Browse > Article

Forest Vegetation Structures and Successional Trends in Young-il Soil Erosion Control District  

Cho, Hyun-Je (Institute of Agricultural Science and Technology, Kyungpook National University)
Publication Information
Journal of Korean Society of Forest Science / v.94, no.6, 2005 , pp. 453-461 More about this Journal
Abstract
Structural characteristics and successional trends of actual forest vegetation in Youngil soil erosion control district, South Korea, were studied and described by the phytosociological investigations and diameter measurement. And also the incremental growth pattern of the major trees for erosion control analyzed using increment core. Sixty-eight releves were sampled with $100m^2$ plots. Two main vegetation types (Lespedeza bicolor-Miscanthus sinensis-type and Alnus firma-Styrax japonica-type) have been distinguished and typified nine vegetation units. Constancy classes diagram showed that the higher species (${\geq}IV$) have only 2.6% and that most species occurred were rare and had low abundances. The successional trends of the actual forest vegetation would be mostly changed as Quercus serrata forest. Annual diameter growth was 3.0~3.4 mm in case of conifer (Pinus rigida and Pinus thunbergii), and the broad-leaved trees (Alnus firma, Robinia pseudo-acacia, and Alnus hirsuta) showed 4.3~4.9 mm. The incremental growth patterns showed to be decreased rapidly since twenty to twenty-five years regardless of the species of trees.
Keywords
youngil soil erosion control district; phytosocilogical investigations; vegetation types; successional trends; incremental growth pattern;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 한국산지보전협회 . 2004 영일사방사업지 및 해안사구 산림생태계 보전과 질적 기능 개선을 위한 관리방안. 242pp.
2 Braun-Blanquet, J. 1964. Pflanzensoziologie Grundzuge der Vegetation 3. Auf. Springer-Verlag. Wien. N.Y. 865pp.
3 Legendre, L. and P. Legendre. 1984. Ecologie numerique, 2 Vol. Masson, Paris and Presses de I'Universite de Quebec. pp.260-335
4 기상청 1971-2000. 기상연보 기상청
5 정인구. 1979. 영일니암지대 식생불생육지의 토양성질에 관한 연구. 학술연구발표요지 . 한국임학회 43: 87-88
6 이창복. 1996. 대한식물도감. 향문사. 서울. 990pp.
7 Podani, J. 1994. Multivariate Analysis in Ecology and Systematics. SPB Academic Publishing, Amsterdam. 316pp.
8 홍성천. 1982. 영일사방사업지의 삼림생태학적 연구. 한국임학회지 58: 41-47
9 경상북도 1977. 영일지구사방사업사. 경상북도. 286pp
10 Cox, G.W. 1976. Laboratory manual of general ecology. Wm.C.Brown, Dubuque. Iowa. 112pp.
11 최 경, 이천용. 1987. 사방지 식생 천이와 토양변화에 관한 연구(중부화강암지대를 중심으로). 학술연구발표요지 . 한국임학회지 76(3): 312-313
12 박수현. 1995. 한국귀화식물원색도감. 일조각. 서울. 232pp.
13 Kovach W.L., 1999. MVSP-A multivariate statistical pacakage for windows, ver 3.1. pentraeth: Wales: Kovach Computing Services
14 홍성천, 이종운, 김영호. 1978. 사방지 보호를 위한 조림학적 고찰(영일지구 사방사업지를 중심으로). 학술연구발표요지. 한국임학회지 37: 69-70
15 Ellenberg, H. 1956. Aufgaben und Methoden der vegetationskunde. stuttgart. 136pp.
16 주성현. 1981. 영일사방사업지의 토양단면 및 식생구조의 변화. 경북대학교 석사학위논문. 14pp.
17 Curtis, J.T. and R.P. McIntosh. 1951. The upland forest continuum in the prairie-forest border region of Wisconsin. Ecology 32: 476-496   DOI   ScienceOn