The Parametric Array and Long -
Range Ocean Research — Igor Esipov, Konstantin Naugolnykh, and Vladimir Timoshenko
Not exact matches
Sunke Schmidtko of the Helmholtz Centre for
Ocean Research in Kiel, Germany, and his team combined a
range of data sets on seawater properties at different locations and depths, going back to 1975.
Nearly two years to the day after the Deepwater Horizon incident, scientists from the Consortium for Advanced
Research on Transport of Hydrocarbon in the Environment (CARTHE), based at the University of Miami (UM) Rosenstiel School of Marine and Atmospheric Science, conducted a drifter experiment in the northern Gulf of Mexico spill site to study small - scale
ocean currents
ranging from 100 meters to 100 kilometers.
The
research published in the journal Science Advances predicts that as the
oceans warm fish — which appear to be superior predators in warm water — will extend their
ranges away from the equator and cause a decline in the diversity of invertebrates such as crabs, lobsters, sea urchins and whelks.
He joined the Vancouver Aquarium in 2014 to launch its
Ocean Pollution
Research Program, which conducts international - caliber scientific research on pollution, ranging from marine debris to the impact of hydrocarbons on the coastal enviro
Research Program, which conducts international - caliber scientific
research on pollution, ranging from marine debris to the impact of hydrocarbons on the coastal enviro
research on pollution,
ranging from marine debris to the impact of hydrocarbons on the coastal environmental.
Field
research on marine mammals is one of the most challenging of biological studies, primarily because scientists are often unable to follow
ocean - going species such as whales across their full
range; the humpback whale in particular undertakes some of the longest migratory movements of any mammal.
Using data generated from more than 3,000 skin samples from individual whales
ranging from the South Atlantic to the Indian
Oceans, the
research team has uncovered previously unknown degrees of relatedness between different whale populations.
More than 250 members of 20 German
research institutes, representing a broad range of marine science disciplines, participated in the project coordinated by GEOMAR Helmholtz Centre for Ocean Resear
research institutes, representing a broad
range of marine science disciplines, participated in the project coordinated by GEOMAR Helmholtz Centre for
Ocean ResearchResearch Kiel.
Previous
research has shown that global warming will cause changes in
ocean temperatures, sea ice extent, salinity, and oxygen levels, among other impacts, that are likely to lead to significant shifts in the distribution
range and productivity of marine species, the study notes.
Previous
research has shown that global warming will cause changes in
ocean temperatures, sea ice extent, salinity, and oxygen levels, among other impacts, that are likely to lead to shifts in the
range and productivity of marine species.
Based on the results of
researches and scientific studies, the climatic rise in the world's temperature, the sea level rise and coastal flooding, abnormal weather patterns, unusually warm weather heat waves,
ocean warming, devastating typhoons and tornadoes, El Niño and la Niña, heavy snowfalls in many parts of the world, increased
ranges of pests, drought and fires, and loss of biodiversity are the life - threatening results of climate change.
The
research team, including the authors of the study, Peter Davison and Rebecca Asch, traveled across hundreds of miles of the North Pacific
ocean gyre, collecting fish specimens, water samples and marine debris at depths
ranging from the surface to thousands of feet under.
To better understand these discrepancies, a recent study published in Geophysical
Research Letters investigates the drivers of changes in deep
ocean circulation across a
range of modern and Last Glacial Maximum (LGM, ~ 21000 years ago) climate simulations from the latest Paleoclimate Modelling Intercomparison Project (PMIP).
Its scientists conduct basic
research on a wide
range of large - scale environmental issues, including climate change,
ocean acidification, biological invasions, and changes in biodiversity.
The AMF2 was deployed on a
research vessel offshore and provided critical measurements to quantify the moisture budget and cloud and precipitation processes associated with ARs and to characterize aerosols and aerosol - cloud - precipitation interactions associated with aerosols from long -
range transport in the Pacific
Ocean.
«This is the first time that scientific
research has linked the full
range of these fish species, some of which stretch from the Andes to the Amazon River estuary abutting the Atlantic
Ocean,» says lead author Ronaldo Barthem of Museu Paraense Emilio Goeldi of Brazil.