Shakedown Station at Sea

 

From: Haley Smith Kingsland, Stanford University

 

60° 43.118’ N, 168° 28.473’ W, June 16 — The captain brought the Healy to a halt and the ship rocked back and forth in stationary position as ICESCAPE scientists and Coast Guard marine science technicians rallied to deploy their equipment. Oceanographers work on “stations,” or fixed points at sea, to make accurate measurements. Over the next 35 days, ICESCAPE scientists have designated about 136 open water stations and 10 days of ice stations.

 

But because we must first rehearse what will become routine for us, Wednesday afternoon was a “shakedown station” to ensure that our instruments function properly and our operations are efficient. We planned a “full station,” meaning that we deployed all scientific equipment. Jim Swift of the Scripps Institute of Oceanography likened the practice to the frenzy of a Chinese fire drill, while co-chief scientist Don Perovich compared its importance to readying football players for the Super Bowl.

 

He summed up the process nicely:

 

“It’s ‘AOP walk, PRR bow, IOP stern, CTD star-full water, GRAB back, PUMP star, no ASB, drop ICE on two.’ Got all that? Like a lot of things, it’s less complicated than it seems. It just means that we will mount some light sensors on the bow walkway and then deploy some other light sensors off a hand line from the bow. Then move to the stern of the ship and lower into the ocean more optical sensors using the winch on the stern, and then from the starboard winch lower a device that measures the temperature and salinity of the ocean and takes water samples. When that is done, drop a shovel-like piece of equipment to the bottom and grab some seafloor sediment. Then lower a pump to near the bottom that circulates water through a filter. Oh yes, ‘no ASB’ means we will not launch the Arctic survey boat and ‘drop ICE’ means we will not be sending a team onto the ice. This is a good thing, since there is no ice. ‘On two’ means we start at 2 PM.”

 

How does all this equipment work? Read the captions below to find out!

 

 

“We’re hunting photons!” exclaimed Greg Mitchell of the Scripps Institute of Oceanography. A light sensor deployed from the Healy’s bow walkway measures how seawater impurities affect light changes at ocean depths. This is the first time the bow walkway has been set up on the Healy since 2000. (Photo by Haley Smith Kingsland)

 

 

 

Coast Guard Marine Science Technician Chief Kurt Stewart works with a crew of six other marine science technicians, and ICESCAPE is his first full mission on the Healy. So how did the shakedown station go for him? “I thought it was fun. But it would have been nice if it had been warmer— like off the coast of Hawaii warmer.” (Photo by Haley Smith Kingsland)

 

 

 

 

Little fins make the PRR, or Profiling Reflectance Radiometer, fall vertically in the ocean. This instrument measures how much light the ocean surface reflects out to space.  Greg Mitchell explained that satellites observe the color of light reflected from the ocean— which depends on the amount of algae and other things in the water— and such information is used to make maps of ocean biology. He said that fieldwork like NASA’s ICESCAPE cruise is crucial because scientists can use the detailed measurements taken at each station to make oceanographic mapping even better. Here, graduate student Brian Seegers of the Scripps Institute of Oceanography lowers the PRR into the water. (Photo by Haley Smith Kingsland)

 

 

 

Chief scientist Kevin Arrigo watches Greg Mitchell tug the PRR back in. (Photo by Haley Smith Kingsland)

 

 

 

This optical package deployed from the A-frame at the Healy’s stern measures light absorption and scattering by diverse things from water molecules to algae and bacteria cells. The IOP frame carries a few pieces of optical equipment from different research groups, including a laser scattering device and Fast Repetition Rate Fluorometer (FRRF) to measure photosynthesis. (Photo by Haley Smith Kingsland)

 

 

 

 

The A-frame, scientists, and MSTs bring the optical package back to the Healy’s fantail. (Photo by Haley Smith Kingsland)

 

 

 

The CTD rosette lives in a special room on the starboard side of the Healy. It’s really just an aluminum frame that carries water sampling bottles all around its circumference, with different sensors attached to its bottom that record characteristics like temperature and depth. “The CTD is the primary electronic instrument for measuring the physical properties of the water column,” says Jim Swift.

 

A CTD operator lowers the rosette and closes the bottles to sample water at different depths. Beforehand, scientists request how much water they want for their experiments and Jim keeps track of the numbers in a chart to ensure that the rosette samples enough. He also enforces the scientists’ sampling order when the rosette returns.

 

 

 

Deployed from the stern A-frame, the stainless steel jaws of the Van Veen Grab grasp and trap soft bottom sediments. Technicians and scientists have to take care when raising the Van Veen Grab back on deck, because its choppers could snag somebody! Once on deck, technicians pop open a trap door at the top of the Van Veen Grab and deposit the sediments in a bucket from which scientists take a small sample to measure sediment chlorophyll concentrations. “I saw an amphipod in the mud that looks like a tiny shrimp— it’s what gray whales eat as bottom feeders,” said Karen Frey of Clark University. Here, the Van Veen Grab comes back aboard. (Photo by Haley Smith Kingsland)

 

 

 

The thorium pump was the shakedown station’s final deployment. “It was so light that it flew through the water like a kite,” said chief scientist Kevin Arrigo, so next time it probably needs a weight tied to it. The pump measures how many particles rain down from the ocean surface to the bottom. (Photo by Haley Smith Kingsland)

 

 

The full shakedown station elapsed about three hours, and as you can see, working on station requires an enormous amount of coordination and teamwork. Greg Mitchell stressed the significance of ICESCAPE’s interdisciplinary framework that has brought together so many scientists from several institutions. “We’re all measuring different parts of the puzzle to get the best understanding of the ecosystem so we can improve our models and get the best predictions for the future.”

 

Captain William Rall is also happy with the cooperation among all aboard. “Looking across the mess deck during chow and seeing the colorfully dressed science party mixed in and eating with the Coasties all dressed in blue brings me a smile,” he wrote in his log. “It’s cooling off fast as we head north to collect water samples, bottom samples, and support a multitude of optical devices. Can’t wait to get to some ice!”

 

3 thoughts on “Shakedown Station at Sea”

  1. Tell my brother-in-law Kevin Arrigo I said “hello”. Wishing all of you the best on your voyage. Your doing a great job on the blog. Really enjoying reading it!

  2. It’s the cult to ice, to coldness, to Saturn the shadow in the middle of clarity.

    More quantity of ice, the warmer the hot of the sun = Balance or climatic change??? Hydraulics_thermodynamics.

    Algae = oxygen.

    Ice is equivalent to meteorites of Earth. The accumulation of information and DNA and carbon and organisms microrganisms and mental decay of other civilizations, the instinct not the intuition of matter and hidden Quantum.

    Investigations surveys needed and required to show the defense of nature versus the elemental bactery that would be the cell.

    Were we ice beforehand?

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