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Spatio-temporal Distribution of Macrobenthic Communities in Jinhae Bay, Korea
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  • Journal title : Ocean and Polar Research
  • Volume 37, Issue 4,  2015, pp.295-315
  • Publisher : Korea Institute of Ocean Science & Technology
  • DOI : 10.4217/OPR.2015.37.4.295
 Title & Authors
Spatio-temporal Distribution of Macrobenthic Communities in Jinhae Bay, Korea
Seo, Jin-Young; Lim, Hyun-Sig; Choi, Jin-Woo;
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 Abstract
In order to determine the spatio-temporal distribution of macrobenthic faunal communities in Jinhae Bay, quantitative faunal samples were collected seasonally at 23 sites in Jinhae Bay from February, 2011 to November, 2012. Sediment facies were found to be mud except for those at Chilcheon-do near Geoje Island. Mean values of TOC (%) ranged between 1.3 and 3.6%, and these are the highest values recorded excluding special management areas in Korea. Hypoxia occurred every summer in the whole areas of Jinhae Bay except around Geoje Island in the bay mouth. Due to the summer hypoxia, species richness, density and biomass also declined during the summer in Jinhae Bay. Opportunistic species such as Paraprionospio patiens, Sigambra bassi, Nectoneanthes oxypoda and Theora fragilis occurred as the dominant species before and after the hypoxia. However, Capitella capitata appeared as a dominant species only during the winter-spring season every year. From cluster analysis, Jinhae Bay could be divided into two sites groups: one group occupied the normoxic zone and the other one located in the hypoxic zone.
 Keywords
Macrozoobenthos;community structure;hypoxia;organic enrichment;Jinhae Bay;
 Language
Korean
 Cited by
 References
1.
강창근, 백명선, 김정배, 이필용 (2002) 진주만에서 저서다모류의 시공간 분포. 한국수산학회지 35:35-45 Kang C-K, Baik MS, Kim J-B, Lee P-Y (2002) Seasonal and spatial distribution of soft-bottom polychaetes in Jinju Bay of the southern coast of Korea. J Korean Fish Soc 35:35-45 (in Korean)

2.
권정노, 이장호, 김영숙, 임재현, 최태준, 예미주, 전지원, 김슬민 (2014) 진해만의 장기 수질변동 특성. 한국해양환경에너지학회지 17(4):324-332 Kwon J-N, Lee J, Kim Y, Lim J-H, Choi T-J, Ye M-J, Jun J-W, Kim S (2014) Long-term variations of water quality in Jinhae Bay. J Kor Soc Mar Environ Ene 17(4):324-332 (in Korean)

3.
김경태, 김은수, 조성록, 박준건, 김종근, 이정무 (2008) 시화호 표층 퇴적물의 유기탄소와 금속의 분포. In: 해양환경안전학회 2008년도 춘계 학술발표회, 목포해양대학교, 목포, 2008년 5월 13일, pp 159−164 Kim KT, Kim ES, Cho SR, Park JK, Kim JK, Lee JM(2008) Distribution of TOC and metal in the surfacesediments of the Lake Shihwa. In: The Conference of Jof the Korean Society of Marine Environment andSafety, Mokpo National Maritime University, Mokpo, 13May 2008, pp 159−164 (in Korean)

4.
류종성, 최진우, 강성길, 고철환, 허성회 (1997) 시화 방조제 건설 이후 시화호 다모류의 종조성 및 서식밀도 변화. 한국해양학회지 바다 2(2):101-109 Ryu JS, Choi J-W, Kang S-G, Koh C-H, Huh S-H (1997) Temporal and spatial changes in the species composition and abundance of benthic polychaetes after the construction of Shihwa Dike (west coast of Korea). The Sea 2(2):101-109 (in Korean)

5.
백상규, 윤성규 (2000) 진해만 주변 해역의 대형저서동물 군집구조. 한국수산학회지 33(6):572-580 Paik SG, Yun SG (2000) Community structure of the macrobenthos in Chinhae Bay, Korea. J Korean Fish Soc 33(6):572-580 (in Korean)

6.
서진영, 박소현, 인현식, 장만, 최진우 (2009) 인천항 및 부산항의 여름철 대형저서동물군집의 구조. 환경생물학회지 27(1):6-19 Seo J-Y, Park S-H, Lim H-S, Chang M, Choi J-W (2009) The community structures of macrozoobenthos during summer in the Inchone and Busan Harbors, Korea. Korean J Environ Biol 27(1):6-19 (in Korean)

7.
윤상필, 정래홍, 김연정, 김성길, 최민규, 이원찬, 오현택, 홍석진 (2009) 울산만의 저서환경 구배에 따른 저서동물군집 구조. 한국해양학회지 바다 14(2):102-117 Yoon S-P, Jung R-H, Kim Y-J, Kim S-G, Choi M-K, Lee W-C, Oh H-T, Hong S-J (2009) Macrobenthic community structure along the environmental gradients of Ulsan Bay, Korea. The Sea 14(2):102-117 (in Korean)

8.
임경훈, 신현출, 윤성명, 고철환 (2007) 진해만 대형저서동물군집 분석을 통한 저서환경 평가. 한국해양학회지 바다 12(1):9-23 Lim KH, Shin HC, Yoon SM, Koh C-H (2007) Assessment of benthic environment based on macrobenthic community analysis in Jinhae Bay, Korea. The Sea 12(1):9-23 (in Korean)

9.
임현식 (2015) 여자만 연성저질의 여름철 대형저서동물 공간분포. 한국해양학회지 바다 20(2):78-91 Lim H-S (2015) Spatial distribution of soft bottom macrobenthos of Yeoja Bay in summer season, south coast of Korea. The Sea 20(2):78-91 (in Korean)

10.
임현식, 박흥식, 최진우, 제종길 (1999) 남해 앵강만 조하대 연성저질 저서동물 군집. 한국해양학회지 바다 4(1):80-92 Lim H-S, Park H-S, Choi J-W, Je J-G (1999) Macrobenthic community of the subtidal soft bottom of Aenggang Bay in the southern coast of Korea. The Sea 4(1):80-92 (in Korean)

11.
임현식, 홍재상 (1994) 진해만 저서동물의 군집생태 1. 저서환경. 한국수산학회지 27(2):200-214 Lim H-S, Hong J-S (1994) Ecology of the macrozoobenthos in Chinhae Bay, Korea 1. Benthic environment. J Korean Fish Soc 27(2):200-214 (in Korean)

12.
임현식, 홍재상 (1997) 진해만 저서동물의 군집생태 3. 군집구조. 한국수산학회지 30(2):175-187 Lim H-S, Hong J-S (1997) Ecology of the macrozoobenthos in Chinhae Bay, Korea 3. Community structure. J Korean Fish Soc 30(2):175-187 (in Korean)

13.
정래홍, 윤상필, 권정노, 이재성, 이원찬, 구준호, 김연정, 오현택, 홍석진, 박성은 (2007) 해상 가두리 양식이 저서 다모류군집에 미치는 영향. 한국해양학회지 바다 12(3):159-169 Jung R-H, Yoon S-P, Kwon J-N, Lee J-S, Lee W-C, Koo J-H, Kim Y-J, Oh H-T, Hong S-J, Park S-E (2007) Impact of fish farming on macrobenthic polychaete communities. The Sea 12(3):159-169 (in Korean)

14.
조윤식, 이원찬, 김정배, 홍석진, 김형철, 김청숙 (2013) 퇴적물 총유기탄소와 저서다모류 군집을 이용한 패류양식장의 환경평가 기준설정. 해양환경안전학회 19(5):430-438 Cho Y-S, Lee W-C, Kim J-B, Hong S-J, Kim H-C, Kim C-S (2013) Establishment of environmental assessment using sediment total organic carbon and macrobenthic polychaete community in shellfish farms. J Korean Soc Mar Environ 19(5):430−438 (in Korean)

15.
최진우, 현상민, 장만 (2003) 저서동물에 의한 여름철 광양만의 저서환경 상태 파악. 한국환경생물학회지 21(2):101-113 Choi J-W, Hyun S, Chang M (2003) The summer benthic environmental conditions assessed by the functional groups of macrobenthic fauna in Gwangyang Bay, southern coast of Korea. Korean J Environ Biol 21(2):101−113 (in Korean)

16.
최진우, 서진영, 이창훈, 류태권, 성찬경, 한기명, 현상민 (2005) 남해특별관리해역인 마산만에서 동계 및 하계에 출현하는 대형저서동물군집의 공간분포 양상. Ocean Polar Res 27(4):381-395 Choi J-W, Seo J-Y, Lee C-H, Ryu T-K, Sung C-G, Han G-M, Hyun S (2005) Spatial distribution patterns of macrobenthic communities during winter and summer in the Masan Bay special management area, southern coast of Korea. Ocean Polar Res 27(4):381-395 (in Korean) crossref(new window)

17.
현상민, 이태희, 최진성, 최동림, 우한준 (2003) 광양만 및 여수해만 표층퇴적물의 지화학적 특성과 중금속 오염. 한국해양학회지 바다 8(4):380-391 Hyun S, Lee T-H, Choi J-S, Choi D-L, Woo H-J (2003) Geochemical characteristics and heavy metal pollutions in surface sediment of Gwangyang and Yeosu Bay, south coast of Korea. The Sea 8(4):380-391 (in Korean)

18.
Bilyard GR (1987) The value of benthic infauna in marine pollution monitoring studies. Mar Pollut Bull 18(11):581-585 crossref(new window)

19.
Clarke KR, Warwick RM (1994) Changes in marine communities: an approach to statistical analysis and interpretation. Plymouth Marine Laboratory, Plymouth, 859 p

20.
Dauer DM (1993) Biological criteria, environmental health and estuarine marcrobenthic community structure. Mar Pollut Bull 26(5):249-257 crossref(new window)

21.
Diaz RJ, Rosenberg R (1995) Marine benthic hypoxia: a review of its ecological effects and the behavioural responses of benthic macrofauna. Oceanogr Mar Biol Annu Rev 33:245-303

22.
Kodama K, Horiguchi T (2011) Effects of hypoxia on benthic organisms in Tokyo Bay, Japan: a review. Mar Pollut Bull 63(5-12):215-220 crossref(new window)

23.
Kodama K, Lee JH, Oyama M, Shiraishi H, Horiguchi T (2012) Disturbance of benthic macrofauna in relation to hypoxia and organic enrichment in a eutrophic coastal bay. Mar Environ Res 76:80-89 crossref(new window)

24.
Lim H-S, Diaz R, Hong JS, Schaffner LC (2006) Hypoxia and benthic community recovery in Korean coastal waters. Mar Pollut Bull 52(11):1517-1526 crossref(new window)

25.
NFRDI (2002) Environmental research of aquaculture farm 2002. National Fisheries Research and Development Institute, 401 p

26.
Pearson TH, Rosenberg R (1978) Macrobenthic succession in relation to organic enrichment and pollution of the marine environment. Oceanogr Mar Biol Ann Rev 16:229-311

27.
Powers SP, Harper DE, Rabalais NN (2001) Effect ofhypoxia/anoxia on the supply and settlement of benthicinvertebrate larvae. In: Rabalais NN, Turner RE (eds)Coastal hypoxia: consequences for living resources and ecosystems, American Geophysical Union, WashingtonDC, pp 185−210

28.
Sanukida S, Okamoto H, Hitomi M (1981) On the behavior of the indicator species of marine bottom pollution. B Jpn Soc Sci Fish 47(7):863-869 crossref(new window)

29.
Seo JY, Park SH, Lee JH, Choi JW (2012) Structural changes in macrozoobenthic communities due to summer hypoxia in Gamak Bay, Korea. Ocean Sci J 47(1):27-40 crossref(new window)

30.
Seo JY, Lim HS, Choi JW (2014) Distribution patterns of macrobenthic fauna communities in Deukryang Bay, one of the environmental conservation areas of Korea. Ocean Sci J 49(2):97-113 crossref(new window)

31.
Snelgrove PVR (1998) The biodiversity of macrofaunal organisms in marine sediments. Biodivers Conserv 7(9):1123-1132 crossref(new window)

32.
Tsutsumi H (2005) Production of planktonic and nonplanktonic larvae in a single brood of Capitella sp. I and its implications for population persistence in disturbed environment due to organic enrichment of the sediments. Benthos Res 60(1):17-24 crossref(new window)

33.
Tsutsumi H, Kinoshita K, Srithongouthai S, Sato A, Nagata S, Inoue A, Yoshioka M, Ohwada K, Hama D (2005) Treatment of the organically enrichment sediment below the fish farm with the biological activities of artificially mass-cultured colonies of a small deposit feeding polychaete, Capitella sp. I. Benthos Res 60(1):25-38 crossref(new window)

34.
Yokoyama H, Choi JW (2010) New records of three Paraprionospio species (Polychaeta: Spionidae) from Korean waters. Ocean Sci J 45(1):55-61 crossref(new window)