Top View
- Moytirra: Discovery of the First Known Deep‐Sea Hydrothermal Vent Field
- Hydrothermal Vents and Cold Seeps
- The Value of the Deep Sea and Its Resources
- Formulation of the Undertow Using Linear Wave Theory
- Recent Sea Level Change in the Black Sea from Satellite Altimetry and Tide Gauge Observations
- Diversity at Deep-Sea Hydrothermal Vent and Intertidal Mussel Beds
- Deep-Sea Hydrothermal Vent Fauna: Evolution, Dispersal, Succession and Biogeography Alexander Howe Macalester College
- 3. Deep-Sea Ecosystems: Pristine Biodiversity Reservoir and Technological Challenges
- Deep-Sea Research Part II: Topical Studies in Oceanography 2018 DOI
- Driven Setdown and Setup
- Internal Tides
- Characteristics and Dynamics of Wind-Driven Upwelling in the Alaskan Beaufort Sea Based on Six Years of Mooring Data ⁎ Peigen Lina,B, , Robert S
- Community Study of Tubeworm-Associated Epizooic Meiobenthos from Deep-Sea Cold Seeps and Hot Vents
- Deep-Sea Mining: an Introduction
- Light in the Deep Sea.NGSS
- Rip Current Review
- Cold Seeps of the Deep Gulf of Mexico: Community Structure and Biogeographic Comparisons to Atlantic Equatorial Belt Seep Communities
- Strong Tidal Currents Observed Near the Bottom in the Suruga Trough, Central Japan
- Deep-Sea Hydrothermal Vents: Potential Hot Spots for Natural Products Discovery?⊥
- Deep Sea Sediments Associated with Cold Seeps Are a Subsurface Reservoir of Viral Diversity
- The Mediterranean Deep-Sea Ecosystems
- The Growth of Oceanography 1
- Marine Biological Research and Possible Application
- Ocean Exploration
- 2.4 Evidence for Ocean Deoxygenation and Its Patterns: Eastern Boundary Upwelling Systems Francis Chan
- A Numerical Study on Seasonal Variations of the Thermocline in the South China Sea Based on the ROMS
- Connections Between Ocean Bottom Topography and Earth's Climate
- Deep-Sea Life Issue 12, December 2018 Cruise News Tasmanian Seamounts: Have Deep-Sea Corals Recovered?
- Deep-Sea Hydrothermal Vent Communities C
- DEEP SEA CORALS: out of Sight, but No Longer out of Mind “At Fifteen Fathoms Depth
- Marine Cold Seeps and Their Manifestations: Geological Control, Biogeochemical Criteria and Environmental Conditions
- An Artificial Upwelling Driven by Salinity Differences in the Ocean
- Deep Sea Tide and Current Observations in the Gulf of Alaska and Northeast Pacific
- 1 Basic Hydrodynamic Processes in the Coastal
- Deep Sea Life: on the Edge of the Abyss
- The Deep Atlantic Ocean
- Sea Level Change: Lessons from the Geologic Record
- Deep-Sea Life 17, July 2021
- Interesting Facts on Ecosystems, the Abyssal Zone, and Hydrothermal Vents (Supplement to Become a Researcher Activity)
- A Separating Coastal Upwelling Jet at Cape Blanco, Oregon and Its Connection to the California Current System John A
- Large-Scale Mode Impacts on the Sea Level Over the Red Sea and Gulf of Aden
- Deep-Sea Mining on Hydrothermal Vents Threatens Biodiversity Protections Could Safeguard Ecosystems That Lie Beyond National Jurisdiction
- Deep-Sea Mining FAQ
- 33. the Post-Jurassic Sedimentary Sequence on the Pacific Plate
- Ocean Systems
- Chapter 36F. Open Ocean Deep Sea
- Deep-Sea Biodiversity and Biogeography: Insights from the Abyss
- Inspection-Class Remotely Operated Vehicles—A Review
- Evolution of the Arabian Sea Upwelling from the Last Millennium to the Future As Simulated by Earth System Models
- Insight Into the Microbial Ecosystem in the Deepest Ocean on Earth
- Effect of Mesoscale Eddy on Thermocline Depth
- Deep-Sea Sediments of the Global Ocean
- Deep-Sea Litter Study Using Deep-Sea Observation Tools
- Monsters of the Deep [Adapted from the 2002 Gulf of Mexico Expedition]
- Observations and a Model of Undertow Over the Inner Continental Shelf Steven J
- The Heterogeneous Abyss COMMENTARY Craig R
- Reconstructing the Depth of the Permanent Thermocline Through the Morphology and Geochemistry of the Deep Dwelling Planktonic Fo