17 research outputs found
A Rossby whistle: a resonant basin mode observed in the Caribbean Sea
We show that an important source of coastal sea level variability around the Caribbean Sea is a resonant basin mode. The mode consists of a baroclinic Rossby wave which propagates westward across the basin and is rapidly returned to the east along the southern boundary as coastal shelf waves. Almost two wavelengths of the Rossby wave fit across the basin, and it has a period of 120 days. The porous boundary of the Caribbean Sea results in this mode exciting a mass exchange with the wider ocean, leading to a dominant mode of bottom pressure variability which is almost uniform over the Grenada, Venezuela, and Colombia basins and has a sharp spectral peak at 120 day period. As the Rossby waves have been shown to be excited by instability of the Caribbean Current, this resonant mode is dynamically equivalent to the operation of a whistle
The effect of Mediterranean exchange flow on European time mean sea level
Using a suite of ocean model simulations and a set of dedicated twin experiments, we show that the exchange flow between the Mediterranean and the North Atlantic leads to a drop in time mean European coastal sea level along the Atlantic coast north of Gibraltar. The drop is about 7 cm along the Portuguese coast and remains apparent (though reduced) as far north as the Norwegian coast. We also show that Mediterranean time and spatial mean sea level is about 9 cm lower than it would be without the exchange flow (but assuming a small supply from the Atlantic to balance evaporation). Each of these relationships makes possible an estimate of the magnitude of the exchange flow based on sea level measurements, and estimates of 0.8 and 0.91 sverdrups are made consistent with previous determinations based mainly on current measurements in the Strait of Gibraltar
South Asian monsoon history over the past 60 kyr recorded by radiogenic isotopes and clay mineral assemblages in the Andaman Sea
The Late Quaternary variability of the South Asian (or Indian) monsoon has been linked with
glacial-interglacial and millennial scale climatic changes but past rainfall intensity in the river catchments
draining into the Andaman Sea remains poorly constrained. Here we use radiogenic Sr, Nd, and Pb isotope
compositions of the detrital clay-size fraction and clay mineral assemblages obtained from sediment core
NGHP Site 17 in the Andaman Sea to reconstruct the variability of the South Asian monsoon during the
past 60 kyr. Over this time interval eNd values changed little, generally oscillating between 27.3 and 25.3
and the Pb isotope signatures are essentially invariable, which is in contrast to a record located further
northeast in the Andaman Sea. This indicates that the source of the detrital clays did not change significantly
during the last glacial and deglaciation suggesting the monsoon was spatially stable. The most likely
source region is the Irrawaddy river catchment including the Indo-Burman Ranges with a possible minor
contribution from the Andaman Islands. High smectite/(illite1chlorite) ratios (up to 14), as well as low
87Sr/86Sr ratios (0.711) for the Holocene period indicate enhanced chemical weathering and a stronger
South Asian monsoon compared to marine oxygen isotope stages 2 and 3. Short, smectite-poor intervals
exhibit markedly radiogenic Sr isotope compositions and document weakening of the South Asian monsoon,
which may have been linked to short-term northern Atlantic climate variability on millennial time
scales
The International Bathymetric Chart of the Southern Ocean (IBCSO) Version 1.0 – A new bathymetric compilation covering circum-Antarctic waters
The International Bathymetric Chart of the Southern Ocean (IBCSO) Version 1.0 is a new digital bathymetric model (DBM) portraying the seafloor of the circum-Antarctic waters south of 60° S. IBCSO is a regional mapping project of the General Bathymetric Chart of the Oceans (GEBCO). IBCSO Version 1.0 DBM has been compiled from all available bathymetric data collectively gathered by more than 30 institutions from 15 countries. These data include multibeam and single beam echo soundings, digitized depths from nautical charts, regional bathymetric gridded compilations, and predicted bathymetry. Specific gridding techniques were applied to compile the DBM from the bathymetric data of different origin, spatial distribution, resolution, and quality. The IBCSO Version 1.0 DBM has a resolution of 500 x 500 m, based on a polar stereographic projection, and is publicly available together with a digital chart for printing from the project website (www.ibcso.org) and at http://dx.doi.org/10.1594/PANGAEA.80573