期刊
DEEP-SEA RESEARCH PART II-TOPICAL STUDIES IN OCEANOGRAPHY
卷 56, 期 16, 页码 1027-1038出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.dsr2.2008.11.001
关键词
Oxygen minimum zone; Dissolved oxygen; Coastal upwelling; Eastern South Pacific; Peru; Chile
类别
资金
- universities Arturo Prat and Concepcion
- Chilean National Research Council
- FONDAP-COPAS [15010007]
- MECESUP/UAP001 scholarship program from 2002 to 2004
Recent hydrographic measurements within the eastern South Pacific (1999-2001) were combined with vertically high-resolution data from the World Ocean Circulation Experiment, high-resolution profiles and bottle casts from the World Ocean Database 2001, and the World Ocean Atlas 2001 in order to evaluate the vertical and horizontal extension of the oxygen minimum zone (<20 mu mol kg(-1)). These new calculations estimate the total area and volume of the oxygen minimum zone to be 9.82 +/- 3.60 x 10(6) km(2) and 2.18 +/- 0.66 x 10(6) km(3), respectively. The oxygen minimum zone is thickest (> 600 m) off Peru between 5 and 13 degrees S and to about 1000 km offshore. Its upper boundary is shallowest (< 150 m) off Peru, shoaling towards the coast and extending well into the euphotic zone in some places. Offshore, the thickness and meridional extent of the oxygen minimum zone decrease until it finally vanishes at 140 degrees W between 2 degrees and 8 degrees S. Moving southward along the coast of South America, the zonal extension of the oxygen minimum zone gradually diminishes from 3000 km (15 degrees S) to 1200 km (20 degrees S) and then to 25 km (30 degrees S); only a thin band is detected at similar to 37 degrees S off Concepcion, Chile. Simultaneously, the oxygen minimum zone's maximum thickness decreases from 300 m (20 degrees S) to less than 50 m (south of 30 degrees S). The spatial distribution of Ekman suction velocity and oxygen minimum zone thickness correlate well, especially in the core. Off Chile, the eastern South Pacific Intermediate Water mass introduces increased vertical stability into the upper water column, complicating ventilation of the oxygen minimum zone from above. In addition, oxygen-enriched Antarctic Intermediate Water clashes with the oxygen minimum zone at around 30 degrees S, causing a pronounced sub-surface oxygen front. The new estimates of vertical and horizontal oxygen minimum zone distribution in the eastern South Pacific complement the global quantification of naturally hypoxic continental margins by Helly and Levin [2004. Global distribution of naturally occurring marine hypoxia on continental margins. Deep-Sea Research 151, 1159-1168] and provide new baseline data useful for studies on the role of oxygen in the degradation of organic matter in the water column and the related implications for biogeochemical cycles. Coastal upwelling zones along the eastern Pacific combine with general circulation to provide a mechanism that allows renewal of upper Pacific Deep Water, the most oxygen-poor and oldest water mass of the world oceans. (C) 2008 Elsevier Ltd. All rights reserved.
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