한국해양학회지:바다 (The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY)

  • 제5권4호
  • /
  • Pages.374-380
  • /
  • 2000
  • /
  • 1226-2978(pISSN)
  • /
  • 2671-8820(eISSN)
한국해양학회 (The Korean Society of Oceanography)
권호 표지

제주-대한해협의 표층해양의 용존 탄화수소

Dissolved Aliphatic Hydrocarbons in the surface waters of Cheju-Korea Straits region

  • 발행 : 2000.11.30
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

제주-대한해협중 소흑산도에서 부산앞 대마도부근 까지의 제주도 이북의 대륙붕 해역 (33$^{\circ}$30'${\sim}$34$^{\circ}$N 125$^{\circ}$${\sim}$128$^{\circ}$E) 용존탄화수소의 분포와 성인을 조사하였다. 표층 해수중 용존탄화수소 총함량의 시 ${\cdot}$ 공간적 변이는 10배 이상이 대체로 연안에서 높고 외해에서 낮으며, 총함량은 가을에 봄보다 높다. 탄화수소의 성인을 n-alkanes과 pristane함량을 기준으로 보면 해수중 용존 탄화수소는 1998년 4월의 경우, 황해남부(125$^{\circ}$E) 해역에서는 식물플랑크톤기원 및 석유기원 탄화수소가 우세하고, 남해에서는 육상기원과 석유기원이 우세하다. 그리고 1998년 9월에는 남해에 식물플랑크톤과 석유기원이 우세하게 나타났다.

Dissolved aliphatic hydrocarbon concentrations in the surface seawater were investigated to describe their distribution and elucidate their sources in the Cheju-Korea Straits region (33$^{\circ}$30‘-34$^{\circ}$N 125$^{\circ}$-128$^{\circ}$E). Seawater sampling was made in spring and autumn in 1998. A large temporal and spatial variability were observed in the dissolved hydrocarbon concentrations in the region. The sources of dissolved hydrocarbons in seawater were elucidated based on the molecular concentrations of n-alkanes and pristane. Dissolved hydrocarbons in the surface water appears to be largely originated from phytoplankton and petroleum in the southern Yellow Sea (125$^{\circ}$), and terrigenous and petrogenic in the Cheju-Korea Straits region in April 1998. In September 1998, dissolved hydrocarbons in the surface waters were largely derived from phytoplanktons and terrestrial material in the Cheju-Korea Soaits region.

키워드

참고문헌

  1. 환경백서 환경부
  2. 남해대륙붕물질순화과 생지화학연구 한국해양연구소;홍기훈(ed.)
  3. Mar. Poll. Bull. v.36 Seasonal distribution of dissolved and particulate hydrocarbons in Shatt Al-Arab Estuary and the North Northwest Arabian Gulf Al-Saad, H.;S.M. Shamshoom;J.K. Abaychi
  4. Org. Geochem. v.26 Generation of biogenic hydrocarbons during a spring bloom in Newfoundland coastal(NW Atlantic) waters Biegger, T.;T.A. Abrajano;J. Hellou
  5. Biochem. v.8 Phytolderived $C_{19}$ di- and triolefinic hydrocarbons in marine zooplankton and fishes Blumer, M.;J.C. Robertson;J.E. Gordon:J. Sass
  6. Environ. Sci. Tech. v.23 Determination of hydrocarbon sources using n-Alkane and polyaromatic hydrocarbon distribution indexes. Case Study: Rio de La Plata Estuary Colombo, J.C.;E. Pelletier;C. Brochu;M. Khalil
  7. Antarctic Sci. v.3 Hydrocarbons in the Antartic marine environment Cripps, G.C.;J. Priddle
  8. Mar. Poll. Bull. v.36 Dissolved/dispersed hydrocarbons in the Arabian region Douabul, A. A.-Z.;N.A. Al-Shiwafi
  9. Science v.277 Vairability in radiocarbon ages of individual organic compounds from marine sedimenes Eglinton, T.I.;B.C. Benitez-Nelson;A. Pearson;A.P. McNichol;J.E. Bauer;E.R.M. Druffel
  10. Mar. Chem. v.63 Biomarkers as organic-carbon-source and environmental indicators in the late Quaternary Artic Ocean: problems and perspectives Fahl, K.;R. Stein
  11. Estuar v.20 Aquatic hydrocarbon distributions in the Seine Estuary: Biogenic Polyaromartics and n-Alkanes Fernandes, N.B.;A. Borieau;J. Tronczynski
  12. J. Biol. Chem. v.226 A simple method for the isolation and purification of total liquids from animal tissues Folch, J.M. Lee;G.H. Stanely
  13. Estuar. Coast. Shelf Sci. v.7 Temporal variations and probable origins of hydrocarbons in the water column of Bedford Basin,Nova Scotia Gordon, D.C.Jr;P.D. Keizer;J. Dale
  14. Mar. Chem. v.25 The decoupling of hydrocarbons and fatty acids in the dissolved and particulate water phases of a deltaic environment Gomez-Belinchon, J.I.;R. Llop;L.O. Grimalt;J. Albaiges
  15. Response to Marine Oil Spill Response ITOPF
  16. Mar. Poll. Bull. v.14 Hydrocarbons in water, sediment and mussels from the southern Baltic Sea Law, R.;E. Anrdulewicz
  17. Mar. Environ. Res. v.25 Hydrocarbons and halogenated hydrocarbons in coastal waters of the western Mediterranean (France) Marchand, J.C.;J.C. Caprais;P. Pignet
  18. Mar. poll. Bull. v.12 Petrileum sources in the Western Gulf of Alaska/Shelikoff Strait Area Page, D.S.;P.D. Boehm;G.S. Douglas;A.E. Bence;W.A. Burns;P.J. Mankiewicz
  19. Mar. Poll. Bull. v.30 Distribution of n-alkanes in marine samples from Southeast Florida Snedaker, S.C.;P.W. Glynn;D.G. Rumbold;E.F. Corecoran
  20. Environ. Sci. Tech. v.30 Aliphatic and polycylcic aromatic hydrocarbons and sulfur/oxygen derivatives in Northwestern Meditrranean sediments: spatial and temporal variability, fluxes, and budgets Tolsa, I.;I.M. Bayona;J. Albaiges
  21. Manual and Guides NO. 20 no.20 Determication of petroleum hydrocarbons in sediments UNEP;K.A. Burns
  22. ACS Symposium Series 671 Applications of biomarkers for identifying sources of natural and pollutant hydrocarbons in aquatic environments. In Molecular Markers in Environmental Geochemistry Volkman;J.K.;A.T. Revill;A.P. Murray;R.P. Eganhouse(ed.)
  23. Geochim. Cosmochim. Acta. v.57 Alkane, terpene, and polycylic aromatic hydrocarbon geochemistry of the Mackenzie River and Mackenzie shelf: Riverine contributions to Beaufort Sea coastal sediment Yunker, M.B.;R.W. MacDonald;W.J. Cretney;B.R. Fowler;F.A. McLaughlin
  24. Estuar. v.17 Tidal river sediments in the Washington, D.C. Area. Ⅱ Distribution and sources of organic contaminants Wade, T.L.;D.J. Venlinsky;E. Reinharz