Exploring Autogenic and Allogenic Processes in Lobyte3D

Explore autogenic and allogenic processes in deep-water fan systems through a comprehensive lecture by Professor Peter Burgess from the University of Liverpool. Dive into the complexities of stratigraphic signals, learning how to distinguish between external forcing and internal system dynamics. Utilize the Lobyte3D numerical model to conduct experiments on signal preservation in sedimentary records. Analyze synthetic seismic data, spectral analysis, and Monte Carlo methods to understand signal extraction from noise. Investigate the implications for field data collection and interpretation in submarine fan environments. Gain insights into quantitative approaches for deciphering sedimentary records and their significance in reconstructing past tectonic and climatic events.

Introduction
Autogenic vs Allogenic Signals
Quantitative Approach
Talk Outline
Lobyte3D
How does it work
Parameters
Comparison
Animations
Strike Section
Synthetic Seismic
Constant Sediment Supply
Monte Carlo Method
Spectral Analysis
Power Spectra
Signal Bump
Conclusions
Questions
Signal bump histogram
Input from field data
How will this reflect in the bump
Implications for collecting outcrop data
Erosion or deposition
Time conversion
Career data
Erosion
No Randomness
Signal Bumps
Submarine Fan Environment
Wrap Up