Article | 03. 2017 Vol. 22, Issue. 2
특성이 다른 GC 컬럼이 long chain alkyl diols (LCDs)의 정량 분석에 미치는 영향






2017.03. 45:55


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Keyword: Long-chain diols.  Long chain diol index.  Paleo sea surface temperature.  East Sea of Korea.  Western Arctic Ocean.  



1. Atwood, A.R., J.K. Volkman and J.P. Sachs. 2014. Characterization of unusual sterols and long chain diols, triols, keto-ols and n-alkenols in El Junco Lake, Galápagos. Org. Geochem., 66: 80-89.  

2. Brassell, S.C., G. Eglinton, U. Marlowe and M. S. Pflaumann. 1986. Molecular stratigraphy: a new tool for climatic assessment. Nature., 320. 129-133.  

3. de Bar, M.W., D.J.C. Dorhout, E.C. Hopmans, S.W. Rampen, J.S. Sinninghe Damsté and S. Schouten, 2016. Constraints on the application of long chain diol proxies in the Iberian Atlantic margin. Org. Geochem., 101: 184-195.  

4. de Leeuw, J.W., W.I.C. Rijpstra, P.A. Schenck and J.K. Volkman, 1983. Free, esterified and residual bound sterols in Black Sea Unit I sediments. Geochim. Cosmochim. Acta., 47: 455-465.   

5. de Leeuw, J.W.W. Irene, C. Rijpstra and P.A. Schenck, 1981. The occurrence and identification of C, C and C alkan-1, 15-diols and alkan-15-one-1-ols in Unit I and Unit II Black Sea sediments. Geochim. Cosmochim. Acta., 45: 2281-2285.  

6. Freeman, K.H. and S.G. Wakeham, 1992. Variations in the distributions and isotopic composition of alkenones in Black Sea particles and sediments. Org. Geochem., 19: 277-285.  

7. Hinrichs, K.U., R.R. Schneider, P.J. Müller and J. Rullkötter, 1999. A biomarker perspective on paleoproductivity variations in two Late Quaternary sediment sections from the Southeast Atlantic Ocean. Org. Geochem., 30: 341-366.  

8. Ho, S.L. and T. Laepple, 2015. Glacial cooling as inferred from marine temperature proxies TEXH86 and UK’37. Earth Planet. Sci. Lett., 409: 15-22.  

9. Hopmans, E.C., J.W. . Weijers, E. Schefuß, L. Herfort, J.S. Sinninghe Damsté and S. Schouten, 2004. A novel proxy for terrestrial organic matter in sediments based on branched and isoprenoid tetraether lipids. Earth Planet. Sci. Lett., 224: 107-116.  

10. Kim, J.-H., J. van der Meer, S. Schouten, P. Helmke, V. Willmott, F. Sangiorgi, N. Koç, E.C. Hopmans and J.S.S. Damsté, 2010. New indices and calibrations derived from the distribution of crenarchaeal isoprenoid tetraether lipids: Implications for past sea surface temperature reconstructions. Geochim. Cosmochim. Acta., 74: 4639-4654.  

11. Lopes dos Santos, R.A., M.I. Spooner, T.T. Barrows, P. De Deckker, J.S. Sinninghe Damsté and S. Schouten, 2013. Comparison of organic (U, TEX, LDI) and faunal proxies (foraminiferal assemblages) for reconstruction of late Quaternary sea surface temperature variability from offshore southeastern Australia. Paleoceanography., 28: 377-387.  

12. Park, K.-A. and K.-R. Kim, 2010. Unprecedented coastal upwelling in the East/Japan Sea and linkage to long-term large-scale variations. Geophys. Res. Lett., 37: L09603.  

13. Polyak, L., S.T. Belt, P. Cabedo-Sanz, M. Yamamoto, and Y.-H. Park, 2016. Holocene sea-ice conditions and circulation at the Chukchi-Alaskan margin, Arctic Ocean, inferred from biomarker proxies. The Holocene., 26: 1810-1821.  

14. Prahl, F.G. and S.G. Wakeham, 1987. Calibration of unsaturation patterns in long-chain ketone compositions for palaeotem-perature assessment. Nature., 330: 367-369.  

15. Rampen, S.W., M. Datema, M. Rodrigo -Gámiz, S. Schouten, G.J. Reichart, and J.S. Sinninghe Damsté, 2014. Sources and proxy potential of long chain alkyl diols in lacustrine environments. Geochim. Cosmochim. Acta., 144: 59-71.  

16. Rampen, S.W., S. Schouten, S.G. Wakeham and J.S. Sinninghe Damsté, 2007. Seasonal and spatial variation in the sources and fluxes of long chain diols and mid-chain hydroxy methyl alkanoates in the Arabian Sea. Org. Geochem., 38: 165-179.  

17. Rampen, S.W., V. Willmott, J.H. Kim, M. Rodrigo-Gámiz, E. Uliana, G. Mollenhauer, E. Schefuß, J.S.S. Damsté and S. Schouten, 2014. Evaluation of long chain 1,14-alkyl diols in marine sediments as indicators for upwelling and temperature. Org. Geochem., 76: 39-47.  

18. Rampen, S.W., V. Willmott, J.-H. Kim, E. Uliana, G. Mollenhauer, E. Schefuß, J.S. Sinninghe Damsté and S. Schouten, 2012. Long chain 1,13- and 1,15-diols as a potential proxy for palaeotemperature reconstruction. Geochim. Cosmochim. Acta., 84: 204-216.  

19. Rodrigo-Gámiz, M., S.W. Rampen, H. de Haas, M. Baas, S. Schouten and J.S. Sinninghe Damsté, 2015. Constraints on the applicability of the organic temperature proxies U, TEX and LDI in the subpolar region around Iceland. Biogeosciences Discuss., 12: 1113-1153.  

20. Rodrigo-gámiz, M., S.W. Rampen, S. Schouten and J.S. Sinninghe. 2016. The impact of oxic degradation on long chain alkyl diol distributions in Arabian Sea surface sediments. Org. Geochem., 100: 1-9.  

21. Schouten, S., E.C. Hopmans, and E. Schefuß, 2002. Distributional variations in marine crenarchaeotal membrane lipids: a new tool for reconstructing ancient sea water temperatures? Earth Planet. Sci. Lett., 204: 265-274.  

22. Sinninghe Damsté, J.S., S. Rampen, W. Irene, C. Rijpstra, B. Abbas, G. Muyzer, and S. Schouten, 2003. A diatomaceous origin for long-chain diols and mid-chain hydroxy methyl alkanoates widely occurring in quaternary marine sediments: indicators for high-nutrient conditions. Geochim. Cosmochim. Acta., 67: 1339-1348.  

23. Sun, M.Y., L. Zou, J. Dai, H. Ding, R.A. Culp and M.I. Scranton, 2004. Molecular carbon isotopic fractionation of algal lipids during decomposition in natural oxic and anoxic seawaters. Org. Geochem., 35: 895-908.  

24. Van Den Dool, H. and P.D. Kratz, 1963. A generalization of the retention index system including linear temperature programmed gas—liquid partition chromatography. J. Chromatogr. A., 11: 463-471.  

25. Versteegh, G.J.M., H.-J. Bosch and J.W. De Leeuw, 1997. Potential palaeoenvironmental information of C24 to C36 mid-chain diols, keto-ols and mid-chain hydroxy fatty acids; a critical review. Org. Geochem., 27: 1-13.  

26. Versteegh, G.J.M., J.H.F. J. Ansen, J.W.D.E.L. Eeuw and R.R.S. Chneider, 2000. Mid-chain diols and keto-ols in SE Atlantic sediments: A new tool for tracing past sea surface water masses? Geochim. Cosmochim. Acta., 64: 1879-1892.  

27. Volkman, J.K., S.M. Barrett, G.A. Dunstan and S.W. Jeffrey, 1992. C-C alkyl diols and unsaturated alcohols in microalgae of the class Eustigmatophyceae. Org. Geochem., 18: 131-138.  

28. Walsh, E.M., A.E. Ingalls and R.G. Keil, 2008. Sources and transport of terrestrial organic matter in Vancouver Island fjords and the Vancouver-Washington Margin: A multiproxy approach using δCorg, lignin phenols, and the ether lipid BIT index. Limnol. Oceanogr., 53: 1054-1063.  

29. Willmott, V., S.W. Rampen, E. Domack, M. Canals, J.S. Sinninghe Damsté and S. Schouten, 2009. Holocene changes in Proboscia diatom productivity in shelf waters of the north-western Antarctic Peninsula. Antarct. Sci., 22(1): 3-10.  

30. Xing, L., J.P. Sachs, W. Gao, S. Tao, X. Zhao, L. Li, Y. Liu and M. Zhao, 2015. TEX paleothermometer as an indication of bottom water temperature in the Yellow Sea. Org. Geochem., 86: 19-31.  

31. Yamamoto, M., A. Shimamoto, T. Fukuhara, H. Naraoka, Y. Tanaka and A. Nishimura, 2007. Seasonal and depth variations in molecular and isotopic alkenone composition of sinking particles from the western North Pacific. Deep Sea Res. Part I Oceanogr. Res. Pap., 54: 1571-1592.  

32. Zell, C., J.-H. Kim, P. Moreira-Turcq, G. Abril, E.C. Hopmans, M.-P. Bonnet, R. Lima Sobrinho and J.S. Sinninghe Damsté, 2013. Disentangling the origins of branched tetraether lipids and crenarchaeol in the lower Amazon River: Implications for GDGT-based proxies. Limnol. Oceanogr., 58: 343-353.