NOAA Ship NANCY FOSTER – Page 2 – NOAA Teacher at Sea Blog

April 25, 2014August 20, 2021

Jamie Morris: Time to Plan, Prepare, & Revise, April 23, 2014

NOAA Teacher at Sea
Jamie Morris
Aboard NOAA Ship Nancy Foster
April 19 – May 1, 2014

Mission: Gray’s Reef National Marine Sanctuary Southeast Regional Ecosystem Assessment
Geographical Area of Cruise: Gray’s Reef National Marine Sanctuary (GRNMS)
Date: Wednesday, April 23, 2014

Weather Data from the Bridge
Weather: Clear
Visibility: 10 nautical miles
Wind: 7 knots
Swell Waves: 1.3 feet
Air Temperature: 68.5ºF
Seawater Temperature: 67.6ºF

Science and Technology Log

Today was our third day at sea. We again were very fortunate to have had beautiful weather. We are continuing to “mow the lawn” and are creating the seafloor map.

Lowering the dive boat. This is right before the Hydraulic Fluid leaked.

Since it was a relatively quiet day, the crew decided to practice launching and running two of the dive boats. As they were lowering the first dive boat into the water one of the guide ropes snapped. The crew worked quickly to reattach a new rope. Once the boat was under control, the passengers boarded and they sailed away to practice marking dive locations. A few minutes later the crew launched a second dive boat. The boat was lowered into the water with no problems and the passengers boarded. Right before they unhooked from the crane, the line carrying the hydraulic fluid on the crane popped off. Hydraulic fluid shot all over. (The hydraulic fluid is biodegradable so it is safe, but a mess to clean up).

The engineers were able to work quickly to repair the crane. Meanwhile, both dive boats went on their practice missions. The second boat was the first to return and was reloaded onto the Nancy Foster without any problems. The first boat, however, did not return on its own. It ended up having engine problems. The Nancy Foster had to stop mapping the seafloor and go retrieve the dive boat and its passengers. What was supposed to be a quiet morning turned into an eventful one, but fortunately no one was injured. The only causality was a boat.

We are now down to only two dive boats. This means that a third of the planned worked might not be able to get accomplished. Chief Scientist Sarah Fangman had to revise the mission’s plans to try to accomplish as much as we can with only two boats. She first had to prioritize the different projects. It was determined that the Fish Acoustics and Telemetry projects would be completed first. The Fish Acoustics study involves two divers going to 6 specific sites. One diver will identify and record the fish species that are present. The other diver will be filming the animals seen. The Telemetry teams will be replacing the receivers that are currently positioned throughout the sanctuary. These receivers record information from micro chipped fish that swim past. New receivers will be placed in the water and the old ones will be brought on board and the data will be uploaded onto a computer. While these projects are being conducted, the divers will also be looking for sea turtles and Lionfish. Data will be gathered about the sea turtles and photos will be taken. If Lionfish are located, they will be speared and brought on board the Nancy Foster where information such as length and weight will be gathered. Lionfish are an invasive species and need to be removed from the ecosystem. For a detailed description of Lionfish, please visit the Mission’s Website at: http://graysreef.noaa.gov/science/expeditions/2014_nancy_foster/welcome.html Once these projects are complete, the Marine Debris Survey will begin.

Preparing the recievers. They are first wrapped in electrical tape and than placed inside nylon stockings.

Today we did prep for the different missions. Sarah and I organized all the supplies that will be used. This included filling a dive bag with the receivers and tools needed to secure the receivers under water as well as tools to remove the current receivers. Yesterday we had prepped the receivers. Sarah replaced the batteries and then we wrapped the receivers in electrical tape and then placed them inside nylon stockings. This is to protect the receivers and to keep them clean. When they are under the water different organisms will start to grow on them. When we retrieve the receivers, we can cut away the stockings removing any organisms growing there and then unwrap the tape and the receivers will look brand new.

We also gathered the supplies for the Lionfish removal. These included dive bags to hold the lionfish, gloves for removing the fish, and placing the spear guns into the dive holsters (designed by a GRNMS member made out of PVC pipes). We copied all the dive logs onto waterproof paper and organized the paperwork for the dives. We also prepared all the underwater cameras. Hopefully we are all set for when the divers arrive tomorrow.

Spear Gun Holster — Chief Scientist Sarah Fangman models the spear gun holster.

First Assistant Engineer, Sabrina Tarabolletti fixes the underwater lights for the GO Pro camera. — First Assistant Engineer, Sabrina Tarabolletti, fixes the underwater lights for the GO Pro camera.

Today’s lesson was flexibility. It is so important to be flexible. On a ship, no plan is going to work out perfectly. There are many uncontrollable factors such as the weather or mechanical issues. It is important to always have backup plans and be able to adjust if problems arise.

Did You Know?

You can identify sea turtles using the scales on their neck. This pattern is unique to each individual sea turtle. Just like how fingerprints can identify humans.

Animals Seen Today

Hammerhead Shark – spotted from the bridge; estimated to be 10-12 feet long; it is very uncommon to see one in GRNMS (sorry no picture)

Personal Log

Amy Rath and I enjoyed writing our blogs on the Steel Beach. We were working very hard in the beautiful weather

I am truly having a wonderful time on this trip. I am meeting so many amazing people and learning a lot from everyone. The crew and all the scientific party are really nice people with many interesting stories.

Every day Keith Martin, the Electronics technician, makes Cuban coffee. I was teasing him today about the cups he uses to pass out the coffee. Cuban coffee is incredibly strong so you do not drink it like typical coffee. You drink only a tiny amount. Keith was using coffee cups to pass out the coffee. I asked him where are the tiny cups (plastic cups about the size of the paper cups you use at fast food restaurants to get ketchup)? He said that you can only find them in Miami. That led to a conversation about Miami. It turns out that he is a graduate of Miami Palmetto Senior High. (Ms. Evans taught him Biology, Coach Delgado was his Drivers Ed teacher, Mr. Moser taught him weight training, and he was a member of TVP). It really is a small world!

I do not know if I will be posting tomorrow, so I want to give an early shout out to my Seniors. I hope that you have a wonderful time at Grad Bash. Make sure to ride the Hulk for me (I prefer the 1^st row). Have fun!!

Me with Keith Martin the Electronics Technician who is a Miami Palmetto Alumni Photo: Amy Rath — Me with Keith Martin the Electronics Technician who is a Miami Palmetto Alumni
Photo: Amy Rath

April 24, 2014August 20, 2021

Jamie Morris: “Mowing the Lawn”, April 22, 2014

NOAA Teacher at Sea
Jamie Morris
Aboard NOAA Ship Nancy Foster
April 19 – May 1, 2014

Weather Data from the Bridge
Weather: Clear
Visibility: 10 nautical miles
Wind: 12 knots
Swell Waves: 1-2 feet
Air Temperature: 66.2ºF
Seawater Temperature: 64.8ºF

Science and Technology Log

Due to rough seas, we were not able to depart on Sunday. We waited until yesterday when the waves were only 3 feet at times (much better than 8 feet on Sunday). It took us 5 hours to travel from Savannah to Gray’s Reef National Marine Sanctuary (GRNMS). Once we arrived at the sanctuary, machines were calibrated and we began mapping the seafloor. The mapping will take 3 days running 24 hours a day. We are currently “mowing the lawn.” We started at one end of the sanctuary and are traveling in a straight line across to the other side of the sanctuary. Once we reach the edge of the sanctuary the ship turns around and we return to the other side slightly overlapping the previous path. The goal is to map the entire Gray’s Reef National Marine Sanctuary (GRNMS).

Senior Survey Technician Sam monitors the seafloor mapping data — Senior Survey Technician Sam monitors the seafloor mapping

The seafloor is being mapped using a multibeam sonar. Multibeam sonar involves sending out 512 sound waves at once at different angles. The sound waves bounce off of the seafloor and are reflected back to receivers on the ship. There are a series of computer programs that uses the information to calculate the distance the wave traveled (depth of the ocean) and generate an image.

The scientists and technicians need to avoid errors while mapping and therefore need to account for the tides, the differences in the temperature and salinity of the water as well as sound velocity. There are several tools and computer programs used to avoid errors and adjust any differences. One of these tools is the CTD (Conductivity, Temperature, Density). The CTD is deployed off of the back of the ship. It is sent down a cable to the seafloor. As it descends it is gathering data and sending the data to a computer in the lab. The scientists and technicians make adjustments to the computer programs using this data and can compensate for again changes in the water column.

Senior Survey Technician, Sam Martin, Deploying the CTD

For a detailed description of Multibeam sonar, please visit: http://graysreef.noaa.gov/science/expeditions/2013_nancy_foster/multibeam.html

Several other projects will be conducted on this mission as well, but most will not begin until Thursday when the dive team arrives. These will include Marine Debris Surveys, Lionfish Removal, Sea Turtle data collection, and Fish Telemetry. In preparation for these projects, a small dive boat was just deployed off the ship. Chief Scientist, Sarah Fangman, with a few crew members went in the boat to test the marker drops. The divers will be looking for very specific sites. It is important to precisely mark the sites from the surface so that the divers will easily be able to find the spots or objects that they are looking for.

The Nancy Foster carries 3 small dive boats. The boats need to be lowered into the water using the crane located at the back of the ship. It is a group effort to deploy these boats. A member needs to operate the crane and four others use guide ropes to assist in lowering the boat. Once the boat is in the water, members need to crawl aboard using a rope ladder that is connected to the Nancy Foster.

A crane is used to lower the boat off of the ship into the water.

I have quickly learned that the most important skill on the ship is teamwork. One person cannot do it all. From safety procedures to gathering data to the general functioning of the ship, you need to work together.

Did You Know?

When using Sonar, extra sound waves are generated. This was once thought to be background noise. Scientists now call this Backscatter and can analyze this data and determine that type of seafloor bottom or the sediment that is present (sandy, rippled, hard bottom).

Personal Log

ENS Conor Magnin, LT Colin Kliewer, Me, and Amy Rath pose for an Earth Day Selfie
Photo: Amy Rath

Happy Earth Day!!! I can’t think of a better way to celebrate this beautiful planet than sitting out on the deck enjoying the vast ocean. Or by submitting a Selfie to NASA to participate in their Global Selfie Project to create an image of the earth using selfies from around the world.

I have been aboard the Nancy Foster for four days now. I arrived in pouring rain on Friday night so I did not really get to explore the ship that night. On Saturday, I assisted with an Open House on the Nancy Foster where the public was able to tour the ship. Members of the GRNMS including Chief Scientist Sarah Fangman, Acting Superintendent George Sedberry, and Communications and Outreach Coordinator Amy Rath led the tours. Financial and IT Coordinator Debbie Meeks, volunteer Marilyn Sobwick and I signed people up for the tours and discussed GRNMS, NOAA, and the upcoming mission with the public. It was a wonderful experience being able to meet new people and introduce them to the Nancy Foster and Gray’s Reef.

I was all ready to set sail on Sunday, but the weather had different plans. We were all boarded on the ship and the crew was making the final preparations when it was decided to postpone the trip. The waves were 8 feet tall at Gray’s Reef. The rough water would have made it impossible to create an accurate seafloor map. Since that was the only task we had, the trip was postponed.

We were able to set sail yesterday. It was a beautiful day, as it is today. It is gorgeous outside with warm weather and calm waves. I have found several wonderful spots to sit outside and enjoy the ocean.

Many of my students had several concerns about life on the ship. Living on the Nancy Foster is quite comfortable. I am staying in a four person stateroom. Right now I am

sharing it with Amy who is a great roommate. We each have our own bunk with a curtain for privacy. The bathroom, or Head as it is called on a ship, is down the hall. I do feel like I’m back in college sharing a bathroom. The Galley (or kitchen) and Mess (dining room) is directly across the hall. As for my students who were very concerned about food – I am eating VERY well. The Nancy Foster has 2 amazing stewards, Lito Llena and Bob Burroughs, who are wonderful chefs. Yesterday they made a Ginger Chicken Soup that was honestly the best soup I had ever had. Many crew members tell me that the Nancy Foster is one of the best fed ships. I can agree. As for entertainment, the ship has a gym, tv and games in the galley, and a Movie Room!

Some of my students were very concerned about my safety. NOAA Ships want to make sure everyone is prepared for any situation. They are required to conduct weekly drills and all members aboard must participate. We practiced what to do in a blackout situation or how to find your way if you have chemicals in your eyes. We did this by being blindfolding and finding your way out of ship or to an eyewash station. We also practiced an Abandon Ship drill. We had to put on our survival suits and get to our life rafts. I am glad we are prepared.

Me in the Survival Suit.
Photo: LT Colin Kliewer

Abandon Ship Drill — Preparing to get into the survival suits during the Abandon Ship drill

Additional Photos:

Leaving Savannah and heading down the river

Drill — GVA Richard Odom practicing finding his way to an eye wash station without the ability to see. ENS Conor Maginn assists

Blackout Prep — ENS Carmen practicing how to evacuate the ship during a blackout.

August 2, 2012August 11, 2021

Susan Kaiser: Technology, Tool of the Marine Scientist, August 1, 2012

NOAA Teacher at Sea
Susan Kaiser
Aboard NOAA Ship Nancy Foster
July 25 – August 4, 2012

Mission: Florida Keys National Marine Sanctuary Coral Reef Condition, Assessment, Coral Reef Mapping and Fisheries Acoustics Characteristics
Geographical area of cruise: Florida Keys National Marine Sanctuary
Date: August 1, 2012

Weather Data from the Bridge
Latitude: 24 deg 29 min N
Longitude: 83 deg 07 min W
Wind Speed: 1.4 kts
Surface Water Temperature: 28.38 C
Air Temperature: 29.3 C
Relative Humidity: 76%

Science and Technology Log

Cycles are patterns that repeat over and over again and science is full of examples of them: rock cycle, carbon cycle and life cycle just for starters. I am sure you can probably even name a few more. Tonight will be the last night of a full moon, another cycle, and with it Mutton Snapper spawning will end for the time. When the Mutton Snapper, scientific name (Lutjanus analis), gather in a large group marine scientists call an aggregation.

This means that the male and female fish swim to a particular location in the ocean increasing their numbers and the chance that many more eggs will be fertilized to produce the next generation of fish. The trick for the scientists is finding where on the ocean floor these aggregations will occur. Using the Remotely Controlled Vehicle (ROV), diver sightings of good habitat and even knowledge of where fishermen have made great catches, scientists can zero in on where to observe an aggregation.

However, there is one more technology tool that can help locate fish AND map the ocean floor at the same time. This is multibeam charting technology create the colorful maps of the hidden world below the water.

Bathymetry image showing depth of Lake Tahoe made using multibeam charting technology.

You may have seen one of these beautiful images which use different colors to indicate changes in depth. I have always wondered how these charts were made. In fact, NOAA Ship Nancy Foster has crew members charting the ocean floor 24 hours a day while we are underway even when we are sleeping! Multiple sonar signals are directed from the ship toward the ocean floor when they bounce back the ship receives the signal on the computers. This signal shows on the computer screen as a small dot. When enough dots are arranged together at the depth they represent a picture of the ocean floor begins to emerge. The trained eyes of the survey technicians are needed to create an accurate two dimensional image of what lies beneath the water. The charts they create allow ships to remain safe and avoid running aground. When ships and boats stay in the proper depth of water they do not harm fragile coral reef areas which are easily damaged by these destructive collisions. In addition to recording safe passageways and creating depth charts that mariners use as they navigate, this technology can also spot fish within the water column locating the fish aggregations the marine scientists are studying. Many NOAA ships are equipped with this same technology and explore other parts of the ocean gathering similar data.

Technology helps the research team compensate for changing conditions such as visibility, currents, and ocean depth. Each tool has strength and weakness. For example, this morning our boat deployed a Seaviewer drop camera which is tethered by the cord and carried down by a weight. We were at a location called Riley’s Hump where the current is fast!

ROV technology would not work in this situation because it would be too difficult to maneuver in this current. It takes teamwork to handle the positioning of the boat while one scientist observes the computer screen for video and another pair manage the descent of the camera and weighted rope. However, the drop camera can only “look” one direction so once the fish swim past, the camera cannot follow them unlike the ROV in calm water. When used together, these technology tools allow scientists to develop an understanding of the habitat and the organisms that live on the ocean floor but they also have limitations.

Ben Binder deploys the Seaviewer drop camera over Riley's Hump location. — Ben Binder deploys the Seaviewer drop camera over Riley’s Hump location.

The marine scientists plan their data gathering with these variables in mind. On this trip they returned to the VR2 sites where they have been collecting data since 2008 but they are always looking for other areas of the habitat to study. While they dive to retrieve VR2s or use the ROV and drop camera they are identifying future research sites wondering which fish might prefer that spot.

Computer screen image as we pass over an aggregation site. The baseline shows the ocean floor in profile. The mass of dots represent fish!

Their path is determined by questions: Do the Mutton Snapper live near their aggregation site or do they swim to this location from elsewhere? Do different groups of Mutton Snapper aggregate each full moon or is it the same group returning to Riley’s Hump? How often do these aggregations happen? All the technology available cannot answer these questions so when the time is right the scientists dive to make a direct observation of what organisms are living in the study area. On this cruise we learned that some areas did not have many fish on the day we visited yet other sites were rich with organisms.

The VR2 data will tell more of the story. The scientists will revise their plan and add more data in the fall. In time they will learn the answer to these questions and then perhaps identify related or new questions to pursue. This is a cycle of research. You may have heard it called scientific method. It is a process of asking questions and trying to answer them through investigation and observations. It is a process I watched unfold for this marine science team. It was unforgettable!

Personal Log:

Every discipline has its own specialized vocabulary. Tackling new science words with my students breaking down their meaning to understand and remember them is something I do regularly. Living aboard NOAA Ship Nancy Foster for the last week has put me in role of learner again. My teachers are the marine scientists and mariners. I am learning the names of organisms that we encounter and details about their behaviors. Some of this information I remember from my college classes but much of it is new. The mariners even have their own vocabulary! In fact, the Executive Officer, Donn Pratt, provided me with a list of seafarer vocabulary. I thought it was interesting and that you might enjoy reading it too:

Safety sign marking the spot to report or "muster" — Safety sign marking the spot to report or “muster”

Seafarers Nomenclature!!
Showers and toilets referred to on ships as “heads!”
Hallways are called “passageways.”
Windows are called “portholes.”
Bunk is called a “rack.”
Floors are called “decks.”
Ceilings are “overheads.”
Lastly…to report to a designated location is to “muster!”

More of a challenge for me is living at sea. I am still adjusting to the rocking motion of the ship. Thank goodness the water has been calm and my plan to prevent seasickness is effective. Today tested this hypothesis by performing a little science experiment. I skipped the seasickness medicine and took off the wrist bands. Within two hours my stomach was feeling queasy so I popped the wrist bands back on and now feel fine. One of the scientists pointed out that it is effective because you believe it will work. That may be the case but I got the result I hoped for so I am a believer in sea bands.

Mrs. Kaiser on the bridge deck at the last full moon. — Mrs. Kaiser on the bridge deck at the last full moon

My former students know that I love the dictionary and we refer to it often in my classroom. As I see it, the dictionary is a critical tool to both understand another person’s thinking as well as to communicate our meaning clearly. Unfortunately, I didn’t pack a dictionary and early in the cruise it became clear I needed one. I had worn out “Cool!” “Amazing” and “Interesting” to comment on what I was seeing and living each day on this adventure. I looked up the definition of “superlative” when our course pointed away from the “Dead Zone” but the list of synonyms didn’t help much. Perhaps the best way to describe my experience as a NOAA Teacher at Sea on NOAA Ship Nancy Foster is just this: I am in AWE!

Superlative: adjective. 1) of the highest quality or degree. 2) expressing the highest or a very high degree of a quality (e.g. bravest, most fiercely).

Awe:noun. a feeling of reverential respect mixed with fear or wonder.

Marine science team with Mrs. Kaiser after deploying the ROV. — Marine science team with Mrs. Kaiser after deploying the ROV

July 28, 2012August 11, 2021

Susan Kaiser: Safety and Teamwork Needed for Success, July 27, 2012

NOAA Teacher at Sea
Susan Kaiser
Aboard NOAA Ship Nancy Foster
July 25 – August 4, 2012

Weather Data from the Bridge
Latitude: 24 deg 41 min N
Longitude: 82 deg 59 min W
Wind Speed: 5.61 kts
Surface Water Temperature: 30.33 C
Air Temperature: 29.33 C
Relative Humidity: 79.0%

Science and Technology Log

Close up of the bridge of NOAA Ship Nancy Foster

Safety is first in the science classroom AND on board the NOAA Ship Nancy Foster too. Our expected departure was delayed by one day because the Public Announcement (PA) system was not working. Without the PA system, communication about emergency situations would not be possible. The ship’s crew worked to solve the problem themselves and also contacted outside help, but in the end a part had to be replaced so we stayed in port at Key West an extra day. Ships don’t sail without meeting safety requirements. By morning on Friday the system was working fine and the crew prepared to set sail.

safetymtg.sm — Lt Josh Slater leads the science team safety briefing in the dry lab.

After boarding the NOAA Ship Nancy Foster one of our first tasks was to review the safety protocols of the ship with one of the ship’s officers. We learned the whistle signals for man overboard (3 prolonged blasts of the alarm), fire (1 continuous blast of the alarm) and abandon ship (7 or more short blasts followed by 1 long blast) and the designated places to report in these situations. We will be practicing abandon ship in a drill very soon so I will report on that later. Since the ship works on a 24 hour schedule someone is always awake on board which means someone is always asleep too. Lt. Slater stressed the importance of not being too loud and showing respect for others’ space. After all this ship is home to the crew and the science team are guests in that home.

NOAA Ship Nancy Foster officers ENS Jamie Park, ENS Michael Doig and Lt Josh Slater (hidden), inspect diving equipment.

Teamwork is critical on board the ship. The science team and the ship’s crew work closely to help each other achieve the best results and stay safe. Most of the data collected on this cruise uses divers. Twice each day, the science team meets to review the Plan of the Day or POD. This meeting allows team members to learn the expectations of them to meet the research objectives of the day. They also have the chance to provide input or to ask questions. What do you think is a main focus of this meeting? You got it…Safety! While we waited for the PA system repair, the scientists checked their SCUBA gear again under the supervision of the ship’s crew members. This double-check insures all the equipment is safe to use.

After we steamed away from the keys, the scientists did a practice dive to simulate an unconscious diver at the surface. This drill included 5 science team divers as well as the ship’s crew and allowed them to practice their response in an emergency situation as well as deploying a small boat. A debriefing meeting afterward helped to identify the important tasks that need to be completed in the event of an emergency. Practicing through drills allows a quick response to an unusual situation and helps everyone stay safe.

diverres.sm — Unconscious diver drill. Pictured Ben Binder, Lt. Slater, and Chris Rawley. Sarah Fangman, who acts as the unconscious diver, is in the boat.

With the safety issues well-covered, the science team is ready to begin retrieving the “listening stations” called VR2s from their positions on the ocean floor tomorrow. VR2 stands for Vemco Receiver 2 and is the model of the equipment used by the scientists use to collect fish movement information. What do you think the “listening stations” are listening for? Read about the “listening stations” in a future posting of my blog. For now you can make an educated guess by reading for hints in this blog and answering this poll.

Personal Log

rno airport.sm — Mrs. Kaiser at the Reno-Tahoe International Airport ready to start her NOAA Teacher at Sea adventure!

Flying out of Reno, NV the plane took off heading south climbing quickly into the sky. From my window seat I could see Pine Middle School below. Then after a quick glimpse of Lake Tahoe to the west, the plane turned gracefully eastward. As I looked down I could see the desert valleys that once lay beneath the ancient Pleistocene lakes, covering a good part of the Great Basin with water. Although it doesn’t seem possible, one can still find shells and marine fossils in these now desert locations. I thought how different the landscape is today compared to the distant past. Our environment is undergoing constant changes even though the processes may seem slow and may not be noticed from day to day.

This is why it is important to observe, record and think about all aspects of our environment and to be aware of small changes so we can predict if they may become big impacts. Soon I would be landing in Florida, a state very different from Nevada, and joining the science team aboard the NOAA Ship Nancy Foster. This team is one of many that makes observations of their marine ecosystem, recording data and interpreting any changes or patterns they notice. I am very pleased to join them for the next 2 weeks and expect to learn a great deal.

Greeting me at the airport were artistic decorations made of models of tropical fish found along the Florida coast. High on the walls, they are creatively arranged in geometric patterns reminding me of synchronized swimmers competing in the Summer Olympics. These fish are more than art. They represent an important economic factor to Florida. They lure tourists for diving and snorkeling activities. Some of them are harvested for food or fished for sport. They are also important to the ecosystems of the coastal reefs and shore communities of Florida. I wonder what changes these scientists are seeing in this marine ecosystem. What are the solutions they will propose to the public? How can a balanced management meet the needs of people who live and work there? These are difficult questions to answer.

ancient lake beds.sm — Great Basin at 30,000 ft. This area would have been covered with small lakes during the Pleistocene period.

It is dark when I arrive finally in Key West but a scientist meets me at the airport and drives me to the ship where I find my bunk and spend the night! Everyone has been very kind and helpful which makes participating in NOAA Teacher at Sea even more amazing – if that is even possible!

June 27, 2012August 11, 2021

Susan Kaiser: Introduction: A 7th Grade Memory, June 26, 2012

NOAA Teacher at Sea
Susan Kaiser
Aboard NOAA Ship Nancy Foster
July 24 – August 4, 2012

Mission: Ecosystem Survey
Geographical area of the cruise: Florida Keys National Marine Sanctuary
Date: Tuesday, June 26, 2012

A California coast tide pool.
Can you find the Sculpin fish?

My first ocean encounter happened while on an overnight field-trip to San Francisco in 7^thgrade. Our Science Club traveled from Reno, Nevada by school bus to visit a museum, the Fisherman’s Wharf, and the tide pools on the coast. I had no idea how this experience would eventually impact my life. Our teachers, who were our guides, lead the group to a steep drop off where the land ends and the beach lies below. Carefully we picked our way single file down a worn path cutting through a sea of ice plants descending slowly to the sandy shore. Outcroppings of rocks trapped the cold ocean water, forming small natural containers for water AND living sea organisms. We had to step carefully to be sure of our footing and to avoid crushing the live inhabitants of these rocks. California mussels closed tight to preserve their moisture, and slippery seaweed covered most of the rock surface. They were waiting for the sea level to rise again. Peering into the sparkling pools revealed spiny purple sea urchins, colorful sea stars and tiny crabs, betrayed by their movement across the pool bottom. Seeing these organisms up close was amazing to me and created a lifelong memory. It awakened a curiosity about living things that inspired me to study biology in college and become a science teacher.

I am Susan Kaiser and I teach 7th grade Life Science at Pine Middle School in Reno, Nevada. Soon, I will be embarking on a voyage that combines all of these elements: biology, sea organisms and teaching. It promises to be even more memorable than my first trip to a tide pool. Best of all, I get to bring my students at Pine along with me! Well, at least through this blog…read along and see what is in store.

Since, 1990 NOAA (National Oceanic and Atmospheric Administration) has been including teachers on board their research vessels through a unique program called Teacher at Sea. Each year teachers apply from across the county and about 25 are selected to participate. After several years of wanting to apply, I finally mustered my courage and completed an application. I am proud to have been selected and will sail aboard the NOAA Ship Nancy Foster leaving from the port of Key West, Florida. I will have the opportunity to observe and learn about organisms in the Florida Keys National Marine Sanctuary with the help of the crew and scientists led by chief scientist, Scott Donahue. Their research includes monitoring sensitive marine organisms over a long period of time. In this way, scientists can detect population changes that may occur due to extreme events such as hurricanes, harmful algal blooms (HAB) or more recently, impacts of possible oil spill contamination. You can see that I have some homework to do to prepare for this adventure. I am reading the websites you can click on and learning all I can to contribute to the success of the mission.

Kaiser Family snorkeling in 2005 — Here we are snorkeling and meeting a ray in 2005! That is me on the left. Then my sons, Nathan and Stefan, my daughter, Rachel, and my husband , Phillip.

If it could get any more exciting, I saved the biggest news for last. In addition to working alongside the scientists and living on an ocean-going vessel for two weeks, I may also have the opportunity to snorkel in the coral reef study areas. To be truthful, my snorkeling skills are a little rusty. Living in the desert makes it a challenge to stay in practice! The last time I snorkeled was on a family vacation in 2005. But not to worry, I have a plan. I have been spending time at the pool practicing with the snorkel equipment I borrowed from my friend and colleague at Pine Middle School, Jencie Fagan. It turns out that Ms. Fagan is SCUBA certified and willing to help me build my skills before I set sail next month. Thank you Ms. Fagan, you rock!

My snorkeling tutor — Me and my snorkeling tutor, Jencie Fagan.
Photo by Larissa Hirning

It is time for my practice session at the pool. The next time you read my blog I will be writing from the NOAA Ship Nancy Foster. Join me on this adventure of ocean learning. What memory will you make of your 7th grade year in Science?