Advanced SearchSearch Tips
Effect of Vegetation Types on the Distribution of Soil Invertebrates
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Effect of Vegetation Types on the Distribution of Soil Invertebrates
Kim, Myung-Hyun; Bang, Hea-Son; Han, Min-Su; Hong, Hey-Kyoung; Na, Young-Eun; Kang, Kee-Kyung; Lee, Jeong-Taek; Lee, Deog-Bae;
  PDF(new window)
The aim of this study was to investigate whether differences in the distribution of soil invertebrates among different vegetation types (forest, reservoir, and crop land types) in rural area. A total of 18 orders and 137 species were collected by pitfall traps. Species numbers were the lowest (33 species) at the Chamaecyparis obtusa plantation (St. 6). On the forest sites, the individual number of Hymenoptera was the most abundant, and Acari and Coleoptera was the relatively more abundant than the other sites. On the reservoir sites (Salix chaenomeloides community), the individual number of Collembola was the most abundant, and Diptera was the relatively more abundant than the other sites. On the crop land sites, the individual numbers of Collembola, Hymenoptera, and Araneae were the relatively more abundant than the other orders. The density of Araneae was higher in the reservoir and crop land sites than in the forest sites. From a point of view of biodiversity, although the diversity index(H') was the highest in the mixed broad-leaved forest type (St. 2) with Quercus serrata and Q. acutissima, and the lowest in the upland levee of crop land(St. 11), there was no significant difference among the habitat or vegetation types. According to the community analysis, the soil invertebrates could be divided into 4 groups, the mixed broad-leaved forest type (A group), the plantation or pure forest type (B group), the reservoir type (C group), and the crop land type (D group).
Arthropod;biodiversity;community analysis;habitat type;soil invertebrate;vegetation;
 Cited by
유기 재배 및 관행 재배 배추와 고추밭의 곤충상 조사,진준호;조세열;

농약과학회지, 2010. vol.14. 3, pp.255-260
유기와 관행재배 배 과수원의 무척추동물의 종 다양성 연구,김도익;김선곤;고숙주;강범용;최덕수;임경호;김상수;

한국유기농업학회지, 2011. vol.19. 1, pp.93-107
덕유산 국립공원 산림식생구조의 지형적 영향 분석,김태근;노일;정종철;조영환;오장근;

생태와환경, 2013. vol.46. 1, pp.53-59 crossref(new window)
시스템 다이내믹스를 활용한 생태복원 설계 전략 - 2015 밀양시 자연마당 조성사업을 사례로 -,함은경;송기환;전진형;조동길;

한국조경학회지, 2015. vol.43. 6, pp.86-97 crossref(new window)
청주시 매봉산 도시림의 식생, 토양특성 및 토양미소절지동물상 분석,김흥태;

한국환경복원기술학회지, 2016. vol.19. 6, pp.1-17 crossref(new window)
The Vegetation, Soil Characteristics, and Soil Microarthropods of Maebongsan Urban Forest in Cheongju-si, Korea, Journal of the Korea Society of Environmental Restoration Technology, 2016, 19, 6, 1  crossref(new windwow)
Design Strategies for Ecological Restoration Using System Dynamics - Focused on 2015 Miryang-si Jayeon Madang Development Project -, Journal of the Korean Institute of Landscape Architecture, 2015, 43, 6, 86  crossref(new windwow)
UNEP 한국위원회 (2002) 생물다양성협약. UNEP Press, Seoul, Korea

Blair, R.B. (1996) Land use and avian species diversity along an urban gradient. Ecol. Applic. 6, 506-519 crossref(new window)

Laurance, W.F. and Laurance, S.G.W. (1996) Responses of five arboreal marsupials to recent selective logging in tropical Australia. Biotropica 28, 310-322 crossref(new window)

Mason, D. (1996) Responses of Venezuelan understory birds to selective logging, enrichment strips, and vine cutting. Biotropica 28, 296-309 crossref(new window)

Favila, M.E. and Halffter, G. (1997) The use of indicator groups for measuring biodiversity as related to community structure and function. Acta Zool. Mexi. 72, 1-25

McGeoch, M.A. (1998) The selection, testing and application of terrestrial insects as bioindicators. Biol. Re. 73, 181-201 crossref(new window)

Kremen, C. Colwell, R.K., Erwin, T.L., Murphy, D.D., Noss, R.F. and Sanjayan, M.A. (1993) Terrestrial arthropod assemblages: their use in conservation planning. Conser. Biol. 7, 796-808 crossref(new window)

Rosenberg, D.M., Danks, H.V. and Lehmkuhl, D.M. (1986) Importance of insects in environmental impact assessment. Environ. Manage. 10, 773-783 crossref(new window)

Price, P.W. (1988) An overview of organismal interactions in ecosystems in evolutionary and ecological time. Agric. Ecosyst. Environ. 24, 369-377 crossref(new window)

Aoki, J. (1961) Observations on oribatid mite fauna in soils under two different vegetations, Quercus acutissima CARRUTH. and Pinus densiflora SIEB. et ZUCC. Jpn. J. Appl. Entomol. Zool. 5(2), 81-91 crossref(new window)

Pearse, A.S. (1946) Observations on the microfauna of the Duke forest. Ecol. Monogr. 16(2), 127-150 crossref(new window)

Morikawa, K., Ohue, M. and Matsumoto, R. (1959) Observation on the structure of microanimal communities in soils with different flora. Jap. J. Ecol. 9(5), 189-193

Aoki, J. (1962) Untersuchungen $\"{u}$ber die z$\"{o}$nosen der oribatiden in Nikko in beziehung zu pflanzendeckung und boden. I. Beschreibungen der pflanzendeckung, des bodens und der oribatiden im untersuchungsgebiete. Jap. J. Ecol. 12(5), 169-180

Aoki, J. (1963) Untersuchungen $\"{u}$ber die z$\"{o}$nosen der oribatiden in Nikko in beziehung zu pflanzendeckung und boden. Ⅳ. Die pflanzendeckungen und die oribatidenz$\"{o}$nosen. Jap. J. Ecol. 13(4), 139-151

Matsumoto, S. and Inoue, Y. (1987) Soil physicochemical properties and animal community in different vegetation at Tsurumi Park, Osaka. Mem. Fac. Agr. Kinki Univ. 20, 43-49

Lindstrom, A. and Jaenson, T.G.T. (2003) Distribution of the common tick, Ixodes ricinus (Acari: Ixodidae), in different vegetation types in Southern Sweden. J. Med. Entomol. 40(4), 375-378 crossref(new window)

Choi, B.M. and Park, K.S. (1991) Studies on the distribution of ants(Formicidea) in Korea(6) -The vegetation, the species composition and the colony density of ants in Mt. Namsan, Seoul- Korean J. Appl. Entomol. 30(1),65-79

Kwak, J.S. and Kil, B.S. (1989) Soil microarthropods and the Kwangyang experiment plantation. 3. Relationship between soil oribatid mite and vegetation. Korean J. Ecol. 12(3), 191-202

Braun-Blanquet, J. (1964) Pflanzensoniologie. Springer-Verlag. 3rd ed., Vienna. New York

Shannon, C.E. and Wiener, W. (1949) The mathematical theory of communication. Univ. Illinois Press, Urbana

Margalef, R. (1972) Homage to Evelyn Hutchinson, or why is there an upper limit to diversity. Trans. Connect. Acad. Arts Sci. 44, 211-235

Pielou, E.C. (1966) The measurement of diversity in different types of biological collections. J. Theor. Biol. 13, 131-144 crossref(new window)

Simpson, E.H. (1949) Measurement of diversity. Nature 163, 688 crossref(new window)

Oh, K.I, Cho, H.D, An, K.W, Jang, S.K, Chung, J.C., and Kim, C.S. (2001) A study on distribution of soil microarthropods in Pinus rigida plantations following strip-cutting. Jour. Korean For. Soc. 90(3), 257-265