Spectral analysis of both shipborne and airborne magnetic maps of the southern Tyrrhenian Sea reveals seven subparallel positive-negative magnetic anomaly stripes over the flat-lying deep floor of the Marsili oceanic basin. This represents the first evidence of oceanic magnetic anomalies in the Tyrrhenian Sea. The central positive stripe is along the Marsili seamount, a superinflated spreading ridge located at the basin axis. The stratigraphy of Ocean Drilling Program Site 650 and K/Ar ages from the Marsili seamount suggest that the Marsili Basin opened at the remarkable full-spreading rate of 19 cm/ yr between ca. 1.6 and 2.1 Ma about the Olduvai subchron. This is the highest spreading rate ever documented, including that observed at the ...
Marsili is a back-arc volcano with a dominant tholeitic petrochemical affinity. This seamount, havi...
The Marsili Seamount is the largest European underwater volcano. It is Plio-Pleistocenic in age, ris...
Hydrothermal alteration may weaken volcanic rocks, causing the gravitational instability of portions...
Spectral analysis of both shipborne and airborne magnetic maps of the southern Tyrrhenian Sea revea...
Inversion of new high-resolution magnetic data from the Marsili volcanic seamount and the surroundin...
Inversion of new high-resolution magnetic data from the Marsili seamount and the surrounding basin i...
Marsili Seamount (b1 Ma; Southern Tyrrhenian Sea, Italy) is classically interpreted as the spreading...
The formation and growth mechanisms of Mid-Ocean Ridges (MOR) are relatively well known, whereas tho...
We analyse the pattern of magnetic anomalies in the Tyrrhenian back-arc basin by a simple and object...
The volcanism of back-arc basins resembles that of oceanic spreading centers, rifts, and, in vanishi...
The Marsili Seamount (MS) is an about 3200m high volcanic complex measuring 70×30km with the top at ...
The Marsili submarine volcano is the largest European volcano, and it can be considered as the key t...
The Tyrrhenian Sea is a Miocene to Present back-arc basin developed in the upper plate of the Ionian...
Hydrothermal alteration may weaken volcanic rocks, causing the gravitational instability of portions...
Marsili and Palinuro volcanoes are the biggest seamounts of the Tyrrhenian Sea. They are interprete...
Marsili is a back-arc volcano with a dominant tholeitic petrochemical affinity. This seamount, havi...
The Marsili Seamount is the largest European underwater volcano. It is Plio-Pleistocenic in age, ris...
Hydrothermal alteration may weaken volcanic rocks, causing the gravitational instability of portions...
Spectral analysis of both shipborne and airborne magnetic maps of the southern Tyrrhenian Sea revea...
Inversion of new high-resolution magnetic data from the Marsili volcanic seamount and the surroundin...
Inversion of new high-resolution magnetic data from the Marsili seamount and the surrounding basin i...
Marsili Seamount (b1 Ma; Southern Tyrrhenian Sea, Italy) is classically interpreted as the spreading...
The formation and growth mechanisms of Mid-Ocean Ridges (MOR) are relatively well known, whereas tho...
We analyse the pattern of magnetic anomalies in the Tyrrhenian back-arc basin by a simple and object...
The volcanism of back-arc basins resembles that of oceanic spreading centers, rifts, and, in vanishi...
The Marsili Seamount (MS) is an about 3200m high volcanic complex measuring 70×30km with the top at ...
The Marsili submarine volcano is the largest European volcano, and it can be considered as the key t...
The Tyrrhenian Sea is a Miocene to Present back-arc basin developed in the upper plate of the Ionian...
Hydrothermal alteration may weaken volcanic rocks, causing the gravitational instability of portions...
Marsili and Palinuro volcanoes are the biggest seamounts of the Tyrrhenian Sea. They are interprete...
Marsili is a back-arc volcano with a dominant tholeitic petrochemical affinity. This seamount, havi...
The Marsili Seamount is the largest European underwater volcano. It is Plio-Pleistocenic in age, ris...
Hydrothermal alteration may weaken volcanic rocks, causing the gravitational instability of portions...