Back to: LMG ADCP page. Laurence M. Gould Shipboard ADCP data

A list of all cruises with links to vector and contour plots of the velocity data are provided below. Selecting "examine data" will access an image map of the cruise track. Vector and contour plots have been made for selected sections of the cruise track, normally the southbound and northbound Drake Passage crossings, with other tracks dependent on the particular cruise.

Acknowledgments

The collection, processing and dissemination of these data was carried out by the Chereskin Lab at Scripps Institution of Oceanography, UCSD with support from the National Science Foundation Office of Polar Programs grant nos. OPP-9816226, ANT-0338103, ANT-0838750, PLR-1341431, PLR-1542902, and OPP-2001646. Eric Firing and Jules Hummon at the University of Hawaii provide critical support for the data acquisition and processing of these ADCP data through the development and maintenance of the UHDAS and CODAS software.

LMG cruises in 2018

lg1801 nb150 os38nb Dec 30 - Feb 12; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1802 nb150 os38nb Feb 16 - Mar 21; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1803 nb150 os38nb Mar 24 - Apr 09; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1804 nb150 os38nb Apr 13 - May 15; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1805 nb150 os38nb May 19 - Jun 19; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1806 Jun 23 - Jul 26; Open Period, Punta Arenas, Chile
lg1807 Jul 27 - Sep 25; Open Period, Punta Arenas, Chile
lg1808 nb150 os38nb Oct 02 - Oct 17; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1809 nb150 os38nb Oct 21 - Nov 03; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1810 nb150 os38nb Nov 07 - Dec 02; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile
lg1811 nb150 os38nb Dec 07 - Dec 20; Punta Arenas, Chile - Palmer Station, Antarctica - Punta Arenas, Chile



	lg1801_nb150 Long-Term Ecological Research (LTER) on the Antarctic Marine Ecosystem : To document/understand the phenology and variability in sea ice dynamics, primary production, zooplankton ecology, Adelie penguin demography, microbial and biogeochemical processes in the Antarctic marine ecosystem. Jan 2018 - Feb 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1801_os38nb Long-Term Ecological Research (LTER) on the Antarctic Marine Ecosystem : To document/understand the phenology and variability in sea ice dynamics, primary production, zooplankton ecology, Adelie penguin demography, microbial and biogeochemical processes in the Antarctic marine ecosystem. Jan 2018 - Feb 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1802_nb150 New constraints on post glacial rebound and Holocene environmental history along the northern Antarctic Peninsula from raised beaches. Foraging behavior and ecological role of the least studied Antarctic krill predator, the Antarctic minke whale. Feb 2018 - Mar 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1802_os38nb New constraints on post glacial rebound and Holocene environmental history along the northern Antarctic Peninsula from raised beaches. Foraging behavior and ecological role of the least studied Antarctic krill predator, the Antarctic minke whale. Feb 2018 - Mar 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1803_nb150 Palmer Station Turnover Mar 2018 - Apr 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1803_os38nb Palmer Station Turnover Mar 2018 - Apr 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1804_nb150 To understand the molecular and physiological capacities of Antarctic notothenioid fishes to acclimatize and/or adapt to rapid oceanic warming. Investigate the ability of the leopard seal, an apex predator, to cope with a changing environment using two complementary research themes that integrates cells to ecosystems. Apr 2018 - May 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1804_os38nb To understand the molecular and physiological capacities of Antarctic notothenioid fishes to acclimatize and/or adapt to rapid oceanic warming. Investigate the ability of the leopard seal, an apex predator, to cope with a changing environment using two complementary research themes that integrates cells to ecosystems. Apr 2018 - May 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1805_nb150 To understand the molecular and physiological capacities of Antarctic notothenioid fishes to acclimatize and/or adapt to rapid oceanic warming May 2018 - June 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1805_os38nb To understand the molecular and physiological capacities of Antarctic notothenioid fishes to acclimatize and/or adapt to rapid oceanic warming May 2018 - June 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1808_nb150 XBT/XCTD Palmer Station Opening Oct 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1808_os38nb XBT/XCTD Palmer Station Opening Oct 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1809_nb150 Palmer Science Movements Oct 2018 - Nov 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1809_os38nb Palmer Science Movements Oct 2018 - Nov 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1810_nb150 The science team will apply new, highly sensitive techniques using high-mass-resolution mass spectrometry to understand the connections between UVR, ROS, oxylipins, and carbon cycling. (XBT) Nov 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1810_os38nb The science team will apply new, highly sensitive techniques using high-mass-resolution mass spectrometry to understand the connections between UVR, ROS, oxylipins, and carbon cycling. (XBT) Nov 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1811_nb150 The objectives of this work are 1) to quantify and understand interactions between krill, krill predators (e.g., penguins and seals), and the Antarctic krill fishery; 2) to estimate krill flux through and standing biomass in areas where krill, predators, and the fishery overlap in space and time; and 3) to identify sustainable harvest strategies for the krill fishery. Palmer Cargo; Shirreff Opening Dec 2018 examine data or download png of map or (back to top) or link to JASADCP

	lg1811_os38nb The objectives of this work are 1) to quantify and understand interactions between krill, krill predators (e.g., penguins and seals), and the Antarctic krill fishery; 2) to estimate krill flux through and standing biomass in areas where krill, predators, and the fishery overlap in space and time; and 3) to identify sustainable harvest strategies for the krill fishery. Palmer Cargo; Shirreff Opening Dec 2018 examine data or download png of map or (back to top) or link to JASADCP

These data were processed at Scripps Institution of Oceanography

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