Mesoscale structure and oceanographic determinants of krill hotspots in the California Current: Implications for trophic transfer and conservation |
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| Authors: | Jarrod A Santora William J Sydeman Isaac D Schroeder Brian K Wells John C Field |
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| Institution: | 1. Moss Landing Marine Laboratories, 8272 Moss Landing Road, Moss Landing, CA, 95039, USA;2. Oikonos Ecosystem Knowledge, PO Box 2570, Santa Cruz, CA, 95063, USA;1. Hatfield Marine Science Center, Oregon State University, Newport, OR 97365, United States;2. Northwest Fisheries Science Center, NOAA Fisheries, Newport, OR 97365, United States |
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| Abstract: | Krill (crustaceans of the family Euphausiacea) comprise an important prey field for vast array of fish, birds, and marine mammals in the California Current and other large marine ecosystems globally. In this study, we test the hypothesis that mesoscale spatial organization of krill is related to oceanographic conditions associated with coastal upwelling. To test this, we compiled a climatology of krill distributions based on hydroacoustic surveys off California in May–June each year between 2000 and 2009 (missing 2007). Approximately 53,000 km of ocean habitat was sampled, resulting in a comprehensive geo-spatial data set from the Southern California Bight to Cape Mendocino. We determined the location and characteristics of eight definite and two probable krill “hotspots” of abundance. Directional-dependence analysis revealed that krill hotspots were oriented in a northwest–southeast (135°) direction, corresponding to the anisotropy of the 200–2000 m isobath. Krill hotspots were disassociated (inversely correlated) with three upwelling centers, Point Arena, Point Sur, and Point Conception, suggesting that krill may avoid locations of strong offshore transport or aggregate downstream from these locations. While current fisheries management considers the entire coast out to the 2000 m isobath critical habitat for krill in this ecosystem, we establish here smaller scale structuring of this critical mid-trophic level prey resource. Identifying mesoscale krill hotspots and their oceanographic determinants is significant as these smaller ecosystem divisions may warrant protection to ensure key ecosystem functions (i.e., trophic transfer) and resilience. Furthermore, delineating and quantifying krill hotspots may be important for conservation of krill-predators in this system. |
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