368 research outputs found
Stratigrafia ed assetto geometrico dell’Unità del Sannio nel settore settentrionale dei monti del Matese
New stratigraphic and biostratigraphic data arising from the
realization of the Sheet No. 405 "Campobasso" of the new Geological
map of Italy (1:50.000 scale - CARG Project) allowed, for the first time
in this area, to stratigraphically and cartographically define all the ranges
composing the basinal Sannio Unit Auct.. Structural analysis and the
chronostratigraphic redefinition of siliciclastic deposits covering the
Sannio Unit and the carbonate platform successions of the Matese-
Frosolone Units, indicate two main evolutionary stages in the Miocene-
Pliocene structuring of this portion of the Southern Apennines. In the
first stage, starting before Serravallian times, E-verging contraction
affected exclusively the basinal units together with their siliciclastic
cover. During the second stage, beginning after early Messinian times,
NE-verging compression involved both the basinal Sannio Unit and the
Matese-Frosolone Units.UnpublishedISPRA - Roma, Italy2.2. Laboratorio di paleomagnetismorestricte
Integrated stratigraphic reconstruction for the last 80 kyr in a deep sector of the Sardinia Channel (Western Mediterranean)
A quantitative analysis of planktonic foraminifera, coupled with petrophysical and paleomagnetic measurements and 14C AMS calibrations, was carried out on a deep core recovered in the Sardinia Channel (Western Mediterranean Sea), during the CIESM Sub2 survey, providing an integrated stratigraphic time-framework over the last 80 kyr. Significant changes in the quantitative distribution of planktonic foraminifera allowed the identification of several eco-bioevents useful to accurately mark the boundaries of the eco-biozones widely recognised in the Western Mediterranean records and used for large scale correlations. Namely, 10 eco-biozones were identified based on the relative abundance of selected climate sensitive planktonic foraminiferal species. Sixteen codified eco-bioevents were correlated with the Alboran Sea planktonic foraminiferal data and four climatic global events (Sapropel S1, Younger Dryas, Greenland Isotope Interstadial 1, Greenland Isotope Stadial 2, Heinrich event H1-H6) were recognized. The eco-bioevents together with the 14C AMS calibrations allowed us to define an accurate age model, spanning between 2 and 83 kyr. The reliability of the age model was confirmed by comparing the colour reflectance (550 nm%) data of the studied record with the astronomically tuned record from the Ionian sea (ODP-Site 964). A mean sedimentation rate of about 7 cm/kyr included three turbidite event beds that were chronologically constrained within the relative low stand and lowering sea level phases of the MIS 4 and 3. The deep-sea sedimentary record includes a distinct tephra occurring at the base of the core which dates 78 ka cal. BP. The paleomagnetic data provide a well-defined record of the characteristic remanent magnetization that may be used to reconstruct the geomagnetic paleosecular variation for the Mediterranean back to 83 kyr
Holocene hydrography evolution in the Alboran Sea: a multi-record and multi-proxy comparison
A new high-resolution deglacial and Holocene sea surface temperature (SST)
reconstruction is presented for the Alboran Sea (western Mediterranean),
based on Mg∕Ca ratios measured in the planktonic foraminifera Globigerina bulloides. This new
record is evaluated by comparison with other Mg∕Ca SST records and
previously published alkenone SST reconstructions from the same region for
both the Holocene and glacial periods. In all cases there is a high degree
of coherence between the different Mg∕Ca SST records but strong
discrepancies when compared to the alkenone SST records. We argue that
these discrepancies are due to differences in the proxy response during
deglaciation which we hypothesize to reflect a resilience strategy of G. bulloides,
changing its main growth season, and consequently Mg∕Ca records a shorter
deglacial warming than alkenones. In contrast, short-term Holocene SST
variability is larger in the Mg∕Ca SST than in the alkenone SST records.
We propose that the larger Mg∕Ca SST variability is a result of spring
temperatures variability, while the smoothed alkenone SST variability
represents averaged annual temperatures. The Mg∕Ca SST record
differentiates the Holocene into three periods: (1) the warmest SST values
occurred during the Early Holocene (11.7–9 cal. kyr BP), (2) a continuous
cooling trend occurred during the Middle Holocene that culminated in the
coldest Holocene SST having a double cold peak structure centred at around
4.2 cal. kyr BP, and (3) the Late Holocene (4.2 cal. kyr BP to present) did not follow any
clear cooling/warming trend although millennial-scale oscillations were
enhanced. This SST evolution is discussed in the context of the changing
properties in the Atlantic inflow water associated with North Atlantic
circulation conditions and also with local hydrographical and atmospheric
changes. We propose that a tight link between North Atlantic circulation
patterns and the inflow of surface waters into the Mediterranean played a
major role in controlling Holocene climatic variability of this region.</p
Integrated stratigraphic reconstruction for the last 80 kyr in a deep sector of the Sardinia Channel (Western Mediterranean)
A quantitative analysis of planktonic foraminifera, coupled with petrophysical and paleomagnetic measurements and 14C AMS calibrations, was carried out on a deep core recovered in the Sardinia Channel (Western Mediterranean Sea), during the CIESM Sub2 survey, providing an integrated stratigraphic time-framework over the last 80 kyr. Significant changes in the quantitative distribution of planktonic foraminifera allowed the identification of several eco-bioevents useful to accurately mark the boundaries of the eco-biozones
widely recognised in the Western Mediterranean records and used for large scale correlations. Namely, 10 eco-biozones were identified based on the relative abundance of selected climate sensitive planktonic foraminiferal species. Sixteen codified eco-bioevents were correlated with the Alboran Sea planktonic foraminiferal data and four climatic global events (Sapropel S1, Younger Dryas, Greenland Isotope Interstadial 1, Greenland Isotope Stadial 2, Heinrich event H1-H6) were recognized. The eco-bioevents together with the 14C AMS calibrations concurred to define an accurate age model, spanning between 2 and 83 kyr cal. BP. The reliability of the age model was confirmed by comparing the colour reflectance (550 nm%) data of the studied record with the astronomically tuned one of the Ionian sea (ODP-Site 964). A mean sedimentation rate of about 7 cm/kyr was evaluated including three turbidite event beds that were chronologically constrained within the relative low stand and lowering sea level phases of the MIS 4 and MIS 3. The deep sea sedimentary record includes a distinct tephra occurring at the base of the core which dates 79 ka. The paleomagnetic data provide a well-defined record of the characteristic remanent magnetization that may be used to reconstruct the geomagnetic paleosecular variation for the Mediterranean back to 83 kyr cal. BP
Integrated stratigraphy for the Late Quaternary in the eastern Tyrrhenian Sea
A high-resolution integrated stratigraphy is presented for the Late Quaternary in the southern-eastern Tyrrhenian Sea. It is based on calcareous plankton taxa (planktonic foraminifera and nannoplankton) distribution, d18OGlobigerinoides ruber record, tephrostratigraphy and radiometric dating methods (210Pb and 137Cs, AMS 14C) for a composite sediment core (from the top to the bottom, C90-1m, C90 and C836) from
the continental shelf of the Salerno Gulf. High sedimentation rates from ca 1 cm/100 y for the early Holocene, to 3.45 cm/100 y for the middle Holocene to 8.78 cm/100 y from late Holocene and to 20 cm/100 y for the last 600 AD, make this area an ideal marine archive of secular paleoclimate changes.
Quantitative distributional trend in planktonic foraminifera identify seven known (1Fe7F) eco-biozones, and several auxiliary bioevents of high potential for Mediterranean biostratigraphic correlation. Recognised
were: the acme distribution of Neogloboquadrina pachyderma r.c. between 10.800 0.400 ka BP and 5.500 0.347 ka BP, a strong increase in abundance of Globorotalia truncatulinoides r.c. and l.c. at 5.500 0.347 ka BP and at 4.571 0.96 ka BP, respectively, an acme interval of Globigerinoides quadrilobatus
(between 3.702 0.048 ka BP and 2.70 0.048 ka BP) and the acme/paracme intervals of
T. quinqueloba (acme between 3.350 0.054 ka BP and 1.492 0.016 ka BP; paracme between
1.492 0.016 ka BP and 0.657 0.025 ka BP; acme beginning 0.657 0.025 ka BP).
These results, integrated with trends of selected calcareous nannofossil species (Florisphaera profunda, Brarudosphaera bigelowii, Gephyrocapsa oceanica and Emiliania huxleyi) and d18OG. ruber signature, are consistent with the most important pre-Holocene and early Holocene paleoclimatic and paleoceanographic phases i.e., the BöllingeAllerod, the Younger Dryas and the time interval of Sapropel S1 deposition in the eastern Mediterranean Sea. These features revealed the high potential of this shallow water environment for high-resolution stratigraphy and correlation for the western Mediterranean.
In addition, the chemical characterization of seven tephra layers supplied further data about the age and the dispersal area of some well-known Campi Flegrei explosive events, inferring the possible occurrence of explosive activity at Vesuvius around the middle of the 6th century, and contributing to refine the tephrostratigraphic framework for the last 15 ka in the south-eastern Tyrrhenian Sea.Published71-852.2. Laboratorio di paleomagnetismoJCR Journalrestricte
Eastern Mediterranean water outflow during the Younger Dryas was twice that of the present day
Eastern Mediterranean deep-intermediate convection was highly sensitive to varying inputs
of fresh water fluxes associated with increased rainfall during the African Humid period (15-6
kyr Before Present). Here we investigate changes in the water-outflow from the Eastern
Mediterranean Sea since the last deglaciation using neodymium isotope ratios. Our results
indicate enhanced outflow during the Younger Dryas, two times higher than present-day
outflow and about three times higher than during the last Sapropel. We propose that the
increased outflow into the western Mediterranean over the Younger Dryas was the result of
the combined effect of 1) enhanced climate-driven convection in the Aegean Sea and 2)
reduced convection of western deep water during this period. Our results provide solid
evidence for an enhanced Younger Dryas westward flow of Eastern Mediterranean sourced
waters in consonance with an intensification of Mediterranean water-outflow during a
weakened state of the Atlantic circulatio
The impact of the Little ice age on coccolithophores in the central Mediterranea Sea
The Little ice age (LIA) is the last episode of a series of Holocene climatic anomalies. There is still little knowledge on the response of the marine environment to the pronounced cooling of the LIA and to the transition towards the 20th century global warming. Here we present decadal-scale coccolithophore data from four short cores recovered from the central Mediterranean Sea (northern Sicily Channel and Tyrrhenian Sea), which on the basis of ²¹⁰Pb activity span the last 200-350 years. The lowermost part of the record of one of the cores from the Sicily Channel, Station 407, which extends down to 1650 AD, is characterized by drastic changes in productivity. Specifically, below 1850 AD, the decrease in abundance of F. profunda and the increase of placoliths, suggest increased productivity. The chronology of this change is related to the main phase of the Little Ice Age, which might have impacted the hydrography of the southern coast of Sicily and promoted vertical mixing in the water column. The comparison with climatic forcings points out the importance of stronger and prolonged northerly winds, together with decreased solar irradiance
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