Call number:
AWI G5-20-94097
Type of Medium:
Dissertations
Pages:
vi, 127 Seiten
,
Illustrationen, Diagramme, Karten
Language:
English
Note:
Dissertation, Universität Potsdam, 2020
,
Table of contents
Abstract
Kurzfassung
Table of contents
Chapter 1: Introduction
1.1 The challenge of proxy uncertainties
1.2 Aims and approaches
1.3 Thesis outline and author's contributions
Chapter 2: Comparing methods for analysing time scale dependent correlations in irregularly sampled time series data
2.1 Abstract
2.2 Introduction
2.3 Methods
2.3.1 Time scale dependency
2.3.2 Irregularity
2.3.3 Surrogate data
2.3.3.1 Construction of surrogate signals
2.3.3.2 Construction of irregular sampling
2.3.4 Evaluation of the estimation methods
2.4 Results
2.4.1 Correlation of red signal - white noise time series
2.4.2 Correlation of white signal - white noise time series
2.5 Discussion
2.5.1 Effect of irregularity and non-simultaneousness in sampling
2.5.2 Choosing the best method
2.5.2.1 Handling irregularity
2.5.2.2 Accounting for time scale dependency
2.5.3 Example application to observed proxy records
2.6 Conclusion
2.7 Computer code availability
2.8 Acknowledgements
2.9 Appendix 2-A. Significance test for time scale dependent correlation estimates
Chapter 3: Empirical estimate of the signal content of Holocene temperature proxy records
3.1 Abstract
3.2 Introduction
3.3 Data
3.3,1 Proxy records
3.3.2 Climate model simulations
3.4 Method
3.4.1 Approach and assumptions
3.4.2 Spatial correlation structure of model vs. reanalysis data
3.4.3 Processing steps
3.4.3.1 Estimation of the spatial correlation structure
3.4.3.2 Estimation of the SNRs
3.5 Results
3.5.1 Spatial correlation structure and correlation decay length
3.5.2 SNR estimates
3.6 Discussion
3.6.1 Spatial correlation structure of model simulations
3.6.2 Finite number of proxy records
3.6.3 Proxy-specific recording of climate variables
3.6.4 Time uncertainty and non-climatic components of the proxy signal
3.6.5 Implications and future steps forward
3.7 Conclusion
3.8 Code availability
3.9 Data availability
3.10 Acknowledgements
Chapter 4: Testing the consistency of Holocene and Last Glacial Maximum spatial correlations in temperature proxy records
4.1 Abstract
4.2 Introduction
4.3 Data
4.4 Method
4.4.1 Approach and assumptions
4.4.2 Holocene and LGM spatial correlation structure from climate model simulation
4.4.3 Effect of changes in climate variability on the predicted correlations
4.4.4 Effect of changes in time uncertainty on the predicted correlations
4.4.S Estimating the surrogate-based LGM spatial correlation and accounting for parameter uncertainty
4.5 Results
4.6 Discussion
4.6.1 Proxy-specific recording and finite number of records
4.6.2 Time uncertainty of proxy records
4.6.3 Contrary behaviour of U K'37 records
4.6.4 Spatial correlation structure and orbital trends
4.7 Conclusion
4.8 Acknowledgements
4.9 Appendix 4-A. Deriving the effect of a different signal variance on the correlation
Chapter 5: Synthesis
5.1 Irregular sampling and time scale dependent correlations
5.2 Spatial correlation structure of proxy records
5.3 Consistency of spatial correlations for different climate states
5.4 Signal content of proxy records
5.5 Concluding remarks and Outlook
Chapter A: Supplement of Chapter 3 - Empirical estimate of the signal content of Holocene temperature proxy records
A.1 Supplementary Figures
A.2 Supplementary Tables
Chapter B: Supplement of Chapter 4 - Testing the consistency of Holocene and Last Glacial Maximum spatial correlations of temperature proxy records
8.1 Supplementary Figures
8.2 Supplementary Tables
References
Danksagung
Eidesstattliche Erklärung
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