Details

Autor(en) / Beteiligte

• Palevsky, Hilary I.
• Ribalet, Francois
• Swalwell, Jarred E.
• Cosca, Catherine E.
• Cokelet, Edward D.
• Feely, Richard A.
• Armbrust, E. Virginia
• Quay, Paul D.

Titel

The influence of net community production and phytoplankton community structure on CO 2 uptake in the Gulf of Alaska

Ist Teil von

• Global biogeochemical cycles, 2013-09, Vol.27 (3), p.664-676

Erscheinungsjahr

2013

Quelle

Wiley Online Library Journals Frontfile Complete

Beschreibungen/Notizen

• Abstract Biological productivity is a key factor controlling the ocean's ability to take up carbon dioxide from the atmosphere. However, the ecological dynamics that drive regions of intense productivity and carbon export are poorly understood. In this study, we present high‐spatial‐resolution estimates of air‐sea CO 2 flux, net community production (NCP) rates calculated from O 2 /Ar ratios, and phytoplankton population abundances determined by continuous underway measurements on a cruise across the Gulf of Alaska in May 2010. The highest rates of NCP (79.2  ±  13 mmol C m ‐2 d ‐1 ) and oceanic CO 2 uptake (air‐sea flux of −14.7 ± 2.4 mmol C m ‐2 d ‐1 ) were observed across a transition zone between the high‐nitrate low‐chlorophyll (HNLC) waters of the Alaskan Gyre and the coastal waters off the Aleutian Islands. While the transition zone comprises 20% of the total area covered in crossing the Gulf of Alaska, it contributed 49% of the total NCP and 48% of the total CO 2 uptake observed along the cruise track. A corresponding transition zone phytoplankton bloom was dominated by two small‐celled (<20 µm) phytoplankton communities, which were distinct from the phytoplankton communities in the surrounding Alaskan Gyre and coastal waters. We hypothesize that mixing between iron‐rich coastal waters and iron‐limited Alaskan Gyre waters stimulated this bloom and fueled the high NCP and CO 2 export observed in the region. Key Points A hotspot of high phytoplankton abundance, NCP, and CO2 uptake was identified Distinct phytoplankton communities may drive carbon uptake at this hotspot High spatial‐resolution measurements were made in the Gulf of Alaska