| Nome |
# |
|
A new classification system for mixed (turbidite-contourite) depositional systems: Examples, conceptual models and diagnostic criteria for modern and ancient records, file 986780db-14ef-46f4-bade-fbb90702388c
|
66
|
|
Morphology and evolution of submarine canyons on the northwest South China Sea margin, file 953179e7-7d45-4d63-81af-aba2ba5d70e1
|
41
|
|
Oceanographic processes and morphosedimentary products along the Iberian margins: A new multidisciplinary approach, file de024c95-431d-4ad9-e053-3a05fe0aa3e3
|
37
|
|
TEMARISK FVG, un progetto di
comunicazione sui rischi naturali del Friuli Venezia Giulia., file a3ddb861-196f-4629-93d0-bf5f03f7d140
|
28
|
|
Controls on the morphology of closely spaced submarine canyons incising the continental slope of the northern South China Sea, file 57ec0ffb-42d8-4fe6-809f-cdefa533cd79
|
23
|
|
Late Quaternary development of the Storfjorden and Kveithola Trough Mouth Fans, northwestern Barents Sea, file de024c95-3e9b-4ad9-e053-3a05fe0aa3e3
|
23
|
|
How do turbidity flows interact with contour currents in unidirectionally migrating deep-water channels?, file 5601e5e7-a6a2-453d-ae4e-ed7a7739e72f
|
22
|
|
Different origins of seafloor undulations in a submarine canyon system, northern South China Sea, based on their seismic character and relative location, file 007984e6-dd65-40a7-b903-d80e34ce18ef
|
21
|
|
Sedimentary records of enhanced deep ventilation during the last deglaciation in the ross sea, Southern Ocean, file 8ad919c3-3d9d-49c1-bf61-c40b616e9a5b
|
21
|
|
The role of sediment gravity flows on the morphological development of a large submarine canyon (Taiwan Canyon), north-east South China Sea, file cdd183a6-7586-45a8-a03b-16d3c1c37de7
|
18
|
|
Role of dense shelf water in the development of Antarctic submarine canyon morphology, file 49a8d5ee-0bd5-420e-9165-828dc8089dc3
|
17
|
|
Data report: Seismic velocity analysis on the continental shelf transect, ODP Leg 178, Antarctic Peninsula, file de024c95-4081-4ad9-e053-3a05fe0aa3e3
|
17
|
|
Exploring the Unknown of the Ross Sea in Sea Ice–Free Conditions, file dcb80968-baef-4892-9ebd-6602d6a3892a
|
16
|
|
Subglacial morphology and glacial evolution of the Palmer Deep outlet system, Antarctic Peninsula, file 8cafaca6-95cd-4743-908c-73a5532ae763
|
15
|
|
Sedimentary model for mixed depositional systems along the Pacific margin of the Antarctic Peninsula: decoding the interplay of deep-water processes, file de024c95-424e-4ad9-e053-3a05fe0aa3e3
|
15
|
|
Morphobathymetric analysis and evidence of submarine mass movements in the western Gulf of Taranto (Calabria margin, Ionian Sea), file 1e1e5e35-8f6f-4771-8e39-3cb6e7992039
|
14
|
|
Bottom current-controlled Quaternary sedimentation at the foot of the Malta Escarpment (Ionian Basin, Mediterranean), file b0832f13-b5c2-48b1-b1bf-84bad4e8081b
|
14
|
|
Reply to the comment on “A new classification system for mixed (turbidite-contourite) depositional systems: Examples, conceptual models and diagnostic criteria for modern and ancient records” by Sara Rodrigues, F. Javier Hernández-Molina, Marco Fonnesu, Elda Miramontes, Michele Rebesco, D. Calvin Campbell [Earth-Science Reviews (2022), 104030], file 891a5a3e-8b8e-45a4-af89-c907c8eeab0e
|
12
|
|
The carbonate mass transport deposits of the Paleogene Friuli Basin (Italy/Slovenia): Internal anatomy and inferred genetic processes, file cfce288e-bd43-4972-bedb-2ce7ce11f20d
|
12
|
|
Bottom current control on sediment deposition between the Iselin Bank and the Hillary Canyon (Antarctica) since the late Miocene: An integrated seismic-oceanographic approach, file 7b6a0be6-fe08-4530-a64f-67fec0c15514
|
11
|
|
Interaction of processes and importance of contourites: insights from the detailed morphology of sediment Drift 7, Antarctica, file 0384b9d7-771a-4747-82fc-43d7034b937b
|
10
|
|
Geomorphology and development of a high-latitude channel system: the INBIS channel case (NW Barents Sea, Arctic), file 90eb0b5a-ea33-4c10-a204-9a28afa94000
|
10
|
|
Boundary condition of grounding lines prior to collapse, Larsen-B Ice Shelf, Antarctica, file e0c39f78-f4ca-49f7-b023-a91d6dafb477
|
10
|
|
Deglacial to Holocene history of ice-sheet retreat and bottom current strength on the western Barents Sea shelf, file 7075f66f-de10-4bf6-b351-15ebaeeec102
|
9
|
|
Contourites along the iberian continental margins: Conceptual and economic implications, file 7a174270-1fc9-44ef-a38a-4bc97c27125f
|
8
|
|
The effects of biogenic silica on sediment consolidation and slope instability on the Antarctic margin., file de024c95-44ea-4ad9-e053-3a05fe0aa3e3
|
8
|
|
Simulated last deglaciation of the Barents Sea Ice Sheet primarily driven by oceanic conditions, file eaa0bf0b-424c-411f-9023-b7f24119099c
|
8
|
|
Estimation of biogenic silica contents in marine sediments using seismic and well log data: Sediment Drift 7, Antarctica, file a34302c6-83e0-477e-8d7e-928b073df073
|
7
|
|
Seabed morphology and shallow sedimentary structure of the Storfjorden and Kveithola trough-mouth fans (North West Barents Sea), file 92f27c58-17df-47d5-9e4c-1ed36686b288
|
6
|
|
Biostratigraphic Characterisation and Quaternary Microfossil Palaeoecology during Glacial-Interglacial Deposition on Sediment Drifts West of the Antarctic Peninsula: Results from SEDANO Project, file de024c95-3fa1-4ad9-e053-3a05fe0aa3e3
|
6
|
|
The International Bathymetric Chart of the Southern Ocean Version 2, file e1365ed7-3c33-4fa2-b201-f86f47027000
|
6
|
|
Fluid flow and pore pressure development throughout the evolution of a trough mouth fan, western Barents Sea, file 28f09a22-4bff-4c47-96f2-bcf68f7a9518
|
5
|
|
Buried iceberg-keel scouring on the southern Spitsbergenbanken, NW Barents Sea, file 4f3ca121-8e0e-4a99-9ad0-dd13032d2958
|
5
|
|
Deglaciation of the western margin of the Barents Sea Ice Sheet - A swath bathymetric and sub-bottom seismic study from the Kveithola Trough, file 8aad86d7-d39b-455e-80dc-3474610a9b4a
|
5
|
|
United Nations Decade of Ocean Science for Sustainable Development (2021 – 2030) - Arctic Action Plan, file c6f7a6ac-d157-459a-9e33-aa814b4c0e48
|
5
|
|
Marine sedimentary record of Meltwater Pulse 1a in the NW Barents Sea continental margin, file de024c95-3e97-4ad9-e053-3a05fe0aa3e3
|
5
|
|
Mass wasting processes in the Western Wilkes Land margin: possible implications for East Antarctic glacial history, file efac6bad-a41d-4764-b0e9-52f9f14f0637
|
5
|
|
Data report: Numerical evaluation of diffuse spectral reflectance data and correlation with core photos, ODP site 1165, wild drift, Cooperation Sea, antarctica, file 23745846-753c-45de-aedb-2e5b680c7a83
|
4
|
|
A refined age calibrated paleosecular variation and relative paleointensity stack for the NW Barents Sea: Implication for geomagnetic field behavior during the Holocene, file 769b94fd-83e3-435c-869b-842ff08dbca1
|
4
|
|
Evolution of a high-latitude sediment drift inside a glacially-carved trough based on high-resolution seismic stratigraphy (Kveithola, NW Barents Sea), file c65d07f7-c709-46de-b1ba-6e4e95a34903
|
4
|
|
Boundary condition of grounding lines prior to collapse, Larsen-B Ice Shelf, Antarctica, file dbb12bda-0b18-4ae4-86f0-f1b288f8acdf
|
4
|
|
The role of deep-water sedimentary processes in shaping a continental margin: The Northwest Atlantic, file de024c95-3e94-4ad9-e053-3a05fe0aa3e3
|
4
|
|
Contourites and associated sediments controlled by deep-water circulation processes: State-of-the-art and future considerations, file de024c95-4141-4ad9-e053-3a05fe0aa3e3
|
4
|
|
Deep Flow Variability Offshore South-West Svalbard (Fram Strait), file 0e22ab23-623e-442c-94f7-de7b276b9f9e
|
3
|
|
Isotopic Records of Ancient Wildfires in C-4 Grasses Preserved in the Sediment of the Ross Sea, Antarctica, file 22520702-e7a2-4446-a6c1-9fb966bf9531
|
3
|
|
Oceanographic processes and products around the Iberian margin: A new multidisciplinary approach [Procesos oceanográficos y sus productos alrededor del margen de Iberia: una nueva aproximación multidisciplinar], file 244a2fd2-7884-4d3e-b016-633bdc78af9a
|
3
|
|
Environmental magnetism of antarctic late pleistocene sediments and interhemispheric correlation of climatic events, file 48ea30e3-8a79-48a0-8e1f-a218dd4c3160
|
3
|
|
The Baiyun Slide Complex, South China Sea: A modern example of slope instability controlling submarine-channel incision on continental slopes, file 87fadb40-68cd-4dad-bd68-09c9d27e30bb
|
3
|
|
Margin architecture reveals the transition to the modern Antarctic ice sheet ca. 3 Ma: Reply, file 8a18cd21-ee39-497b-bd4f-401cb72d38c2
|
3
|
|
A Holocene paleosecular variation record from the north-western Barents Sea continental margin, file acc437cc-10f9-4276-bf6b-af1932a7519a
|
3
|
|
A new multi-proxy investigation of Late Quaternary palaeoenvironments along the north-western Barents Sea (Storfjorden Trough Mouth Fan), file de024c95-444e-4ad9-e053-3a05fe0aa3e3
|
3
|
|
Data report: Physical properties relevant to seismic stratigraphic studies, continental rise Sites 1095, 1096, and 1101, ODP Leg 178, Antarctic Peninsula, file de024c95-45ee-4ad9-e053-3a05fe0aa3e3
|
3
|
|
Sediment properties in submarine mass-transport deposits using seismic and rock-physics off NW Barents Sea, file fbbfaee4-60c1-4923-ac2a-c6bfa5efcdd6
|
3
|
|
Interplay of grounding-line dynamics and sub-shelf melting during retreat of the Bjørnøyrenna Ice Stream, file 0256c795-03c6-443d-9d4c-dc5f6e7fb832
|
2
|
|
One Million Years of Climatic Generated Landslide Events on the Northwestern Barents Sea Continental Margin, file 2f16a48d-b61a-4aed-88e2-e24eb129243e
|
2
|
|
Recognizing key sedimentary facies and their distribution in mixed turbidite–contourite depositional systems: The case of the Pacific margin of the Antarctic Peninsula, file 3d6feaef-8065-4c80-bd2c-5549ae135b8b
|
2
|
|
Glacigenic and glacimarine sedimentation from shelf to trough settings in the NW Barents Sea, file 58f38bb3-da90-4365-b4e2-4a9f35742d63
|
2
|
|
The discovery of the southernmost ultra-high-resolution Holocene paleoclimate sedimentary record in Antarctica, file 7d27ff6a-eb78-4548-bde8-d1e374907c23
|
2
|
|
A mixed turbidite – contourite system related to a major submarine canyon: The Marquês de Pombal Drift (south-west Iberian margin), file 878f64d3-2842-468e-9c9a-2b2ef1938473
|
2
|
|
Sediment Drift and Deep-Sea Channel Systems, Antarctic Peninsula Pacific Margin, file 99d890d5-1a76-448c-8b0e-a05ac2cadcf9
|
2
|
|
Advancements in Understanding Deep-Sea Clastic Sedimentation Processes: a preface, file 9a62bb4f-284f-415e-88ac-8aee9ed9310b
|
2
|
|
Oceanographic processes and products around the Iberian margin: A new multidisciplinary approach, file 9b4e1e7f-c063-4f85-880a-705d7685a2d6
|
2
|
|
Climate-controlled submarine landslides on the Antarctic continental margin, file 9fd1ad97-553a-4742-8bbd-b5837197f184
|
2
|
|
The International Bathymetric Chart of the Arctic Ocean Version 4.0, file bd985507-ff08-4a8a-a7f0-82340e19a729
|
2
|
|
Deglacial to Holocene history of ice-sheet retreat and bottom current strength on the western Barents Sea shelf, file de024c95-431c-4ad9-e053-3a05fe0aa3e3
|
2
|
|
Recent submarine landslides on the continental slope of Storfjorden and Kveithola Trough-Mouth Fans (north west Barents Sea), file de024c95-4492-4ad9-e053-3a05fe0aa3e3
|
2
|
|
Slope instability of glaciated continental margins: Constraints from permeability-compressibility tests and hydrogeological modeling off Storfjorden, NW Barents Sea, file f53c73f8-3e3d-4fa2-a8a8-b3919a7d03b9
|
2
|
|
The International Bathymetric Chart of the Arctic Ocean (IBCAO) Version 3.0, file 1093e1d4-8b21-4b7f-8918-dff98c4e16ab
|
1
|
|
Climate-controlled submarine landslides on the Antarctic continental margin, file 182cb82a-02b5-414f-b7fc-8646d8d8e09f
|
1
|
|
Seismic stratigraphy of Palmer Deep: A fault-bounded late Quaternary sediment trap on the inner continental shelf, Antarctic Peninsula Pacific margin, file 86291e38-51cd-4a94-ab0d-4246ec24657c
|
1
|
|
Paleomagnetism and rock magnetism from sediments along a continental shelf-to-slope transect in the NW Barents Sea: Implications for geomagnetic and depositional changes during the past 15 thousand years, file 8c4c949d-5e51-432d-ad43-2d023aa37b27
|
1
|
|
The International Bathymetric Chart of the Arctic Ocean (IBCAO) Version 3.0, file b1afcc49-1f47-44d4-a594-56432ca834cb
|
1
|
|
Seismic expression of contourites and related deposits: A preface, file bccb9d10-de86-4a53-bdc7-b36664cc7efe
|
1
|
|
New insights in the evolution of Antarctic glaciation from depth conversion of well-log calibrated seismic section of Prydz Bay, file de024c95-3cf0-4ad9-e053-3a05fe0aa3e3
|
1
|
|
The International Bathymetric Chart of the Southern Ocean (IBCSO) Version 1.0-A new bathymetric compilation covering circum-Antarctic waters, file de024c95-3d6f-4ad9-e053-3a05fe0aa3e3
|
1
|
|
Una spedizione italiana in artico nell’Anno Polare Internazionale, file de024c95-3db3-4ad9-e053-3a05fe0aa3e3
|
1
|
|
A giant, submarine creep zone as a precursor of large-scale slope instability offshore the Dongsha Islands (South China Sea), file de024c95-3e95-4ad9-e053-3a05fe0aa3e3
|
1
|
|
Relationship between continental rise development and palaeo-ice sheet dynamics, Northern Antarctic Peninsula Pacific margin, file de024c95-3f0e-4ad9-e053-3a05fe0aa3e3
|
1
|
|
Effects of biogenic silica on sediment compaction and slope stability on the pacific margin of the Antarctic Peninsula, file de024c95-4005-4ad9-e053-3a05fe0aa3e3
|
1
|
|
The Antarctic Peninsula Pacific Margin: modelling flexure and decompaction with constraints from ODP Leg 178 initial results., file de024c95-4006-4ad9-e053-3a05fe0aa3e3
|
1
|
|
Margin architecture reveals the transition to the modern Antarctic ice sheet ca. 3 Ma, file de024c95-40de-4ad9-e053-3a05fe0aa3e3
|
1
|
|
Contourite research: a field in full development, file de024c95-449b-4ad9-e053-3a05fe0aa3e3
|
1
|
|
Mid-late Pleistocene glacimarine sedimentary processes of high-latitude, deep-sea sediment drift (Antarctic Peninsula Pacific Margin), file de024c95-44d2-4ad9-e053-3a05fe0aa3e3
|
1
|
|
Deglacial to Holocene history of ice-sheet retreat and bottom current strength on the western Barents Sea shelf, file de7457e6-5b7f-4aa3-b560-519a582b9f03
|
1
|
|
Postglacial sedimentary processes on the Storfjorden and Kveithola trough mouth fans: Significance of extreme glacimarine sedimentation, file e2867708-7e65-4c93-8cda-f0cbf629cef0
|
1
|
|
Uncovering the footprint of former ice streams off Antarctica, file ea686435-1654-4039-a553-3cdea810229f
|
1
|
| Totale |
662 |