Biodegradation of oil in the coastal environment - Application of multivariate data analysis

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Biodegradation of oil in the coastal environment - Application of multivariate data analysis. / Christensen, J. H.; Hansen, A. B.; Mortensen, J.; Andersen, O.

2003. 349-362 Paper presented at Proceedings - Twenty-Sixth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar; Twentieth Technical Seminar on Chemical Spills (TSOCS) and Fifth Biotechnology Solutions for Spills (BIOSS), Victoria, BC, Canada.

Research output: Contribution to conferencePaperResearchpeer-review

Harvard

Christensen, JH, Hansen, AB, Mortensen, J & Andersen, O 2003, 'Biodegradation of oil in the coastal environment - Application of multivariate data analysis', Paper presented at Proceedings - Twenty-Sixth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar; Twentieth Technical Seminar on Chemical Spills (TSOCS) and Fifth Biotechnology Solutions for Spills (BIOSS), Victoria, BC, Canada, 10/06/2003 - 12/06/2003 pp. 349-362.

APA

Christensen, J. H., Hansen, A. B., Mortensen, J., & Andersen, O. (2003). Biodegradation of oil in the coastal environment - Application of multivariate data analysis. 349-362. Paper presented at Proceedings - Twenty-Sixth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar; Twentieth Technical Seminar on Chemical Spills (TSOCS) and Fifth Biotechnology Solutions for Spills (BIOSS), Victoria, BC, Canada.

Vancouver

Christensen JH, Hansen AB, Mortensen J, Andersen O. Biodegradation of oil in the coastal environment - Application of multivariate data analysis. 2003. Paper presented at Proceedings - Twenty-Sixth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar; Twentieth Technical Seminar on Chemical Spills (TSOCS) and Fifth Biotechnology Solutions for Spills (BIOSS), Victoria, BC, Canada.

Author

Christensen, J. H. ; Hansen, A. B. ; Mortensen, J. ; Andersen, O. / Biodegradation of oil in the coastal environment - Application of multivariate data analysis. Paper presented at Proceedings - Twenty-Sixth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar; Twentieth Technical Seminar on Chemical Spills (TSOCS) and Fifth Biotechnology Solutions for Spills (BIOSS), Victoria, BC, Canada.14 p.

Bibtex

@conference{294df87b989747c880876314f39987e7,
title = "Biodegradation of oil in the coastal environment - Application of multivariate data analysis",
abstract = " Multivariate data analysis was used to assess the environmental fate, specifically the effect of biodegradation, of stranded oil after the Baltic Carrier oil spill on 3/29/2001. GC-MS data from samples (oil smudged stones) collected from the beach of Hestehoved, Denmark, an area affected by the spill, were analyzed by three different approaches, i.e., a univariate analysis using the diagnostic biodegradation ratios nC 17 /(nC 17 +Pr) and nC 18 /(nC 18 +Ph); multivariate data analysis of the isomeric pattern of tetramethylnaphthalenes; and a more comprehensive analysis of 21 diagnostic biodegradation ratios selected among a much larger number of variables by a selection method based on quantitative reliability criteria. The sampling strategy resulted in very heterogeneous analytical data, as biodegradation was very much dependent on the thickness of the oil layer as well as the local chemical and physical properties, e.g., exposure to water flushing, oxygen, etc. The univariate approach showed that the degree of biodegradation of alkanes increased from 0 to 8.5 mo while the samples collected at 12 and 16.5 mo indicated a lower degree of biodegradation. The third most comprehensive analysis showed that an initial biodegradation process occurred during 0-2.5 mo. Diagnostics ratios from samples taken at 8.5 mo after the spill indicated the highest degree of biodegradation. Several other biomarker ratios analyzed in the study, e.g., hopanes and steranes, were not yet affected by the biodegradation processes, as indicated by very consistent ratios with descriptive power-values close to unity. This is an abstract of a paper presented at the 25th Arctic and Marine Oilspill Program Technical Seminar (Calgary, Alberta, 6/11-13/2002). ",
author = "Christensen, {J. H.} and Hansen, {A. B.} and J. Mortensen and O. Andersen",
year = "2003",
month = dec,
day = "1",
language = "English",
pages = "349--362",
note = "Proceedings - Twenty-Sixth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar; Twentieth Technical Seminar on Chemical Spills (TSOCS) and Fifth Biotechnology Solutions for Spills (BIOSS) ; Conference date: 10-06-2003 Through 12-06-2003",

}

RIS

TY - CONF

T1 - Biodegradation of oil in the coastal environment - Application of multivariate data analysis

AU - Christensen, J. H.

AU - Hansen, A. B.

AU - Mortensen, J.

AU - Andersen, O.

PY - 2003/12/1

Y1 - 2003/12/1

N2 - Multivariate data analysis was used to assess the environmental fate, specifically the effect of biodegradation, of stranded oil after the Baltic Carrier oil spill on 3/29/2001. GC-MS data from samples (oil smudged stones) collected from the beach of Hestehoved, Denmark, an area affected by the spill, were analyzed by three different approaches, i.e., a univariate analysis using the diagnostic biodegradation ratios nC 17 /(nC 17 +Pr) and nC 18 /(nC 18 +Ph); multivariate data analysis of the isomeric pattern of tetramethylnaphthalenes; and a more comprehensive analysis of 21 diagnostic biodegradation ratios selected among a much larger number of variables by a selection method based on quantitative reliability criteria. The sampling strategy resulted in very heterogeneous analytical data, as biodegradation was very much dependent on the thickness of the oil layer as well as the local chemical and physical properties, e.g., exposure to water flushing, oxygen, etc. The univariate approach showed that the degree of biodegradation of alkanes increased from 0 to 8.5 mo while the samples collected at 12 and 16.5 mo indicated a lower degree of biodegradation. The third most comprehensive analysis showed that an initial biodegradation process occurred during 0-2.5 mo. Diagnostics ratios from samples taken at 8.5 mo after the spill indicated the highest degree of biodegradation. Several other biomarker ratios analyzed in the study, e.g., hopanes and steranes, were not yet affected by the biodegradation processes, as indicated by very consistent ratios with descriptive power-values close to unity. This is an abstract of a paper presented at the 25th Arctic and Marine Oilspill Program Technical Seminar (Calgary, Alberta, 6/11-13/2002).

AB - Multivariate data analysis was used to assess the environmental fate, specifically the effect of biodegradation, of stranded oil after the Baltic Carrier oil spill on 3/29/2001. GC-MS data from samples (oil smudged stones) collected from the beach of Hestehoved, Denmark, an area affected by the spill, were analyzed by three different approaches, i.e., a univariate analysis using the diagnostic biodegradation ratios nC 17 /(nC 17 +Pr) and nC 18 /(nC 18 +Ph); multivariate data analysis of the isomeric pattern of tetramethylnaphthalenes; and a more comprehensive analysis of 21 diagnostic biodegradation ratios selected among a much larger number of variables by a selection method based on quantitative reliability criteria. The sampling strategy resulted in very heterogeneous analytical data, as biodegradation was very much dependent on the thickness of the oil layer as well as the local chemical and physical properties, e.g., exposure to water flushing, oxygen, etc. The univariate approach showed that the degree of biodegradation of alkanes increased from 0 to 8.5 mo while the samples collected at 12 and 16.5 mo indicated a lower degree of biodegradation. The third most comprehensive analysis showed that an initial biodegradation process occurred during 0-2.5 mo. Diagnostics ratios from samples taken at 8.5 mo after the spill indicated the highest degree of biodegradation. Several other biomarker ratios analyzed in the study, e.g., hopanes and steranes, were not yet affected by the biodegradation processes, as indicated by very consistent ratios with descriptive power-values close to unity. This is an abstract of a paper presented at the 25th Arctic and Marine Oilspill Program Technical Seminar (Calgary, Alberta, 6/11-13/2002).

UR - http://www.scopus.com/inward/record.url?scp=3542993262&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:3542993262

SP - 349

EP - 362

T2 - Proceedings - Twenty-Sixth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar; Twentieth Technical Seminar on Chemical Spills (TSOCS) and Fifth Biotechnology Solutions for Spills (BIOSS)

Y2 - 10 June 2003 through 12 June 2003

ER -

ID: 227437735