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  • KOREAN
  • P-ISSN2287-8327
  • E-ISSN2288-1220
  • SCOPUS, KCI

Progressive Succession and Potential Natural Vegetation on the Forest Vegetation in and surrounding Daegu, Korea

Journal of Ecology and Environment / Journal of Ecology and Environment, (P)2287-8327; (E)2288-1220
2006, v.29 no.3, pp.175-183



Abstract

This study represents the mechanism of progressive succession and potential natural vegetation onthe forest vegetation in and surrounding Daegu. As a result of DCA, the feature of comunity was determined by an altitude and humid gradients. The soil moisture, contents of organic matter and total nitrogen increased as the comunity developed. In the interspecific association analysis, the forest vegetation was divided into two species groups and they were influenced by temperature and soil moisture. Especially, each two groups showed different stages of vegetation development according to the progressive succession and life form composition supported those results. It was predicted that Quercus variabilis, Q. acutissima, Q. dentata and Pinus densiflora communities Q. serrata community or Q. mongolica community depending on their location or species composition. In the study area, the potential natural vegetation was divided into 3 comunities by biogeographical gradients such as species composition, soil environment, and geographical features: 1) Q. mongolica community in the middle-upper area of the mountain, 2) Q. serrata community in the middle-lower area of the mountain and 3) Carpinus cordata-Acer mono community in the cove area. It is suggested that the Q.mongolica and C.cordata-A. mono communities become actual vegetation and potential natural vegetation. But it is also suggested that the P. densiflora Q. mongolica community and Q. serrata community on the basis of the present species composition.

keywords
DCA, Daegu, Forest vegetation, Interspecific association, Life form, Potential natural vegetation, Progressive succession정흥락 등 J. Ecol. Field Biol. 29 (3) 266연 식생에 대한 연구나 잠재 자연 식생도는 지역 식생의 관리, 토지 이용, 경관 계획, 복원 등에 유익한 정보를 제공해 주는(Brzeziecki et al. 19, DCA, Daegu, Forest vegetation, Interspecific association, Life form, Potential natural vegetation, Progressive succession정흥락 등 J. Ecol. Field Biol. 29 (3) 266연 식생에 대한 연구나 잠재 자연 식생도는 지역 식생의 관리, 토지 이용, 경관 계획, 복원 등에 유익한 정보를 제공해 주는(Brzeziecki et al. 19

Reference

1.

이종운. 1983. 당지동 산화적지의 초기식생천이. 한국생태학회지 6,

2.

(2000) 토양화학분석법,

3.

김헌규. 1993. 안동 임하댐 일대의 삼림식생에 대한 군락생태학적 연구. 한국생태학회지 16,

4.

신상천. 1988. Lactuca serriola의 분포 및 군락 형성에 관한 연구 . 영남대학교 대학원 석사학위논문. p 43. 대구.,

5.

유창희. 1990. Classification 및 Ordination 방법에 의한 용문산 삼림의 식물군집 구조분석 . 식물학회지 33,

6.

(2004) 동해안 산불 피해지에서 산불 후 경과 년 수에 따른 식생 구조의 발달 . ,

7.

이수욱. 1981. 한국의 삼림토양에 관한 연구,

8.

(1996) 한국식물명고, 아카데미서적

9.

(2005) 남해군 삼림식생의 군락동태. ,

10.

(2003) 영종도 삼림식생의 군락생태. ,

11.

김창호. 1993. 일월산의 삼림식생 분석. 한국생태학회지 16,

12.

김정언. 1992. 지리산의 식생. 중앙대학교 출판부. 서울. 467p.,

13.

(2000) 대구 인접지역에 대한 삼림식생의 군락분류. ,

14.

(1995) Structural-compositional variation in three age-classes of temperate rainforests in southern coastal British Columbia. ,

15.

Austin MP. 1977. Use of ordination and other multivariate descriptive methods to study succession. Vegetatio 35,

16.

(1998) Forest Ecology(4ed). , John wiley and Sons

17.

(1996) Quantifying organizational change after fire in lodgepole pine forest understory. ,

18.

Wildi O. 1993. A simulated map of the poten-tial natural forest vegetation of Switzerland. J Veg Sci 4,

19.

(2006.6) 대구지역 삼림 식생의 진행 ,

20.

(1995) Deciduous broad-leaved forests in North-Central China. in E.O. Box et al. Vegetation Science in Forestry. , Kluwer Academic Publishers.

21.

(2006) Distribution patterns, floristic diferen-tiation and succession of Pinus densiflora forest in South Korea A perspective at nation-wide scale. ,

22.

(2004) Forest responses to the large-scale east coast fires in Korea.,

23.

(2006) LVegetation trajectories of Korean Red Pine (Pinus densiflora Sieb. et Zucc.) forests at Mt. Seorak, Korea. ,

24.

(2003) Succession in sub-boreal forests of West-Central British Columbia. ,

25.

Slatyer RO. 1977. Mechanisms of succession in natural communities and their role in community stability and organiza-tion. Am Nat 111,

26.

Major J. 1955. Soil development in relation to vegetation and surface age at Glacier Bay. Alaska. J Ecol 43,

27.

Ellenberg H. 1988. Vegetation ecology of Central Europe. University Press,

28.

Yim YJ. 1987. Actual vegetation and potential natural vege-tation of Seonunsan Area,

29.

Yim YJ. 1988. Phytosociological classification of plant com-munities in Mt. Naejang,

30.

Kim JW. 1992. Vegetation of northeast Asia on the syntaxonomy and syngeography of the oak and beech forests. Ph.D. Thesis, Wien University. p 314.

31.

(1997) Actual vegetation and potential natural vegetation of Pukhansan National Park, Mid-western Korea.,

32.

(1999) PC-ORD, multivariate analysis of eco-logical data. Version 4. , MjM Software Design.

33.

Olson JS. 1958. Rates of sucesion and soil changes on southern Lake Michigan sand dunes. Bot Gaz 119,

34.

(2006) A phytosocio-logical survey of the deciduous temperate forests of mainland Northeast Asia. ,

35.

Vegetation dynamics., Blackwell Science Ltd

36.

Collins SL. 1989. The ecological concept of disturbance and its expression at various hierarchical levels. Oikos 54,

37.

White PS. 1985. The ecology of natural disturbance and patch dynamics. Academic Pres,

38.

Shugart HH. 1984. A theory of forest dynamics The ecological impli-cations of forest succession models. Springer-Verlag,

39.

Huston M. 1989. A theory of the spatial and temporal dyna-,

40.

(1998) 오대산 삼림식생의 패턴과 천이계열,

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