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http://dx.doi.org/10.13047/KJEE.2017.31.1.062

The Change of Soil Animals by Forest Ecosystem Restoration Types  

Kang, Hyun-Mi (Baekdudaegansoop Institute)
Song, Jae-Tak (Forest Research Institute, Supoollian)
Choi, Song-Hyun (Dept. of Landscape Architecture, Pusan Nat'l Univ.)
Kim, Dong-Hyo (Dept. of Biological and Environmental Science, Graduate School, Dongguk Univ.)
Publication Information
Korean Journal of Environment and Ecology / v.31, no.1, 2017 , pp. 62-71 More about this Journal
Abstract
In this study, in order to examine the change of soil animals by vegetation restoration types, experimental sites with biotope restoration method, forest topsoil paving method, small diameter trees planting method and multi-layer community planting method were applied and the control site was selected. The naturalness of soil animals was analysed by studying the change of soil animals. It was confirmed that the control site has a high level of the naturalness of soil animals as it includes a mixture of fauna sensitive and insensitive to environment distributed widely over the site. The experimental site with biotope restoration method showed a similar level of the naturalness of soil animals as the control site. Furthermore, the naturalness of soil animals in the experimental sites with small diameter trees planting method and multi-layer community planting method also showed a progressive restoration although the level of the naturalness of soil animals is lower than the experimental site with the biotope restoration method. Therefore, it is confirmed that the experimental site with biotope restoration method shows a faster recovery of soil animal than other sites. This is because this method uses the portion of topsoil and subsoil that were dug from the intact forest during transplantation.
Keywords
MONITORING; CONTROL SITE; BIOTOPE REHABILITATION METHOD; NATURALNESS OF SOIL ANIMALS;
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1 Aoki, J.(1994) Soil Animal, Indicator Organisms-Measure to see nature-. The Nature Conservation Society of Japan Compilation. Heibonsha. Tokyo. 252-257. (in Japanese)
2 Aoki, J.(1995) Environmental diagnosis using soil animals. Predictive impact on natural environment. Results and survey manual. Numata Mari. Chiba Prefecture Environment Division Environmental Control Division, 197-271. (in Japanese)
3 Aoki, J.(1999) Pictorial Keys to Soil Animal of Japan. Tokai University Press. Tokyo. 1,076pp. (in Japanese)
4 Bae, Y.H. and J.H. Lee(1997) Studies on the Soil Invertebrate Community in the Process of Leaf Decomposition in Namsan and Kwangreung Deciduous Forests. Korean Journal of Soil Zoology 2(2): 83-91. (in Korean with English abstract)
5 Bae, Y.H. and J.H. Lee(1999) Soil Microarthropod Community in the Process of Needle Leaf Decomposition in Korean Pine(Pinus koraiensis) Forest of Namsan and Kwangreung. Korean Journal of Soil Zoology 4(2): 75-80. (in Korean with English abstract)
6 Bernini, F., A.M. Avanzati, M. Baratti and M. Migliorini(1995) Oribatid mites (Acari Oribatida) of the Farma Valley (Southern Tuscany). Notulae Oribatologicae LXV. Redia 78(1): 45-129. (in English)
7 Bowman, R.A., D.C. Nielsen, N.F. Vigil and R.M. Aiken(2000) Effects of Sunflower on Soil Quality Indicators and Subsequent Wheat Yield. Soil Science 165: 516-522. (in English)   DOI
8 Choi, B.M. and K.S. Park(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 Journal of Applied Entomology 30(1): 65-79. (in Korean with English abstract)
9 Choi, S.S.(1997) Distribution and Role of Soil Animals. Proceeding of The Korean Society of Soil Zoology the Autumn Conference 1997 1-3. (in Korean)
10 Choi, S.S.(1996) Study of Biodiversity in Forest Ecosystems I-Oribatid Mites(Acari: Oribatida) in Mt. Geumsan of Namhae-gun and Gwangneung Experimental Forest. Collection of Dissertations at the Wonkwang University 31: 9-31. (in Korean)
11 Choi, S.S.(2001) Soil Zoology Wonkwang University Press. 478pp. (in Korean)
12 Gilley, J.E., J.W. Doran and B. Eghball(2001) Tillage and Fallow Effects on Selected Soil Quality Characteristics of Former Conservation Reserve Program Sites. Journal of Soil Water Conservation 56: 126-132. (in English)
13 Harada, H. and J. Aoki(1996) Index of Nature Richness Based on Soil Animal Communities. Yokohama National University Bulletin of the Environment 22: 81-92.(in Japanese with English synopsis)
14 Itoh, D., K. Fukunaga and H. Yoshida(2009) Relationship between soil animal and habitat factor on revegetated artificial slope. Journal of the Japanese Society of Revegetation Technology 35(1): 206-209. (in Japanese)   DOI
15 Jung, C.E., J.H. Lee, Y.H. Bae and S.S. Choi(1998) Diversity of Oribatid Mites ( Acari : Oribatida ) in Namsan and Kwangreung Deciduous Forests. Korean Journal of Soil Zoology 3(2): 91-105. (in Korean with English abstract)
16 Keum E.S., J.W. Kim and C.U. Jung(2011) Community Structures of Soil Predatory Mites (Acari: Gamasida) Relative to the Human Disturbance Gradient. Korean Journal of Soil Zoology 15(1-2): 21-26. (in Korean with English abstract)
17 Jung, C.E., J.W. Kim, T. Marquardt and S. Kaczmarek(2010) Specoes Richness of Soil Gamasid Mites(Acari: Oribatida) in Fire-damaged Mountain Sites. Journal of Asia-Pacific Entomology 13: 233-237. (in English)   DOI
18 Keum E.S., J.W. Kim and C.U. Jung(2010) Comparison of Gamasid Mite Fauna in Pinus densiflora and Larix Leptolepis Forest Stands in Bonghwa, Korea. Korean Journal of Soil Zoology 14(1-2): 12-17. (in Korean with English abstract)
19 Van Straalen, N.M. and D.A. Krivolutsky (Eds.)(1996) Bioindicator Systems for Soil Pollution: Proceedings of the NATO Advanced Research Workshop on New Approaches to the Development of Bioindicator Systems for Soil Pollution. Dordecht, Boston, Kluwer Academic. 261pp. (in English)
20 Van Straalen, N.M.(1998) Evaluation of bioindicator systems derived from soil arthropod communities. Applied Soil Ecology 9: 429-437. (in English)   DOI
21 Keum, E.S. and C.E. Jung(2012) Distribution of Gamasid Mites (Acari, Mesostigmata) on Seonginbong, Ulleung Island. Korean Journal of Soil Zoology 16(1-2): 21-24. (in Korean with English abstract)
22 Keum, E.S. and C.E. Jung(2014) Diversity of Mesostigmatid Mites in Different Habitats in the Urban Forest Park: Case Study on Seoul Forest. Korean Journal of Soil Zoology 18(1-2): 51-55. (in Korean with English abstract)
23 Kim J.W., E.S. Keum and C.E. Jung(2010) Comparison of Soil Microarthropod Fauna with Emphasis on Oribatid Mite in Pinus densiflora and Larix Leptolepis Forest Stands in Bonghwa, Korea. Korean Journal of Soil Zoology 14(1-2): 5-11. (in Korean with English abstract)
24 Kim J.W., E.S. Keum and C.E. Jung(2011) Composition of Soil Microarthropods and Oribatid Mite Communities Relative to the Disturbance Gradient. Korean Journal of Soil Zoology 15(1-2): 14-20. (in Korean with English abstract)
25 Kim, J.W. and C.E. Jung(2012) List of Oribatid Mites (Acari: Oribatida) in Korea. Korean Journal of Soil Zoology 16(1-2): 58-71. (in Korean with English abstract)
26 Kim, J.W., E.S. Keum and C.E. Jung(2013) Microhabitat Effect on Distribution and Diversity of Oribatid Mites(Acari: Oribatida). Korean Journal of Soil Zoology 17(1-2): 24-30. (in Korean with English abstract)
27 Watanabe, H.(1973) Effect of stand change on soil macro animals. Journal of the Japanese Forestry Society 55(10): 291-295. (in English with Japanese Summary)
28 Yamabe, S. and I. Ogura(2004) The soil fauna consisted of transplanting topsoil and effect of restoration of natural environment. Journal of the Japanese Society of Revegetation Technology 30(1): 247-248. (in Japanese)   DOI
29 Yamaki A., R. Tachibana and K. Fukunaga(2002) Study on environmental assessment at revegetated areas using soil fauna as an indicator. Journal of the Japanese Society of Revegetation Technology 28(1): 271-274. (in Japanese)   DOI
30 Kim, J.W. and C.E. Jung(2014) Selection of Potential Indicator Species of Oribaid Mite to Heavy Metal Contamination. Korean Journal of Soil Zoology 18(1-2): 38-44. (in Korean with English abstract)
31 Kim, J.W., E.S. Keum and C.E. Jung(2014) Relationship between Heavy Metal Concentrations and Abundance of Microarthropods in Abandoned Mine Area. Korean Journal of Soil Zoology 18(1-2): 30-37. (in Korean with English abstract)
32 Kwak, J.S. and B.S. Kil(1989) Soil microarthropods and the Kwangyang experiment plantation. 3. Relationship between soil oribatid mite and vegetation. Korean Journal of Ecology 12(3): 191-202. (in Korean with English abstract)
33 Kim, K.J., H.J. Kim and T.J. Eom(2009) Properties and Biodegradation of Polymer for Afforestation Seedling Mulching Mat. Journal of Korea TAPPI 41(4): 8-14. (in Korean with English abstract)
34 Kim, M.H., H.S. Bang, M.S. Han, H.K. Hong, Y.E. Na, K.K. Kang, J.T. Lee and D.B. Lee(2009) Effect of Vegetation Types on the Distribution of Soil Invertebrates. Korean Journal of Environmental Agriculture 28(2): 125-130. (in Korean with English abstract)   DOI
35 Korea Science and Engineering Foundation(1998) Taxonomic Studies on Soil Arthropods in Korea. Korea Science and Engineering Foundation. 123pp. (in Korean with English abstract)
36 Kwon, J.O.(1997) Study on the ecological planting models by the analysis on the natural vegetation in middle district, Korea. Master's Thesis, University of Seoul. 116pp. (in Korean with English abstract)
37 Lee B.H.(1996) Research Status and Problems on the Soil Animals in Korea. Proceeding of Korean Journal of Soil Zoology 1996: 4. (in Korean)
38 Nagano, M. and S. Goto(2012) Relationship between Soil Macrofaunal Diversity and Vegetation Management on the Campus of Oita University. The Research Bulletin of the Faculty of Education and Welfare Science, Oita University 34(1): 73-84. (in Japanese with English abstract)
39 Liebig, M.A. and J.W. Doran(1999) Impact of Organic Production Practices on Soil Quality Indicators. Journal of Environmental Quality 28: 1,601-1,609. (in English)
40 Muller, F., R. Hoffmann-Kroll and H. Wiggering(2000) Indicating ecosystem integrity-theoretical concepts and environmental requirements. Ecological Modelling 130: 13-23. (in English)   DOI
41 Oh, K.I., H.D. Cho, K.W. An, S.K. Jang and C.S. Kim(2001) A Study on Distribution of Soil Microarthropods in Pinus rigida Plantations following Strip - Cutting. Journal of Korean Forestry Society 90(3): 257-265. (in Korean with English abstract)
42 Niijima, K.(1996) Coexistence of soil animal and tree: Diversity of species of soil animal which maintains sound forest.. Japanese Forestry Society 16: 39-44. (in Japanese)
43 Niijina, K. and M. Hashimoto(2008) Studies on Soil Invertebrates in the Tama Forest Science Garden 2. Soil macrofauna in a evergreen natural forest. Bulletin of Forestry and Forest Products Research Institute 17(1): 1-8. (in Japanese with English abstract)
44 Oh, K.C. and J.K. Kim(2000) Changes of Soil Microarthropoda at the Burned Areas by Forest Type. Journal of Korean Forestry Society 89(3): 287-296. (in Korean with English abstract)
45 Park, H.H., J.H. Lee, Y.H. Bae and S.S. Choi(1998) Diversity of Oribatid Mites ( Acari : Oribatida ) in Namsan and Kwangreung Coniferous Forests. Korean Journal of Soil Zoology 3(2): 78-90. (in Korean with English abstract)
46 Pankhurst, C.E, B.M. Doube and V.V.S.R. Gupta (Eds.)(1997) Biological Indicators of Soil Health: Synthesis. In: Pankhurst, C.E, B.M. Doube and V.V.S.R. Gupta (Eds.), Biological Indicators of Soil Health. CAB International Publishing, Wallingford, Oxon (UK) and New York (USA), pp. 419-435. (in English)
47 Paoletti, M.G., and M. Hassal(1999) Woodlice (Isopoda: Oniscidea): their potential for assessing sustainability and use as bioindicators. Agriculture, Ecosystems & Environment 74: 157-165. (in English)   DOI
48 Parisi, V.(2001) The biological soil quality, a method based on microarthropods. Acta Naturalia de L'Ateno Parmense 37: 97-106. (in Italian)
49 National Institute of Biological Resources(2011) Establishment of environmental bioindicator and development of utilization system. 59pp. (in Korean with English abstract)
50 Six, J., E.T. Elliott and K. Paustian(2000) Soil Structure and Soil Organic Matter. II. A Normalized Stability Index and the Effect of Mineralogy. Soil Science Society of America Journal 64: 1,042-1,049. (in English)   DOI
51 Son, H.I. and S.S. Choi(2000) A Study on Soil Animal in the Forest Fire Area. Korean Journal of Soil Zoology 5(2): 47-62. (in Korean with English abstract)
52 Son, H.I.(1999) A Study on Soil Animal in the Forest Fire Area. Master's thesis, Wonkwang University. 46pp. (in Korean with English abstract)
53 Takeshita, M. and T. Araya(2004) The recovery process of the soil fauna in hillside works areas. Journal of the Japanese Society of Revegetation Technology 30(2): 415-420. (in Japanese with English abstract)   DOI
54 Song, J.T. and T. Setsu(2004) The validity of floor vegetation and the soil fauna as an index of ecosystem recovery of reclamation forest. Journal of the Japanese Society of Revegetation Technology 30(1) 21-26. (in Japanese with English abstract)   DOI
55 Song, J.T.(2005) Research on the transplantation of forest resources aimed at restoring ecosystem. Doctor's thesis, Kyushu University. 86pp. (in Japanese)
56 Song, J.T., J.I. Chung, K.J. Yoo, W. Cho and S.H. Choi(2009) Study on Development of Ecosystem Regeneration Technology Reusing Natural Resources - Example of Environment Center Development in Hansol Oak Valley -. Proceeding of Korean Society of Environment and Ecology Conference 19(2): 238-242. (in Korean)
57 Uchida, T and M. Ihata(2003) A Study of Soil Macrofauna in Kinkazan Island, Miyagi Pref., Northeastern Japan. Research Bulletin of Environmental Education Center, Miyagi University of Education 6: 31-37. (in Japanese)
58 Park, S.G., H.T. Shin and M.H. Yi(2010) Effects of Soil Water and Temperature on Buried Seed and Soil Animal in the Stacked Forest Topsoil. Proceeding of Korean Society of Environment and Ecology Conference 20(2): 208-212. (in Korean)