Evaluation of new and net community production estimates by multiple ship-based and autonomous observations in the Northeast Pacific Ocean

Authors

Alexandria K. Niebergall, Duke University
Shawnee Traylor, Woods Hole Oceanographic Institution
Yibin Huang, University of California, Santa Cruz
Melanie Feen, University of Rhode Island
Meredith G. Meyer, University of North Carolina at Chapel Hill
Heather M. McNair, University of Rhode Island
David Nicholson, Woods Hole Oceanographic Institution
Andrea J. Fassbender, University of California, Santa Cruz
Melissa M. Omand, University of Rhode Island
Adrian Marchetti, University of North Carolina at Chapel Hill
Susanne Menden-Deuer, University of Rhode Island
Weiyi Tang, Duke University
Weida Gong, University of North Carolina at Chapel Hill
Philippe Tortell, University of British Columbia
Roberta Hamme, University of Victoria
Nicolas Cassar, Duke University

Document Type

Article

Date of Original Version

6-16-2023

Abstract

New production (NP) and net community production (NCP) measurements are often used as estimates of carbon export potential from the mixed layer of the ocean, an important process in the regulation of global climate. Diverse methods can be used to measure NP and NCP, from research vessels, autonomous platforms, and remote sensing, each with its own set of benefits and uncertainties. The various methods are rarely applied simultaneously in a single location, limiting our ability for direct comparisons of the resulting measurements. In this study, we evaluated NP and NCP from thirteen independent datasets collected via in situ, in vitro, and satellite-based methods near Ocean Station Papa during the 2018 Northeast Pacific field campaign of the NASA project EXport Processes in the Ocean from RemoTe Sensing (EXPORTS). Altogether, the datasets indicate that carbon export potential was relatively low (median daily averages between -5.1 and 12.6 mmol C m-2 d-1), with most measurements indicating slight net autotrophy in the region. This result is consistent with NCP estimates based on satellite measurements of sea surface temperature and chlorophyll a. We explored possible causes of discrepancies among methods, including differences in assumptions about stoichiometry, vertical integration, total volume sampled, and the spatiotemporal extent considered. Results of a generalized additive mixed model indicate that the spatial variation across platforms can explain much of the difference among methods. Once spatial variation and temporal autocorrelation are considered, a variety of methods can provide consistent estimates of NP and NCP, leveraging the strengths of each approach.

Publication Title, e.g., Journal

Elementa

Volume

11

Issue

1

Citation/Publisher Attribution

Niebergall, Alexandria K., Shawnee Traylor, Yibin Huang, Melanie Feen, Meredith G. Meyer, Heather M. McNair, David Nicholson, Andrea J. Fassbender, Melissa M. Omand, Adrian Marchetti, Susanne Menden-Deuer, Weiyi Tang, Weida Gong, Philippe Tortell, Roberta Hamme, and Nicolas Cassar. "Evaluation of new and net community production estimates by multiple ship-based and autonomous observations in the Northeast Pacific Ocean." Elementa 11, 1 (2023). doi: 10.1525/elementa.2021.00107.