Graduate School – Time Scavengers

Katie Jamson, Micropaleontologist

September 9, 2024September 3, 2024jenebauerLeave a comment

Background is a bright blue cloudless sky with dark trees on the horizon line. The foreground has a person in a kayak with another kayak paddle close to the bottom of the image. — Kayaking in Brentwood Bay, British Columbia.

Tell us a little bit about yourself. Originally from the United Kingdom, I made the exciting move to Canada in 2021 to pursue my PhD. Since arriving here, I have become a keen runner both on the road and on the trails (dodging the bears and cougars!). I enjoy any activities outdoors including hiking, kayaking, and have even explored parts of British Columbia by canoe. I have also started truly immersing myself into Canadian culture by regularly watching hockey and I now avidly support the Vancouver Canucks! Living in Victoria on Vancouver Island has deepened my connection with the ocean, fostering a profound appreciation for this stunning place that I am lucky enough to call home. I am fortunate enough to be living on the traditional territories of the Lkwungen (Lekwungen) peoples whose historical relationships with the land still continue to this day.

Background is blue sky, green tree filled hill side with foreground being dark choppy water with a canoe with two people. The front person is holding their paddle above their head. — Portaging around the Powell River Lake Circuit, British Columbia.

What kind of scientist are you and what do you do? As a PhD candidate at the University of Victoria, I specialize in utilizing extensive microfossil datasets from the International Ocean Discovery Program (IODP) to unravel the complex relationships between the world’s oceans and climate over the past 65 million years. I use these datasets to generate maps of how microfossils such as planktic foraminifera, diatoms, and radiolarians have influenced deep ocean sedimentation patterns and how this relationship has changed over time. I do this using well constrained models of the Earth’s tectonic movements through the Cenozoic (~66 million years ago to present day). Additionally, two of my PhD chapters focus on the Miocene (~23-5 million years ago) where I am conducting work in the laboratory. Here, I am processing IODP deep sea drilling cores from different ocean basins to investigate how climate and tectonic shifts during this dynamic period of time have impacted upon ocean sedimentation and plankton ecology. I do this primarily by looking at abundance counts of the different carbonate- and silica-producing organisms present in the samples.

Person in a laboratory setting looking through a microscope. — Looking at an IODP sample under the microscope.

What is your favorite part about being a scientist, and how did you get interested in science? I have always had an interest in both geography and biology growing up, however, my first field trip to Iceland in 2012 was what really inspired me to study for my undergraduate degree at the University of Exeter, England, in physical geography. Here, I specialised in peatland ecosystems and reconstructing past environments over the last ~8000 years, tracking ash cloud movements across Europe. I achieved this by looking at crypto-tephra, which are microscopic fragments of volcanic ash that are incredibly well-preserved in peatland environments across the globe. During this degree, I fell in love with being able to get a snapshot of what the world would have looked like in the past, and I went on to get my Masters in Paleobiology at the University of Bristol. This is where I moved into deep-sea micropaleontology and studying the evolution of planktic organisms over much longer time periods. One of the most rewarding aspects of being a scientist is engaging with my peers and discussing our research together. As the first paleontology student in my department at the University of Victoria, I had a unique perspective of only being able to converse with colleagues about my work who were on the peripheries of my field. As a result, I gained incredible insight and learned so much from others that have allowed me to approach my work in a more holistic way.

Person in a field holding a block thak that is covered in dirt. — *This is me during my undergraduate research holding a peat core section on Dartmoor, England.*

How does your work contribute to the betterment of society in general? Studying the impact of climate upon planktic evolution and sedimentation rates through periods of warming and cooling across our global oceans provides critical insights into how marine ecosystems and environments might respond to future warming scenarios. By studying these historic patterns, we can better anticipate and understand the potential impacts of climate change on our oceans. I have the privilege of sharing these findings and interests, not only at conferences but also through my teaching role. As an instructor for laboratory sections in Paleobiology and Geological Oceanography classes, I teach third year undergraduate students in exploring the profound importance and influence of extinction events, tectonic processes, and oceanographic changes on evolution—from the earliest life forms to those that persist to the present day.

What advice do you have for up and coming scientists? Everyone in academia is intelligent, stand out by being kind 😊

Victoria Pavlovics, Graduate Student and Rock Magnetist

March 11, 2024February 25, 2024jenebauerLeave a comment

Victoria’s shipboard role is being a paleomagnetist.

Field work summer of ’22, Central Mongolia. The research team discusses structural geology problems. Victoria joined as a member of the Utah Paleomagnetic Center at the University of Utah.

Tell us a little bit about yourself. Describe your hobbies and interests outside of science. I spend a lot of time outdoors; skiing, hiking, rollerblading or skateboarding. I also read lots of fantasy books and enjoy listening to live music. I try to travel as often as I can and immerse myself in different cultures.

What kind of scientist are you and what do you do? I am a graduate student and I identify as a Rock Magnetist. I analyze the magnetic properties of rocks and minerals to learn more about geological processes, environmental conditions, and the history of Earth’s magnetic field. I am passionate about early geoscience education. I spent a year working with a local middle school, bringing hands-on experiments and facilitating field trips revolving around earth science and geology. I volunteer at outreach events as often as I can.

Field work summer of ’22, Central Mongolia. Another image of the research team discussing geology.

Field work summer of ’22, Central Mongolia. I am using a Brunton to take an oriented hand sample for paleomag (to interpret the magnetic signal of the Earth from deep time).

What is your favorite part about being a scientist, and how did you get interested in science? I have a very non-linear path. I took a few years off between high school and college, working at a local bar with no thought about higher education. I decided to go back to school and entered college as an anthropology major, took one geology course and fell in love. Our Geoclub held field trips every long weekend, where I was able to spend time camping outside with friends and learning about rocks. It is those moments that made me want to become a geologist. I also have an undergraduate degree in anthropology. I try to use it as often as possible, with my senior thesis being an archeo-magnetic study on Floridan potsherds. I am also currently involved in geoarchaeology research on roman concrete. I am president of Energy Club (an adaption of AAPG) at the University of Utah. With this club, I coordinate monthly seminars with industry professionals with the aim of teaching undergraduate student’s transferable skills (importance of machine learning in geoscience, adobe Illustrator for figure making, etc) and sharing career trajectories (hosting career panels filled with government, industry, and academics). We also hold a yearly department poster session with monetary awards for both graduate and undergraduate students. This coming year, we hope to hold an “earth science art exhibit” where students and professors can show off their artistic side with paintings of field sites, ‘beautiful’ data sets, and even a ‘bake your thesis’ category.

Field work in the Tetons in Wyoming, we had to get helicoptered in and we camped on the ice!

How did you learn about scientific ocean drilling? I told my advisor I would love to be on a research vessel and he shared with me the call for a paleomagnetist for this expedition.

How does your work contribute to the betterment of society in general? Magneto stratigraphy helps us date sediments. Rock magnetism can tell us about the strength and direction of the magnetic field at a certain time and location. It is also used to better understand tectonic processes.

More field photos from the ice after we helicoptered in. ! I assisted a friend with their work, acting as a geotech as they cored lake sediments for paleoclimate studies.

What advice do you have for prospective scientists? It truly is for anyone! People from all different backgrounds find their way into geoscience.

Have you received a piece of advice from your friends/mentors/advisors that has helped you navigate your career? Don’t be in a rush. Do what makes you excited, doing it fast while stressed out helps no one.

Camping and conducting research on the ice.

Adam Moore, Vertebrate Paleontology Master’s Student

November 13, 2023October 28, 2023jenebauerLeave a comment

background contains an off white museum cabinet with thin drawers. foreground is Adam, an individual with glasses and brown hair, holding up a visiting researcher name badge — Taking a break from field work to look at *Falcarius* vertebrae as a visiting researcher in the Natural History Museum of Utah’s (UMNH) paleontology collections.

Tell us a little bit about yourself. Hi! I am Adam Moore. I am a 1st year MS graduate student at North Carolina State University. Originally, I am from Kill Devil Hills, NC (a part of the Outer Banks of coastal North Carolina). This past May, I finished up my Bachelor’s Degree from North Carolina State University with a BS in Geology and two Minors in Biological Sciences and Paleontology. When not working on school or research, I enjoy reading (typically about dinosaurs!), photography, hiking, camping, visiting museums, and traveling. In fact, I love these so much that, after field work in Utah this past summer, I decided to drive back to North Carolina from Utah so that I could visit a few of the National Parks and museums along the way!

What kind of scientist are you and what do you do?

I am a Master’s student in Geology working on becoming a vertebrate paleontologist with a focus on dinosaurs. As of now, since I am just starting out, I do an assortment of things related to paleontology. Currently, I have a few different research projects I am working on along with my Master’s Thesis.

During my Bachelor’s Degree, in 2022, I started a research project in the biology department at my school that involved identifying fossilized shark teeth from one specific site. This is something that I am currently still working on. At that time, I was also involved in an internship at the North Carolina Museum of Natural Sciences in the Paleontology Lab where I worked on an assortment of different projects around the lab. I eventually started a project that developed further into a research project. The research involved the vertebrae of an early-diverging therizinosaur known as Falcarius utahensis to understand parts of its ontogeny. To my delight, I will have the chance to present my research on Falcarius at the 2023 Society of Vertebrate Paleontology conference in the form of a poster.

Background contains light colored sandstone rock with blue sky in the far back. Foreground contains Adam with windblown hair, sunglasses, and a smile. Notably Adam's shirt is covered in dust and dirt from a day of fieldwork. — Extremely dirty wearing a no-longer-white shirt in the badlands of Utah during paleontology field work.

This past August, at the start of the school semester, I began working on my Master’s Thesis. The research I am doing for my MS involves a mix of paleoclimate and dinosaurs. I will be looking at data from a few different sites in Western North America from the Cretaceous Period to better understand the climates of those regions to see how it impacted dinosaurs from Laramidia.

Outside of direct research, I have also been fortunate enough to be involved in paleontology in other ways as well through the North Carolina Museum of Natural Sciences. For the last two summers (2022 and 2023), I have done field work in the Cedar Mountain Formation in Utah. Participating in field work is, in my opinion, one of the coolest aspects of paleontology. I mean, when you uncover a new fossil, you get to be the first human to ever see those fossils! It is always great being out there finding new material (or at least trying to find new material)!

Background has dark gray clouds with some falling rain. Light tan sandstone rocks cover the landscape. Foreground has Adam with windblown hair, sunglasses, a rain coat, and other field gear. — During paleontology field work in Utah preparing for a summer afternoon rainstorm.

What is your favorite part about being a scientist, and how did you get interested in science? Simple curiosity, wonder, and excitement in the unknown drove my interest in science. I have been interested in science for as long as I can remember (specifically anything involving dinosaurs). I have always been a collector of sorts, and due to that, basically since I could walk, I was always searching the ground or combing the shore for interesting things to take back home. Growing up on the coastal community of the Outer Banks, I would go out to find interesting rocks, bones, shells, and, if I were lucky, fossils all along the beach and take them back to my home to clean them up and organize them accordingly. I was, as many kids are, a “dinosaur kid.” I was absolutely fascinated by them growing up and just never grew out of it. Based on picture evidence, since the time I could develop interests, I was never found without a dinosaur toy (or two or maybe even a whole backpack…) or book in hand everywhere I went. I knew from an early age that I wanted to grow up to become a paleontologist specializing in dinosaurs. This became extra solidified when I saw my first dinosaur mount as a young child at the North Carolina Museum of Natural Sciences. I remember reading all of the plaques and looking at all of the specimens in their dinosaur section with it culminating in the glass dome encasing the Acrocanthosaurus frozen in time and thinking something along the lines of “yeah, this is exactly what I want to do” while looking up at the massive dinosaur in absolute awe. Now being involved with the lab at this same museum, it is a full circle moment for me that I don’t take for granted.

Honestly, those moments of curiosity and wonderment are some of my favorite parts about being a scientist. Being curious by asking questions about dinosaurs (and paleontology, in general) and answering them (attempting to, at least) through field work, data collecting and analyzing, and research always excites me. We are figuring things out about our incredible planet’s past, and it always astounds me how much we know and, at the same time, how much more there is for us to learn. Filling in those gaps is something that drives me in my research and desire to be a paleontologist. Also, communicating that knowledge to other people is something else I personally enjoy. It is always rewarding to see their curiosity and wonderment grow as you relay information to them about the past in engaging and understandable ways.

Background has blue sky, a tall mountain range. Closer to the foreground is a gravely slab. Adam is in the foreground is Adam in a hat and sunglasses with a smile. — Enjoying a hike in McKittrick Canyon in the Guadalupe Mountains to look for Permian fossils with his classmates (not pictured) on the North Carolina State University’s Geology Fall Break trip.

What advice do you have for up-and-coming scientists? My first piece of advice for up-and-coming scientists would be to get involved in any way you can. Talk to your local museum about internships and volunteer opportunities that you could be a part of. There might even be a possibility to volunteer out in the field with other paleontologists too. This is a good way to figure out what you like and what you do not like. Sometimes, knowing what you don’t like can be just as valuable as knowing what you do like. If you find that you do not like certain aspects of paleontology, don’t get discouraged. For example, I know a few paleontologists who don’t consider themselves “field paleontologists”, and that is perfectly fine because there are other opportunities in this field that do not require them to go out into the field and they are still great scientists. If you find something that you really like, try getting a mentor or advisor that can further help you too. Getting good mentors are one of the best things you can do when you are first starting out.

Another piece of advice I have is to really dive into the available literature. This could include things like books, papers, articles, among other things. By delving into the literature, you can see what other paleontologist are doing and what sort of issues they are tackling. This can help you better understand the field of paleontology and to develop research questions of your own too. If you find something you are interested in and you want to know more, try reaching out to the authors. This is a good way to virtually network with other scientists in the field and, while it can be intimidating, the worst thing that can happen is that they do not respond. I also want to say to not get discouraged if something does not happen the way you planned or would have liked for it to go. Sometimes there are setbacks to your career plans, but there will always be more opportunities in the future!

Gabrielle Scrogham, Marine Ecologist

March 6, 2023August 18, 2023jenebauerLeave a comment

Tell us a little bit about yourself. I have a Bachelors in Marine Biology and love to admire nature and the fascinating designs evolution and the planet have produced. I do art in my downtime, specifically painting, although I have interests in ceramics, woodworking, and sculpture. Most of my inspiration for art comes from interesting animals or landscapes. Swimming, snorkeling, and hiking are things I love to do given the opportunity. I like to write, discuss philosophy, and have been a martial artist for over ten years.

What kind of scientist are you and what do you do? I am a Geology Master’s student at the University of South Florida, Tampa. I study food webs in aquatic environments and the transfer of different nutrients and metals between fish species. I am interested in using geochemical methods and data to look at ecological relationships. Specifically, I analyze tissue samples and look at proportions of different compounds to determine what level of predator they are and how quickly those chemical signals can change over time. I am also hoping to incorporate computer programming into my research by developing data processing code that can be used by any researchers using similar data.

What is your favorite part about being a scientist, and how did you get interested in science? My favorite aspects of science are the creative challenges associated with it, such as experimental design and problem solving, and the opportunity to constantly be learning new things. In environmental science, there are multiple fields that intersect including biology, chemistry, geology, physics, ecology, and so on—in my research, I am constantly reading and learning about these things as part of my job. I was always interested in science as a kid, and specifically ocean life. Curiosity about how those organisms lived and what determined how much or how little we knew of them made me want to study science.

Gabrielle Scrogham in mangrove swamp with field gear, including quadrat, meter stick, and jellyfish resting on platform for measuring. — Gabrielle Scrogham in a mangrove swamp with field gear, including quadrat, meter stick, and jellyfish resting on platform for measuring.

How does your work contribute to the betterment of society in general? I am hoping that the methods I am studying for my thesis can be applied to a variety of fields, including future geochemistry work, conservation biology, and fisheries management. One advantage to the geochemical methods I use, which include mass spectrometry, is that small sample sizes can be used. This means that we can monitor live fish populations without using lethal methods. The techniques are being studied with fish populations, but these can hypothetically also be applied to other biological systems, to medical research, and to different subfields of geology.

What advice do you have for up and coming scientists? My biggest advice for other people (like me) who are beginning or early-on in their academic careers would be to focus on what you find interesting, even if you don’t have the ability to study that right away. Part of that drive or curiosity, in my mind, is critical to long-term success in science. My second piece of advice would be to learn as many skills as possible. Outside of books and coursework, knowing things like knowing how to use hardware tools or how to write computer code can be very useful. Knowing PVC plumbing can help with knowing how to put together an aquarium for study animals—and it’s stressful to only be learning it once the skill is needed immediately. Diversity in experience is also something that generally helps with confidence and being able to find a place to make yourself useful.

Background: blurry beach with some greenery in the far back. Foreground: Gabrielle Scrogham at beach examining a sea star and brittle star. — Gabrielle Scrogham at a beach examining a sea star and brittle star.

Colin Boisvert, Paleontologist (in training)

June 13, 2022May 19, 2022AdrianeLeave a comment

Describe your hobbies and interests outside of science. I am an avid reader both in non fiction related to paleontology, evolutionary biology, a lot of different scientific subjects in general and fantasy, science fiction and some other fiction. A few of my favorite authors include Pierce Brown, Christopher Paolini, Edgar Rice Burroughs, and Frank Herbert. I am also a huge nerd when it comes to a lot of popular media franchises such as Star Wars, Indiana Jones, Jurassic Park, Lord of the Rings, Harry Potter, MCU, DCU and Ghostbusters to name a few and quote movie lines all the time. I am a big costumer and have built my own Mandalorian armor among other costumes such as the First Avenger Captain America and Obi Wan Kenobi. I love to hike with friends, swim, and travel to new places (especially those with paleo stops). I love spending time with my family and friends and am a big foodie.

Colin sitting next to a neck vertebra in a room full of bones. — Me in the middle of taking photos of a cervical (neck) vertebra from my specimen in the North collections at the BYU Museum of Paleontology as part of the photogrammetry process. This process is used to make 3d models of the neck bones for my specimen of Apatosaurus excelsus.

Discuss anything else about yourself that you’d like to share that doesn’t have to do with your career. I grew up in the Silicon Valley in Northern California which shaped my love for paleontology and my love of some of my hobbies. I spent a lot of time outside, especially as my Grandparents moved when I was younger to the Santa Cruz Mountains where I fell in love with the forests there. Much of my family lives in Northern California and I have remained close with all of them. I love meeting new people, especially other scientists!

What is your role? I am a Vertebrate Paleontology Graduate Student working towards my Masters in Geology focused on Vertebrate Paleontology at BYU. Currently that just makes me a Mr. Boisvert but working towards eventually becoming Dr. Boisvert! I am currently working with Sauropods and specifically the neck biomechanics of Apatosaurus excelsus to understand more about how this animal held its neck and what the species’s possible feeding envelope was.

Do you conduct outreach? I would love to get into more outreach with school age kids here in Utah. I was an education intern this past summer at the Mammoth site in Hot Springs, South Dakota and loved it! However nothing is set up at the moment, so the only science outreach I communicate on is with my fossil Friday posts!

Colin holding up a cast of an Allosaurus skull. — The BYU Museum of Paleontology recently had professional shots done with photographers from campus using some of the specimens on display. This is a favorite shot of mine illustrating a pose similar to the classic Alas poor Yorik pose from Shakespeare with a cast of the skull of Big Al ( famous specimen of Allosaurus jimmadseni). While I do love studying sauropods, Allosauroids will always have a special place in my heart.

What is your favorite part about being a scientist, and how did you get interested in science? My favorite part of being a scientist is getting to work to uncover the past every day and sharing my discoveries with people. I get some of the greatest joy when I get to give tours or share what I have learned about prehistory and learning that while doing research is an equally amazing feeling. Having conversations about current topics in the field of paleontology is an exciting prospect that I always look forward to at conferences or over zoom. I became interested in paleontology at a young age, took earth science, biology, and chemistry in high school. From high school, I attended UC Davis where I did a double major in biology and geology. I had a status year where I was a tutor and then worked as a Mammoth Site Intern in the summer of 2021 and since August of 2021 have been working on my Masters at Brigham Young University.

Besides paleontology, I love learning more about geology, evolutionary biology, phylogenetics and biogeography in general. I also enjoy learning more about the history of different sciences including paleontology, geology, and the theory of evolution. Besides my project I would love to tackle scientific questions relating to the Mid-Cretaceous Sauropod Hiatus where we don’t see Sauropods in North America and Europe for between 25-30 million years in the fossil record. I would love to help close the gap between the transition of Dinosaur fauna in Western North America between 95-80 million years ago as well as what dinosaurs lived in Appalachia, the Eastern half of North America. Finally it would be interesting to test comparisons between famous North American faunas like that at La Brea Tar Pits vs the Morrison Formation and what similarities in ecological roles there are between the two ecosystems.

How does your work contribute to the understanding of evolution and paleontology? My work contributes to paleontology through how this research with Apatosaurus can help us more with understanding this sauropod’s neck posture and range of motion. By understanding how this animal moved and what it fed on, we can better understand the Morrison environment in one small aspect. At the time of my specimen, we have 5-7 large coeval sauropod species and by understanding the diet of this species we can begin to piece together the puzzle of how all these animals were able to coexist. The specimen I am studying is unique as it does not suffer from several of the problems plaguing sauropod neck studies such as bone distortion and incompleteness of specimens.

Colin standing outside of the BYU Museum on a snowy day, with snow covering the pines and cars behind him. — Me standing right outside the BYU Museum of Paleontology where I have conducted most of my research so far ! It has a world-class paleontology collection and is a fantastic place to visit.

How does your outreach contribute to or benefit society? Fossil Friday posts such as mine are important for helping to engage those connected to scientists through social media, spreading information about unique species, specimens and collections that are out there and providing recognition of the work that is done in our field and localities people should visit. A smile put on someone’s face learning about the past today, can inspire a budding scientist for tomorrow.

What advice do you have for up and coming scientists? Science is rough and not always a 9-5 job. It may require early mornings/late nights but the work is worth it and there is such an amazing feeling you get when you can present research at a conference and talk with colleagues about what you are studying. I wish I had known that jobs are difficult to come by as are graduate student positions so working really hard helps with being more competitive when applying to positions. Reading scientific papers is important for developing a good understanding and field vocabulary.

Have you received a piece of advice from your friends, mentors, or advisors that has helped you navigate your career? Looking for a variety of programs can help with applying to graduate school, publishing is very important and problem solving is key for scientists. I also learned two key tips for investigating possible graduate programs. 1, it is very important that you and a possible adviser can get along and will you get along if you attended there. 2, are they studying similar organisms/using techniques you wish to learn about so they can help you more when you have trouble with projects. Making an attempt to establish contact with a potential advisor before applying is a great way to build a relationship with them and can help with your application. It can be as simple as having a zoom meeting to discuss their research lab and interests.

Learn more about Colin by following him on Twitter, Instagram, and LinkedIn

Aaron Avery, Biostratigrapher

May 30, 2022March 22, 2022jenebauerLeave a comment

Tell us a little bit about yourself. My name is Aaron Avery, and I am a geologist who specializes in calcareous nannofossil biostratigraphy. I spent 6 years working as a biostratigrapher in the oil and gas industry, often working offshore on oil drilling installations in the Gulf of Mexico. More importantly, I am a father of one beaming sunray of a 4-year-old girl named Jori. I love spending time showing her around the world and cultivating the same curiosity and wanderlust that has gripped me my entire life. I’m a nerd at heart who loves science fiction and fantasy, but that never stops me from enjoying a great day outdoors; fishing, going to the beach, and hiking are always on the table. My love for adventure led me to sail with an NSF funded science outfit known as the Integrated Ocean Drilling Program (IODP). As I write this, I am currently sailing for the second time. With IODP, you get the experience of a lifetime through deep ocean drilling where you recover cores of sediments and basic rocks that are unique to the world. It is pure, unadulterated science for two months. I don’t have enough room here to talk about all of the reasons why sailing with IODP is amazing, so I’ll say this: it is the most incredible scientific experience of a lifetime where you will meet brilliant scientists, make connections, and try to answer some questions about the Earth’s mysteries. For anyone who has the stomach for being on a ship and away from home for two months, I highly recommend it.

What kind of scientist are you and what do you do? I’m a trained biostratigrapher who specializes in calcareous nannofossils, which are tiny marine algae that calcify shells around their cell(s). I got my MS in Geology from Florida State University and used my micropaleontology specialty to land a job with a consulting firm working as a biostratigrapher for oil companies. The company was based in New Orleans, LA, which was a lot of fun, but the rigor of having to go offshore to an oil platform on a day’s notice, missing holidays, and missing important milestones in my daughter’s life really wore on me. The solution was to move to Tampa, FL and start my PhD at the University of South Florida. I’m hoping to combine my knowledge of biostratigraphy and paleontology with a more advanced background in marine geology and paleobiology to study long term climate fluctuations and turn that into informative research for conservation purposes.

What is your favorite part about being a scientist, and how did you get interested in science? My favorite part about being a scientist is always having an interesting question to try to answer. That is also the most difficult part of science for me. I have an incredibly hard time deciding which project should receive priority. I just want to study anything, take advantage of any opportunity that comes my way. I’m interested in climate science, broadly. My specific focuses are biostratigraphy, climatology, stable isotope geochemistry, evolution, conservation paleobiology, and marine geology.

My path into science included a lot of change of major forms. I began my college career as a biology major with the idea that I would go to vet school. After a year, I was lured into being an English major by my love for writing. From there, I thought I would follow in my mother’s footsteps and become a high school teacher, so I added an education major to my program. Just one semester passed, and I quickly realized this was not the path for me. In the meantime, I had been doing very well in Earth science elective courses and fell in love with Earth science. I switched my major to geography with a focus on environmental science and picked up a geology minor for good measure. That is where I found my true passion. I decided I would start applying for graduate school and pursue a masters in geology. After a year of rejections, I finally landed a spot at Florida State University where I would earn my MS in geology with a focus on micropaleontology.

How does your work contribute to the betterment of society in general? I mentioned above that I worked in the oil industry as a biostratigrapher. This contributes directly to the production of fossil fuels to keep society running. However, this was always a means to an end, and after a while I wanted my work to be more meaningful than whatever the current price of a barrel of oil happened to be. This led me to start a PhD at the University of South Florida and focus on conservation paleobiology: research that will help me (hopefully) directly inform policy makers and the public about the best practices for preserving our world. I also hope to be able to provide unique insight and perspectives on biologic change through time that will help us make impactful decisions that have real positive impacts on the environment.

What advice do you have for up-and-coming scientists? If you want to be a scientist, my best advice is to never stop asking questions, and never be afraid to be wrong. Cultivate a passion for learning and discussion that allows you to be open minded in all facets of your career. Understand that science isn’t always glorious and that sometimes you have to grind to get to the things/answers you are passionate about. It may sound cliché, but network in whatever way is comfortable for you and cultivate relationships as they will bring opportunities to your doorstep.

Never succumb to imposter syndrome—you deserve to be here as much as anyone, and you earned it! As I write this, I’m sailing for the second time with the Integrated Ocean Discovery Program (IODP) and everyone, absolutely everyone, is brilliant. It was daunting the first time I sailed, but I learned on my first expedition that intelligence isn’t something to be afraid of, or to compare yourself to, it is a lifeline to a world of possibilities and learning. Everyone has something wonderful to offer, and you will too!

Danijela Dimitrijević, Paleobiologist

December 15, 2021December 1, 2021jenebauerLeave a comment

Figure 1. The happiness of discovering a fish fossil form the Upper Jurassic in the Wattendorf quarry, Germany.

Hi! I’m Danijela, a first year PhD student at FAU University Erlangen-Nürnberg in Germany. I am from Serbia, but I have been living in Germany since 2018 when I started a master’s degree in Paleobiology at FAU.

What kind of scientist are you and what do you do? My research is all about corals and reefs through time. I study the evolution of scleractinian corals also known as stony corals, from the time when they first appeared in the mid Triassic, around 250 million years ago until today. I am so happy to be working on these super organisms because everything about them is fascinating – their biology, ecology, and geology. They build coral reefs in shallow tropical seas which harbour the highest diversity of organisms in the ocean. They also live in a mutually beneficial relationship with tiny algae which perform photosymbiosis while living within the coral’s soft tissue and provide corals with 90% of necessary nutrients. Corals are also hunters at night, and some of them can live at depths of thousands of meters. Unfortunately, their future fate and the fate of many organisms that live on reefs and depend on them are also affected by the climate change and other anthropogenic disturbances such as pollution and overfishing. I could talk for hours about how cool are corals and reefs they form, and how we need to do everything we can to keep them from disappearing, so I have been lucky that this semester I have been given the opportunity to teach the course on geobiology of reefs to our Master students (in English of course!).

Figure 2 Filming a video as a part of the Science communication class. You can watch the video here https://www.youtube.com/watch?v=yLXlfYpRxaY

For my research, I am particularly interested in how their morphological characters changed through time and if their extinction risk was related to changes in their traits. For example, in my Master thesis I looked at changes in corallite diameter through time. Corallite is a skeletal cup in which the coral polyp sits. The size of the corallite could be related to their efficacy of obtaining nutrients and I was interested to see if this change was related to major warming events or reef crises in Earth’s history. This would help us predict their future fates under global warming scenarios. For this kind of research, we used datasets such as the one we created by collecting data from the literature into the database called ART which stands for Ancient Reef Traits. This database has been built for the past two years by the team of scientists at Paleo group at FAU and soon will become available to everyone.

Figure 3 Doing field work on Silurian reefs of Gotland Island, Sweden. I am the very concentrated person on the left 🙂

How did you become a palaeontologist? Unlike many paleo people, my story of getting into the paleo world is untraditional one. I wasn’t into dinosaurs when I was little, and I didn’t even know much about palaeontology until a few years ago. However, I always loved nature and all its wonders, and have been fascinated by both the biology and Earth’s history. In high school I was also interested in social sciences and languages so choosing a bachelor’s degree was very difficult for me. It was one of the hardest decisions I had to make because at the time I believed that I would have to be forever stuck in the chosen field. But I actually switched fields several times. I started by studying a bachelor’s degree in environmental science at University of Belgrade in Serbia. Then, I did a master’s degree in applied ecology (IMAE) which was funded by the Erasmus Mundus scholarship program, and it meant that I had to change universities during the two years. It was one of the best experiences of my life – not only did I get the opportunity to study at Universities in France and Portugal, but I have also met many amazing people and made friends for life. Within this program we got to go on a month-long field trip in Ecuador and experience and study different ecosystems. From hiking at 4000 meters in the Paramo ecosystems in the Andean mountains, over living in the heart of the Amazonian rainforest, to swimming with hammerhead sharks in the Galapagos Islands. After all these experiences I was sure I wanted to be a scientist. My master thesis was about the diet of Antarctic penguins (no, I didn’t get to go there) and at the time I was in search of a PhD program where I could get the opportunity to go to the Antarctic and study penguins. However, during that search I also stumbled upon several palaeontology projects, and I was simply drawn to it. Palaeontology as a field offered so much more than contemporary ecology – it was the intersection of ecology, biology and geology and many other fields and it felt just right for me. Since I didn’t have any formal education in palaeontology, I wanted to learn more about it. So, to the shock of many I decided not to do a PhD, but to do another master’s degree in Paleobiology. It was maybe one of the hardest decisions I made and it set back my scientific career by a few years, but it was definitely the right one! I am now grateful to myself that I was brave enough over the course of years to follow my heart and change fields!

Figure 4 Exploring the Galapagos Islands was so much fun!

What advice do you have for up and coming scientists? My message to young prospective scientists is that it’s never too late for anything in life and especially not for pursuing your passion. I still believe that having to choose a career path when you are 19 years old (or even a bit older) is way too early. So, give yourself a time if you need to explore your interests. Most importantly, don’t allow yourself to be stuck in a box – being interdisciplinary and having many different skills are the great advantages for a scientist. So, believe in yourself and just follow your own path, because doing what you love is the greatest reward of all.

Figure 5. Example of a corallite skeleton within coral colony. Photo accessed from https://www.istockphoto.com/de/foto/coral-struktur-gm950047064-259317766

Follow Danijela’s updates on Twitter, Research gate, and her website.

Sara Todorovic, Paleoclimatologist, Ph.D. candidate

December 1, 2021December 1, 2021jenebauerLeave a comment

The Coral Climatology team, a group of three women and one man standing in front of a brick building with glass windows. — Photo of the Coral Climatology team – (left to right) Sophie Zweifel, former intern; Marie Harbott, doctoral candidate; Dr. Henry Wu, work group leader; and me.

Tell us a bit about yourself. Hi everyone! I am a doctoral candidate at the Leibniz Centre for Tropical Marine Research in Bremen, Germany. After graduating in Ecology at the University of Belgrade in Serbia, I finished a MSc in Marine Environment and Resources (MER Erasmus Mundus) at the University of Southampton, University of Liege, and University of Basque Country. Finally, I decided to pursue research in paleoclimate reconstructions in order to improve our knowledge of modern climate change and ocean acidification. I am a part of the Coral Climatology group led by my supervisor Dr. Henry Wu, and funded by the Make our Planet Great Again research initiative, a joint project of France and Germany to tackle modern climate change through research related to Earth system science, climate change and sustainability, and energy transition.

What research are you doing for your PhD? For our research, we use cores drilled from massive tropical corals like Porites (but don’t worry, they are not hurt by this). Only the top few millimeters of the coral is alive, the rest is all skeleton – an intricate rock made of aragonite, as coral polyps keep growing. Cores we work on were drilled during past expeditions so our project is kept more sustainable. After the cores are drilled, the holes are filled so the coral can keep growing safely without fears of other animals infesting it. My project is focusing on the South Pacific area which is home to the South Pacific Convergence Zone (SPCZ), the largest persistent precipitation band in the Southern Hemisphere. The climate of this area is modulated by large-scale ocean-atmospheric interactions (El Niño/Southern Oscillation, Interdecadal Pacific Oscillation), which also impacts regional seawater CO2 absorption and pH variability.

Coral slab microsampling — Photo of me microsampling one of the coral slabs in our lab.

The cores are transported to our coral climatology lab in Bremen, slabbed and washed, X-rayed and CT-d. The scans help us see the annual bands, similar to tree rings, that help us determine how old the corals are to connect our data to points in time, but also help us establish the best sampling path so our data isn’t impacted by corals turning sideways or protruding from the slab etc. Coral skeletal microsamples are then drilled continuously and analyzed for many trace elements and isotopes for hydroclimate and sea surface temperature reconstructions (δ18Oc and sw, Sr/Ca, Li/Mg, U/Ca, Sr-U), while δ13C, B/Ca, and δ11B analysis allows for the reconstruction of surface seawater carbonate chemistry changes and pH variability. It’s truly a lot of work, one core has approximately around 2000 mm samples to be analyzed with two different methods, and then around 250-350 annual samples with a third method.

Boxes of samples — Collection of samples (around a 1000 of them at least) from the Lamont-Doherty Earth Observatory in NY, USA to be shipped to Bremen for analysis.

In this geologically short period of only 300 years or so, important changes have happened in how us humans use natural resources and affect the environment. Our coral-based reconstructions provide monthly to annual data to describe this change as corals have lived through it for hundreds of years, one of them dating back to 1770AD, much before the first instrumental measurements started!

What advice do you have for up and coming scientists? Working in science is not a straight line and not easy. When you love what you do, it’s easy to lose boundaries and let it consume you too much. Science is also not only academia, and I am learning myself that there are many options out there. The pressure of short contracts in academia, multiplying deadlines and no work-life separation has led me to burn out before.

Sample preparations for analysis. — Ten samples is all we can analyze in a day for d11B isotope ratios and annual pH reconstruction.

I like to balance my work life with doing sports and running (I am a proud two-time half marathon finisher so far, but I am no stranger to an occasional Netflix marathon either). I am also a big foodie, and whenever work gets a bit too much, baking a cake fixes it. Try to keep in mind that you’re in for a marathon and not for a short race.

Learn more about Sara and her lab’s research on their website here!

Brittany N. Price, Paleoclimatologist

November 22, 2021December 29, 2021AdrianeLeave a comment

Brittany, a brown-haired woman, wearing PPE while working on a gas bench in Northern Illinois Universities Stable Isotope Laboratory. — Brittany wearing personal protective equipment while working on a gas bench in Northern Illinois University’s Stable Isotope Laboratory

Similar to many children, I was always fascinated by volcanos! The dynamic way in which they change the landscape inspired me to pursue a degree in geology. While this interest and appreciation of volcanoes has never faded, a new specialty piqued my interest in my second year at university – Paleoclimatology. The idea that the past climate history of the earth could be reconstructed over millions of years by analyzing the chemical makeup of microfossils preserved in oceanic sediments quickly made me alter my focus, and subsequently my entire career trajectory! I spent the next three years working in the Paleoclimatology and Stable Isotope Geochemistry labs at the University of Miami to prepare forams (microfossils) from the Gulf of Papua (off the coast of Papua New Guinee) for stable oxygen and carbon analysis to better understand the influence of sea level, as well as variability in the East Asian Monsoon system in the western Tropical Pacific.

Fast forward almost 15 years and I am nearing the completion of my PhD. I now focus on terrestrial records that I use to assess variability in hydroclimate dynamics (i.e. rainfall) over the Holocene around the Pacific Ocean Basin. My current projects include a wide variety of locations and proxy data, from establishing chronologies of glacial advancement and recession in the South-Central Chilean Andes, to carbonate isotope reconstructions from small lake basins in Guatemala and Nicaragua. Moving forward I hope to work on better constraining the roles that aridity and convection play in the global hydroclimate system through the use of stable isotopes, as well as to reconstruct better land-based temperature proxy records. It is truly amazing to witness the analytical advances that have been made even during my relatively short career as a geoscientist!

Brittany, wearing full PPE including a face shield, working to decant hydrofluoric acid from samples used for cosmogenic chlorine-36 dating.

If I were to give one piece of advice to aspiring geologists it would be that no two paths look that same, so it is best not to compare yourself to others! There are so many interesting careers in our discipline, and it is alright to explore them. After I completed my undergraduate education, I continued on for my Masters in Geology. While I had wanted to work on terrestrial sediment cores, I ended up working on a basin analysis project using seismic reflection data. Having this skill set opened avenues that I hadn’t originally considered for myself, and led to a job offer and a career working in the oil and gas industry for 8 years. However, I realized that I was still truly inspired and passionate about Paleoclimatology, and that I still had so much more I wanted to learn. I decided to leave the workforce, and as a more mature student (at least 10 years older than the average age of my cohort) I entered the PhD program at Northern Illinois University. Returning to the world of Paleoclimatology has been one of the best and most fulfilling experiences of my adult life, even if the path I took to get here was a bit longer than most.

Brittany, woman in a wide-brimmed hat and fleece jacket, on a snow-covered field in front of a small cirque glacier — Brittany on a snow-covered field in front of a small cirque glacier.

Benjamin Keenan, Biogeochemist

November 15, 2021September 21, 2022AdrianeLeave a comment

Photo showing Benjamin in the foreground with a volcano erupting the background — Benjamin during an eruption of Volcán de Fuego or Chi Q’aq’ in Guatemala

Hello everyone. I am a biogeochemist who uses ancient molecules found in lake sediments to investigate interactions between humans and their environment. I am finishing a PhD in biogeochemistry at McGill in Montréal, Québec. I like skiing and ice skating, jazz, and when the earth is not frozen over I spend my lot of time bike-camping and swimming outdoors. I moved to Canada after a degree in geological sciences in England/California and working as an environmental consultant, a water engineer, and as a research assistant at the Complutense University of Madrid.

My current research looks at how the lowland Maya interacted with their environment and how they responded to climate change over 3,300 years. I take samples from Central America, extract organic molecules known as lipids and analyse them using different methods. I use plant waxes as a proxy for vegetation and hydrological change (how wet or dry it was) in the past, polycyclic aromatic carbons (from the incomplete combustion of carbon) as a proxy for biomass burning the past, and faecal stanols as proxies for population change.

My first chapter shows that population declines in the southwest Maya lowlands are associated not only with drought at multiple times throughout history, but also with anomalously wet periods, and has also highlighted potential efforts to reduce soil erosion as well as the use of night soil (human waste) as fertiliser in the past. This work attracted a lot of media interest, including from the CBC, Haaretz, El Mundo, and Archaeology Magazine, and will be vulgarised in the magazine Le Climatoscope. It also forms part of the chapter “Climate Change and Variability in the Protoclassic” in Remaking Maya Civilization, Social and Political Transformations in the Protoclassic Maya Lowlands.

Benjamin wearing a striped shirt, shorts and wellington boots in a tree over a cliff reaching out to collect leaves for analyses — Benjamin in the field in Guatemala collecting leaves for plant wax analyses

Now I am in the process of writing my thesis, which I will submit in December, and working with a digital artist to create a virtual Itzan, the archaeological site where the samples I have analysed were taken from. I think it is important for people to know that ancient societies were affected by climate change and by looking at responses to environmental change in the past how we might better understand anthropogenic climate change today and in the future. I am particularly interested in migration as climate change adaptation and am a member of the McGill Refugee Research Group.

Most students are fortunate enough to be on campuses with interesting seminars and public lectures in different departments that you can attend and make connections between your interests, your research and what is happening in different areas and at different scales. This is interesting and can be fruitful, and helps prevent you from getting stuck in the rut of your niche bit of research. Attending talks in anthropology, geography, and social sciences has given me new perspectives for my thesis, where the question I am researching requires an interdisciplinary approach.