ABSTRACT
Correctly identifying key variables associated with the temporal and
spatial distribution of prolific marine petroleum source rock (MPSR) units
is of critical importance towards the future development of models accurately
predicting their existence and effective exploitation. The geographic positioning
and prevailing paleoclimatic conditions on paleocontinental reconstructions,
in combination with the processes controlling the drowning of continental
margins and parameters associated with the establishment of high biologic
productivity and long term anoxic conditions within the water column, have
been pursued as first-order constraints controlling the development of
some prolific marine petroleum source rock (MPSR) deposits. From this,
a model has been developed that accounts for the enhanced preservation
of regional type-II MPSR deposits on low paleolatitudinally-positioned
continental margins and shelves that have undergone depression with respect
to sea level. Two 'shelf-drowning' mechanisms, continental passive margin
subsidence combined with eustacy, and tectonically-induced subsidence by
the loading of continental margins, are presented as effective processes
that contribute towards the more efficient accumulation and preservation
of some extensive marine petroleum source rock (MPSR) units.
The potential utility of this model is examined by a comprehensive
analysis of an extensive active continental margin MPSR unit deposited
within the late medial Ordovician Taconic Foreland Basin of eastern New
York and a prolific late medial Cretaceous continental passive margin MPSR
unit deposited within the Maracaibo Basin of northwestern Venezuela. The
integrated use of organic geochemistry, programmed pyrolysis, and geochemical
analyses of the Taconic Foreland Basin demonstrates that the Utica Formation
was an organic-rich and a prolific, although now spent, MPSR unit. The
existence of the Utica Formation is believed to have been the result of
'channeled-flow upwelling', within a bathymetrically-constricted collisional
foreland basin, which was spatially positioned at a subsiding continental
margin entering a subduction zone. The penecontemporaneous impingement
of the oxygen minimum zone of the water column at the drowned continental
shelf caused the establishment of long-term anoxic conditions on the outer
slope of the developing foreland basin. This consequently increased the
potential for the preservation, subsequent burial and compaction, and eventual
conversion of organic-rich muds into a regionally important source rock
unit.
Geochemical analysis of the late medial Cretaceous derived petroleum
oils of the Maracaibo Basin also requires the existence of one regional
MPSR unit, the La Luna Formation. This is consistent with the combination
of eustatic sea level rise, and thermal subsidence, of the northern South
American passive continental margin and shelf during medial Cretaceous
times being coincident with the development of high biologic productivity
conditions within the overlying photic zone of the water column. This was
a direct result of the low paleolatitudinal positioning of the northern
coastline of South America during medial Cretaceous times. The subsequent
movement of the Caribbean Plate through the Proto-Caribbean Seaway in turn
controlled the timing and maturation of the MPSR unit, becoming younger
as collision and foredeep sedimentation progressed eastwards.
Achong, C.M., 1993. Identifying key variables associated with the temporal
and spatial distribution of prolific marine petroleum source rock (MPSR)
units and its application to the Taconic Foreland Basin, eastern New York.
Unpublished MSc. thesis, State University of New York at Albany. 196 pp.,
+xv
University at Albany Science Library call number: SCIENCE Oversize
(*) QE 40 Z899 1993 A24
Return to MS Theses completed in the Geological
Sciences Program, University at Albany