Water masses in the far western equatorial Pacific during the winters of 2010 and 2012

Conductivity-temperature-depth (CTD) data obtained during the 2010 La Nina winter and the 2012 normal winter, combined with concurrent Argo profiling float data, provide a quasi-synoptic description of the water mass distributions and their variations in the far western equatorial Pacific Ocean. The...

Full description

Bibliographic Details
Published in:Journal of Oceanology and Limnology
Main Authors: Li Bo, Yuan Dongliang, Zhou Hui
Format: Report
Language:English
Published: SCIENCE PRESS 2018
Subjects:
far western equatorial Pacific
North Pacific Tropic Water
South Pacific Tropical Water
tropical subsurface water
La Nina
Marine & Freshwater Biology
Oceanography
Limnology
SEA-SURFACE SALINITY
ANTARCTIC INTERMEDIATE WATER
MINDANAO CURRENT
TROPICAL PACIFIC
INTERANNUAL VARIATIONS
OCEAN CIRCULATION
THERMOCLINE WATER
PHILIPPINE SEA
BARRIER LAYER
WARM POOL
Antarctic
Pacific
Antarc*
Online Access:http://ir.qdio.ac.cn/handle/337002/156402
https://doi.org/10.1007/s00343-018-6068-2
Description
Summary:Conductivity-temperature-depth (CTD) data obtained during the 2010 La Nina winter and the 2012 normal winter, combined with concurrent Argo profiling float data, provide a quasi-synoptic description of the water mass distributions and their variations in the far western equatorial Pacific Ocean. The water mass connection between the western Pacific and the east Indonesian seas is emphasized. Analysis indicates that the North Pacific Tropical Water (NPTW, S>34.9) carried by the Mindanao Current southward and the South Pacific Tropical Water (SPTW, S>35.1) from the southern hemisphere meet in the area. Observations suggest that the southward transport of the NPTW is stronger in 2010 than in 2012 due to enhanced advection of the Mindanao Current. The distribution of SPTW, which crosses the equator in the northwest direction and retroflects back to the interior Pacific Ocean, is found to retreat from 4 degrees-5 degrees N in 2012 to 2 degrees-3 degrees N in 2010 La Nina peak in the 130 degrees E section. A relatively fresh tropical subsurface water is identified in between the NPTW and the SPTW, moving eastward with the North Equatorial Countercurrent into the equatorial Pacific Ocean. However, the salinity maximum of this subsurface fresh water is found to decrease eastward, suggesting that the salinity maximum is generated either by strong diapycnal mixing or by isopycnal mixing of temporally entrained Indonesian sea water into the area.

Similar Items