After several months of looking forward to it, I just finished my first week of the Oregon Sea Grant Summer Scholars Program!

The Hatfield Marine Science Center is primarily a research center for Oregon State University, but there are also several other buildings on the campus with various agencies. One of these buildings belongs to the EPA Office of Research and Development, and this is where I’m interning this summer.

Working for the EPA is an interesting mix of science and regulation. Since the EPA is primarily a regulatory agency, this research facility is not the standard EPA workplace. Even so, a lot of federal regulations carry over. All new employees are required to complete an extensive online training, which took two of my days this week. There are also in-person safety trainings, work meetings, and paperwork. After that, I spent my time reading research articles and getting caught up on some of the background knowledge related to my project. It was a slower start than I was expecting, but I enjoyed having time to educate myself about the topic before jumping into research. In addition, the researchers have been extremely friendly and welcoming, and it is exciting to see the many labs, research boats, and scientific equipment.

I was also able to see some of my first sights of the Oregon coast this week, including South Beach, Nye Beach, and Yaquina Head. In Bellingham, WA, where I go to school, the beaches are almost all rocky, so it is a treat to get to enjoy long sandy beaches! I’m so excited to have a whole summer to enjoy here, and my list of places to visit grows every day.

At the end of the day on Friday, my mentor, Cheryl Brown, returned from travelling for a conference and we were able to start planning out research plans for the summer. We have an exciting and complicated project sampling water quality in Tillamook Bay and rivers that enter into this bay. We will be taking samples from the streams and the bay itself to try and get a better idea of how humans and agriculture may be contributing to ocean acidification in the bay. Stay tuned for more updates throughout the summer!

It has only been a week and I am already falling in love with Oregon. I am so grateful to be one of the Oregon Sea Grant Summer Scholars for 2018 and spend my summer in Newport. The project I am working with is in the Oregon Department of Fish and Wildlife (ODFW) Marine Reserves branch helping with ecological monitoring the reserves. So not only do I get to explore Oregon on my free time but also for work! Starting next week I will be conducting field work at three of the marine reserves: Otter Rock, Cascade Head, and Cape Perpetua. When I am not in the field I will be helping analyzing and summarize the data that ODFW’s Marine Reserve Ecological Monitoring Team collected last year. While there is both intertidal and subtidal monitoring that the department conducts, I will be focusing on the intertidal data and collection.

For work, my time will be split between sea star wasting monitoring and intertidal biodiversity monitoring. It is really awesome that the ODFW not only collects their own data for this but also works with other groups of researchers and citizen science projects to be able to collect tons of data and get a very good understanding of the areas that are protected. Occasionally I will be going out with these collaborators during their fieldwork to see first hand how these studies are conducted.

During my free time I have visited the beach,, boardwalk, and farmers market of Newport. Each time I go explore I gain new appreciation for this beautiful place that I get to live in for the summer. The awe-inspiring nature is not the only appeal of Oregon but also the culture of the towns and the people that live here. Everyone I have met is so nice and helpful. The best part is that almost everyone here is a dog person so wherever you go there are always tons of dogs which helps with missing my dog back at home.

Yaquina Head Lighthouse

We have been collecting the megalopae life stage of Dungeness crab along the Oregon coast and extracting DNA from these individual megalopae. The next step is to sequence the Dungeness crab megalopae DNA so we can conduct statistical analyses that will help us understand how oceanographic conditions impact the Dungeness crab megalopae recruitment and the genomic composition of Dungeness crab along the West Coast of the United States.

Dungeness Crab Larval Recruits in Yaquina Bay,
Newport, Oregon (Megalopae)

Before jumping into the details to genomic sequencing, imagine you are given a stack of 100 cover-less books and told that there are several different book series mixed within this stack. You are asked to categorize the books by series.

What if you were given a pile of 100 books and asked to categorize them by book series?

You could read every book, but this might take a very long time… And, it may not be necessary to read every book cover-to-cover if your only goal is to categorize the books by series and not necessarily understand the storyline details of each book. Right?

So, what if instead of reading all 100 books, you systematically read the first paragraph of each chapter. Would you have enough information about each book to group the books into series? Chances are that each series has their own characters, settings, themes, or writing styles. By reading the first paragraph of each chapter in each book, you would be able to pick-up on the characters, settings, themes, or writing styles of each book that differentiate each series. You could then group the books together that had the same characters, settings, themes, or writing styles.

We do something similar with Dungeness crab DNA. Sequencing the Dungeness crab megalopae DNA involves reading the ‘A’s, ‘T’s, ‘G’s, and ‘C’s that make up the DNA and then comparing the patterns of ‘A’s, ‘T’s, ‘G’s, and ‘C’s between individual crab megalopae to look for differences. Considering that the size of the Dungeness crab genome (all of its DNA) is quite large, it would be a costly, time-intensive, and computationally-intensive process to sequence the entire genome of every megalopae we want to analyze.

After collecting Dungeness crab megalopae and extracting DNA from individual megalopae, we use sequencing machines to read the DNA. But instead of reading the entire genome, we read many small sections from across the genome. This type of DNA sequencing is called reduced representation sequencing. Similar to the pile of books example, after this type of sequencing we couldn’t tell you everything about the genome of that particular Dungeness crab, but we would know enough about the individual crabs (or “books”) to tell if they are different from each other and if they were members of different groups (or from different “book series”).

Reduced Representation Sequencing (Truong 2012)

If the groups of crabs (“book series”) differentiate significantly, we can call them different populations. Alas, this is why we call ourselves population geneticists. We know that all Dungeness crab are of the species Dungeness crab (Cancer magister) and that all “books” are of the species “book.” But with population genetics, we are looking within species to to determine if there are sub-populations (or “book series”) within the species. Because of the social, economic, and ecological value of the Dungeness crab species along the West Coast, it is important that we understand the population genetics of the species so that we can continue to sustainability harvest this valuable fishery.

Dungeness Crab Commercial Fishery

Over the first few months of my fellowship I have been overwhelmed with welcoming gestures.  It wasn’t until a tiny hamburger sticker came my way that I actually stopped to think about it…

The first day of a position normally starts with an introduction to your work space and people you will be working with, and I did get those introductions…along with introductions to every single person in the Salem DLCD office.  Patty Snow, the director of the Oregon Coastal Program personally introduced me to every person in the office and showed me all of the good spots!  I was blown away that a program director would take the time out of her busy day just to show a fellow around (seriously!  She does a tone.  If you don’t believe me take a look at her desk!).  Andy Lanier, my mentor and the Marine Affairs Coordinator for the Coastal Program , then sat down with me during my first week and straight out asked me “what do you want from this fellowship?” He explained it was his goal to make sure I get the experience that I was hoping for.

My desk is right near some of the Geo spacial Team desks.  All of the “GIS” people as I like to call them.  ell the GIS people all have wooden letters symbolizing the first letter of their names hanging on the front of their work space. I was truly touched when Cy, the Geo spacial team leader (from what I understand) also got me one of these letters!  I have never felt so welcomed into a work space.

It really shows that small gestures go a long way.

I’ve thought long and hard about how I want to use this blog space and I’ve decided photos are much more fun than words.  So instead of describing all of my experiences, here are some photos from them!

I sat down to write this final blog post right after I finished my final day of field sampling for the year… and what a year it has been! When Sea Grant awarded me the Malouf Scholarship I was just starting to get a grasp of what I wanted to do for my PhD. I knew I wanted to work with juvenile rockfish (because collecting them is one of the most fun things on the face of the earth) and examine the role of oceanographic conditions during rockfish development in determining rockfish growth and survival. Over the course of this past year I developed my research plans, successfully defended my dissertation proposal, and just wrapped up a successful (though at times very frustrating) rockfish collection season. While my time at OSU is focused on accomplishing my research, Sea Grant has encouraged me to branch out beyond academics and I’ve discovered the world of scientific communication and educational outreach. This last blog will be a recap of the field work and outreach the Malouf Scholarship enabled and inspired me to accomplish.

My field collections of rockfish involve a three-pronged attack, or a triple threat, to capture rockfish during their early, offshore life stage (pelagic juvenile stage), their transition from offshore to nearshore (recruit stage), and once they have settled to nearshore habitat (benthic juvenile stage). While I was only able to collect 7 pelagic juvenile yellowtail rockfish during a research cruise on a NOAA ship, I was able to team up with ODFW, the Oregon Coast Aquarium, and commercial urchin divers in Port Orford to collect 622 black and yellowtail rockfish recruits (these species look very similar at this stage and I still need to ID them all). In addition, I did some freediving (with the help of two amazing undergraduate students) and SCUBA diving to collect 120 black and 25 yellowtail benthic juveniles.

I teamed up with Professor Aaron Galloway at the Oregon Institute of Marine Biology to do some diving in Port Orford to collect rockfish. Photo credit: Aaron Galloway

I was fortunate to work with two undergraduate students this summer Zach (left) is a Sea Grant Summer Scholar working with ODFW’s Marine Reserves team and Madeline (right) is an REU student working with me on rockfish recruitment patterns.

Though collecting rockfish is an absolute blast, the oceanographic conditions this year made my field work frustrating at times. An unprecedented number of pyrosomes clogged and threatened to tear our nets on the NOAA research ship, limiting our ability to trawl for pelagic juvenile rockfish. Unexpectedly late storms in late April broke two of our moorings used for collecting recruit stage rockfish, and three more moorings (of a total of 16) disappeared for unknown reasons. Finally, quillback and copper rockfish (some of my targeted species) never really showed up this year. While highly variable survival and recruitment of rockfish is to be expected, it was quite disappointing not to see any of these guys. I had really fond memories of night time snorkel collections of them the previous summer. After several night snorkels, I learned that these rockfish sleep on Egregia menziesii (feather boa kelp) and when you shine your dive light on the kelp blades, their eyes and swim bladders reflect light and look like Christmas lights on an underwater tree (I wish I had taken some pictures to share with you!). Now that the field season is over, and all the stress of repairing/rebuilding/replacing broken moorings, scheduling boat trips, and all the other logistics that go into a collecting rockfish has washed away, I find that I am already looking forward to next spring/summer.

Collecting and learning about rockfish is my passion, however, over the course of this past year I have found that I really enjoy teaching others about rockfish. When applying for this scholarship and identifying where I wanted to focus my outreach efforts, I thought that teaching children would the most fun and effective way of teaching others about rockfish because children are so curious, excitable, and, if they were anything like me when I was younger, children can’t wait to tell their parents about everything they’ve learned. Through OSU’s Winter Wonderings program, I was able to teach 3rd-5th graders about how old rockfish can get, how scientists use their ear bones (otoliths) to age them, and tried to teach them how important this information was for fisheries scientists. I found that I got a little ambitious with the last point, but the students loved looking at otolith cross sections through a microscope. I also started volunteering for the Oregon Coast Aquarium as an interpretive diver. This was an incredible opportunity to be in the water and talking with an audience of aquarium visitors about our coastal resources. Most recently, I participated in an outreach event at Hatfield called the Sustainable Fisheries Workshop for Teachers where I taught several middle and high school teachers how to distinguish juvenile rockfish to species and how closely related species can have very different life history characteristics (life spans, reproductive capacity, and development rates). All of these outreach events have been really fun and I am excited to revamp my lesson plans to improve them for next year.

Helping teachers pick up the fine details of identifying juvenile rockfish to species. Photo credit: Su Sponaugle

Working with Oregon Sea Grant has really opened my eyes to the importance of outreach and communicating my work with the people it may affect. I now feel comfortable talking to fisherman (commercial and recreational) about rockfish populations and how they naturally change through time. As my research progresses I am looking forward to communicating how oceanographic conditions affect the survival of young rockfish and how survival of young rockfish translates into changes in the adult population. Now all I have to do is begin analyzing my data to discover this relationship! I wanted to take this opportunity to thank everyone at Oregon Sea Grant for awarding me this scholarship, and for all the encouragement and support this year. It has been an incredible experience working with you all. Thank you very much!

The Oregon Coast Aquarium provides a unique opportunity to interact with aquarium visitors while you are diving. I was able to teach these visitors about plastic pollution and about rockfish. Photo credit: Nick Brown

Participation in the interview process for a Sea Grant Fellow position was one of the most valuable parts of my Fellowship. While initially it may seem like an extra task added onto an already busy schedule is actually exactly the kind of preparation Sea Grant seeks to provide its fellows in order to help them enter the work force. Just the initial read of applicant’s materials helped me see how to improve my own, and not just because they had better word choice. I started to see where I had not fully explained something and left an area open to interpretation that I actually had very specific answers too. I realized that if I cannot fully explain a subject in my cover letter that I should not bring it up at all, because the blank will be filled in by the reader and that distracts from other more important subjects. I also finally understood the value of letters of recommendation, especially from those who had clearly developed a personal working relationship with a student. Letters of recommendation that highlighted the same projects or attributes of a students cover letter demonstrated that the student was under no delusions about their strengths or even weaknesses they sought to improve. While grades where a factor and where important to complete the full picture of a student they carried far less weight than I thought. Really all they are need for is to demonstrate is that a person is capable of hard work and following through, or that they have acquired skills needed for a particular job.

Through discussion of the materials with other members of the selection committee I began to understand what parts of a cover letter we all responded to. Direct statements such as “This is my dream job, I would take it above all others.” where incredibly well received. While statements such as “I would like this job so that I can stay in Oregon” were less well received unless they were followed up with further explanation of a person’s commitment to the area or a particular issue. Sea Grant really responds to passion and commitment, they want students who are going to use this opportunity to develop further, not just as something to do while they figure out a better option. It was especially interesting to see how we all balanced the multiple parts of an application against each other, grades verse dedication to a certain area or letters of recommendation verse personal statement. Each person on the panel valued things differently and through our conversation we started to put together a whole picture of what this person would look like as a fellow. I really understand now how to make myself stand out to different kinds of interviewers.

The actual interviews helped me understand how my personality and interview style is viewed by different people. There was an incredible amount of understanding from the panel about nerves and how those are presented in different people. I learned that it was ok to be nervous as long as I addressed it if my composure slipped or I answered a question weirdly. Observing this part of the process and discussing it afterwards will definitely save me some sleep at 4 am in the future. I used to think that panel interviews were worse than one on one interviews but through this process I learned that they are actually better. Every person carries with them unavoidable biases based on their personal experiences, but its is also our experiences that help us balance them out, especially when combined with other peoples. As we discussed the differences in each candidates in person interview there were some things we all noticed and agreed on and others that surprised us and needed explaining from another person. I deeply value this experience and took away a lot more than I thought I would initially.