Abstract

The study focus on the integration of Remote Sensing and Geographic Information System for identification and delineation of lineaments in relation to natural hydrocarbon seepage, which occur in Ugwueme, South-Eastern Nigeria. To achieve this objective, remotely sensed data (ASTER Digital Elevation Model and Landsat 8 OLI/TIRS) were used to depict the surface expression of faults, folds and fractures which are expressed in the form of lineaments. The global positioning system (GPS) was also used for ground verification. The geology map of the study area, which is elucidated in the geology of Nigeria was used to show the distribution of rocks and other geologic structures. The delineation of lineament features was done automatically with the PCI Geomatica while the Rock ware was used to generate the Rose diagram for demonstration of the direction of the extracted lineaments. The classification of the lineaments density and the lineaments intersection analysis were categorized as very low, low, moderate, high and very high classes respectively. Areas classified as very high to high lineaments density are potential zone, which act as conduits for hydrocarbon seepage. The result shows that a total lineament frequency of 947 km and a total lineament length of 946 km were delineated from the satellite data. The result further shows that areas with high lineaments density are concentrated in the southwest, south, central and northern part of the study area while areas with low lineament density were found within the eastern part of Ugwueme. The Rose diagram highlight the major trend in the (NE-SW), (N-S) and (NW-SE) directions, and the minor trend in the (W-E) direction. These directional trends depict the directions of lineaments which act as conduits zones for hydrocarbon seepage in the region. The overall findings of the study shows that lineament density, lineament intersection and rose diagrams are concepts applicable in hydrocarbon oil and gas seepages.

Highlights

  • The need for studying geologic structures such as lineaments which include faults, joints and fractures cannot be overemphasized

  • The shaded relief images extracted from Digital Elevation Model (DEM) for the study, has an illumination direction of 315° 0′ 0′′ and a solar elevation of 45° 0′ 0′′ for automatic lineament extraction which act as channels for hydrocarbon oil and gas seepage

  • Remote sensing was integrated with GIS for identification and extraction of lineaments in relations to natural hydrocarbon seepage in Ugwueme, South-Eastern Nigeria

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Summary

Introduction

The need for studying geologic structures such as lineaments which include faults, joints and fractures cannot be overemphasized. The surface expression of faults, fractures, folds and foliations are expressed in the form of lineaments with remotely sensed data, such as satellite imageries and the Digital Elevation Model (DEM) (Solomon, 2003). These techniques are important in lineament analysis for interpretation of areas associated hydrocarbon oil and gas seepage Sensed data such as satellite imageries and the Digital Elevation Model (DEM) can be used to delineate lineaments by alignment of features. These features include topography, vegetation and soil moisture, which can be studied with tone, color, texture, pattern and topography attributes (Khan & Glenn, 2006). Thematic maps such as the rose diagram, lineament density map and the lineament intersection map which were prepared from these delineated lineaments often act as conduits for hydrocarbon seepage

Location and extent
Data and methods
Data used for the study
Field work
Major software adopted for the study
Pre-processing and processing of the satellite data
Lineament extraction and analysis
Results
Fault zone
Geology
Lineament density
Lineament intersection density
Conclusions and discussions

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