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The Interplay of Eustacy, Tectonics, and Climate in the Shaping of the Late Quaternary Sequence Stratigraphy in the Northern Adriatic and Po Delta Area of Italy*
By
Marco Stefani1, Antonio Cattaneo2, Ubaldo Cibin3, Annamaria Correggiari2, and Stefano Vincenzi1
Search and Discovery Article #30013 (2003)
*Adapted from “extended abstract” for presentation at the AAPG Annual Meeting, Houston, Texas, March 10-13, 2002.
1Ferrara University, Ferrara, Italy ([email protected]);
2Marine Geology Institute Center, Bologna, Italy
3Geological Service, Regione Emilia-Romagna, Bologna, Italy
The subsiding
Apennine Foredeep harbors an exceptionally thick and accurate registration of
the Quaternary sedimentary evolution. Only the youngest portion (<3 ka) of this
high-
resolution
record can be directly accessed in outcrops, whereas the older
parts are buried beneath the contiguous marine and continental area. This
research is aimed at the understanding of the depositional evolution over the
last 125 ka through the interdisciplinary integration of offshore and onshore
research. The offshore interpretation is based on high-frequency,
high-resolution seismic profiling, associated with coring; the onshore data was
derived from stratigraphic drilling, penetrometer measurements, and, for the
outcropping units, photo interpretation, sedimentological sampling, and
archaeological investigation. Micro- and macropaleontological determination and
C14 dating were carried on both offshore and onshore cores. The sedimentary
record of the last glacio-eustatic fluctuation, taking place during the late
Quaternary (ca 125-0 ka B.P.), can be subdivided into three well defined
sequence stratigraphic units (LST, TST and HST), separated by the transgressive
(ts) and the maximum flooding (mfs) surfaces. This sequence stratigraphic
framework enables the stratigraphic correlation to be extended from offshore
into inland areas, despite the contrasting offshore and inshore investigation
methodologies.
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During the last glacial maximum, the Adriatic Sea was almost completely exposed under subaerial conditions. The Po River delta was prograding 300 km away from the present-day coastal area, which was characterized by braided-river, middle alluvial-plain sedimentation. In the present-day Po Delta zone, this coarse sand body, associated with cold climate mammal remains, forms the LST and corresponds to the shallower confined subsurface aquifer. In this area, during the early post-glacial phase, an erosive discordance was cut into the older alluvial deposits, producing a gently incised valley landscape.
The post-18 ka relative sea-level rise was very quick and widespread,
occurring over a low-gradient alluvial plain, which, because of
progressive flooding, became an epicontinental shelf (Figure 1), mainly
bottomed by the ravinement surface, directly cutting continental
deposits. This rapid transgressive environmental change was, however,
punctuated by episodes of a lowered rate of sea-level rise. Despite the
rapidity of the transgression, patchy backstepping paralic deposits,
ranging in age from 14 to 7 ka are, therefore, well recorded. For
example, during the Younger Dryas cold event, a prograding coastal body
on the Adriatic shelf records a short phase of reduced relative sea
level rise, matched with an increase in the sediment supply. After the
Younger Dryas event, the late transgressive back-stepping systems tract
accumulated near the present-day coast line, in fresh water and brackish
environments, producing a low-permeability
A detailed knowledge of the subsurface stratigraphy, besides providing a modern analogue for ancient deltaic reservoir systems, is fundamental for an effective environmental management of this fragile area, which is the site of natural gas and geothermal exploitation and other important economic activities. |
