|Table of Contents|

Population structure and spatial pattern of dominant species in old-growth Chinese fir communities under near-natural restoration(PDF)

Chinese Journal of Applied & Environmental Biology[ISSN:1006-687X/CN:51-1482/Q]

Issue:
2015 03
Page:
540-546
Research Field:
Articles
Publishing date:

Info

Title:
Population structure and spatial pattern of dominant species in old-growth Chinese fir communities under near-natural restoration
Author(s):
LIU Sheng’en LIN Kaimin CAI Mengke ZHENG Wenhui SHI Lina CHEN Mengyao ZHOU Lichun GUO Yushuo HE Zongming
1College of Forestry, Fujian Agriculture and Forestry University, Fuzhou 350002, China 2Chinese Fir Engineering Technology Research Center, State Forestry Administration, Fuzhou 350002, China 3Xiqin Experimental Forest Farm of Fujian Agricture and Forestry University, Nanping 353001, China
Keywords:
near-natural restoration old-growth Chinese fir community population structure spatial pattern succession
CLC:
S791.270.2
PACS:
DOI:
10.3724/SP.J.1145.2015.01001
DocumentCode:

Abstract:
To detect the population characteristics of dominant species in the Chinese fir ecosystem under long time near-natural restoration, the method of contiguous grid quadrants was applied to conduct comprehensive analysis on the population structure and spatial pattern of the dominant species in a 75 a old-growth Chinese fir community at the Xiqin Teaching Forest of Nanping, Fujian Province. The results showed that the community of Schima superba, Castanopsis fargesii and Machilus pauhoi was generally in an inverse “J” shape, and the population belonged to growing group. The community of Cunninghamia lanceolata and Eurya nitida was in the “J” shape, and the population belonged to recessing group. In the population level, S. superba and E. nitida were distributed in a clumped pattern, M. pauhoi and C. fargesii populations in a random pattern, and C. lanceolata in an even pattern. The clump intensity was in an order of E. nitida > S. superba > M. pauhoi > C. fargesii > C. lanceolata. Among them S. Superba showed a random pattern at age V but a clumped pattern at the other four ages; M. Pauhoi and C. fargesii of all ages showed a clumped pattern; E. Nitida showed a clumped pattern at age I and II, a random pattern at age III, but a even distribution patter at age IV. Besides, the diffusion coefficient of E. Nitida and C. lanceolata increased with the diameter. The old-growth Chinese fir communities are in a transition phase proceeding to zonal evergreen broad-leaved forest succession. In conclusion, near-natural restoration effectively enriches vegetation types of old-growth Chinese fir communities. S. superba, C. fargesii, and M. pauhoi should be given priority in restoration and reconstruction of degraded ecosystem of Chinese fir plantations.

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