NOAA SHIP OKEANOS EXPLORER – Page 5 – NOAA Teacher at Sea Blog

July 18, 2018September 19, 2018

Meredith Salmon: Setting Sail! July 12, 2018

NOAA Teacher at Sea

Meredith Salmon

Aboard NOAA Ship Okeanos Explorer

July 12 – 31, 2018

Mission: Mapping Deep-Water Areas Southeast of Bermuda in Support of the Galway Statement on Atlantic Ocean Cooperation

Geographic Area: Atlantic Ocean, south of Bermuda

Date: July 12, 2018

Weather Data from the Okeanos Explorer Bridge – July 12, 2018

Latitude: 32.094°N

Longitude: 69.591°W

Air Temperature: 26.2°C

Wind Speed: 10.7 knots

Conditions: Sunny

Depth: 693 meters

Survey Area — Map showing the planned operations area for the expedition outlined in yellow. Image courtesy of the NOAA Office of Ocean Exploration and Research.

Science and Technology Log

According to the Oceanic Institute, the oceans cover 71% of the Earth’s surface. This is calculated to be 335,258,000 square kilometers! Recently, the Okeanos Explorer mapped over 1,000,000 square kilometers of the seafloor using high- resolution multibeam sonar. Although this may not seem like much, that region is larger than the areas of Arizona and Texas combined!

So why is it so important for the Okeanos Explorer to map the seafloor? The ocean’s terrain plays a very important role in ecosystems since underwater valleys determine currents and weather patterns, sea topography influences fishery management, and seamounts serve as protection against unpredictable storms. Therefore, high-resolution maps allow scientists to categorize marine habitats, provide information vital to protecting and tracking marine life, and enable us to make smart decisions for solid, sustainable conservation measures.

In order to successfully map the ocean floor, multibeam sonar is used. The Okeanos Explorer uses an EM 302 multibeam system that is designed to map a large portion of the ocean floor with exceptional resolution and accuracy. The EM 302 transducers point at different angles on both sides of the ship to create a swath of signals. Transducers are underwater speakers that are responsible for sending an acoustic pulse (known as a ping) into the water. If the seafloor or object is in the path of the ping, then sound bounces off the object and returns an echo to the transducer. The EM 302 has the ability to produce up to 864 depth soundings in a single ping. The time interval between the actual signal transmission and arrival of the return echo (two way travel time) are combined with a sound velocity profile to estimate depth over the area of the swath. In addition, the intensity of the return echo can be used to infer bottom characteristics that can be utilized for habitat mapping. Since the EM 302 creates high density, high-resolution data as well as water column features, this sonar system is ideal for exploring the seabed for geographic features.

The image below shows data being collected by the multibeam sonar on the Okeanos Explorer. The colors are used to indicate swath depth (warm colors indicate shallow waters while cool colors indicate deeper waters).

Multibeam sonar data including backscatter (lower left), depth (upper center) and water column data (lower center) from 7/12/2018 the Okeanos Explorer

As this data is being collected, it must be “cleaned” to eliminate any erroneous points. Data is collected and cleaned in both the Dry Lab and Mission Control Room.

Mission Control Room aboard the Okeanos Explorer

Since we have not reached the survey area yet, we have been monitoring the depth of our path thus far. We are collecting transit data which is considered to still be valuable data for unmapped seafloor area, but it may not be as high quality as focused mapping data. We will continue to collect transit data until we reach the survey area near Bermuda.

Personal Log

Life onboard the Okeanos Explorer has been a very interesting and fun learning experience! The ship runs on a 24/7 operation schedule and people are working diligently at all hours of the day. Everyone on the ship has been really welcoming and willing to share their stories and insights about their careers at sea. I am really looking forward to speaking with more people to learn about their experiences!

We set sail out of Norfolk today and began our 3.5 day/4 day transit to the survey area near Bermuda. This morning, we found out that we will need to schedule an emergency dry dock towards the end of our mission to solve an issue with a stern thruster necessary for ROV cruises. As a result, we will not be ending up in port in St. George, but we will still be able to map the area 200 nautical miles off the coast of Bermuda, so that is great!

norfolk out to sea! — NOAAS Okeanos Explorer (port quarter aspect) navigating the Elizabeth River outbound for sea from the NOAA pier in Norfolk, VA on July 12, 2018. [Photo by Commander Briana Hillstrom, NOAA

Did You Know?

Sonar is short for Sound Navigation and Ranging.

Check out this video for a visual representation of the process sonar uses to generate data! https://oceanservice.noaa.gov/caribbean-mapping/mapping-video.html

Resources:

https://www.oceanicinstitute.org/aboutoceans/aquafacts.html

https://oceanexplorer.noaa.gov/okeanos/one-million/welcome.html

July 6, 2018August 8, 2018

Meredith Salmon: The Final Countdown, July 5, 2018

NOAA Teacher at Sea

Meredith Salmon

Aboard NOAA Ship Okeanos Explorer

July 12 – 31, 2018

Mission: Mapping Deep-Water Areas Southeast of Bermuda in Support of the Galway Statement on Atlantic Ocean Cooperation

Geographic Area of Cruise: Norfolk, Virginia to Bermuda

Date: July 5, 2018

Weather Data from Home (Clarks Summit, PA)

41.4887°N, 75.7085°W

Air Temperature: 28.0° C

Wind Speed: 1.7 Knots

Wind Direction: Southwest

Conditions: Partly Cloudy, 69% Humidity

Introduction

Hi everyone! My name is Meredith Salmon (yes, just like the fish) and I cannot believe that it is almost time to begin my adventure aboard NOAA’s Okeanos Explorer. This June, I finished my fourth year teaching Honors and Regular Biology at the Peddie School located in Hightstown, New Jersey. Peddie is an independent, coeducational boarding and day school that serves 551 students in grades 9-12. We welcome a diverse student body from all across the United States and the world. Our students represent a total of 23 states as well as 34 countries and 64% of students are boarding while the remaining 36% commute. Therefore, I am committed to creating a global classroom where students are engaged in a problem-based curriculum that emphasizes scientific investigation and critical thinking. In addition to teaching, I serve as the Assistant Girls’ Varsity Soccer Coach and will be the Assistant JV Girls’ Basketball Coach this winter. I have also coached winter track the past two years. I live and work as a Dorm Supervisor in a sophomore level female dormitory as well. Working as a teacher, coach, and dorm parent in the Peddie Community has granted me the unique opportunity to shape the lives of many students in and outside the classroom environment.

peddie-vs-blair — Myself (4th from the left) and fellow Peddie Faculty Coaches

Being immersed in current research while engaging with other scientists and crew members onboard the Okeanos Explorer is going to be an incredible experience. I am really excited to take what I learn in these next couple weeks and use it to design a Marine Science/Biology elective for next spring semester. I think it is so important for students to use science, engineering practices, and technology to become well versed in ocean literacy and discovery as well as NOAA’s endeavors in ocean exploration. I can’t wait to share what I’ve learned with you soon!

More about the Mission:
The Okeanos Explorer will map an area southeast of Bermuda designated by the Atlantic Seabed Mapping International Working Group (ASMIWG) at the 4th Annual Galway Trilateral Meeting in April 2017. As part of the Galway initiative, the ASMIWG utilized a suitability model to identify priority regions in the Atlantic Ocean factoring in areas of public interest, sensitive marine areas, and areas with marine resource potential. This will be the first U.S.-led mapping effort in support of the Atlantic Ocean Research Alliance/ASMIWG initiative.

Did You Know?

From the end of May until early July, NOAA and partners conducted an extensive ocean exploration expedition aboard the Okeanos Explorer. The goal was to collect important baseline information about unknown and poorly understood deepwater regions of the Southeastern United States. For more information and cool videos, check out their website!

https://oceanexplorer.noaa.gov/okeanos/explorations/ex1806/welcome.html

March 9, 2015August 21, 2021

Theresa Paulsen: Preparing to Explore the Ocean Floor, March 9, 2015

NOAA Teacher at Sea
Theresa Paulsen
Preparing to Board NOAA Ship Okeanos Explorer
March 16 – April 3, 2015

Mission: Caribbean Exploration (Mapping)
Geographical Area of Cruise: Caribbean Trenches and Seamounts
Date: March 9, 2015

Personal Log

If you could have any super power imaginable, what would it be? Growing up, my son asked me this question numerous times as we walked our dog. While he pondered the advantages of flight, invisibility, or spontaneous combustion, my answer was always the same. I want Aquaman’s powers (but a better looking outfit). I want to swim underwater without the need for dive gear, seahorses, or gillyweed, to see what few others have seen. I want to communicate with whales and dolphins to find out what their large brains can teach us about our planet. While I may not be able to attain superhero status, I can join some real-world adventurers on an amazing vessel equipped to conduct research that will help realize my dream of seeing the unseen depths of the ocean.

Hello, from Northern Wisconsin! My name is Theresa Paulsen. I am a high school science teacher in Ashland, WI. I have been teaching for 17 years while living along the south shore of Lake Superior with my husband and our two children.

Our children, Ben and Laura, paddling the sea caves in the Apostle Islands, N.L.

The pristine lake and the rich forests around the region provide the resources that sustain our local communities. As we work to promote local stewardship in the classroom, we must recognize that the health and welfare of the resources we treasure are connected to the greater global environment which is heavily influenced by the processes that occur in our oceans. The geological processes occurring near our research zone are fascinating. The North American plate slides passed the Caribbean plate creating the Puerto Rico trench, the deepest part of the Atlantic Ocean.

Bathymetry of the northeast corner of the Caribbean plate. Image courtesy of USGS.

Maps generated by the vessel’s state-of-the-art multibeam sonar on our mission will help geologists learn more about the tectonic activity and potential seismic hazards in the area. (Let’s hope the only rumblings I feel are those caused by the typical mild sea-sickness!) The maps will also be used by marine biologists and resource managers to investigate and assess unique habitat zones. Learn more the mission goals here.

My students and I have been checking in on the vessels live video feed periodically as the ship sails from Rhode Island to Puerto Rico, mapping along the way. I will join the crew in Puerto Rico on the 14th to begin training before the vessel sets sail for the second leg of the mission on the 16th. Throughout our journey, scientists will use the maps we generate to determine areas that require further investigation with the vessel’s remotely operated vehicle (ROV) on the third leg of the mission.

NOAA Ship Okeanos Explorer with camera sled, Seirios, deployed and below that, IFE’s Little Hercules—a science-class ROV. Credit: Randy Canfield and NOAA.

My goal is to learn as much as I can on this expedition! There is no better way to motivate students to become life-long learners and scientific thinkers than to show them how exciting real research can be. Through the NOAA Teacher at Sea program, my students and I will have the rare opportunity to learn first-hand about the science and technology oceanographers use to study fascinating places in the ocean. I will return to the classroom in April, equipped with lesson ideas and answers to questions about ocean research and careers! Thank you for following me on my journey. Please post questions or comments. I will do my best to address them in future posts (although communication aboard the vessel can be tenuous, I am told). Here is my first question for you:

May 15, 2014August 20, 2021

David Murk: Do You Know Your ABCs? May 14, 2014

NOAA Teacher at Sea
Dave Murk
Aboard NOAA Ship Okeanos Explorer
May 7 – 22, 2014

Mission: EX 14-03 – Exploration, East Coast Mapping
Geographical Area of Cruise: Off the Coast of Florida and Georgia – Western portion of the Blake Plateau (Stetson Mesa)
Date: May 14, 2014

Weather data from Bridge:

We are sailing south and are at 28.55 degrees North, 79.44 degrees West

Wind: 23 knots out of the southeast.
Visibility: 10 miles
Water Depth in feet: 653 feet
Temperature: 27 degrees Celsius – both sea and air temp. are 80 degrees!

Our location can also be found at: (http://shiptracker.noaa.gov/).

Science and Technolgy Log:

DO YOU KNOW YOUR ABCs?

Can you understand this sentence?

“During a watch change, the XO checked the AIS then handed control over to the CO. When contacted by the mapping room regarding the XBT launch and CTD termination check, the CO said,“Roger that”.

After reading this- you’ll have a better idea what some of these acronyms mean and how we use them on the Okeanos Explorer. In other words, you’ll be able to say- “roger that” to show you understand and agree.

Let’s start with the XO and CO – They are easy and make sense.

CO – The Commanding Officer – He or she is responsible for everything on the ship. (see Personal Log for more information on Commander Ramos of the Okeanos Explorer)

XO – The Executive Officer – Reports to the Commanding Officer and is second in command.

AIS –What is it and why do we need it?

Automatic Identification System. The Okeanos Explorer has an electronic chart display that includes a symbol for every ship within radio range. Each ship “symbol” tells Commander Ramos the name of the ship, the actual size of the ship, where that ship is going, how fast it’s going, when or if it will cross our path, and a lot of other information just by “clicking” on a ship symbol! Here is a link to get more information on AIS. I also took a picture of the Okeanos Explorer AIS screen and below that there’s the actual picture of our closest neighbor, the ship named “Joanna”(look closely on the horizon) . If the CO feels like the ship is going to need to change course, he will inform the scientists in the mapping room right away. Safety and science RULE!

Explanation of AIS

Our closest neighbor, the ship named “Joanna”(look closely on the horizon).

XBT- What is it and why do we need one?

Sam Grosenick, mapping intern, launches the XBT.

Every two or three hours the mapping team calls the bridge (the driver seat of the ship) and asks permission to launch an XBT – which is short for an eXpendable BathyThermograph. That’s a heavy weighted probe that is dropped from a ship and allows us to measure the temperature as it falls through the water. WHY do we need to measure the temperature of the water if we are using sonar? Sound waves travel at different speeds in different temperature water, just like they travel at different speeds in cold air than warm air. So they need to know the temperature of the water to help calculate how fast the sound or ping that the ship’s sonar sends out so they can map the bottom of the ocean. A very thin wire sends the temperature data to the ship where the mapping team records it. There is more information about XBT’s here:

explanation of XBT

NOAA’s network of XBT data

CTD – What is it and why do we need one?

Chief Electronics Technician Richard Conway and Chief Boatswain Tyler Sheff prepare for a dawn launch of the CTD

Many oceanographic missions use CTD’s. The Okeanos Explorer is no exception. CTD stands for conductivity, temperature, and depth, and refers to the electronic instruments that measure these properties. The grey cylinders are water sampling bottles and the big white frame protects everything. WHY do scientists need CTD’s? Scientists use a CTD to measure the chemistry of the Ocean from surface to bottom. The CTD can go down to near the bottom and the cylinders close when the scientist on board ship pushes a key on the computer and close so that a water sample is captured at that depth. It’s a lot easier than swimming down there and opening up a jar and closing it.

WHY do they want to know about conductivity? Why do they care how much electricity can go through the water? If the water can conduct more electricity, then it has a higher salinity, i.e. more salt. That helps the scientists know the density of the water at that depth and can help inform them of the biology and ocean currents of that area.

It’s a CTD, not a railing! (picture taken by Kalina Grabb)

More info on a CTD from NOAA

CTD vertical cast

Personal Log

As I mentioned in last blog, everyone plays a part on the Okeanos Explorer. The CO plays a big part in making sure the scientists achieve their goals. The man in charge- Commander Ricardo Ramos answered a few of my questions last night in his office in the forward part of the ship.

When I say Oregon Trail, fifth graders usually think of covered wagons. I doubt that they think of a family of immigrants from Mexico deciding to leave family and friends in sunny Los Angeles and hit the trail north to rainy Oregon. But the devastating riots in Watts in the 1960s caused Commander Ricardo Ramos’s parents to do exactly that. There were some adjustments to be made to life in tiny Klamath Falls, Oregon but his parents, 3 brothers and sister were up to the challenge of no family support and a new community. The family worked for Weyerhaeuser and Commander Ramos knew he did not want to work in the plant the rest of his life. It was never IF he’d go to college, but “WHERE”. He was the second of the five children to attend college, earning 2 Associates degrees and a degree in Electrical Engineering. After entering NOAA and gaining his masters from Averett University, he spent time on various NOAA ships and in other capacities. He is also a graduate of Harvard’s Senior Executive Fellows program.

He had a couple words of advice for elementary school students. First, take advantage of all learning opportunities, for you will never know when you might need the knowledge you will gain. Second, that communication, both written and oral, is probably the most important part of his job. He is not afraid of getting input and editing of his writing for the job. His greatest reward is realizing that he is charge of a tremendous asset of the United States that provides a platform for scientist to explore our vast oceans.

Did You Know?

My ship – The Okeanos Explorer is about 70 meters - the length of the top of the arch on the Eiffel Tower! — My ship – The Okeanos Explorer is about 70 meters – the length of the top of the arch on the Eiffel Tower!

Displacement – When you think displacement, you probably think of a quick definition like “moved aside” that we learned when we made aluminum foil boats. When you get in a kiddie pool, bathtub or any body of water, you move aside water. If you measure the weight or amount of water that you move aside, that is your displacement. The Okeanos Explorer moves aside a lot of water – more than 2,500 TONS of water. That’s about 700,000- gallons of water that gets displaced. The ship is 224 feet long and 43 feet wide in its widest part. Now, I don’t know about you – but I start thinking about the really big ships and tankers that we see passing by the Okeanos Explorer on the radar (their ‘deets’ are given to us by the AIS system – See the Section on ABC’s for an explanation of AIS) Well, there was a ship called “The Knock Nevis” and it was 1500 feet long! Did it displace water? You bet!. 650,000 tons of water when fully loaded! (use a ton of water = gallon converter on google to figure out how many gallons that is). Let’s just say that it’s a lot more than our little MUFFIN – the winner of the Coon Creek Boat Race.

MUFFIN, the boat race “WINNER” and Mr. Murk on the high seas. (picture taken by Sam Grosenick) — MUFFIN, the boat race “WINNER” and Mr. Murk on the high seas.
(picture taken by Sam Grosenick)

May 12, 2014August 20, 2021

Dave Murk: Three 2’s From the Okeanos Explorer, May 10, 2014

NOAA Teacher at Sea
Dave Murk
Aboard NOAA Ship Okeanos Explorer
May 7 – 22, 2014

Weather data from Bridge:
Temperature 25 degrees celsius (can you convert to Fahrenheit?)
WInd – From 160 degrees at 14 knots (remember north is 0 degrees)
Latitude : 28 degrees – Longitude: 79 degrees.

Science and Technolgy Log:

Two of the goals for this expedition. (There are a lot more)

Expedition coordinator Derek Sowers said his best case scenario for this mission is to meet all the cruise objectives. The main one- an aggressive 24/7 campaign to map as much seafloor as possible within top priority mapping areas offshore of the Southeast United States and along the canyons at the edge of the Atlantic continental shelf.

L – R – Chief Scientist Derek Sowers, Vanessa Self-Miller, Kalina Grabb

In addition to that mapping goal, he wants the visiting fisheries scientist on board to get good water samples for the Ocean Acidification Program and good samples from the plankton tows. Last but not least, he “wants the mission team to have a great learning experience.”

The ship has three different sonars, each of which is good for different things. One sonar sends out a single beam of sound that lets you see fish and other creatures in the water column. Another sonar sends powerful sounds that bounce back off the bottom and gives you information about the geology (rocks and sediment) of the seafloor. Perhaps the most impressive sonar onboard is the multi-beam sonar. You know how your garden hose has a setting for jet spray when you want to aim it at your brother who is 10 feet away? The water comes out in a straight narrow line. But there’s also another setting called ‘shower” or wide spray. The multibeam sonar is like combining the best of both of these sprays into one and sends out a fan of sound that allows the scientists to map a broad section of the seafloor. By measuring how long it takes this sound to reach a patch of seafloor and return to the ship, it is possible to estimate the distance and that is how the shape of the seafloor can be mapped. Using this technology enables NOAA to map the seascape in order to better protect marine habitat and reduce harm from human activities. Mapping the marine protected areas off the east coast of Florida and Georgia is important because there are deep sea corals in this area and it is important fisheries habitat.

This cruise features a visiting scientist from NOAA Fisheries, named Chris Taylor. Chris’s part of the expedition includes collecting water samples and towing a net that can collect very small creatures called plankton. Chris is specifically examining the plankton he catches to see if bluefin tuna use this part of the ocean to lay eggs and raise young tuna. Samples from the net will go back to a lab to be analyzed to make sure they are bluefin and not yellowfin tuna.

Chris spent most of this windy but warm night tying a rope to the net that he’ll use for HOPEFULLY – catching some baby Bluefin Tunas. Like insects, Bluefin tuna go through an egg stage THEN a larva stage. When they are very small they drift with the currents with the rest of the ocean community. Once a larva is over 7 millimeters, they can avoid the net. But If we find some Bluefin tuna – it may mean that we have found a new spawning ground for Bluefin tuna in the southern North Atlantic.

Personal Log:

Lt. Emily Rose instructs AB Tepper-Rasmussen in radar navigation techniques.

Two people who make this ship run so well:The operations officer – Lieutenant Emily Rose. Officer Rose can usually be found on the bridge of the NOAA ship Okeanos Explorer. Today she was teaching a course on small craft navigation before I caught up with her. The thing she really loves about this position is that there are new set of challenges each day. She is always learning (and I’ll add that she is almost always sharing that knowledge with others) but the ship is her first responsibility. The most difficult thing is getting up every morning before 3:00 a.m. and being away from everyone back home.

Electronics Technicians Conway and Okeson

Chief Electronics Technician Richard Conway and Electronics Technician Will Okeson are the Tech guys and they are always busy. Since Okeanos Explorer is America’s premier ocean exploration ship, there are a lot of computers, miles of cable and lots of video equipment to maintain. Richard and Will’s favorite part of the job is when all the parts work together and the public can see their product and when they can trouble shoot and help the science team reach their objectives. The most difficult thing it so be away from families when there is a crisis or joyous moment.

Two things about my personal experiences so far on EX-14-03 (our mission)

Using photometer to monitor aerosol properties. (photo taken by Mapping Intern Kalina Grabb

First – – “SCIENCE RULES” to quote Bill Nye. Every Okeanos Explorer crew member and scientific crew member are all about the science of the mission. When one of the science crew is going to launch something called an XBT over the side, they call and get an OK from the bridge (where the captain or second in command and the crew that are on “watch” are located). No one hesitates to ask questions of each other. Why is this? What is that? Where is the nearest ship? What’s for lunch? (just kidding ! Chief Steward Randy posts a menu every day and it beats out Golden Corral any day of the week for tastiness and diversity). But the important thing of the mission is the science and every single person on the ship works to make the mission a success.

Second – RESPECT – There is so much respect shown on the Okeanos Explorer. It’s respect for other people, for the ship, for the environment, for rules and for commons spaces. Yesterday while on the bridge, Ensign Nick Pawlenko was taking over from Commander Ramos and they both showed such respect for rules and for each other by going over all the observations of the ship’s speed, the weather conditions and whether there were any other ships in the area. When breakfast was over – I saw Operations Officer Rose stick her head in the galley (kitchen) and thank Chief Cook Ray and Chief Steward Randy for a great meal. No one slams doors since it might wake the crew and scientists who are on night duty. Everyone cleans up after themselves. If you ever have a question and if the crew or scientists can answer it, they will. There is respect for the environment when we separate our garbage each meal. If only the whole world was like the Okeanos.

MYSTERY PICTURE – Here are two photos – what’s different about them? And WHY?? That’s the million dollar question (or an even better prize –bluefin tuna larva in our trawl nets )

IN the mess (dining area)