UAF researchers to study Arctic spring on the Sikuliaq
July 15, 2016
Lauren Frisch
907-474-5022
University of Alaska Fairbanks researchers have received $2.2 million to study Arctic
marine ecosystems while on board the Sikuliaq, the research vessel owned by the National
Science Foundation and operated by the UAF School of Fisheries and Ocean Sciences.
The project will help researchers better understand the processes that prime oceans
for summer productivity and better anticipate changes resulting from declining ice
cover.
Six SFOS researchers, along with staff, students and international collaborators,
will study oceanography and food web dynamics in the northern Bering Sea and southern
Chukchi Sea through the North Pacific Research Board’s Arctic Integrated Ecosystem
Research Program.
Fieldwork in early spring 2017 and 2018 will take place on board the ice-capable Sikuliaq,
a $200 million vessel that arrived at its home port of Seward in March 2015.
“We are excited about this project because in a lot of respects this project is exactly
why we built the Sikuliaq,” said Seth Danielson, an SFOS research associate professor
and the project’s lead principal investigator. “We are seeking to head to the ice
edge right in the shoulder season between winter and the summer months.”
The researchers will measure growth rates, oxygen consumption rates, productivity
rates, sinking rates of particles and how quickly currents affect the flow of water
and materials from south to north. They'll take samples from the water column and
the seafloor sediments.
Andrew McDonnell, SFOS assistant professor and principal investigator, explained that
most fieldwork for these regions has been done between July and September, because
that’s traditionally when access to the region has been easier.
But “biological activity in the late spring — late May through June — sets the stage
for energy flow and ecosystem processes for the rest of the summer,” he said.
Danielson said this “spring bloom” is one of the most biologically important events
of the year.
“We hope to measure the system during or just after this annual peak in phytoplankton
growth so that we can better understand how the energy stored in the phytoplankton
during spring is subsequently passed on to support fishes, clams and crabs as well
as the marine mammals that feed on them,” he said.
The research will help explain connections between physical and biological systems.
This will be critical for managers looking to preserve thriving Arctic ecosystems
as sea ice concentrations continue to decline.
The UAF research team includes Danielson (studying physical oceanography) and McDonnell
(particles) but also Sarah Hardy (benthic invertebrates), Russell Hopcroft (zooplankton),
Dean Stockwell (nutrient chemistry and phytoplankton) and Arny Blanchard (biostatistics).
Four other Arctic Integrated Ecosystem Research Program projects are also focused
in the Bering and Chukchi seas. Two research teams led by NOAA will study physical
and biological systems in the Chukchi Sea in the summer and fall. A University of
Washington group will focus on marine mammals and the underwater sound environment.
A social science project will investigate Chukchi coastal communities’ understanding
of and responses to environmental change.
The AIERP is sponsored by the North Pacific Research Board, the Collaborative Alaskan
Arctic Studies Program, the Bureau of Ocean Energy Management, and the Office of Naval
Research Marine Mammals and Biology Program, along with in-kind support from the National
Oceanic and Atmospheric Administration and UAF.