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Seasonal Changes on Community Structures of Benthic Macroinvertebrates in Wetland Upo
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 Title & Authors
Seasonal Changes on Community Structures of Benthic Macroinvertebrates in Wetland Upo
Lee, Jun-Cheol; Koo, Bon-Yoon; Yoon, Chun-Sik; Lee, Dong-Jun; Cheong, Seon-Woo;
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 Abstract
The studies on community structure of benthic macroinvertebrates and environmental survey in selected four sites were performed on wetland Upo from 2008 to 2009. The lowest water temperature was measured at Upo and Mokpo showing in February of 2008 and 2009 respectively. The highest water temperature was measured at Upo showing in August of 2009. The lowest pH was measured at Topyeong with 5.3 in August of 2009, and the highest pH was measured at Mokpo with 10.1 in August of 2008. Generally the levels pH of 2008 were higher than those of 2009. The range of electric conductivity to the sites was big. Overall, the higher electric conductivity was seen at Sajipo and the lower one was seen at Mokpo. The level of Dissolved oxygen was lowest at Upo with in August 2008, and it was highest at Upo with in February of 2008. The investigation was performed with both quantitative and qualitative collecting methods from four surveying sites, Upo, Mokpo, Sajipo and Topyeong. Through the eight times of seasonal survey, 6 classes, 17 orders, 59 families, 131 species and 5460 individuals of benthic macroinvertebrates were collected. 6 classes, 17 orders, 53 families 106 species and 2439 individuals were identified in 2008, and 6 classes, 16 orders, 44 families, 93 species and 3021 individuals were collected in 2009. The number of species was decreased in 2009 comparing that of 2008, however, the number of individuals were increased in 2009. The dominant species and the subdominant species was Plea (Paraplea) indistinguenda and Diplonychus esakii with 20.16% and 11.90% of dominant indices respectively. From the community analysis, both the species diversity index and the species richness index were highest in Topyeong showing 4.743 and 9.054 respectively. The similarity evaluation to the investigation sites with the species in there showed very high similarity among Upo, Mokpo and Sajipo showing 5 or lower levels of distance cluster combine.
 Keywords
Benthic macroinvertebrates;Seasonal changes;Wetland Woopo;
 Language
Korean
 Cited by
1.
논 생태계 내 둠벙의 저서성 대형무척추동물 군집구조 특성,최락중;한민수;김미란;조광진;강기경;나영은;김명현;

한국환경농학회지, 2013. vol.32. 4, pp.304-314 crossref(new window)
2.
지리산 주요 수계의 저서성 대형무척추동물 군집분포의 특성,김형곤;윤춘식;황종우;박은희;정선우;

Journal of Environmental Science International, 2014. vol.23. 2, pp.291-302 crossref(new window)
 References
1.
경남개발연구원, 1997, 우포.목포늪 생태계 보전방향, 창녕군, 85-112.

2.
경남발전연구원, 2007, 우포늪 보전 및 복원을 위한 마스터플랜 수립, 경상남도, 3-9.

3.
국립환경과학원, 2006, 습지보호지점 정밀조사 : 낙동강하구, 우포늪, 무제치늪, 환경부, 299-441.

4.
방상원, 안선영, 박주현, 2006, 습지보전을 위한 정책방안 연구: 습지은행제도(Wetland Banking)를 중심으로. 한국환경정책.평가연구원, 2-5.

5.
배연재, 1999, 한국산 수서곤충의 연구현황과 조사방법의 정량화, 한국곤충학회지, 67-105.

6.
배연재, 이병훈, 2001, 한국 하천생태계의 환경 훼손과 담수 절지동물의 생물다양성 피해 및 보전, 한국곤충학회지, 31(2), 63-76.

7.
배연재, 조신일, 황득휘, 이황구, 나국본, 2004, 우포습지의 저서성 대형무척추동물 다양성과 군집특성. 한국환경생태학회지, 18(1), 75-91.

8.
윤일병, 1988, 한국 동.식물 도감 제30권(수서곤충류), 문교부, 840.

9.
윤일병, 1995, 수서곤충검색도설, 정행사, 1-262.

10.
윤일병, 공동수, 류재근, 1992, 底棲性 大型無脊椎動物에 의한 生物學的 水質評價 硏究 II;生物群集에 대한 環境要因 影響을 中心으로. 基礎科學論文集, 12, 565-581.

11.
윤일병, 공동수, 송미영, 1987, 우포 늪지 및 주남저수지 일대의 수서곤충상에 관한 연구, 우포늪.주남저수지생태계조사, 환경청, 107-127.

12.
윤일병, 어성준, 김종인, 1989, 경상남도 소재 5개 늪지의 수서곤충구조에 관한 연구, 한국환경생물학회지, 7, 19-32.

13.
이동준, 전세근, 윤춘식, 정선우, 2006, 장기생태모니터링을 위한 우포의 저서성 대형무척추동물 군집조사, 자연.자원연구, 6(1), 30-35.

14.
이동준, 윤춘식, 이준철, 성성훈, 박다라, 정선우, 2009, 우포늪 저서성 대형무척추동물 군집의 장기생태모니터링을 위한 기반조사, 한국환경과학회지, 18(12), 1399-1410. crossref(new window)

15.
이창언, 조복성, 이관우, 김창환, 이택중, 박성호, 1971, 한국동식물도감 제12권 동물편(IV), 문교부, 386-448.

16.
이숭화, 조영복, 이창언, 1988, 한국산 수서 점물땡땡이 아과의 분류(물땡땡이과, 초시목), Nature & Life, 22(1), 1-7.

17.
이숭화, 조영복, 이창언, 1992, 물진드기(Peltodytes intermedius)에 대한 재기록(초시목, 물진드기과), Nature & Life, 22(2), 59-61.

18.
조복성, 1969, 한국동식물도감 동물편(곤충류 II), 문교부, 165-190.

19.
한국곤충학회, 한국응용곤충학회, 1994, 한국곤충명집, 건국대학교출판부, 744.

20.
한국동물분류학회, 1997, 한국동물명집(곤충제외), 아카데미서적, 489.

21.
환경부, 2001, 제 2차 전국자연환경 조사 지침, 환경부, 57-115.

22.
川合禎次, 1985, 日本産水生昆蟲檢索圖說, 東海大學出版會, 1-409.

23.
丸山傳紀, 高井幹夫, 2003, 原色 川虫圖鑑, 全國農村敎育協會, 2-244.

24.
Allan, J. D., 1995, Stream ecology, Structure and function of running waters, Chapman & Hall, Landon, 2-388.

25.
Hynes, H. B. N., 1970, The ecology of running waters, Liverpool Univ. Press, Liverpool, U. K. 1-555.

26.
Navid, D., 1989, The international law of migratory species, The Ramsar convention. Natural Resources Journal, 29, 1001-1016.

27.
Macan, T. T., 1974, Freshwater ecology, 2nd ed., Wiley, New York, 1-538.

28.
Margalef, R., 1957, La teoria de la informacion en ecologia, Mem. Real Acad. Cienc. Artes, Barcelona, 32, 373-449.

29.
McCafferty, W. P., 1981, Aquatic entomology, John & Bartlett, Boston, 2-448.

30.
McNaughton, S. J., 196,. Relationship among functional properties of Califonia Grasslond, Nature, 216, 168-169.

31.
Merritt, R. W., Cummins, K. W., 1996, An introduction to the aquatic insects of North America, 3rd ed, Kendall/Hunt, Dubuque, Iowa, 1-862.

32.
Pielou, E. C., 1998, Species-diversity and patterndiversity in the study of ecological succession, J. theor. Biol.., 10, 370-383.

33.
Ward, J. V., 1992, Aquatic insect ecology. John Wiley & Sons, 2-438.

34.
Wihm, J. L., 1972, Graphic and mathematical analysis of biotic communities in polluted stream, Ann. Rev. Ent., 17, 223-252. crossref(new window)

35.
Williams, D. D., Feltmate, B. W., 1992, Aquatic insects, CBA International, Oxon, UK, 2-358.