Simulated and Observed Circulation in the Indonesian Seas: 1/12 degree Global HYCOM and the INSTANT Observations
Abstract
A 1/12 global version of the HYbrid Coordinate Ocean Model (HYCOM) using 3-hourly atmospheric forcing is analyzed and directly compared against observations from the International Nusantara STratification ANd Transport (INSTANT) program that provides the first long-term (2004-2006) comprehensive view of the Indonesian Throughflow (ITF) inflow/outflow and establishes an important benchmark for inter-basin exchange, including the net throughflow transport. The simulated total ITF transport (-13.4 Sv) is similar to the observational estimate (-15.0 Sv) and correctly distributed among the three outflow passages (Lombok Strait, Ombai Strait and Timor Passage). Makassar Strait carries ~75% of the observed total ITF inflow and while the temporal variability of the simulated transport has high correlation with the observations, the simulated mean volume transport is ~37% too low. This points to an incorrect partitioning between the western and eastern inflow routes in the model and is the largest shortcoming of this simulation. HYCOM simulates the very deep (> 1250 m) overflow at Lifamatola Passage (-2.0 Sv simulated vs. -2.5 Sv observed)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 2010
- Accession Number
- ADA526929
Entities
People
- A. L. Gordon
- Edward Joseph Metzger
- H. M. Van Aken
- Harley E. Hurlburt
- J. Sprintall
- Jay F. Shriver
- R. D. Susanto
- Xiaochuan Xu
Organizations
- United States Naval Research Laboratory