Seabird Research on the Western Antarctic Peninsula

I’d venture to say that I’m not the first field biologist to stare into the distance past my computer for a long while before deciding that trying to describe the smell of a seabird colony in a blog was futile.

My name is Erin Pickett and I am a graduate student at OSU’s Marine Mammal Institute. I am affiliated with the Biotelemetry and Behavioral Ecology Laboratory, a sister-lab of GEMM, and am here to share my recent experience conducting field research in Antarctica.

I’ve recently returned from a field season at Palmer station on Anvers Island, along the Western Antarctic Peninsula. Throughout the month of January I was collecting data for my masters’ project, while partaking in an on-going study conducted by the Palmer Long Term Ecological Research (LTER) program. I was fortunate enough to join the seabird research team at Palmer, a group that has been monitoring the area’s breeding seabirds for over two decades. January is the team’s busiest Antarctic summer month as the seabirds are in the midst of their annual breeding season. Our primary focus was studying the foraging ecology and demography of Adelie penguins; however, we also monitored Chinstrap and Gentoo penguins, southern giant-petrels, brown and south polar skuas, and blue-eyed shags. Before I delve into a description of this research, I’ll tell you a bit more about what it’s like to work in Antarctica.

It became quickly apparent to me that working with a team of experienced field biologists who have spent a collective thirty or so seasons in Antarctica meant that I would be the only one distracted by the scenery. This situation was exacerbated by the fact that I had never witnessed snow falling before I had arrived in Antarctica. I tried to play it cool, but inevitably rolled down every snow-covered hill I came across, and I couldn’t help but stop and stare into the sky every time it snowed.

There might have been some misunderstanding when in an email to a friend I referred to the weather as balmy. By Antarctic standards this was true, the average daily temperature hovered around 35°F. By my Hawaii-born standards, it was only balmy once I donned three or four layers, slipped toe warmers in my boots, and sipped on hot coffee while I hiked up a hill. Still, I considered myself lucky to have escaped my first Oregon winter by travelling south.

At Palmer I quickly learned that birders don’t come in for lunch. I adjusted my rations accordingly, although I have to admit that my “emergency food” in my “emergency boat bag” got eaten despite the fact that no real (non-hunger related) emergencies occurred. Every day after packing lunch and suiting up, we would load a small zodiac with our gear and set off to work on the numerous islands surrounding the station where seabirds were nesting.

One of the main objectives of the Palmer LTER program is to research the effects of climate variability and change on the marine ecosystem surrounding Palmer station. As an apex predator, the Adelie penguin plays a focal role in this project by providing insight into ecosystem-wide changes in the marine environment and the surrounding coastal habitat. Over the last four decades, Adelie penguins on the Western Antarctic Peninsula have experienced a decline of over 85% of their population. During this same time period Gentoo and Chinstrap penguins, who were previously unknown in this area, established founder colonies and they have been increasing in number ever since.

These recent population trends have been alarming and have driven Palmer LTER research objectives aimed at understand the mechanisms behind these changes. The proximal cause behind these demographic shifts is a warming-induced loss of sea ice along the peninsula. Over the last 50 years, the average mid-winter temperature in this region has risen by 6°C (five times higher than rise of the average global temperature). By decreasing the extent, duration and concentration of winter sea-ice, this warming has altered marine primary productivity and transformed coastal habitat along the peninsula.

These transformations have caused the climate along the WAP to more closely resemble the warmer and moister sub-Antarctic, rather than the traditionally cold and arid Antarctic it once was. This has resulted in a southward expansion of the ranges of sub-polar, ice-avoiding species (e.g. the Gentoo penguin) and a contraction of the ranges of ice-obligate species (e.g. the Adelie penguin). The strong influence of sea ice on the ranges of these two species makes it difficult to determine whether sea ice driven marine variability has also influenced these trends. The life history of Antarctic krill, a primary prey item of both Adelie and Gentoo penguins, is intricately tied to the seasonality of sea ice. In regions north of Palmer, decreasing sea ice has resulted in declining krill stocks. In the future, trends at Palmer are predicted to mirror those seen in the northern WAP.

For my master’s research, I am working with the seabird biologists at Palmer station to gain a better understanding of how prey variability affects the foraging strategies of Gentoo and Adelie penguins in this area. Specifically, I will be investigating how the foraging behaviors of Adelie and Gentoo penguins change in relation to inter-annual krill recruitment variability. I will be utilizing a long time series of data collected at Palmer by outfitting Adelie and Gentoo penguins with satellite transmitters and time depth recorders. This data will allow me to describe the foraging behavior and effort expended by these penguins on the daily foraging trips they make to feed their chicks. Determining how each of these species responds to prey variability will help us better understand the current community structure of penguins at Palmer. This is important because it will leave us better informed to predict the effects of future ecosystem shifts on the reproductive success and geographic distributions of these two species.

I’m looking forward to sharing more of this research as time goes on. Until then, enjoy the photos!

Sharing the Coast Conference

GEMM lab recently attended the Sharing the Coast Conference 2015 at the Hatfield Marine Science Center in Newport, Oregon where graduate student Courtney Hann presented on a marine mammal citizen science project, called Whale mAPP.

The Sharing the Coast Conference was a wonderful opportunity for scientists, researchers, community members, and avid ocean enthusiasts alike to come together and discuss current research on the Oregon Coast, with a focus on citizen science research. Many of the presenters introduced Oregon Coast or online citizen science projects people could participate. Other hands-on activities included field trips to Moolack Beach, Devil’s Punchbowl, along with tutorials on how to monitor marine debris and sea star wasting.

Courtney Hann represented the GEMM lab with her Sunday presentation on Whale mAPP, an Android application that can be used by volunteers, whom we call citizen scientists, to record marine mammal sighting data. The audience was inquisitive and intrigued by this project, along with many of the other wonderful citizen science projects. The American Cetacean Society, Oregon Chapter, will be using the Whale mAPP website (www.whalemapp.org) this whale watching season to record shore-based marine mammal, focusing on grey whale, sightings.

Overall, the Sharing the Coast Conference was an ideal event that brought people from all around Oregon and from multiple organizations (Oregon Shores Conservation Coalition, Northwest Aquatic and Marine Educators, American Cetacean Society, CoastWatch, Hatfield Marine Science Center, GEMM lab, etc.) together to talk about relevant Oregon Coast topics. The focus on engaging volunteers with scientific research represents an exciting turn towards embracing citizen science research, and incorporating free-choice learning opportunities into citizen science projects.

Depoe Bay STEAM fair at Kids Zone

Hello All!

As promised, this weekend, the GEMM lab attended the first ever S.T.E.A.M. (Science, Technology, Engineering, Arts, and Mathematics)  Fair  organized by the friendly folks at the Depoe Bay Kids Zone.  We had a table and a half available for us to showcase some bio-artifacts  such as: harbor seal, northern fur seal, and river otter pelts, skulls from a male California sea lion, a Dahl’s porpoise, and a beaked whale, and a humerus bone from a sea lion as well as several species of whale baleen and teeth – Did you know that you can count growth rings on whale teeth just like tree rings to get an idea of how old they are?

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Our booth, and fearless leader Dr. Torres explaining blubber gloves to guests.

We also had a small hands-on experiment showcasing how whales (and seals) stay warm in the frigid ocean waters. Want to try at home? Here are some directions! You’ll need some (at least 1/4 gallon) zip-lock bags, a container of crisco, a bucket of ice water, a towel and some curiosity.  Fill a ziplock bag about ~1/3 way with crisco. Now turn another bag inside out, squish it into the other bag and zip the two bags together so that you have a continuous layer of crisco sealed between the two bags – no more mess for your hands! Make sure when you place your hand inside this crisco-d bag that the layer of crisco is evenly distributed on all sides -voila! blubber glove!  The crisco is intended to simulate the effect that a nice thick layer of blubber has on cetacean (whale) and pinniped (seals & sea lions) heat retention in water.  Stick one hand in the “blubber glove”, and place it in the icy water.  Simultaneously, place your un-protected hand in the ice water.

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into the icy cold!

How long can you keep your hands in the water?  Can you keep one hand in longer than the other? Which one? Why? Can you think of any technology that humans use to mimic this effect? (Hint: think clothing for surfers and divers)

One of our lab members is studying harbor porpoises by using acoustics (sound), so she brought her laptop and some headphones so that interested folks could listen to all the weird sounds in the ocean and all the crazy cool calls that whales and porpoises and seals make to communicate with each other.

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Amanda helps a pair of students identify sounds in the ocean.

 

One of the difficult things about studying marine mammals is that we can only truly see them when they come to the water’s surface to breathe, so we invited people to learn how to spot whale blows, fins, and flukes (pictures that we had scattered around the hall) and start to get creative about how one can spot these elusive animals.

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Florence and Solene explaining comparative anatomy.

 

All together, it was a lovely, well organized event – among others, we were joined by the OSU Fish and Wildlife club, the Coast Guard, local artists, and many of the students had their own booths showcasing home wind-energy, chemistry and physics experiments that all could try.  We had a lot of fun and will most likely be back in future years! Until next time, Fair winds everyone!