Characterization of seafloor pockmark seepage of hydrocarbons employing fractal: A case study from the western continental margin of India

Here we apply quantitative technique to describe the seafloor seepages based on the multi-beam backscatter and bathymetric investigations to characterize the pockmark morphology. The variable seafloor backscatter strength for coarser seafloor sediments are related to the diagenesis derived from biod...

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Published in:Marine and petroleum geology 2012, Vol.29 (1), p.115-128
Main Authors: Dandapath, Sumanta, Chakraborty, Bishwajit, Maslov, Nicolas, Karisiddaiah, Siddaiah M., Ghosh, Dhrupad, Fernandes, William, Menezes, Andrew
Format: Article
Language:English
Subjects:
Acoustic remote sensing
Backscattering
Box counting method
Central west coast of India
Dynamical systems
Earth sciences
Earth, ocean, space
Exact sciences and technology
Fractal analysis
Fractal dimension
Fractals
Hydrocarbons
Marine
Marine geology
Multibeam bathymetry and backscatter image
Multifractal
Nonlinear dynamics
Off Marmagao
Sea beds
Seafloor seepage characterization
Sedimentary rocks
Sediments
Seepage
Self organizing criticality
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Summary:Here we apply quantitative technique to describe the seafloor seepages based on the multi-beam backscatter and bathymetric investigations to characterize the pockmark morphology. The variable seafloor backscatter strength for coarser seafloor sediments are related to the diagenesis derived from biodegraded seepages. In this regard, box counting method is used to estimate ‘fractal dimension’ for backscatter imagery data of 398 blocks. These blocks are further sub-grouped into six classes depending on the spread of pockmark related seepages. The study area lies 102 km west off Marmagao along the central west coast of India which contains pre-dominantly (70%) gas-charged sediments. Comparison between the estimated self-similar fractals reveals that there is approximately 97% correlation between the box ( D box) and information ( D info) dimensions. Box dimension–derived fractal dimension values, suggest that the seepages are more along the fault trace in deeper waters, in comparison to sparsely distributed shallow water seepages. Besides, this poor seepage is confined within the smooth to moderately rough seafloor. It is established that the high backscatter strength along the upper slope of the pockmark region having higher fractal dimensions reflects multifractal behavior of seepage distribution. Entire area indicates patchy seepage patterns as supported by estimated fractal values showing intermittent fluctuations, which emphasizes non-linear behavior. Estimated self organizing criticality (SOC) parameters for six representative blocks reveal that the nature of pockmark, fault trace, sediment nature coupled with slumping of pockmark’s wall, sediment movement due to bottom currents are controlling the dynamic balance in the area seepage system. Further, our study emphasizing the multifractal behavior of seepage blocks, clearly depicts the drift in the seepage pattern. [Display omitted] ► Characteristics of pockmark related seafloor seepages have been examined. ► Influence of pockmark morphology on seepages are illustrated. ► Fractal techniques for understanding the seafloor seepages and fluid flow processes. ► Self-organized criticality to elucidate seepage dynamics and multifractal behavior.
ISSN:0264-8172
1873-4073
DOI:10.1016/j.marpetgeo.2011.09.008