By-Prod Spec China, 3: 56-57 (in Chinese)

4
Chen Z D, Wu Y X, Lu Z M, Wang Z Y, Wei Z H (2004). Study on plantation standard of Quercus acutissima for fuelwood in short rotation. Pract For Tech, 11: 4-5 (in Chinese)

5
Du G J, Zhu G Q, Zheng Z J, Cai G Y, Ni R X (2003). Study on the technology of plantation for cultivating mushroom in short rotation. China For Sci Tech, 17(5): 17-19 (in Chinese)

6
Fang C L, Ding Y H (1996). Resources and utilization of Quercus acutissima forest in mountain area of southern Henan province. China For Sci Tech, 3: 33 (in Chinese)

7
Feng Z W, Wang X K, Wu G (1999). Biomass and Productivity of Forest Ecosystem in China. Beijing: Science Press, 8-24 (in Chinese)

8
Guo S M, Peng R, Du T Z, Qiu Y X, Lai X L (2006). Seasonal changes of β-carotene content in leaves of several varieties of Fagaceae family. Jiangxi For Sci Tech, 3: 1-2, 22 (in Chinese)

9
Li X R, Liu Q J, Chen Y R, Hu L L, Yang F T (2006). Aboveground biomass of three conifers in Qianyanzhou plantation. Chin J Appl Ecol, 17(8): 1382-1388 (in Chinese)

10
Lu Z M, Wu Y X, Yu Y B, Yang Y L, Lu D B, Hou K (2003). Study on growth of Quercus acutissima under different regeneration methods. Jilin For Sci Tech, 32(5): 18–20 (in Chinese)

11
Luo S Q (2006). Planting technology of sawtooth oak. Auhui Agr Sci Bull, 12(13): 208 (in Chinese)

12
Yang C, Dang K L, Liu J J (1997). Water-source conservation and regulating efficacy of artificial forest of Quercus acutissima. J Northwest For Coll, 12(2): 15-19 (in Chinese)

13
Yang X J, Jiang Z L (2001). Water holding function of under forest layer of main forest types in hilly area of southern Jiangsu Province. Bull Soil Water Conserv, 21(3): 28-31 (in Chinese)

14
Yu C Q, Hou K, Zhao Q X, Huo Y H, Bai R F, Ji S L, Chi Y L (2005a). Correlation analysis of different site factors and Quercus acutissima growth. Jilin For Sci Tech, 34(5): 22-23 (in Chinese)

15
Yu C Q, Liu H, Huo Y H, Wang X L, Jin D S, Sun T, Wu Y X, Song D L (2005b). Study on directive cultivation of Quercus acutissima timber-forest for edible fungus. Jilin For Sci Tech, 34(5): 36-37 (in Chinese)

16
Zhu L K (2006). Situation, objective and countermeasure of bio-energy forest in China. Green China, 24: 10-16 (in Chinese)

DOI

17
Zou D M, Zhu G Q, Wu S Y, Wu Y F, Hu H J, Ye C W (1997). Preliminary study on the trees selection for cultivating mushroom. J Zhejiang For Sci Tech, 17(1): 18-23 (in Chinese)

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