최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Ocean and polar research, v.34 no.1, 2012년, pp.53 - 64
이연규 (전남대학교 수산해양대학 해양기술학부) , 정다운 (전남대학교 수산해양대학 해양기술학부) , 강소라 (전남대학교 수산해양대학 해양기술학부) , 김용완 (전남대학교 공동실험실습관) , 김신 (전남대학교 수산해양대학 해양기술학부) , 정은호 (국립해양조사원 서해해양조사사무소) , 이정식 (전남대학교 수산해양대학 수산생명의학과)
In order to understand the relationship between the formation of hypoxia sediment by eutrophication and changes in benthic foraminiferal assemblage, micropaleontological and geochemical analyses were carried out on one sediment box core (K-1) recovered in the northern Gamak Bay, which is one of the ...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
유공충이 무엇인가? | 유공충은 원생동물(Protozoa) 중 위족충류(Sarcodina)에속하며, 캄브리아기에 출현하여 오랜 지질시대를 거쳐 현재에 이르는 종으로서 생태적으로 저서성 유공충(benthic foraminifera)과 부유성 유공충(planktonic foraminifera)으로 구분된다. 과거 유공충은 주로 지질학적 제현상(순차층서, 고환경해석, 고해양학, 과거해수면 및 기후변화)을 이해하고자 하는데 주요한 연구대상으로 사용되어 왔으나, 저서성 유공충이 연안환경 오염을 추적하는 지시자로 알려진 이후, 현재 해양에서 발생하는 해양오염의 유용한 생물지시자로 활용범위가 확대되고 있다(Alve 1995a; Scott et al. | |
유공충 군집 분석에서 사용하는 척도는 무엇인가? | 유공충 군집 분석에서 총 산출량, 종다양도 및 균등도 등은 서식환경 변화에 대한 스트레스를 추정하는 척도로서 넓게 사용된다. 주상시료 K-1의 저서성 유공충 종다양 도는 1965년-1985년까지 다양도 지수 1. | |
A. beccarii는 한국의 어디에서 산출하는 종인가? | 2004). 한국의 서해 조간대 퇴적층 및 남해 조간대 퇴적층에서도 일반적으로 매우 풍부하게 산출 하는 종으로 알려져 있다(Cheong 1989; Lee et al. 2000;우와 이 2006; 우 2007). |
노일현, 윤양호, 김대일, 박종식 (2006) 가막만 표층퇴적물중 유기물의 시.공간적 분포 특성. 한국해양환경공학회지 9:1-13
문성용, 서호영, 최상덕, 정창수, 김숙양, 이영식 (2006) 가막만 동물플랑크톤의 수층 분포에 미치는 저산소화의 영향. 환경생물학회지 24:240-247
오석진, 박종식, 윤양호, 양한섭 (2009) 북부 가막만의 식물플랑크톤 군집 변동 해석. 해양환경안전학회 15:329-338
우한준 (2007) 강진만 표층 퇴적물의 저서성 유공충 분포 특성. 한국고생물학회지 23:1-13
우한준, 정갑식, 권수재, 추용식, 김효영, 박성민 (2000) 대산 유화학단지 주변의 저서성 유공충 분포 특성. 고생물학회지 16(2):99-112
윤양호 (2010) 바다의 반란 적조. 집문당, 서울, 531 p
이연규, 황진연, 정규귀 (1995) 가막만 표층퇴적물 특성 및 점토광물. 한국지구과학회지 16:477-488
Alve E (1995a) Benthic foraminiferal responses to estuarine pollution: a review. J Foramin Res 25:190-203
Alve E (1995b) Benthic foraminiferal distribution and recolonization of formerly anoxic environments in Drammensfjord, southern Norway. Mar Micropaleontol 25:169-186
Alve E, Murray JW (1999) Marginal marine environments of the Skagerrak and Kattegat: a baseline study of living(stained) benthic foraminiferal ecology. Palaeogeogr Palaeocl 146:171-193
Amstrong HA, Brasier MD (2005) Microfossils. Second Edition. Blackwell Publishing, UK, 296 p
Arai MN (2001) Pelagic coelenterates and eutrophication: a review. Hydrobiologia 451:69-87
Asano K (1950a) Illustrated Catalogue of Japanese Tertiary smaller Foraminifera. Part 1: Nonionidae. Hosokawa Printing Co, Tokyo, Japan, 12 p
Asano K (1950b) Illustrated Catalogue of Japanese Tertiary smaller Foraminifera. Part 2: Buliminidae. Hosokawa Printing Co, Tokyo, Japan, 19 p
Asano K (1950c) Illustrated Catalogue of Japanese Tertiary smaller Foraminifera. Part 3: Textulariidae. Hosokawa Printing Co, Tokyo, Japan, 7 p
Asano K (1950d) Illustrated Catalogue of Japanese Tertiary smaller Foraminifera. Part 4: Valvulinidae. Hosokawa Printing Co, Tokyo, Japan, 4 p
Asano K (1950e) Illustrated Catalogue of Japanese Tertiary smaller Foraminifera. Part 5: Verneuilinidae. Hosokawa Printing Co, Tokyo, Japan, 4 p
Berner RA, Raiswell R (1984) C/S method for distinguishing freshwater from marine sedimentary rocks. Geology 12: 365-368
Boesch DF, Brinsfield RB, Magnien RE (2001) Chesapeake Bay eutrophication: scientific understanding, ecosystem restoration, and challenges for agriculture. J Environ Qual 30:303-320
Bordowskiy OK (1965a) Accumulation of organic matter in bottom Sediments. Mar Geol 3:33-82
Bordowskiy OK (1965b) Sources of organic matter in marine basins. Mar Geol 3:5-31
Cheong HK (1989) A study on the benthic foraminifera from the tidal flats adjacent to Inchon, Korea. J Paleont Soc Kor 5:39-52
Cloern JE (2001) Our evolving conceptual model of coastal eutrophication problem. Mar Ecol Progr Ser 210:223-253
Culver SJ, Buzas MA (1995) The effects of anthropogenic habitat disturbance, habitat destruction, and global warming on shallow marine benthic foraminifera. J Foramin Res 25:204-211
Diaz RJ, Rosenberg R (1995) Marine benthic hypoxia: a review of its ecological effects and the behavioral responses of benthic macrofauna. Oceanogr Mar Biol Ann Rev 33:245-303
Ernst SR, Morvan J, Geslin E, Le Bihan A, Jorissen FJ (2006) Benthic foraminiferal response to experimentally induced Erika oil pollution. Mar Micropaleontol 61:76-93
Folk RL (1968) Petrology of the sedimentary rocks. Hemphills, Austin, Texas, 170 p
Frontalini F, Coccioni R (2008) Benthic foraminifera for heavy metal pollution monitoring: a case study from the central Adriatic Sea coast of Italy. Estuar Coast Shelf Sci 76:404-417
Gray JS (1992) Eutrophication in the sea. In: Columbo G, Ferrari I, Ceccherelli VU, Rossi R (eds) Marine eutrophication and population dynamics. Olsen and Olsen, Fredensborg, pp 3-15
Gray JS, Wu RSS, Or YY (2002) Effects of hypoxia and organic enrichment on the coastal marine environment. Mar Ecol Progr Ser 238:249-279
Hanazato T (1997) Development of low-oxygen layer in lake and its effect on zooplankton commnities. Kor J Limnol 30:506-511
Hayward BW, Sabaa A, Grenfell HR (2004) Benthic foraminifera and the late Quaternary (last 150ka) paleoceanographic and sedimentary history of the Bounty Trough, east of Newzealand. Palaeogeogr Palaeocl 211:59-93
Hong JS (1987) Summer oxygen deficiency and benthic biomass in the Chinhae bay system, Korea. J Kor Soc Oceanogr 22:246-256
Ingram RL (1971) Sieve analysis. In: Carver RE (ed) Process in sedimentary petrology. Willey-Inter Science, pp 49-67
Kang CK, Lee PY, Park JS, Kim PJ (1993) On the distribution of organic matter in the nearshore surface sediment of Korea. Bull Kor Fish Soc 26(6):557-566
Kang SR (2003) Benthic Foraminiferal Biostratrgraphy and Paleoenvironments of the Seogwipo Fromation, Jeju Island, Korea. Ph.D. Thesis, Pusan Nationl University, 231 p
Kang SW (1991) Circulation and pollutant dispersion in Masan-Jinhae Bay of Korea. Mar Pollut Bull 23:37-40
Lee MO, Kim BK (2009) Wind effects on tidal currents in Gamak Bay. J Ocean Eng Tech 23:18-27
Lim HS, Diaz RJ, Hong JS, Schaffner LC (2006) Hypoxia and benthic community recovery in Korean coastal waters. Mar Pollut Bull 52:1517-1526
Matoba Y (1970) Distribution of Recent Shallow Water Foraminifera of Matsushima Bay, Miyagi Prefecture, Northeast Japan. Sci Rep Tohoku B 42:1-85
Matsumoto E (1981) Research activity on the coastal marine pollution. Chisitsu News 319:52-58
Mojtahid M, Jorissen F, Pearson TH (2008) Comparison of benthic foraminiferal and macrofaunal responses to organic pollution in the Firth of Clyde (Scotland). Mar Pollut Bull 56:42-76
Moodly L, Hess C (1992) Tolerance of infaunal benthic foraminifera for low and high oxygen concentrations. Biol Bull 183:94-98
Morvan J, Cadre VL, Jorissen F, Debenay JP (2004) Foraminifera as potential bio-indicators of the "Erika" oil spill in the Bay of Bourgneuf: field and experimental studies. Aquat Living Resour 17:317-322
Muller PJ (1977) C/N ration in Pacific deep-sea sediments: effect of inorganic ammonium and organic nitrogen compounds sorbed by clays. Geochim Cosmochim Ac 41:765-776
Murray JW (1991) Ecology and Palaeoecology of Benthic Foraminifera. Longman Scientific & Technical, 397 p
Murray JW (2006) Ecology and Applications of Benthic Foraminifera. Cambridge University Press, New York, 426 p
Murray JW, Alve E (2002) Benthic foraminifera as indicators of environmental change: marginal-marine, shelf and upper slope environments. In: Haslett SK (ed) Quaternary environmental micropalaeontology. Oxford University Press, New York, pp 59-90
Nomura R (2003) Assessing the roles of artificial vs. natural impacts on brackish lake environments: foraminiferal evidence from Lake Nakaumi, southwest Japan. J Geol Soc Japan 109:197-214
Nomura R, Seto K (2002) Influence of man-made construction on environmental conditions in brackish Lake Nakaumi, southwest Japan: foraminiferal evidence. J Geol Soc Japan 108:394-409
Pielou EC (1966) The measurement of diversity in different types of biological collections. J Theor Biol 13:131-144
Platon E, Sen Gupta BK, Rabalaisc NN, Turner RE (2005) Effect of seasonal hypoxia on the benthic foraminiferal community of the Louisiana inner continental shelf: the 20th century record. Mar Micropaleontol 54:263-283
Samir AM, El-Din AB (2001) Benthic foraminiferal assemblages and morphological abnormalities as pollution proxies in two Egyptian bays. Mar Micropaleontol 41: 193-227
Sampei Y, Matsumoto E (2001) C/N ratios in a sediment core from Nakaumi lagoon, southwest Japan-usefulness as an organic source indicator. Geochem J 35:189-205
Schafer CT (1973) Distribution of Foraminifera near pollution sources in Chaleur Bay. Water Air Soil Poll 2:219-233
Scott DB, Medioli FS, Schafer CT (2001) Monitering in coastal environments using foraminifera and thecamoebial indicators. Cambridge University Press, 177 p
Shannon C E, Weaver W (1949) The mathematical theory of communication. University of Illinois Press, Urbana 125 p
Thibodeau B, de Vernal A, Mucci A (2006) Recent eutrophication and consequent hypoxia in the bottom waters of the Lower St. Lawrence Estuary: micropaleontological and geo-chemical evidence. Mar Geol 231:37-50
Thomas E, Gapotchenko T, Varekamp JC, Mecray EL, Buchholz ten Brink MR (2000) Benthic foraminifera and environmental changes in long Island Sound. J Coast Res 16:641-655
Tsujimoto A, Nomura R, Yasuhara M, Yoshikawa S (2006a) Benthic foraminiferal assemblages in Osaka Bay, southwestern Japan: faunal changes over the last 50 years. Paleontol Res 10:141-161
Tsujimoto A, Nomura R, Yasuhara M, Yamazaki H, Yoshikawa S (2006b) Impact of eutrophication on shallow marine benthic foraminifers over the last 150 years in Osaka Bay, Japan. Mar Micropaleontol 60:258-268
Tsujimoto A, Yasuhara M, Nomura R, Yamazaki H, Sampei Y, Hirose K, Yoshikawa S (2008) Development of modern benthic ecosystems in eutrophic coastal oceans: the foraminiferal record over the last 200 years, Osaka Bay, Japan. Mar Micropaleontol 69:225-239
Yanko V, Ahmad M, Kaminski M (1998) Morphological deformities of benthic foraminiferal tests in response to pollution by heavy metals: implications for pollution monitoring. J Foramin Res 28:177-200
Yanko V, Arnold AJ, Parker WC (1999) Effect of marine pollution on benthic foraminifera. In: Sen Gupta BK (ed) Modern foraminifera. Kluwer Academic Publishers, Dordrecht, pp 201-216
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
출판사/학술단체 등이 한시적으로 특별한 프로모션 또는 일정기간 경과 후 접근을 허용하여, 출판사/학술단체 등의 사이트에서 이용 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.