oxygen – NOAA Teacher at Sea Blog

NOAA Teacher at Sea
Leah Johnson
Aboard NOAA Ship Pisces
July 21 – August 3, 2015

Mission: Southeast Fishery – Independent Survey
Geographical Area of Cruise: Atlantic Ocean, Southeastern U.S. Coast
Date: Sunday, July 26, 2015

Weather Data from the Bridge:
Time 12:38 PM
Latitude 34.24389
Longitude -76.6625
Water Temperature 23.75 °C
Salinity –No Data-
Air Temperature 28.6 °C
Relative Humidity 68 %
Wind Speed 12.6 knots
Wind Direction 67.01 degrees
Air Pressure 1014.8 mbar

Science and Technology Log:
The primary purpose of this cruise is to survey reef fish. Our main task is to collect data pertaining to presence and number of fish species, species length frequency, and sample materials for fish age and growth. However, other types of measurements are being made as well. For example, the CTD is an instrument that measures different properties of ocean water with depth. It is deployed every time the fish traps are dropped.

The CTD sits on the starboard side of the deck of NOAA Ship Pisces.

The acronym “CTD” stand for conductivity, temperature, and depth. The instruments that measure these properties are affixed to a metal cylinder called a rosette. A range of sensors can be attached depending on what needs to be measured. Additionally, containers can be attached to the frame in order to collect sea water samples at different depths. When the ship reaches the designated coordinates, the survey technician calls to the deckhands and instructs them to use the winch to lower the CTD to a designated depth, and then haul it back up.

Deckhands assist with lowering the CTD.

Below you can see a graph of the data collected earlier in the week:

CTD Data

The y-axis represents depth in meters. The CTD actually measures water pressure, which is then converted to depth. Pressure and depth are directly related: as depth increases, pressure increases.

There are several different properties represented on the x-axes, shown in different colors:

light green = oxygen (mg/l)
orange = conductivity (S/m)
dark green = temperature (°C)
purple = salinity (PSU, or ppt)

What do these measurements mean? As depth increases, temperature decreases. Sunlight warms the sea surface, and wind and ocean currents distribute this heat energy throughout the upper waters. Beneath this mixed layer, temperature decreases steadily with depth. In deeper water (not at this location), this rate of change decreases and the temperature of deep ocean water is nearly a constant 3 °C. Salinity refers to the concentration of dissolved salts in the water. Average ocean salinity is 35 ppt (parts per thousand), though this varies by a few parts per thousand near the surface. Increased precipitation, runoff, or melting of sea ice can decrease salinity, and evaporation and ice formation can increase salinity. Conductivity (measured in Siemens per meter) is a measure of how much current can travel through the water, and this is affected by both salinity and temperature. Finally, fish and other marine organisms require dissolved oxygen to breathe. By measuring the amount of oxygen at different levels in the water column, we can determine how much sea life can be supported in a given area. Dissolved oxygen in the ocean comes from mixing at the surface, and is also produced by photosynthetic organisms. As temperature and salinity increase, dissolved oxygen levels decrease. Additionally, temperature and salinity data can be used to determine the water density, or the mass of water per unit volume. Different fish can tolerate certain ranges of all of these chemical and physical parameters.

With respect to the fish survey, this information is important because we can monitor the conditions of the water near the ocean floor where the traps are located. For scientists who are interested in characterizing reef fish habitat, this data is a critical component of their research.

There are other ways in which this data can be used. The depth profiles of each of the chemical and physical properties at a given site can be compared to other local sites in order to identify any spatial anomalies. This is of great interest for seafloor mapping and ocean exploration cruises. For example, a change in conductivity and temperature at a site in the middle of the ocean could indicate the presence of a hydrothermal vent. Or, a decrease in salinity in a region along a coastline could indicate freshwater runoff.

Additionally, as measurements are made at similar locations over a period of time, temporal changes may be observed. This could reveal seasonal changes, or a long-term trend. Because we are observing an increase in average global temperatures and experiencing global climate change, it is critical to collect data that can be used to assess changing ocean conditions.

Personal Log:
“Will you be eating a lot of fish on the ship?” I heard this question a lot before I left for this cruise. I wondered myself. It seemed reasonable that fish would be prepared for meals because, well, we will be living at sea! On the other hand, I wondered if everyone on board would be sick to death of fish because we would be looking at them all day. As it turns out, fish is prepared for nearly every meal; however, there is often another meat option, as well as a variety of other non-meat dishes. Now we know!

Ship mess

Did You Know?
There are many fish that make a grunting sound. When we have tubs full of tomtates in the wet lab, it sounds like a bunch of miniature pigs making snorting noises!

Still from video of tomtates near a trap. A nurse shark can be seen in the background.

NOAA Teacher at Sea

Carol Schnaiter

Aboard NOAA Ship Oregon II

June 7 – 21, 2014

Mission: I am back home in Amboy, IL, now so my mission is getting back to a “normal” schedule and getting my land legs back!

Weather: Partly sunny, 82 degrees

Date: June 25, 2014

Science and Technology:

Hypoxia or low oxygen levels in the water is my final topic. The “dead zone” may seem like it does not relate to me being home, but in reality it really does.

This “dead zone” is affected by many things such as the oceanographic conditions, but a major cause is excessive nutrient pollution from agriculture and waste water. Being from a rural agricultural area I wonder how much of what we are doing here in the north affects the ocean waters far away?

So how does this all start? The nitrogen and phosphorus that flows into the water fuels the growth of algae, later when the algae dies and decays, it sinks to the bottom. At the bottom the bacteria will devour the dissolved oxygen from the water. With little or no oxygen the organisms living there must either move, if they can, or they will die.

Where does this nitrogen and phosphorus come from? Most of this can be found in fertilizers from agriculture, golf courses and suburban lawns, discharges from sewage treatment plants, and even from erosion of soil full of nutrients. Since past spring was very rainy and there were floods near the Mississippi River much of this was taken from the soil into the water. The flood waters then drained back into the river and into the gulf carrying many of these nutrients.

How do we know this is happening and that it is getting worse? On the NOAA Ship Oregon II and other ships there are daily checks of the water oxygen levels. Tests similar to these have been conducted for many years. The results are compared and they show that changes in the oxygen levels are happening and not for the better.

While on the ship the scientist performed these tests using the CTD. Water taken from the CTD is handled very carefully so no oxygen is added by accident. As chemicals are added, you can see the changes where the oxygen in the water bonds to the chemicals. The results of these tests are compared to the results collected by the computer. Having both tests generate similar results show more proof of the oxygen levels.

I noticed that when the ship was closer to land, the oxygen levels would be lower and Lead Scientist Kim Johnson said as the ship traveled closer to the mouth of the Mississippi River, the levels would drop even more. (I plan on watching the results as they are posted.)

Can anything be done to stop this? Some scientist say one of the solutions would be to use fewer fertilizers another would be to maybe watch when the chemicals were added, so there would be less runoff.

Of course checking septic systems and sewage treatment plants to be sure they are up to code and working correctly would help. These solutions sound simple, but maybe people do not even realize what happens up north and how it really does affect what is going on at the bottom of the ocean.

Maybe our Amboy Marsh is the beginning, a place where the water can be filtered.

Here is a map showing the levels of oxygen in the water.

http://noaateacheratsea.blog/wp-content/uploads/2014/06/20140625_051938-1.jpg

Personal Log:

I have been home now for four days. My land legs are back and I only feel dizzy when closing my eyes while washing my hair in the shower. I want to thank everyone for reading my blogs, I hope you enjoyed my adventure and learned something new.

As I look through my pictures, memories of the sixteen days I spent at sea flood my mind. I look at the safety precautions that were taken to make sure everyone on the ship stayed safe. The drills, the posting of where everyone was to go and what they were suppose to do in case of an emergency, and the sign stating how many days the ship had gone without a problem. I always felt safe, everyone was very careful and followed rules to ensure the safety of everyone….just like we do at school!

Accident free days — 525 Days without an accident!

Ship's emergency bullets — Emergency bullets

I also think about how what seemed like a tiny space became my home away from home. Everything you need to survive on a mere 178 ft ship! Two showers for everyone to share, three heads (toilets) and one washing machine and one dryer. I thought it would be impossible, but it just proved my husband’s theory that we have too much in our home!

Shower room — Two showers to share with everyone!

I want to tell you how thankful I am that NOAA has this wonderful program and allowed me to participate. I know many teachers applied for this and I am honored that I was selected. Thank you to the scientists aboard the ship: Kim, for EVERYTHING, the Night Shift: Taniya, Andre, Lee, Chrissy, and Rebeca for all of their guidance and help.

The deck crew: Chris, Chuck and Mike-thanks for your support and for making the night go by so quickly! Master Dave Nelson and ALL the members of his crew for their help in explaining everything and the tours on the ship!

This survey opened my eyes to what is happening under the water and how fragile life in the deep blue sea really is. It confirmed my thinking that we (the human race) need to look closely at what we are doing everyday and how it affects others. I plan on following the NOAA Ship Oregon II during the rest of the summer groundfish survey and during the fall groundfish survey. I want to see how the oxygen level changes, how the data collected affects the shrimp season, and follow the members of the ship!

Day One — Our first day together! (Photo by Karen Mitchell)

I cannot wait to share with my students and with anyone that will listen! Would I do this again? YES, I would go back to sea in a minute if I had the chance!

Tag: oxygen

Leah Johnson: Physical and Chemical Properties of Ocean Water (There’s More Here Than Just Fish!) , July 26, 2015

Carol Schnaiter, Home Again! June 25, 2014