Deep zooplankton rely on small particles when particle fluxes are low

Sonia Romero‐Romero; Cassie A. Ka'apu‐Lyons; Blaire P. Umhau; Claudia R. Benitez‐Nelson; Cecelia C. S. Hannides; Hilary G. Close; Jeffrey C. Drazen; Brian N. Popp

doi:10.1002/lol2.10163

Limnology and Oceanography Letters (Dec 2020)

Deep zooplankton rely on small particles when particle fluxes are low

Sonia Romero‐Romero,
Cassie A. Ka'apu‐Lyons,
Blaire P. Umhau,
Claudia R. Benitez‐Nelson,
Cecelia C. S. Hannides,
Hilary G. Close,
Jeffrey C. Drazen,
Brian N. Popp

Affiliations

Sonia Romero‐Romero: Department of Oceanography University of Hawaii at Manoa Honolulu Hawaii USA
Cassie A. Ka'apu‐Lyons: Department of Earth Sciences University of Hawaii at Manoa Honolulu Hawaii USA
Blaire P. Umhau: School of the Earth, Ocean and Environment University of South Carolina Columbia South Carolina USA
Claudia R. Benitez‐Nelson: School of the Earth, Ocean and Environment University of South Carolina Columbia South Carolina USA
Cecelia C. S. Hannides: Department of Earth Sciences University of Hawaii at Manoa Honolulu Hawaii USA
Hilary G. Close: Rosenstiel School of Marine and Atmospheric Science University of Miami Miami Florida USA
Jeffrey C. Drazen: Department of Oceanography University of Hawaii at Manoa Honolulu Hawaii USA
Brian N. Popp: Department of Earth Sciences University of Hawaii at Manoa Honolulu Hawaii USA

DOI: https://doi.org/10.1002/lol2.10163
Journal volume & issue: Vol. 5, no. 6
pp. 410 – 416

Abstract

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Abstract The fate of organic matter (OM) in the deep ocean remains enigmatic, with little understood regarding the flux and its utilization by deep food webs. We used compound‐specific nitrogen stable isotope ratios of source amino acids measured in particle size classes and deep zooplankton (700–1500 m) to determine the contribution of small (0.7–53 μm) vs. large particles (> 53 μm) to their diet at four sites in the North Pacific. Our results show that small particles constitute between 9% and 98% of zooplankton diets, being the contribution higher at sites with lower flux regimes. The contribution of small particles to the diet of deep zooplankton was also higher when biomass of vertical migrators, and therefore actively transported OM, was lower. Climate‐driven changes in primary production and export are expected to shift particle fluxes to smaller size classes, and thus their importance in midwater food webs may become more widespread.

Published in Limnology and Oceanography Letters

ISSN: 2378-2242 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Geography. Anthropology. Recreation: Oceanography
Website: https://aslopubs.onlinelibrary.wiley.com/journal/23782242

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