Patience, Patience, Patience

This post is part of a series chronicling the September 12-15, 2019 research cruise on board the R/V Oceanus, Oregon State University’s largest research vessel. This cruise was funded by Oregon Legislative funds through the Oceangoing Research Vessel Program. Coordination and additional support was provided by Oregon Sea Grant and the Oregon Coast STEM Hub.

Follow the adventures of the students, educators, and researchers who are on board engaging in #STEMatSea.

By Noah Goodwin-Rice

It has now been a few days since we returned from our four-day cruise on the R/V Oceanus, so I have had ample time to reflect on my experience. More than anything else, I believe that this opportunity has helped show me the value in demonstrating patience while conducting work in the field.

In particular, this concept was impressed on me by Dr. Leigh Torres and her Ph.D. student Dawn Barlow while conducting cetacean surveys from the ship. At times during our surveys, the vessel would proceed for hours across the ocean without the slightest indication of any whales. Eventually, we would sight an individual off on the horizon; then, within the span of perhaps 30 minutes, we would find our ship surrounded on all sides by so many humpbacks that it became difficult to keep track of them all! I soon realized that, inevitably, the monotonous stretches of empty ocean we traversed would reward us with the sight of the animals we sought so much. And the animals were always a treat to see; I truly enjoyed the chance to observe the whales we saw each day.

two people looking out to sea from the deck of a ship

Of course, our time during the cruise wasn’t solely devoted to whale surveys. There were other lessons in the value of patience each time we took samples of the ocean floor, gathering information on benthic ecology. To take samples of the ocean floor at various locations on the cruise, we used a winch at the stern of the ship to lower a box coring device that would return a scoop of sediment to the surface.

Then, after each sample was recovered on the ship’s deck, our job became the rather tedious work of picking out any small invertebrates that were carried up along with the sediment. This prepared the biological contents to be analyzed later back on shore.

It could be monotonous work, but I actually found the job to be incredibly fulfilling. Each sample became almost like a scavenger hunt, and it was fun to come across the many different unique species of annelids, arthropods, cnidarians, echinoderms, and molluscs. As I changed out of my hard hat and waterproof gear at the end of each sampling session, it felt great to have accomplished something that would further our understanding of the ocean floor – even if each sample demanded a significant investment of time to process.

Looking back on my experiences this past week on the R/V Oceanus, I feel exceedingly grateful to have been able to participate in this special opportunity. One reason I was so keen to be a part of this research cruise is because I am currently in the process of considering which paths to pursue in my future. My experience these past several days at sea has helped me realize that this is a line of work that I might be interested in continuing, and this will likely play an important role in my ultimate choices in the coming months.

Five people in hard hats, facing forward
Students participating in the R/V Oceanus cruise (L to R): Noah Goodwin-Rice, Genevieve Coblentz-Strong, Abigail Kirby, Ashley Brust, and Avarie Owens

Noah Goodwin-Rice attends Newport High School, and has spent two summers working as an youth interpreter at Yaquina Head Outstanding Natural Area. He is also a youth volunteer at the Oregon Coast Aquarium, and a member of the Aquarium’s “Nerdi Nautili” National Ocean Sciences Bowl team.

A Teacher’s Perspective

This post is part of a series chronicling the September 12-15, 2019 research cruise on board the R/V Oceanus, Oregon State University’s largest research vessel. This cruise was funded by Oregon Legislative funds through the Oceangoing Research Vessel Program. Coordination and additional support was provided by Oregon Sea Grant, the Oregon Coast STEM Hub, and OSU’s Regional Class Research Vessel program.

Follow the adventures of the students, educators, and researchers who are on board engaging in #STEMatSea.

By Carisa Ketchen

I consider myself to be a reflective teacher and as we head back to Newport to end our four day adventure at sea, it’s the perfect time to do so. Throughout the last few days aboard the research vessel Oceanus, our team of researchers and students have been working with a variety of technology and cutting edge scientific tools. The crew worked together diligently to perform tasks that required a strict mindfulness of safety and we had to be quick on our feet to deploy and retrieve equipment safely out of the water.

The students and I took part in a variety of research objectives. There are multiple research components being conducted throughout the day and into the late evening hours. We typically started the day with a rotating whale watching schedule, looking for spouts and other activity such as breaching. When we encountered enough activity in one region, five of the science party would load into the Red Rocket (RHIB) to get a closer look with the goal of identifying specific whales, counting, and tracking their movements.

Most mornings began bright and early with the deploying and retrieval of the CTD device. With this tool we gathered data regarding temperature, conductivity, density, and fluorescence which is helpful in determining where we may see whales and provides clues that indicate the upwelling nutrients.

CTD deployment
Early morning deployment and retrieval of the CTD.

Plankton tows also took place in the early morning and evenings. Students attached the cod ends to the nets and then launched the dual plankton nets to be towed at a specific depth for several minutes. The depth and angles for the nets was determined by the information received from the CTD. After obtaining the plankton from the nets, we identified the organisms via microscope.

People empty the cod end of the black plankton net on the ship deck
After the plankton net has been towed through the water, the net is brought back on the deck and the contents of the “cod end” are collected in a bucket for examination.

Taking box cores happened throughout the day and into the late evening to scoop up sediment and organisms from the ocean floor. This included learning to operate the hydraulic A frame and hooking the box for safe retrieval. After a core sample was taken, it was time to start sifting for marine organisms. We found several brittle sea stars, various worms, hydras, clams, and a plethora of other micro marine organisms.

As a local high school science teacher at Toledo Jr. Sr. High School, this has been a phenomenal experience. I’m currently writing a variety of lesson plans that I can incorporate into my classroom this semester and for years to come. Some of these include construction of research vessels, living at sea, working with a crew, ocean topography, different whale species and their migration patterns, plankton, soil sampling, and specific lessons about the technology and equipment used on board. I’m excited to share my experiences with my students and to continue developing marine science curriculum in order to increase ocean literacy. Having participated in many other professional development opportunities with OSU, I had some background knowledge about the Oceanus vessel and its objectives for research. However, being able to actively participate on board and work directly with the lead researchers and students has provided the most important educational opportunity that I could ever have imagined possible. I am inspired by this research and feel a renewed sense of passion and energy that I can’t wait to share with my students.

“I am inspired by this research and feel a renewed sense of passion and energy that I can’t wait to share with my students.”

I have always been intrigued by the ocean and marine biology. I can recall as a young kindergartner daydreaming about the ocean and drawing whales in my scrapbook. It was my goal to move to the Oregon coast since I first visited in 2008, so when the opportunity came up to “Teach at the Beach” with Lincoln County School District, I applied immediately and was fortunate to be hired. This will be my third year living on the coast and I’m looking forward to many more.


Carisa Ketchen is a Science Teacher at Toledo Jr Sr High School in Toledo Oregon. She obtained a B.S. in Natural Sciences with a minor in Geology at Lewis-Clark State College, and a Master’s degree in Science Education from Montana State University. Since coming to the Oregon coast, Carisa has participated in a variety of Oregon Sea Grant funded professional development opportunities focused on coastal and marine science, including MBARI Earth, MWEEs by the Sea, and the Oregon Marine Scientist and Educator Alliance.

Sampling at Sea

This post is part of a series chronicling the September 12-15, 2019 research cruise on board the R/V Oceanus, Oregon State University’s largest research vessel. This cruise was funded by Oregon Legislative funds through the Oceangoing Research Vessel Program. Coordination and additional support was provided by Oregon Sea Grant and the Oregon Coast STEM Hub.

Follow the adventures of the students, educators, and researchers who are on board engaging in #STEMatSea.

By Abigail Kirby

My name is Abigail Kirby and I am writing this post while aboard OSU’s R/V Oceanus! Last Spring at the end of my junior year of high school I applied to be a part of this research cruise because I am absolutely enthralled with the ocean and everything it has hidden beneath its surface. My passion for all things marine bloomed in me at a very young age thanks to the beautiful South Slough Reserve, nestled on the Coos Bay of the Southern Oregon Coast. In the summer, I am hired on annually at the slough to help lead summer science camps as an education intern. Activities at camp often include trekking around the trails, exploring the beach, and conducting water-related experiments.

On board the ship, there are many graduate students and scientists working on separate projects and experiments. Notable among them is Dr. Leigh Torres, who is working to study the effects of human noise on gray whales by collecting samples of their defection events (poop) then analyzing these fecal samples for hormones that may indicate their stress levels. Also on board is Jessica Porquez, an OSU researcher who is studying seabird distribution and abundance, identifying individual species and recording their locations. And the esteemed Dr. Sarah Henkel (who I first had the privilege of encountering during a lecture at OIMB in July), a benthic ecologist, who conducts surveys of the ocean bottom and the animals that live there at the designated PacWave energy test site.

One of the best ways to test what is at the bottom of the ocean is through a method called box coring. Bolted to the stern of the Oceanus is an A-frame that is able to lift and deploy the heavy metal box that is sent to collect a sample of sediment from the seafloor. Many hands are required in deploying and retrieving the device. First, someone must turn on the A-frame and run the hydraulics while two other hands guide the box corer over the back of the boat. The device is lowered to the bottom where a trigger releases, and the jaws close, quickly enclosing the sediment inside the core. Using the power of hydraulics, it is then pulled up and retrieved using two long poles with a rope and hook set-up. Two hands hook the line over the handles and guide the box back into its resting place while the A-frame is maneuvered back to its upright position.

Once the sample is back in its stand, we open the double-doors on the top, and reach in with a centimeter ruler. We measure the depth of the sediment from top to bottom, and then also collect a bit of the surface in a small, marked container. The jaws are then forced open, releasing the sediment into a bucket that is placed underneath. From there it is transported to a sieve that is able to sift out the sand, leaving the organisms and solid debris behind. Using forceps, critters are put into a larger container which will be preserved to study later. This process is repeated for each core.

Some of the sea creatures found in the samples where an assortment of sand dwelling worms, proboscis and all, brittle stars and brittle star bits, small bivalves, and tiny little sea snails.

female with binoculars looks out to sea
Abbie surveys the sea from the flying bridge

Although I do love marine science, it is not necessarily what I will choose to pursue as a career, or at least not directly. My goal is to study infectious diseases, especially those of the viral kind and the “spillover” effect that allows them to jump from animal host to our own species. I’d like to be able to make conclusive connections between emerging viruses and the climate change that humans have imparted on our planet. I hope to one day study the spillover effect between humans and marine life, and then establish a direct link to our climate pollution.

Overall, this trip has been a blast and I am thankful to each and every person who helped get me here.


Abigail Kirby is senior at North Bend High School. She spends her summers working as an education intern at South Slough National Estuarine Research Reserve in Charleston, and has volunteered for the Oregon Department of Fish and Wildlife Salmon Trout Enhancement Program (STEP) program.

Passion and Excitement

This post is part of a series chronicling the September 12-15, 2019 research cruise on board the R/V Oceanus, Oregon State University’s largest research vessel. This cruise was funded by Oregon Legislative funds through the Oceangoing Research Vessel Program. Coordination and additional support was provided by Oregon Sea Grant and the Oregon Coast STEM Hub.

Follow the adventures of the students, educators, and researchers who are on board engaging in #STEMatSea.

By Genevieve Coblentz-Strong

My name is Genevieve and I am a senior in the Early College High School program. I have always had a strong interest in the ocean, and I have wanted to pursue a career in oceanography since seventh grade.

I chose to apply to this R/V Oceanus research cruise for the opportunity to work with scientists doing various research projects and to get the opportunity to meet fellow high school and undergrad students who share my passion and excitement for the ocean. I have not been disappointed! All the students on board have gotten hands-on experience deploying the CTD, box core, and the plankton net, while also learning how to spot and identify marine mammals and sea birds. I can’t imagine a better way to teach students about the ocean and what it takes to be a researcher.

Three people prepare the CTD instrument on deck
Preparing the CTD

Yesterday, we spent the entire morning cruising on the Oceanus looking for whales. Finally, in the early afternoon, we spotted some blows on the horizon. As we got closer, more and more whales started appearing and they were identified as humpbacks. The swell was big, but we braved the waves to go take ID photos of the humpbacks. We boarded a small boat aptly named the Red Rocket. After a few minutes of searching, we came up upon a group of three humpbacks. It was so cool to see the whales up close and I really got an appreciation for how big they are. All three humpbacks fluked at the same time, so we were able to get great ID photos! It was an amazing experience to be able to work with researchers and see the whales that close to the boat. The chief scientist on board has a permit that allows the Oceanus and Red Rocket to approach the whales. It is illegal to approach the whales if you don’t have a permit.

Four people in the red rigid hull inflatable boat
The chief scientist on board has a permit that allows the Oceanus and Red Rocket to approach the whales. It is illegal to approach the whales if you don’t have a permit.

Today, we saw lots of mola mola sunfish, egg yolk jellies, and shearwater birds. Some of the science party was sitting downstairs resting when a text came through from the flying bridge, the viewing deck where we watch for marine mammals and seabirds; orcas had been spotted! Everyone dropped what they were doing and rushed to the flying bridge. There, four orcas swam by the boat and put on a quick show for us before they were on their way again. Before they left, they swam right under the Oceanus and we could see them under the water! It was very exciting! Right before dinner, we spotted our first whales of the day (orcas are dolphins), a humpback mother and calf pair! I can’t get over how incredible these animals are! We waited for the mother and calf to surface a few more times before we headed off in search of more whales.

killer whales
Orcas, or “killer whales”, are the largest member of the dolphin family.

I have learned so much in the past few days! This research cruise has allowed me to explore part of what it takes to be a research scientist and I look forward to the possibility that I could someday work with these scientists and fellow high school students again. 


Genevieve Coblentz-Strong attends Sunset High School and Portland Community College. Genevieve is also a youth volunteer at the Oregon Coast Aquarium, and is captain of the Aquarium’s “Nerdi Nautili” National Ocean Sciences Bowl team.

A Jam-Packed First Day

This post is part of a series chronicling the September 12-15, 2019 research cruise on board the R/V Oceanus, Oregon State University’s largest research vessel. This cruise was funded by Oregon Legislative funds through the Oceangoing Research Vessel Program. Coordination and additional support was provided by Oregon Sea Grant and the Oregon Coast STEM Hub.

Follow the adventures of the students, educators, and researchers who are on board engaging in #STEMatSea.


By Ashley Brust

My name is Ashley and I am an undergrad who is a part of the science party here on the Oceanus. I am a sophomore at Oregon Coast Community College and currently enrolled in the Aquarium Science Program. My passion for marine science first began when I was little and attended Hatfield Marine Science Center Day Camps. I attended every year until I “aged out.” Now I am doing everything I can to pursue my passion, which includes this research cruise. Fortunately, I was chosen to be a member of the science party on this vessel and am learning all types of new things, such as surveying whales, sea birds, taking box core samples, and collecting/identifying plankton.

We get to work with experts and do a lot of hands on work, which is totally awesome. Today we began with a really yummy breakfast, went over some safety rules, and ran some drills. This ultimately resulted in us trying on large red survival suits and using a fire hose. Next we found ourselves at the stern of the boat collecting box core samples (grabbing sand off the ocean floor) and digging out organisms that reside in the sediment.

three people bring the box core sample on board the ship
Ashley (L) helps bring up the box core sample.
people sorting through a sediment sample
examining the sediment sample

Before we knew it, we were up on the “flying bridge” with binoculars in our hands surveying the vast ocean for any signs of whales. There were so many humpback whales breaching, coming up and breathing, and showing off their flukes for us. This was great because the scientists’ goal was to capture pictures of the unique underside of the whales’ flukes.

We left that station for a moment to fuel up our bodies with some delicious lunch and made our way back up to the whales when we finished. Another task we helped with was surveying/identifying sea birds which was really fascinating to learn the methodology. I originally thought you would identify the birds based off their plumage, but it turns out their flight pattern helps most, along with some other physical features such as bill length.

The most exciting adventure today was the students got to pursue whales in a smaller inflatable boat. The whales were so close to us it was truly magnificent and something I will never forget. The purpose behind this was to, again, try and snap photos of their flukes to identify individual whales.

six people and a bongo net
Leigh Torres (R) and Dawn Barlow (L) from the OSU GEMM Lab orient students to the bongo net.
students deploy bongo nets of the side of a ship

After dinner we made way to the side of the vessel and deployed bongo nets which would allow us to gather plankton. We brought our samples back into the vessel and began to study them under the microscopes to attempt to identify them.

There were so many neat little creatures swimming around in our petri dishes, like comb jellies, copepods, shrimp larvae, amphipods, and many more. The most interesting thing I got to observe was all the microplastics we also found.

I wasn’t surprised because I knew that our oceans are contaminated with plastics, but it was just very eye opening to see how bad it truly is.

We finally ended our day by coloring Styrofoam cups with permanent markers to send down to the bottom of the ocean and shrink under the enormous pressure. Overall the first day was jam-packed with fun activities and now we are all ready to rest and do it all over again tomorrow.

shrunken Styrofoam cups

Ashley Brust is a second-year student in the Aquarium Science Program at Oregon Coast Community College, and a veteran of Hatfield Marine Science Center summer day camps.

Chasing Whales

This post is part of a series chronicling the September 12-15, 2019 research cruise on board the R/V Oceanus, Oregon State University’s largest research vessel. This cruise was funded by Oregon Legislative funds through the Oceangoing Research Vessel Program. Coordination and additional support was provided by Oregon Sea Grant and the Oregon Coast STEM Hub.

Follow the adventures of the students, educators, and researchers who are on board engaging in #STEMatSea.

By Ava Owens

Imagine climbing into a small, six-person boat in the middle of the ocean. The ocean is rolling you with small whitecaps licking the underside of what is deemed the ‘Red Rocket’. This isn’t a rescue, escape or recon mission, but rather a research one.

At around eleven miles off-shore, whale watching on the flying bridge was busy. Humpbacks were being spotted left and right by their fluking and breaching. Marine mammal spotting surveys were happening on the flying bridge, cataloging information such as species, numbers of animals, their distance from the boat and their activities (feeding, breaching, etc.) Something you cannot do from the flying bridge is identify individual animals, so we donned our finest waterproof gear, hardhats, a camera with a telephoto lens, GPS and a notepad to write down sightings. We carried these items over the side of the Oceanus and into the Red Rocket. What we were looking for were identifying features on a whale’s body. The pattern on a humpback whale’s flukes (the underside of their tail) is unique to itself only, just like our fingerprints are unique to each of us. This is the reason for the camera, as researchers wanted to identify and document specific animals base on these patterns.

three people in a red rigid hull inflatable boat
Launching the “Red Rocket”

The Red Rocket, once untied from the Oceanus, took off to follow some whales seen by the spotters on the flying bridge. The humpbacks we were following were about three times the size of our boat, meaning the experience was exhilarating and terrifying all at once. Once we got close enough for that crucial I.D. photo, it was off to find another whale.

Lots of our time spent in the Red Rocket was waiting to spot something. After that first initial whale I.D., the flying bridge had a lull. We used this time not just to search, but to mark the whale sighting on the GPS as well as write notes about the whales behavior, number of whales and what pictures were of that specific whale.

On one of our missions further away from the boat, a pair of humpbacks dove in a feeding behavior. They dive down and stay down for three to four minutes, feeding. We hadn’t gotten a picture of those whales yet, so we stayed in what is called a fluke print. When a whale flukes, it creates this still pattern in the water that disrupts the normal ocean waves. Chances are these two whales would resurface in the same general area, meaning the fluke print is a great place to wait and watch for the pair.

female looking out to sea with binoculars
Looking for whales from the flying bridge

These I.D. photographs are extremely important for whale researchers as they can track individual whales’ migration patterns. These surveys are a great non-invasive way to catalogue individuals as well as estimate a total number of whales seen in one area. One of our researchers aboard has a permit to get closer to marine mammals, as it is illegal to approach any marine mammal without a research permit. Even with that research permit, there are still strict rules to follow to make sure no one disrupts the whales.

My time aboard the R/V Oceanus is my first experience with marine animal related hands-on research. My usual forte is marine education, giving public speeches to bridge the divide between people and the sea. I am so thrilled to be a part of this research cruise and to have more hands-on experience that I can relate to while speaking to the public. Lots of what I am passionate about has to do with microplastics in our ocean, so coming face to face with massive filter feeders that are getting plastic with their meals has given me even more insight on how we need to change our ways for the better.

four females sitting on couches, facing forward
Students relaxing in the ship’s lounge. Left to right: Ashley Brust, Genevieve Coblentz-Strong, Avarie Owens (blog post author), and Abbie Kirby.

Ava Owens is a high school student from Waldport, Oregon. She attends Baker Web Academy and is dual-enrolled at Oregon Coast Community College. Ava is also a youth volunteer at the Oregon Coast Aquarium, and is a member of one of two Aquarium teams competing in the “Salmon Bowl”, Oregon’s regional National Ocean Sciences Bowl competition.

Bon Voyage, R/V Oceanus

This post is part of a series chronicling the September 12-15, 2019 research cruise on board the R/V Oceanus, Oregon State University’s largest research vessel. This cruise was funded by Oregon Legislative funds through the Oceangoing Research Vessel Program. Coordination and additional support was provided by Oregon Sea Grant and the Oregon Coast STEM Hub.

Follow the adventures of the students, educators, and researchers who are on board engaging in #STEMatSea.


By Tracy Crews

Four high school students, one high school teacher, one community college student, and three graduate student will accompany OSU researchers on this cruise that will study seabird and marine mammal distribution off the Oregon Coast and correlate sightings with prey abundance and oceanographic data. On this trip, we hope to deploy drones to help quantify sightings and document marine mammal behavior, and to launch a smaller boat from the research vessel to collect fecal samples from whales. In addition, students will work with benthic ecologists to collect box core samples to learn about oceanographic sediments found in various locations and the organisms living within.

This cruise is not just an opportunity for researchers to collect valuable information about Oregon’s marine ecosystems and the diverse organisms that call these areas home, but an amazing opportunity for students to participate in hands-on, career connected learning. While serving as part of the science party, they get a unique glimpse into life at sea and the lives of the female researchers leading this expedition.

Mobilizing

Wednesday was a busy day for researchers, their graduate students, and the ship’s crew aboard the R/V Oceanus, as they worked together to “mobilize” for their four day STEM research cruise. Oceanographic equipment was loaded, tested, and tied down. Duffle bags full of boots, rain gear, gloves, cameras, and binoculars were hauled up the ship’s gangway and down multiple flights of ladders to small staterooms with bunk beds that would serve as our homes for the next five days. Packing for a research cruise is much more intense than packing for vacation. It’s not just the extra amount of gear required to live and work comfortably at sea, but the knowledge that once you leave the dock there is no way to replace what is missing or what might break. So we pack multiples of almost everything.

Getting Underway

On Thursday, students and other cruise participants spent the first hours of the morning going through safety drills, donning life jackets and immersion suits and learning how to use a fire hose.

Once safety drills were complete, the ship left the dock and headed out under Newport’s Yaquina Bridge to the open ocean!

Coming up next: Learning to conduct research at sea on the very first day of the cruise.


Tracy Crews manages Oregon Sea Grant’s marine education program and is responsible for coordinating the R/V Oceanus shipboard experience for students and teachers.

Coastal Students Head Out to Sea on the R/V Oceanus

By Tiffany Woods from Oregon Sea Grant

NEWPORT, Ore. – High school and college students and a science teacher will learn to conduct research at sea Sept. 12-15 aboard a ship operated by Oregon State University.

The three high schoolers boarding the Oceanus are from Newport, Waldport and North Bend. The teacher, Carisa Ketchen, is from Toledo Jr/Sr High School. They will be joined by two undergraduates from OSU and Oregon Coast Community College as well as three OSU graduate students. The graduate students – two of whom have been on research cruises before – will serve as mentors for the other students.

Participants will learn about marine-related careers, what it’s like to live and work at sea, and how to work as a team to accomplish a variety of research tasks, said Tracy Crews, who manages Oregon Sea Grant’s marine education program and is coordinating everyone’s participation in the cruise.

“We’re trying to get the next generation of researchers excited to join the ranks,” she added.

The lead researchers will be Leigh Torres, a marine mammals scientist with Oregon Sea Grant and the OSU Extension Service; Sarah Henkel a seafloor ecologist in OSU’s College of Science; and Jessica Porquez, a seabird researcher at OSU.

The cruise, which will depart from and return to Newport, is funded by the Oceangoing Research Vessel Program at OSU, Oregon Sea Grant and the Oregon Coast STEM Hub.

The students will learn to collect sediment and animals from the ocean floor at a future wave energy test site off the coast of Newport. The goal is to collect baseline data to see how conditions might change over time after the wave energy devices are operating.

Coastal students and teachers participating on the 2018 research cruise deploy a CTD.

The students will also learn to collect plankton and to deploy equipment that records oceanographic data at different depths. They will also identify and count seabirds and marine mammals off the Oregon coast, with the aim of correlating their distribution to oceanic conditions and the location of prey. Additionally, the students will learn how researchers use camera-equipped drones to film whales. Torres hopes to launch a small boat from the Oceanus to collect whale poop. The samples would later be analyzed in a lab to understand the whales’ diet and stress levels.

“Since blue whales are being seen in significant numbers, we are hoping to encounter them in addition to gray whales and humpbacks,” Crews said.

The crew will also launch an unmanned, 5 ½-foot sailboat built and decorated by students at the Career Tech High School in Lincoln City. It contains a GPS unit that will allow students to track the boat’s location. The aim is to for students to monitor forecasted wave and wind conditions and predict where the boat will go. A note inside with contact information will encourage anyone who might find the boat to correspond with the students at Career Tech.

The students on the cruise will write about their experiences on the Oregon Coast STEM Hub’s blog and on its Facebook page.

This will be the third year that faculty with Oregon Sea Grant have led cruises on the Oceanus for students and teachers. Crews and Torres led expeditions in 2016 and 2018.


This project, entitled “Diversifying the STEM Pipeline through Oceangoing Research and Near-Peer Mentoring”, is led by Tracy Crews of Oregon Sea Grant. Funding is provided by the Oceangoing Research Vessel Program at OSU, Oregon Sea Grant and the Oregon Coast STEM Hub.

Home Stretch

Andy Bedingfield and Calan Taylor are high school teachers participating in the Research Experiences for Teachers (RET) program on board the R/V Atlantis. Below are more selections from their daily journals:


July 23 – Andy

plantkon on a screen
plankton

It is Tuesday at 3:00 PM and my shift is just starting. We are back on 15 minute shifts on the ISIIS. This is our high definition camera system that we tow behind the boat and lower and raise as we travel. There are two jobs when we are running this system, “flying the ISIIS,” and running the winch. Flying the ISIIS means watching the computer control panel in the main lab and using the radio to tell the winch operator out on the back deck whether to pay out cable, haul it in, and how fast. For instance, I am sitting in the lab typing this and Megan, the PhD student who is currently flying ISIIS just picked up her radio and said, “winch, lab please pay out at five zero,” and the winch operator called back, “copy that, paying out at five zero.” This mean that the ISIIS just got to its minimum depth of 10 meters, and the winch operator needed to stop pulling cable in, reverse the winch, and start sending it out again so that the ISIIS will start going down again. Once the ISIIS gets down to its maximum depth of 100 meters, Megan will call the winch again and have them start hauling in again so that it will start to rise towards the surface. We did this all night last night from 10:00PM to 3:00AM. You would think this would get monotonous, and it does, but we have figured out a pretty good system to minimize the boringness of it. We are in two member teams, and we all work one 15 minute shift per hour. Something seems to be pretty magic about this schedule. The hours really seem to fly by. 

July 24 – Andy

It is 8:00 PM right now, and the night crew is very happy to be on their last 3:00PM to 3:00AM shift! We started the night at station #1, which is the closest one to Newport, and we used all of our data collection methods.

July 24 – Calan

We caught a decent size squid this morning (roughly 6 inches). I put it in a tank and watched it swim around for a bit which was fascinating. It’s eye was huge and seemed to be looking right at me. The biologists assure me that squid intelligence pales in comparison to octopus but the eyes still freaked me out a bit. 

squid
squid have big eyes

July 25 – Calan

There is an artist on the ship named Sarah. She does mixed media that involves lo-fi photography using cyanoprinted photograms. She prints these images onto steel and attempts to represent time in various manners. Today she taught me how to do the photogram process. I made a print of a squid and shrimp that we caught yesterday. Sara gave me the info for a company that sells kits to make the prints. I think kids would get a kick out of it, and I’m pretty sure I’ll include it as part of my curriculum. 

July 25 – Andy

Wow, last day of the cruise! We just have to finish off towing in to Newport, and the science work will be done for the cruise. 

After lunch, the other teacher and I cal had a meeting with two of the principal investigators, Kelly and Bob. I was very impressed with them throughout the cruise, and I really couldn’t speak more highly of them. They were both very nice and helped Cal and I learn a lot of marine science. We had a great discussion about how Cal and I can create a curriculum based on the science that they do, and we are excited to get started.

“We had a great discussion about how Cal and I can create a curriculum based on the science that they do, and we are excited to get started.”

– Andy Bedingfield on the last day of the cruise

R/V Atlantis
R/V Atlantis

Calan Taylor teaches Physics, Chemistry, and Physical Science at Bandon High School and Andy Bedingfield teaches Science at Taft 7-12 High School in Lincoln City. They are part of the Research Experiences for Teachers (RET) program on the R/V Atlantis cruise taking place July 13-27, 2019.

Sunshine and light wind

Andy Bedingfield and Calan Taylor are high school teachers participating in the Research Experiences for Teachers (RET) program on board the R/V Atlantis. Below are more selections from their daily journals:


July 21 – Calan

I learned quite a bit today. Had a couple nice conversations with Bob Cowen relating to patterns in upwellings. ISIIS was picking up some interesting bifurcations in the fluorescence which may have been a malfunctioning sensor, or could possibly be an indication of more mixing and the beginning of an upwelling. The strong northerlies that have brought on the seasickness the past couple days should start to move surface water out to sea and begin the upwelling process. 

sea jelly in a jar

I also talked to Kelsie (Who is completing her PhD in Larval Fish Ecology at OSU/Hatfield) About logarithmic relationships between plankton and larger species. She taught me about how and why upwellings generally occur on the west coast of continents and how headlands can create micro-upwellings. She also taught me a lot about the history and current status of marine sanctuaries and reserves in Oregon and Washington.

I find myself taking a lot of my free time trying to think of questions to ask the folks that I’m around on the ship while the opportunity is here. It’s cool to have access to the input of folks that are on the ground, doing the research right now. I’ve been really impressed not only with their knowledge, but also with their openness and willingness to talk/explain their work in a manner that is understandable for the masses. I just wish I could think of more great questions. I’m sure that the moment I’m off the ship, several will come to mind.

Net towed in water

July 22 – Andy

It is 9:00 PM. I have been working on the deck for 6 hours already, and I have 6 hours to go. We had great weather today though, and that makes all the difference. Last night we hauled the MOCNESS nets all night. This makes the time go much faster than some of the other things we do, but you are super worn out by the end of your 12 hour shift. The crazy graduate students that I am working with are actually working out for an hour from 3:00AM to 4:00AM and then going to bed. Not me! I am fine with sleeping as long as I can and working out in the morning. 

It was a truly stunning all day today. Many crew members who I have never seen came out of the depths of the ship to enjoy the sunshine and light wind. At one point, we had a pod of about 100 dolphins racing the ship and playing in the wake. 

Man holding a metal seine dish

Two of my night crew buddies (Megan and Will) and I started brainstorming about how we can create a curriculum based on the Next Generation Science Standards that highlight their work. I showed them the standards and an example High Adventure Science module, and they had some great ideas. We made plans to work on something when we get back to shore. 

One last highlight from last night, and a memory that I would like to keep: It was 3:00AM and we were just finishing our shift.  We had been pulling the MOCNESS net system all night, and we finished with one final tow. My job was to put the samples we collect in jars in the lab. When I got done with that, I went back on deck to see how the crew was doing re-setting the net. When I got out there, Will, a huge 6’6” hulk of a human was sitting on a bucket sewing up a huge tear in the net. All the rest of the crew, Rick, Megan and Blair were sitting with him, and the almost full moon was lighting up the scene. I asked, “what can I do to help,” and Rick said, “why don’t you grab your guitar and serenade us?” He was joking, but I never pass up an opportunity to play for people, so we closed out the night with a round of Wagon Wheel by Bob Dylan under the moon cruising about 50 miles west of Newport at 3:00AM.


Calan Taylor teaches Physics, Chemistry, and Physical Science at Bandon High School and Andy Bedingfield teaches Science at Taft 7-12 High School in Lincoln City. They are part of the Research Experiences for Teachers (RET) program on the R/V Atlantis cruise taking place July 13-27, 2019.