The Gulf of La Spezia (GLS) in Northwest Italy is a rocky embayment with low fluvial influence facing the Mediterranean Sea. Past landscape dynamics were investigated through a multiproxy, facies-based analysis down to a core depth of 30 m. The integration of quantitative ostracod, foraminifera, and pollen analyses, supported by radiocarbon ages, proved to be a powerful tool to unravel the late Quaternary palaeoenvironmental evolution and its forcing factors. The complex interplay between relative sea-level (RSL), climatic changes, and geomorphological features of the embayment drove four main evolution phases. A barrier-lagoon system developed in response to the rising RSL of the Late Pleistocene (likely the Last Interglacial). The establishment of glacial conditions then promoted the development of an alluvial environment, with generalised erosion of the underlying succession and subsequent accumulation of fluvial strata. The Holocene transgression (dated ca. 9000 cal year BP) caused GLS inundation and the formation of a low-confined lagoon basin, which rapidly turned into a coastal bay from ca. 8000 cal year BP onwards. This latter environmental change occurred in response to the last Holocene stage of global sea-level acceleration, which submerged a morphological relief currently forming a drowned barrier-island complex in the embayment.

Rossi V., Amorosi A., Marchesini M., Marvelli S., Cocchianella A., Lorenzini L., et al. (2021). Late quaternary landscape dynamics at the la Spezia gulf (NW Italy): A multi-proxy approach reveals environmental variability within a rocky embayment. WATER, 13, 427-448 [10.3390/w13040427].

Late quaternary landscape dynamics at the la Spezia gulf (NW Italy): A multi-proxy approach reveals environmental variability within a rocky embayment

Rossi V.
;
Amorosi A.;
2021

Abstract

The Gulf of La Spezia (GLS) in Northwest Italy is a rocky embayment with low fluvial influence facing the Mediterranean Sea. Past landscape dynamics were investigated through a multiproxy, facies-based analysis down to a core depth of 30 m. The integration of quantitative ostracod, foraminifera, and pollen analyses, supported by radiocarbon ages, proved to be a powerful tool to unravel the late Quaternary palaeoenvironmental evolution and its forcing factors. The complex interplay between relative sea-level (RSL), climatic changes, and geomorphological features of the embayment drove four main evolution phases. A barrier-lagoon system developed in response to the rising RSL of the Late Pleistocene (likely the Last Interglacial). The establishment of glacial conditions then promoted the development of an alluvial environment, with generalised erosion of the underlying succession and subsequent accumulation of fluvial strata. The Holocene transgression (dated ca. 9000 cal year BP) caused GLS inundation and the formation of a low-confined lagoon basin, which rapidly turned into a coastal bay from ca. 8000 cal year BP onwards. This latter environmental change occurred in response to the last Holocene stage of global sea-level acceleration, which submerged a morphological relief currently forming a drowned barrier-island complex in the embayment.
2021
Rossi V., Amorosi A., Marchesini M., Marvelli S., Cocchianella A., Lorenzini L., et al. (2021). Late quaternary landscape dynamics at the la Spezia gulf (NW Italy): A multi-proxy approach reveals environmental variability within a rocky embayment. WATER, 13, 427-448 [10.3390/w13040427].
Rossi V.; Amorosi A.; Marchesini M.; Marvelli S.; Cocchianella A.; Lorenzini L.; Trigona S.L.; Valle G.; Bini M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/858800
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