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SEMINAR: SEFSC Brown-Bag Seminar - Noon Wed March 3rd
| From: | Shannon Calay <Shannon.Calay@noaa.gov> |
| Subject: | SEMINAR: SEFSC Brown-Bag Seminar - Noon Wed March 3rd |
| Date: | Mon, 01 Mar 2010 11:08:45 -0500 |
|
You are invited to attend the
SOUTHEAST
FISHERIES SCIENCE CENTER
BROWN-BAG SEMINAR Wednesday March 3 at 12:00 pm
in the Outbuilding Seminar Room Title: Ocean Scale Hypoxia-Based
Habitat Compression of Atlantic Istiophorid Billfishes
Authors:
ERIC D. PRINCE, JIANGANG
LUO, C. P Abstract
Oxygen minimum zones (OMZs) below near-surface optimums in the eastern tropical seas are among the largest contiguous areas of naturally occurring hypoxia in the world oceans and are predicted to expand and shoal with global warming. In the eastern tropical Pacific (ETP), the surface mixed layer is defined by a shallow thermocline above a barrier of cold hypoxic water, where dissolved oxygen levels are <3.5 mL L-1. This thermocline (~25-50 m) constitutes a lower hypoxic habitat boundary for high oxygen demand tropical pelagic billfish and tunas (i.e., habitat compression). To evaluate similar oceanographic conditions found in the eastern tropical Atlantic (ETA), we compared vertical habitat use of 32 sailfish (Istiophorus platypterus) and 47 blue marlin (Makaira nigricans) monitored with pop-up satellite archival tags in the ETA and western North Atlantic (WNA). Both species spent significantly greater proportions of their time in near-surface waters when inside the ETA compared to those in the WNA. We contend that the near surface density of billfish and tunas increases as a consequence of the ETA OMZ, therefore increasing their vulnerability to overexploitation by surface gears. Since the ETA OMZ encompasses nearly all Atlantic equatorial waters, the potential impacts of overexploitation are a concern. Because of the obvious differences in catchability inside and outside the compression zones, it seems essential to standardize these catch rates separately in order to minimize inaccuracies in stock assessments for these species. This is especially true in light of global warming which will likely exacerbate future compression impacts. Key words: Atlantic hypoxia-based habitat compression, tropical pelagic fishes, oxygen minimum zones, global warming, climate change |
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