Climate-sensitive carbon cycling on the western Antarctic continental shelf: results from the Amundsen Sea Polynya International Research Expedition (ASPIRE)

Patricia L Yager, University of Georgia, Athens, GA, United States, Robert M Sherrell, Rutgers University, Marine and Coastal Sciences and Earth and Planetary Sciences, New Brunswick, NJ, United States, Sharon Elisabeth Stammerjohn, University of Colorado Boulder, Boulder, CO, United States and the rest of the ASPIRE Science Team
Abstract:
The Amundsen Sea hosts the most productive polynya in all of coastal Antarctica, with its vibrant green waters exceeding 20 µg Chl a per liter. It is also one of the global regions most vulnerable to climate change, experiencing rapid losses in both sea ice cover and nearby ice sheets. During the Amundsen Sea Polynya International Research Expedition (ASPIRE) in austral summer 2010-11, we aimed to determine mechanisms driving the production and fate of this extraordinary algal bloom, with an eye towards predicting how this system will respond to further change. Here we summarize and synthesize results from the expedition, highlight results now being published in a special ASPIRE feature in the journal Elementa, and present an effort to balance the carbon budget for the region. We collected water column profiles for total dissolved inorganic carbon (DIC) and nutrients, particulate and dissolved organic matter, chlorophyll a, macrozooplankton, and microbial biomass. We also measured primary and secondary production, community respiration rates, vertical particle flux and fecal pellet production and grazing. With observations arranged along a gradient of increasing integrated nitrate depletion, changes in DIC in the upper water column (ranging from 0.2 to 4.7 mol C m‑2) and gas exchange are compared to nutrient and organic matter inventories to estimate export. Comparisons to short-term (days) drifting traps and a year-long moored sediment trap capturing the downward flux confirmed that a high fraction (up to ~60%) of the net community production was exported to sub-euphotic depths during the early part of the bloom in this productive region. The ultimate fate of this carbon is also estimated. We discuss the importance of this carbon sequestration, particularly in light of changing climate conditions in this region, informed by ongoing data synthesis and modeling efforts (INSPIRE).