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NTIS 바로가기한국환경생태학회지 = Korean journal of environment and ecology, v.38 no.2, 2024년, pp.127 - 142
이상철 (부산대학교 응용생태연구실) , 강현미 (국립목포대학교 도시계획 및 조경학부 조경학전공) , 박석곤 (국립순천대학교 산림자원.조경학과)
This study aimed to understand the interrelationships between tree species in plant communities through Plant Social Network (PSN) analysis using a large amount of vegetation data surveyed in an island area belonging to a warm-temperate boreal forest. The Machilus thunbergii, Castanopsis sieboldii, ...
Bonacich, P.(1987) Power and centrality: A family of measures.?American Journal of Sociology 92(5): 1170-1182.
Bunn, A., D. Urban and T. Keitt(2000) Landscape connectivity: A?conservation application of graph theory. J. Environmental?Management 59(4): 265-278.
Callaway R.M. and B.E. Mahall(2007) Family roots. Nature 448:?145-147.
Choi, B.G.(2013) Syntaxonomy and syngeography of warm-temperate evergreen broad-leaved forests in Korea. Doctoral?dissertation, Keimyung Univ., 148pp.
Choi, K.R., K.H. Kim, J.W. Kim, G.J. Lee, D.Y. Yang and W.H.?Nahm(2005) Vegetation history since the mid-lateglacial from?Yeongsan river basin, Southwestern Korea. J. Ecol. Environ.?28(1): 37-43. (in Korean with English abstract)
Cole, L.C.(1949) The measurement of interspecific association.?Journal of Ecology 30(4): 411-424.
Connor, E.F. and D. Simberloff(1983) Interspcific competition and?species' co-occurrence patterns on islands: Null models and the?evaluation of evidence. Oikos 41(3): 455-465.
Freeman, L.C.(1978) Centrality in social networks conceptual?clarification. Social Networks 1(3): 215-239.
Gephy(2022) https://gephi.org/
Greig-Smith, P.(1983) Quantitative Plant Ecology (3rd ed.).?Blackwell Scientific Pub. Oxford, U.K., 359pp.
Hill, M.O.(1979) DECORANA-a FORTRAN program for?detrended correspondence analysis and reciprocal averaging.?Ecology and Systematics, Cornel Univ., Ithaca, New York,?520pp.
Iwasa, Y., T. Matsumoto and K. Kikuzawa(2003) Encyclopedia of?ecology. Ecological Society of Japan, Kyoritsu Shuppan.?682pp. (in Japanese)
Jabu, S.(1987) Restoration of a kaolin clay strip mine for wildlife?habitat using biotechnical and revegetation methods. Master?Dissertation, Univ. of Georgia, Athens, 226pp.
Jang, J.E., S.C. Lee, H.M. Kang, S.B. Yu, H.S. Shin and S.H.?Choi(2021) The plants social network through the analysis of?the plant community structure and the social network:?Conducted in Mudeungdan National Park. Korean J. Environ.?Ecol. 35(2): 164-180. (in Korean with English abstract)
Jin, H.J., J.H. Yoon and H.G. Cho(2006) An analysis system for?protein-protein interaction data based on graph theory. Journal?of KIISE: Computer Systems and Theory 33(5): 267-281. (in?Korean with English abstract)
Kang, H.M., J.W. Kang, C.Y. Sung and S.G. Park(2022)?Characteristics and restoration strategies of warm-temperate?forests vegetation types in island area on the Korean peninsula.?Korean J. Environ. Ecol. 36(5): 507-524. (in Korean with?English abstract)
Kang, J.W.(2023) Vegetation characteristic through plant?community structure and plants social network in Cheongwansan?provincial park. Master Dissertation, Mokpo National Univ.,?111pp. (in Korean with English abstract)
Katoh, K.(1995) Comparative study on ordination methods in?ecological community analysis. Environmental Science 8(4):?339-352. (in Japanese)
Kim, H.G.(1991) The nature of frederic E. Clements's (1874-1945)?Community organism: Research methods in ecology and plant?Succession. Journal of the Korean History of Science Society?13(1): 34-55. (in Korean with English abstract)
Kim, H.S., Y.J. Cho, A.Y. Kim, J.S. Kim and J.Y. Lee(2021) The?mangement plan and distribution characteristics of evergreen?broad-leaved forest of the Dadohaehaesang national park. The?Journal of Korean Island 33(1): 149-167. (in Korean with?English abstract)
Kim, J.S., C.H. Jeon, S.C. Jung, C.S. Kim, H.G. Won, J.H. Cho and?H.J. Cho(2016) A comparison of species composition and stand?structure of the forest vegetation between inhabited and?uninhabited island in the South Sea, Korea. Korean J. Environ.?Ecol. 30(4): 771-782. (in Korean with English abstract)
Kim, J.W. and Y.K. Lee(2006) Classification and assessment of?plant xommunities. Worldscience Press, 240pp. (in Korean)
Koo, K.A., W.S. Kong and C.K. Kim(2001) Distribution of?evergreen broad-leaved plants and climatic factors. Journal of?the Korean Geographical Society 36: 247-257. (in Korean with?English abstract)
Korea Forest Research Institute(2014) Resource evaluation and?distribution of warm forest species in southern Korea. Korea?Forest Research Institute, 23pp. (in Korean)
Lee, H.S., C.S. Lee, B.R. Lee, K.S. Lee and S.H. Shin(2021) An?integrative review for relating regulations and the improvement?direction of island forest management. The Journal of Korean?Island 33(2): 121-146. (in Korean with English abstract)
Lee, J.H.(2004) One hundred year of ecology in Korea. Seoul?National University Press, 547pp. (in Korean)
Lee, S.C.(2018) A study of ecological planting model based on?vegetation structure and plants social network analysis in urban?forest. Ph. D. Dissertation, Pusan National Univ., 267pp. (in?Korean with English abstract)
Lee, S.C., H.M. Kang, S.G. Park, J.B. Baek, C.Y. Yu, I.C. Hwang?and S.H. Choi(2022) Analysis of plants social network for?vegetation management on Taejongdae in Busan metropolitan?city. Korean J. Environ. Ecol. 36(6): 651-661. (in Korean with?English abstract)
Lee, S.C., S.H. Choi and W. Cho(2020) A study of visualization and?analysis method about plants social network used for planting?design: Focusing on forest vegetation area in Busan metropolitan?city. Korean J. Environ. Ecol. 34(3): 260-271. (in Korean with?English abstract)
Lee, S.S.(2010) Network analysis methodology. Nonhyung?Publications, Seoul, 370pp. (in Korean)
Ludwig, J.A. and J.F. Reynolds(1988) Statistical ecology. John?Wiley and Sons, New York, 337pp.
Miyawaki, A.(1999) Creative ecology: Restoration of native forests?by native trees. Plant Biotechnology 16(1): 15-25.
Oh, K.K. and Y.S. Kim(1996) Restoration model of evergreen?broad-leaved forests in warm temperate region(1):?Vegetational structure. Korean J. Environ. Ecol. 10(1): 87-102.?(in Korean with English abstract)
Park, S.G. and H.M. Kang(2020) Vegetation characteristics of?Geumnamhonam?Honam ridge areas understood through?quantitative vegetation analysis. Korean J. Environ. Ecol.?34(4): 304-317. (in Korean with English abstract)
Park, S.G., C.Y. Sung and H.M. Kang(2021) The types of warm?temperate forest and the degraded levels in the island area of the?west and south coast. Korean J. Environ. Ecol. 35(6): 579-593.?(in Korean with English abstract)
Park, S.G., S.H. Choi and S.C. Lee(2018) A review of vegetation?succession in warm-temperate evergreen broad-leaved forests:?Focusing on Actinodaphne lancifolia community. Korean J.?Environ. Ecol. 32: 77-96. (in Korean with English abstract)
Pielou, E.C.(1977) Mathematical Ecology. John Wiley and Sons,?New York, 377pp.
Rahman, L., K. Umeki and T. Honjo(2013) Architectural differences?among shaded saplings of four evergreen broad-leaved tree?species in Japan. Papers on Environmental Information Science?27: 5-10.
Sasaki, T., A. Koyama, T. Koyanagi, T. Furukawa and K. Uchida?(Translated by Park, S.G. and S.H. Choi)(2020) Data analysis?of plant community structure and diversity. Nexus Publishing,?259pp. (in Korean)
Schluter, D.(1984) A variance test for detecting species associations,?with some example applications. Ecology 65: 998-1005.
Scott-phillips T.C.(2008) Defining biological communication.?Journal of Evolutionary Biology 21(2): 387-395.
Shin, H.J., G.A. Park, M.J. Park and S.J. Kim(2012) Projection of?forest vegetation change by applying future climate change?scenario MIROC3.2 A1B. Journal of the Korean Association of?Geographic Information Studies 15(1): 64-75. (in Korean with?English abstract)
Sung, C.Y., H.M. Kang and S.G. Park(2021) Predicting suitable?restoration areas for warm-temperate evergreen broad-leaved?forests of the islands of Jeollanamdo. Korean J. Environ. Ecol.?35(5): 558-568. (in Korean with English abstract)
van Dam, N.M. and H.J. Bouwmeester(2016) Metabolomics in the?rhizosphere: Tapping into belowground chemical communication.?Trends in Plant Science 21(3) : 256-265.
van't Padje, A., M.D. Whiteside and E.T. Kiers(2016) Signals and?cues in the evolution of plant-microbe communication. Current?Opinion in Plant Biology 32: 47-52.
von Wehrden, H., J. Hanspach, H. Bruelheide and K. Wesche(2009)?Pluralism and diversity: Trends in the use and application of?ordination methods 1990-2007. Journal of Vegetation Science?20: 695-705.
Watanabe. S.(1994) Specia of trees. University of Tokyo Press,?450pp. (in Japanese)
Whittaker, R.H. and P.P. Feeny(1971) Allelochemics: Chemical?interactions between species. Science 171: 757-770.
Yu, S.B., B.D. Kim, H.T. Shin and S.J. Kim(2020) Habitat climate?characteristics of lauraceae evergreen broad-leaved trees and?distribution change according to climate change. Korean J.?Environ. Ecol. 34(6): 503-514. (in Korean with English abstract)
Yun, J.H., J.H. Kim, K.H. Oh and B.Y. Lee(2011) Distributional?change and climate condition of warm-temperate evergreen?broad-leaved trees in Korea. Korean J. Environ. Ecol. 25(1):?47-56. (in Korean with English abstract)
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