Multiple Provenances: The Role of the Hinterland Sediment Composition on Predicting Reservoir Quality – an Example from the Western Lake Eyre Basin, Central Australia
Date
2006
Authors
Menacherry, Saju
Payenberg, Tobias Hans Diederich
Lang, Simon Christopher
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Conference paper
Citation
2006 AAPG International Conference, 5-8 November, 2006
Statement of Responsibility
Saju Menacherry, Tobias H.D. Payenberg, and Simon. C Lang
Conference Name
American Association of Petroleum Geologists International Conference (2006 : Perth, West Australia)
Abstract
Reservoir quality depends on sand composition, itself a function of hinterland processes: provenance, tectonic setting,
sand evolution and transportation, climate, and the depositional environment. Knowing the percentage of mineral
composition such as quartz, feldspar and lithics in the subsurface, one may be able to predict porosity and permeability
of reservoir units as they undergoes diagenesis.
Sediments in the modern dryland Umbum Creek, western Lake Eyre Basin, Central Australia reflects the nature of the
source region. Six petrographic provenances were identified and established in the Umbum Creek drainage basin,
according to the six principal geological units drained: (1) the Palaeoproterozoic-Peake and Denison inliers; (2) the
Neoproterozoic; (3) the Palaeozoic Arckaringa basin; (4) the Mesozoic Eromanga basin; (5) the Tertiary Formations; and
(6) the Quarternary Formations.
Source to sink samples from the Umbum Creek catchment were used to assess the provenance through time as well as
finger printed each grain to its provenance lithotype. Climate has a strong influence on the petrogenesis of the Umbum
Creek drainage basin sand, but mixing with tributaries is the main process that modifies composition of the Umbum
Creek sand. The modern sand is not only directly proportional to the hinterland bedrock lithology, but also cannibalizes
all outcropping bedrock along the transport path. This leads to an ultimate sand composition that is not only the result of
the hinterland processes but also of the entire drainage basin. Therefore, the whole drainage basin configuration needs
to be considered when attempting to predict sediment composition in the subsurface.
School/Discipline
Australian School of Petroleum