Mid-Eocene giant slope failure (sedimentary mélanges) in the Ligurian accretionary wedge (NW Italy) and relationships with tectonics, global climate change and the dissociation of gas hydrates
Por um escritor misterioso
Descrição
Longitude versus porosity and uniaxial compressive strength. The
Comparative Analysis of the Sedimentary Cover Units of the Jurassic Western Tethys Ophiolites in the Northern Apennines and Western Alps (Italy): Processes of the Formation of Mass-Transport and Chaotic Deposits during Seafloor
Polygenetic mélanges: a glimpse on tectonic, sedimentary and diapiric recycling in convergent margins
a) Stratigraphic range of selected taxa from the Late Cretaceous
Basal shear zones of recurrent mass transport deposits serve as potential reservoirs for gas hydrates in the Central Canyon area, South China Sea - ScienceDirect
Recycling of heterogeneous material in the subduction factory: evidence from the sedimentary mélange of the Internal Ligurian Units, Italy
Polygenetic mélanges: a glimpse on tectonic, sedimentary and diapiric recycling in convergent margins
Mid-Eocene giant slope failure (sedimentary mélanges) in the Ligurian accretionary wedge (NW Italy) and relationships with tectonics, global climate change and the dissociation of gas hydrates
Mid-Eocene giant slope failure (sedimentary mélanges) in the Ligurian accretionary wedge (NW Italy) and relationships with tectonics, global climate change and the dissociation of gas hydrates
Formation of ophiolite-bearing tectono-sedimentary mélanges in accretionary wedges by gravity driven submarine erosion: Insights from analogue models and case studies - ScienceDirect
Geosciences, Free Full-Text
Mélanges and chaotic rock units: Implications for exhumed subduction complexes and orogenic belts - ScienceDirect
PDF] Structural anatomy of the Ligurian accretionary wedge (Monferrato, NW Italy), and evolution of superposed mélanges
