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uIntroduction
uFigure
captions
uGeologic
setting
uMalossa
& Villafortuna-Trecate  plays
uNew
plays, Apennines
uReferences
uIntroduction
uFigure
captions
uGeologic
setting
uMalossa
& Villafortuna-Trecate plays
uNew
plays, Apennines
uReferences
uIntroduction
uFigure
captions
uGeologic
setting
uMalossa
& Villafortuna-Trecate plays
uNew
plays, Apennines
uReferences
uIntroduction
uFigure
captions
uGeologic
setting
uMalossa
& Villafortuna-Trecate plays
uNew
plays, Apennines
uReferences
uIntroduction
uFigure
captions
uGeologic
setting
uMalossa
& Villafortuna-Trecate plays
uNew
plays, Apennines
uReferences
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Figure Captions
 Figure
1.Structural sketch of the western Po Valley, Southern Alps and Northern
Apennines.
 Figure
2. Geological cross sections across the Po Valley from the Southern Alps
(A”-A) and from the Northern Apennines (Monferrato arc) (B-B’).
 Figure
3. Geological cross section across the Po Valley from the Southern Alps
to the Northern Apennine (Emilian arc).
The Po
valley subsurface framework resulted from a Mesozoic extensional
tectonic phase, developed in the western Tethys realm, followed mainly
by Tertiary collisional tectonic phases (Figure
1).
Sedimentation started during the Lower Triassic with continental to
paralic siliciclastics, followed by a Middle Triassic carbonate
depositional system, articulated in platforms and intra-platform basins
filled with mixed siliciclastics and carbonate sediments. The Upper
Triassic-Jurassic extensional phases caused the maximum deepening and
widening of the north-south-trending pelagic basins (Bertotti et al.;
1993; Sarti et al., 1993). During the alpine orogenic phases, which
began at the end of the Cretaceous, the Po Valley represented the
foreland of the Southern Alps (Figure 1). Since then the foreland dipped
northward and was progressively involved in south-verging compressional
structures. The deformation involved the Mesozoic carbonates and the
overlying syntectonic Tertiary siliciclastics. During the Pliocene and
Quaternary, after the last South-alpine tectonic phase, the area was
involved only in the Apennines deformation, which produced the southward
dip of the entire foreland (see geological sections in Pieri and Groppi,
1981; Cassano et al., 1986).
From a structural point of view these plays are the
expression of the interference between a first extentional stage, which
occurred in Late Triassic-Early Jurassic, and a later compressive stage
(Late Cretaceous- Miocene).
Malossa
field
is located in the central sector of the Po Plain (Figure
1). Tectonic relief (structure) related to the Mesozoic extensional
phase and passively involved with a SW-verging alpine compressive
structure represents the trap. The structural closure is related to the
last compressive tectonic event.
The petroleum
system consists of a Liassic reservoir made up of carbonate platform
dolomite (Zandobbio Dolomite) and by Norian-Rhaetian, mainly terrigenous
source rock (Aralata Group and Riva di Solto Shale). The source rock is
characterised by a type II kerogen, and the Source Potential Index of
this source rock series is evaluated in more than 3 t HC/m3.
The Jurassic calcareous-marly rocks of the Medolo Group provide the
seal.
The trap of
Villafortuna-Trecate field consists of an alpine compressional
structure involving a pre-existing Mesozoic extensional relief
(structure). The structural high of the Mesozoic carbonate succession
has 3,000 metres elevation and is bordered by an alpine N-verging high
angle fault, trending SSW (Figures 1
and 2). Mesozoic extensional features
are present within this alpine multi-kilometric structure; these consist
of blocks of a different hierarchical order, rotated and bordered by
faults trending NNW that provide the structural vertical closure. The
petroleum system is wholly developed inside a Triassic depositional
sequence: two reservoirs, made of dolomitized carbonate platforms rocks
(Monte San Giorgio Dolomite [Anisian]; Dolomia Principale, Campo dei
Fiori Dolomite and Conchodon Dolomite [Norian-Rhaetian]) and the source
rock deposited in an anoxic intra-platform basins. The hydrocarbons were
produced from Middle Triassic source rock formations (Besano Shales and
Meride Limestone) which lie inside the Villafortuna-Trecate structure.
The Source Potential Index of the Middle Triassic source rock series is
calculated in about 4 t HC/m3.
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New Plays in the External Part of the Northern-Apennines Chain
The
Mesozoic carbonate foreland units at the northern Apennine margin of the
Po Valley have not been investigated until now. The hydrocarbon
potential and the exploratory risk of the area were recently revaluated.
The new interpretation, based first on a detailed structural analysis,
highlights the presence of wide compressional structures at the southern
margin of the Po Valley foreland (Ripalta deep and Asti nord plays --Figure
1).
Both
structures are located below the more external structural domains of the
Northern Appennines. They consist of a multi-kilometric North-verging
structures involving the foreland carbonate succession. The deformation
geometries are characterised by thrusting of the inner part of the belt
on a parautochthonous foreland (Figure 2).
They are ramp anticlines with short forelimbs, flat crestal domains and
long backlimbs. The consistency of the geological interpretations was
tested by balancing and restoring representative sections obtained from
depth converted regional seismic profiles. The kinematic reconstruction
of the geological evolution provided the deformation and the source rock
burial history from the Mesozoic tectonic setting to the present-day
arrangement and allowed us to perform hydrocarbon-generation modelling.
The comparison between the tectonic and hydrocarbon
generation history permitted us to establish that these structures are
related to Messinian-Lower Pliocene tectonic events and that they
precede the age of hydrocarbon generation and expulsion from the source
rocks present in the drainage area.
The Asti
nord play (Figures 1 and
2 [section B-B’]) could have a
petroleum system similar to Villafortuna-Trecate and could drain a
portion of the hydrocarbons produced in the regional synclines
interposed between these structures and Villafortuna-Trecate fields.
The
Ripalta deep play (Figures 1 and
3) is located in the central Po valley
just south of Malossa field, and due to the N-S trend of the Mesozoic
feature the petroleum system is expected to be similar to the Malossa
system.
Bertotti, G., Picotti, V.,
Bernoulli, D., and Castellarin, A., 1993, From rifting to drifting:
tectonic evolution of the Southalpine upper crust from the Triassic to
the Early Cretaceous: Sedimentary Geology, v.86, no. 1/2, p. 53-76.
Bongiorni, D., 1987, La ricerca di
idrocarburi negli alti strutturali mesozoici della Pianura padana:
l’esempio di Gaggiano: Atti Tic. S. Terra, v. 31, p. 125-141.
Cassano, E., Anelli, L., Fichera,
R., and Cappelli, V., 1986, Pianura Padana. Interpretazione integrata di
dati geofisici e geologici: 73° Congr. Soc. Geol. It., 29 sett-4 ott.
1986, Roma, 27.
Errico, G., Groppi, G., Savelli,
S., and Vaghi, G.C., 1979, Malossa Field, deep discovery in Po Valley,
in Giant Oil and Gas Field of the decade 1968-1978, A.A.P.G. Mem.
30, p. 525-538.
Mattavelli, L., and Novelli, L.,
1987, Origin of Po Basin hydrocarbons: Memoires Societé Geologique de
France, v. 151, p. 97-106.
Mattavelli, L., and Margarucci,
V., 1992, Malossa Field – Italy, Po Basin, p. 119-137.
Novelli, L., Chiaramonte, M.A.,
Mattavelli, L., Pizzi, G., Sartori, L., and Scotti, P., 1987, Oil
habitat in the north western Po Basin, in Doligez B. (ed.),
Migration of Hydrocarbons in Sedimentary Basins, p. 27-57.
Pieri, M., and Groppi, G., 1981,
Subsurface geological structure of the Po Plain, Italy: Prog.
Finalizzato Geodinamica C.N.R., Publ. 414.
Ronchi, P., and Ricchiuto, T.,
2000, Relationships between diagenesis and porosity in Norian-Hettangian
carbonate platforms (Subsurface, Po Valley, Italy): EAGE Conference
Malta, 1-4 October 2000, Extended Abstracts Book, v. 4.
Sarti, M., Bosellini, A.,
and Winterer, E.L., 1993, Basin geometry and architecture of a Tethyan
passive margin (Southern Alps, Italy): implications for rifting
mechanisms, in
J.S.Watkins et al. (eds.), Geology and Geophysics of continental
margins: A.A.P.G.Mem., 53, p. 241– 258.
Schlumberger, ed., 1987, Gaggiano,
in Well evaluation conference, Italia 87, v. 1, p. 49-52.
Vaghi, G.C.,
Torricelli, L., Pulga, M., Giacca, D., Chierici, G.L., and Bilgeri, D.,
1979, Production in the very deep Malossa Field, Ital: 10th World
Petroleum Congress, Bucarest.
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