Author: Erin Pickett

Whale there they are

Erin Pickett @ Palmer Station

Here at Palmer, we have expensive acoustic equipment that allows us to see down a hundred meters or so to the bottom of the ocean. If krill or small fish (or the occasional penguin) are beneath us, they’ll show up on our computer screen as fuzzy looking colorful patches suspended in space (or along the seafloor). This technology is kind of analogous to the weather stations we have around Palmer. We look at a computer screen or in this case, turn our marine radios to the ‘weather station’, and we get the wind speed, wind direction, temperature, humidity and air pressure all by pressing one button. So we know where we are by looking at our GPS, we know where the krill is thanks to our fishfinder, and we know what the weather is doing thanks to real-time updates on our radios.

Yesterday morning while Logan and I were taking our first few sips of coffee and looking at the latest weather forecast that is conveniently waiting in our inboxes every morning, there was a man standing on the shoreline by our boat dock. He happened to be one of my graduate advisors, and one of the most senior scientists here at Palmer Station, Bill Fraser. Bill has been studying the environment here for more than twenty seasons, since before most digital technologies. Bill was observing krill along the water’s edge. This was notable, because we have not recorded significant amounts of krill in the vicinity of Palmer Station this season.

Bill mentioned to Logan that the whales might finally arrive today.

Any great field biologist, fisherman, or surfer knows the value of constantly observing the weather, the waves and the sky to know what to expect out of the day. If we are lucky enough, we are able to do this across seasons and years and we’ll even know what to expect from large-scale climate fluctuations like El Niño. Most surfers on the west coast and Hawaii knew the winter surf season would be epic this year, just like many scientists along the Antarctic Peninsula knew it was going to be a big ice year.

Soon after Logan spoke to Bill, we got our gear together and about ten minutes after leaving station Logan spotted blows on the horizon. There were so many blows, so frequently, our first thought was that it might be a large group of killer whales. We hadn’t seen more than one or two humpbacks this month, and had never seen so many individuals at once this season at Palmer. As we approached we started seeing the tell-tale humped dorsal fins arching, and flukes raising above the water as the whales dove.

Logan and I spent the next three hours doing our best to collect biopsy samples and photographs (for photo identification) of each whale. There were nine animals in the vicinity of our boating limit and probably another handful too far away for us to get to. In the end, we collected biopsy samples from seven whales and lost our last bolt amongst a group of four animals travelling into the glare of the sun, out of our boating range as the swell and wind picked up. We attempted to use a handful of nearby Wilson’s storm petrels to guide us to the lost bolt as the birds are attracted to the tissue samples, but we did not find it.

Logan wrote a blog post earlier in the season describing our biopsy sampling procedure and what we will use these samples for: http://blogs.oregonstate.edu/ltercetaceans/2016/01/19/25-mm-sample-45-foot-whale/. In short, each 25mm long sample will allow us to conduct genetic, hormone, and dietary analyses to assess the health and status of this population of humpback whales.

After a full afternoon of whales, we returned to station exhausted and exhilarated.  Over the next month, we will be continuing to search for whales and for krill on our fish finder. In addition to our sophisticated software and instruments, from here on out I’ll take a hint from Bill and use those good ‘ole analog methods i.e. I’ll remember to walk down to the shoreline and get a feel for the conditions.

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(Research activities conducted under the National Marine Fisheries Service permit no. 14809-2)

Lichen what we’re seeing

Erin Pickett @ Palmer Station

Summer has been moving right along here at Palmer Station. While Logan and I haven’t been observing high numbers of whales, we have had the opportunity to see some awesome wildlife and beautiful scenery lately.

While we focus on top predators, there are many other scientists working here at Palmer, all of whom share a focus on studying how climate change is affecting the marine and terrestrial ecosystems in this region.  One science group is studying microorganisms (and their role in O2/CO2 cycles), another focuses on phytoplankton, one is studying an insect (the Antarctic midge), and another is studying the chemical ecology of marine macroalgae and invertebrates.

I am slowly learning about all of these projects. For example, one of the ‘buggers’ walked by our lab yesterday carrying what looked like a glass of ice water and I said “Hey! What are you doing? Are you killing your bugs?” He patiently explained that the Antarctic midge prefers freezing temperatures. Ok, that makes sense. By the way, the Antarctic midge is 2-6mm long and the largest land animal on the Antarctic continent.

We have science talks one night a week at Palmer. Last week after learning about the chemical ecology of the local marine invertebrates and algae, I was nearly convinced to jump ship from team whale and join team macroalgae. A big part of this might be me wanting to go diving, but still. Chuck Amsler (from UAB) gave a great talk about the research that the divers will be doing over the next month.

All in all, we haven’t seen many whales in the past two weeks, but we have found many other plants and animals to keep us entertained and asking questions.

You can learn more about the buggers project here: http://aflyonthepole.com/ and more about the Palmer LTER research components/labs here: http://pal.lternet.edu/research

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Meet the Southern Giant Petrel #seabirdsaturday

By: Erin Pickett

I have overheard about three different people today call the weather “gross”, which is understanding given the winds around here are gusting over 40 knots and it’s been raining all day, but I’m kind of enjoying it.

Due to safety concerns, we don’t take our Zodiac boats out if the winds are higher than 20 knots, so Logan and I have been occupying ourselves with indoor tasks today. I thought I’d take the time to share a few photos with you. Yesterday while Logan and I were surveying for whales we came across a group of giant petrels sitting on the water along with a few hovering Wilson’s storm petrels. Upon closer inspection we found the petrels scavenging on a fresh penguin carcass. Leopard seal leftovers perhaps?

Southern giant petrels are very cool! They range throughout the entire southern ocean and breed on many sub Antarctic islands and along the Antarctic Peninsula. They are large birds, with a wingspan of 150-210 centimeters (over 6 feet!). The scientific name of the giant petrel is Macronectes giganteus, which comes from Latin and Greek root words meaning “large”, “swimmer”, and “gigantic”. Another fun fact- the name Petrel refers to the story of St. Peter walking on water. Petrels have webbed feet that allow them to run on the surface of the water when they take off (they also make unique tracks through the snow).

The seabird team here at Palmer is monitoring the local population of giant petrels that are currently raising their chicks on nearby Humble Island. While they are raising chicks, mating pairs take turns guarding their nest and making foraging trips to obtain food for themselves and their young. Giant petrels are scavengers and will feed on carrion (e.g. dead and decaying elephant seals) and they are also predators that will kill live birds by taking them off the surface of the water.

Check out the photos to see what I’m talking about!

 

The finale: the Rosenthal Islands

Erin Pickett-

The Palmer LTER 2016 research cruise has come to an end and I am back at Palmer Station. In addition to a fantastic espresso machine, Palmer Station also comes with the added benefit of more internet bandwidth and a phone to call home. I thought while the memories are still fresh and my friends and family are beginning to ask, I’d better write down a few of my favorite field adventure moments.

Thinking back, there are a few common themes that all of these favorite moments have in common, and they are; high winds and snow stinging my face, dramatic cliff faces and rocky islands, shoes covered in penguin guano, sightings of whale spouts, and seabirds I have never seen before.

Overall, there were far fewer whales seen on this cruise than there have been in the past. Luckily, I was able to keep busy anyway, because when we weren’t finding whales I was assisting the seabird team in their pursuit of penguins. Toward the end of the cruise most of the science projects happening on the ship were wrapping up and the birders and whalers were given more freedom to direct the show. This meant we were able to work with the captain of the ship to chart courses to areas where we thought we might find whales and to rarely visited islands with colonies of Adelie, gentoo, and chinstrap penguins.

The first group of islands we visited were just east of Prospect point, called the fish islands. We used a handheld GPS and hand-drawn maps to navigate around a group of small rocky islands collectively named the minnows. Carrie and Darren (the “birders”) and I hopped on and off our skiff to count the chicks and adult penguins on each island. Meanwhile, our boat driver was keeping an eye on the wind and the icebergs surrounding us so that we wouldn’t find ourselves trapped in the bay if the sea ice became packed in by strengthening winds. Our ride back to the ship that day was quite wet due to a lot of wind chop, and we spent the rest of the afternoon drying our gear out and warming up so that we would be ready to return back to the minnows that evening to collect Adelie penguin diet samples.

Giovanni Fattori (https://commons.wikimedia.org/w/index.php?curid=11939457)
Prospect point is colored in red in the center of the peninsula, with Anvers Island and the Gerlache straight to the North. Image credit: Giovanni Fattori (https://commons.wikimedia.org/w/index.php?curid=11939457)

Diet sampling is a critical part of the birders work during the LTER cruise. Collecting diet samples from Adelie penguins over a long time period and over large geographical distances allows us to monitor how changes in sea ice along the peninsula are impacting top predators and their prey. We had a successful trip back to the minnows that evening and collected fresh diet samples from five Adelie penguins that had just returned home from foraging trips.

Two days later we arrived at the Rosenthal islands, which are located on the west side Anvers Island. Our goal at the Rosenthal’s was to census the local penguin colonies. The Rosenthal’s were unlike anywhere else I have been yet, with jagged islands set dramatically near the base of a large glacier and waves crashing over nearby shoals and icebergs. Southern giant petrels and skuas glided over our heads while groups of penguins porpoised around us. At the first island we came to we got to see a king penguin, a rare sighting in this area.

Luckily there were six of us to count the thousands of Adelie, gentoo and chinstrap penguins that were scattered in colonies all over the islands, but it still took most of the day to complete our counts. After one last trip through the Gerlache straight at sunset, we arrived back at Palmer Station.

I hate to admit that I didn’t have my camera with me at Prospect point and at the Rosenthal’s, so until I get a few from the rest of the field team here are a few from the last week of the cruise…

It’s hard to keep a straight face when you’re trying to write something serious about bubbles

By: Erin Pickett

When I was in middle school I wrote a report about bubble rings but I don’t remember if I had the same problem I do now of trying to sound serious, I was probably less concerned about that at the time. That paper was about individual ring-shaped bubbles, like the kind dolphins (or humans like me) blow underwater. This blog is about the bubble nets that humpback whales create to corral their prey underwater (I have yet to master this skill).

I have just finished auditing about 7.5 hours of video footage that we obtained from the suction cup tag we deployed on a Humpback whale earlier this month. My objective was to create a detailed log of underwater foraging behavior. We were especially interested in recording video footage and collecting fine-scale movement data from the whale during coordinated bubble net feeding events. This video footage is the first of its kind documenting this type of feeding behavior in Antarctic Humpback whales.

I found many occurrences of both bubble net and lunge feeding events, and in some cases the underwater visibility was good enough to observe other whales in the video frames. Throughout most of the 7.5 hours the tagged whale was travelling and foraging with at least one other whale, but at one point up to three other individuals were present. Other notable behavior included vocalizations and pectoral fin slapping on the surface of the water. Krill were frequently observed rushing by the forward facing camera just after lunge events.

Watching these videos over the course of a few days I became kind of committed to this whale’s story, and where each video ended and another began I found a narration running through my head that went something like, “next time on the life of the whale… will he find more food?” When the final video ended I even felt a little sad that I wouldn’t be able to keep following him on his journey.

I’ve included some screen shots below to give you a better idea of what I observed while watching the videos.

A lone Antarctic krill passing by the camera
A lone Antarctic krill passing by the camera
If you look closely you'll see two whales in the top frame (left side of the whale) and one whale in the bottom frame (right side of the whale)
If you look closely you’ll see two whales in the top frame (left side of the whale) and one whale in the bottom frame (right side of the whale)
This frame captured a whale slapping it's pectoral fin on the surface of the water
This frame captured a whale slapping it’s pectoral fin on the surface of the water
Another whale blowing bubbles in the background
Another whale blowing bubbles in the background
This frame looks over the front left side of the tagged whale and you can see the bubbles rushing by. You'll also notice a barnacle stuck to this whale.
This frame looks over the front left side of the tagged whale and you can see the bubbles rushing by. You’ll also notice a barnacle stuck to this whale.

P.S. I named this whale Mr. Opihi man, since the barnacles and the suction cups stuck to his back reminded me of the way Opihi (the Hawaiian word for limpet) stick to the rocks.

A visit to Rothera Research Station

By: Erin Pickett

We had an eventful weekend on the LMG, visiting a British research station on Adelaide Island on Saturday and nearby Avian Island on Sunday. We arrived at Rothera Station early Saturday morning and traded most of our LTER team for a group of British scientists. The British base was very welcoming and had a full of day of crevassing, skiing, hiking and boating activities planned for us. Meanwhile, their scientists took advantage of the use of our ship for a few offshore science projects.

We “whalers” took advantage of the free time and good weather and spent the morning looking for Minke, Humpback and killer whales in the vicinity of Rothera. We had hoped to put a stop to our long streak of days without whales but unfortunately there were no whales to be seen. Despite this, we had a great morning taking photos of the many icebergs, leopard seals, Wilson’s storm petrels and blue-eyed shags in the area.

Sunday was a beautiful bluebird day and we had a gorgeous transit from Rothera around the south end of Adelaide Island to Avian Island. We left two of our LTER colleagues on Avian and they will be camping there for the week. They will be studying the island’s population of Adelie penguins, conducting diet studies and assessing reproductive success by weighing, measuring and counting Adelie chicks.

Spending a week each year on Avian Island is an important aspect the seabird component of the LTER program because Avian Island serves as a sort of “control” study site, to compare to the more rapidly changing Palmer site. The differing physical and biological conditions at each of these two sites allow scientists to assess how things like local sea-ice conditions and biological productivity affect each of the local penguin populations. There are around 80,000 Adelie penguins on Avian, so you can imagine that we could smell the krill-colored guano long before we landed on the island.

Photos!

I’ve just finished uploading some great photos of the past week on the ship, here.

You’ll notice this is the same blog post from yesterday on a different website. You can find photos at the end of the most recent post. I encourage you to read more of the blogs on that site, which is the blog site for the Geospatial Ecology of Marine Megafauna lab at Oregon State University.

-Erin

Hello from the straights of Magellan!

The R/V Lawrence M. Gould departed Punta Arenas, Chile yesterday, marking the beginning of the annual Palmer LTER research cruise. Myself (Erin Pickett) and my lab mate Logan Pallin, are looking forward to sharing our adventures and research with you over the next three and a half months! Logan and I are graduate students at Oregon State University’s Marine Mammal Institute. While on the cruise and at Palmer Station, Logan and I will be working with our graduate advisor, Dr. Ari Friedlaender, and with Dr. Doug Nowacek from Duke University. Ari and Doug are two of the Principal Investigators leading the cetacean component of the Palmer LTER project.

The work that we will be doing over the next few months is part of a long term ecological research (LTER) program based out of Palmer Station, Anvers Island, along the Western Antarctic Peninsula. Over the next few months our whale team will be conducting cetacean surveys and collecting acoustic-based prey measurements of Antarctic krill.  Much of our effort will be focused on humpback whales, and we will be using methods such as photo identification, tagging and biopsy sampling to understand more about this species recent recovery in this area and to learn more about the ecological roles that these large baleen whales play in the marine ecosystem along the peninsula.

We are especially interested in learning more about the foraging ecology of humpback and minke whales, how their behavior is influenced by their primary prey (Antarctic krill), and how their population demographics (genetics, sex, hormones) may change over time.  Many of the region’s top predators share this prey resource, which is declining as a result of sea ice loss. A central objective of our research is to understand how climate induced changes in this polar marine environment are affecting these top predators.

Until we reach the northern boundary of our study area where we will begin our official surveys, we will be occupying ourselves on the ship with a bit of bird watching. I’ll be teaching Logan how to distinguish a duck from a petrel, and a “freaking huge bird” from a Royal albatross. So far in addition to a couple of royal albatross we’ve spotted white chinned petrels, black-browed albatross, and South American terns. It’s nearly tropical outside this afternoon, breezy and 11.2˚C, and a group of Peale’s dolphins are riding our bow wake, so enough writing for one day!