Elliott L. Hazen
National Oceanic and Atmospheric Administration
217 Papers
338 Citations
Elliott L. Hazen is an academic researcher from National Oceanic and Atmospheric Administration. The author has contributed to research in topics: Biology & Foraging. The author has an hindex of 44, co-authored 162 publications. Previous affiliations of Elliott L. Hazen include Joint Institute for Marine and Atmospheric Research & University of Washington.
Chat about Author
Papers
Trait-based indicators of resource selection by albacore tuna in the California Current Large Marine Ecosystem
Miram R. Gleiber,Natasha A. Hardy,Caitlin J Morganson,Catherine F. Nickels,Barbara A. Muhling,Elan J. Portner,Brian K. Wells,Richard D. Brodeur,Toby D. Auth,Jarrod A. Santora,Sarah M. Glaser,Daniel J. Madigan,Elliott L. Hazen,Larry B. Crowder,Stephanie J. Green +14 more
TL;DR: This study examines albacore tuna's resource selection in the California Current Large Marine Ecosystem, finding that trait-based indicators, such as prey energy density and schooling behavior, consistently distinguish albacore diets from trawl surveys, suggesting conserved ecological mechanisms.
Coupled changes in biomass and distribution drive trends in availability of fish stocks to US West Coast ports
Rebecca L. Selden,James T. Thorson,Jameal F. Samhouri,Steven J. Bograd,Stephanie Brodie,Stephanie Brodie,Gemma Carroll,Gemma Carroll,Melissa A. Haltuch,Elliott L. Hazen,Kirstin K. Holsman,Malin L. Pinsky,Nick Tolimieri,Ellen Willis-Norton +13 more
TL;DR: In this paper, the authors examined trends in the distribution and biomass of five commercial target species (dover sole, thornyheads, sablefish, lingcod, and petrale sole) on the US west coast to determine how their availability to fishing ports changed over 40 years.
Multiple-stage decisions in a marine central-place forager.
Ari S. Friedlaender,David Johnston,Reny B. Tyson,Amanda Kaltenberg,Jeremy A. Goldbogen,Alison K. Stimpert,Corrie Curtice,Elliott L. Hazen,Patrick N. Halpin,Andrew J. Read,Douglas P. Nowacek +10 more
TL;DR: Humpback whales forage mainly when prey is more broadly distributed and shallower, presumably to minimize diving and searching costs and to increase feeding rates overall and thus foraging efficiency, consistent with previous models of how air-breathing diving animals optimize foraged efficiency.
On the sensitivity of Optimum Multiparameter Analysis: a California Current System case study
Mercedes Pozo Buil,Isaac Schroeder,Stephen Bograd,Michael G. Jacox,Elliott L. Hazen,Dianne Deauna,Emanuele Di Lorenzo,Nicole S. Lovenduski,Samuel C. Mogen,Ryan R. Rykaczewski +9 more
Direct quantification of energy intake in an apex marine predator suggests physiology is a key driver of migrations.
Rebecca Whitlock,Rebecca Whitlock,Elliott L. Hazen,Andreas Walli,Charles J. Farwell,Steven J. Bograd,David G. Foley,Michael Castleton,Barbara A. Block +8 more
TL;DR: It is hypothesized that temperature-related physiological constraints drive migration and that Pacific bluefin tuna optimize energy intake within a range of optimal aerobic performance.