Tag: Field Work

A Week-Full of Whales

Hello and greetings from the sort of sunny Oregon Coast! Sarah reporting in to offer an update on Florence’s Gray Whale study now that we’re about ten days into sampling. If you’re new to our blog you can read up on the preliminary field season right here.

This little gray was incredibly frustrating to follow due to its irregular surfacing and tiny spouts that were hard to see. We affectionately named it Ninja.
This little savior came through on the day all our technology failed and cheered us up with his rainbow spouts.  Thankfully, he’s a repeat visitor and though we may have missed him on the 14th, we were able to get a good focal follow on him today.

Before I get to the project though, let me introduce myself a bit further. As I said, my name’s Sarah – one of the three interns on our whale surveying team. I got my Bachelor of Science in Oceanography at the University of Washington a few years back and have since worked as a lab tech at UW’s Friday Harbor Labs and as an Americorps volunteer serving as a teacher’s aide. Eventually I plan to become a science teacher, but thought a little more field work this summer would be a nice break after two years of service.

Cricket and Justin pondering the challenges of whale watching.
Cricket and Justin pondering the challenges of whale watching.

Thus, I moved to Newport last week just in time to catch the first day of our main surveying season. And what a season it’s been. We’ve tracked 48 whales since I’ve arrived, averaging about six a day. Of course, those aren’t all 48 different whales. If we lose sight of a whale for longer than 20 minutes, we assume it has left our study area and pronounce it lost, and unless we can identify the next sighting as the same whale based on markings (which we’re getting pretty good at), we give it a new number to keep track. We also give whales we’ve already seen new numbers when we see them on a different day.

Table for two: these whales caused some confusion among the team as they began to forage together before we could tell the difference between the two.
Table for two: these whales caused some confusion among the team as they began to forage together before we could tell the difference between the two.

You might be wondering how we can tell gray whales apart when they’re mostly, well, gray and underwater. And the short answer is we have a pretty difficult time doing so at first sight. Gray whales aren’t like orcas, whose saddle patch just behind the dorsal fin serves as a fingerprint, nor are they humpbacks, whose patterned flukes are cataloged for easy matching. Gray whales have more of a dorsal hump than a fin, followed by five or six ridges we call knuckles. They aren’t famous for showing their flukes above water either, so unless you get several views of a particular whale’s sides, dorsal, and, if you’re lucky, fluke, it’s hard to have a positive ID for the whale. The good news is, that part of our sampling equipment is a camera with a massive zoom lens, so we can take photos of most of the whales we track with the theodolite (see the previous post to learn about theodolites). From those photos (at least 400 a day) we can look at scars from barnacles and killer whales, pigmentation spots that are part of the whales’ coloring, and parasites like barnacles and amphipods to recognize whales we’ve seen before. Eventually we’ll send all the photos we take to the Cascadia Research Group in Olympia, Washington, that keeps a database of all identified gray whales.

Sitting on a clifftop photographing whales might sound more like a vacation than science, so here's some (very peliminary) data of one whale. This is Mitosis on three different days. The first day is red, second is yellow, and the third is green.
Sitting on a clifftop photographing whales might sound more like a vacation than science, so here’s some (very peliminary) data of one whale. This is Mitosis on three different days. The first day is red, second is yellow, and the third is green.

Anyways, thanks for keeping with me to the bottom of the page. It’s been a fun first week-or-so and I’m excited to be heading to our second study site in Port Orford tomorrow after surveying. We’ll be there for 15 days, so next time you hear from us, we’ll be a bit further down the coast.

Yes, we named a whale after cell replication, because look at those overlapping spots!
Yes, we named a whale after cell replication, because look at those overlapping spots!

Best Fishes!

 

Sarah

Gray Whales of the Oregon Coast; Preliminary field season!

Hello all, Florence here with an update from the field!  Its high time that I tell you a little bit about the rather exciting project getting started here at the GEMM lab.  Concerning the foraging ecology of the Pacific Coast feeding aggregation of gray whales, and conveniently having a high potential to improve local conservation practices, my team and I are hoping to (1) document and describe fine-scale foraging behavior of gray whales, (2) assess the impact of vessel disturbance on foraging behavior, and (3) work with local communities, stakeholders, and whale watch operators to create sustainable, scientifically informed guidelines for vessel operations in the presence of gray whales.

As with many things, collaboration is the key to success, and for the past month, I have teamed up with Miche Fournet of the ORCAA lab to run a theodolite-for-marine-mammals training camp.  What is a theodolite you may ask?  A theodolite is a precision surveying instrument used to measure angles in the horizontal and vertical planes.  You may have seen one in use by a road crew or property surveyor. The instrument has also been adapted to marine mammal work because by knowing your own altitude and position, that of a secondary point, and using the telescopic sight to focus on a whale, one is able to calculate the exact location of that whale.   Do this every time the whale comes up to breathe, and pretty soon, you have a fine scale track-line of exactly where that whale has been, for how long, and what it was doing.  It was quite fun to learn the tricks of the trade with Miche and her Acoustic Spyglass crew, and we wish them a successful field season with the Humpbacks up in Glacier Bay, Alaska.

Justin spots a whale while Cricket waits her turn at an early practice session
Justin spots a whale while Cricket waits her turn at an early practice session
Justin and David practice with the Theodolite

Now we all know that a battle plan never survives the first engagement with the enemy, and a new scientific protocol is much the same.  Spring Quarter is finished, and two of my interns, Cricket and Justin arrived here at the GEMM lab on Monday. Together, we have been field testing our new equipment, getting used to working as a team day in and day out and most of all, finding all the little kinks in the survey plans and computer program we are using to log our data.  So far, we’ve seen 8 whales over the course of 4 days, improved our reflexes in scanning the horizon and “fixing” on our targets, managed to misplace a day’s worth of data in the confusion of computer programming, gotten faster at setting up all our equipment, talked with curious passer-bys and spent a lot of time staring at the blue horizon.  And you know what? It’s been brilliant.  This week was specifically set aside to figure out everything that could possible go wrong while there aren’t too many whales around yet.  Now, we’ll be ready to hit the ground running when the real fun starts in July!

Until next time, Fair Winds!

Testing the set up at the Depoe Bay Whale Watch Center with Cricket and Justin interns extraordinaire!
Testing the set up at the Depoe Bay Whale Watch Center with Cricket and Justin: interns extraordinaire!
Gray Whale in Depoe Bay
Gray Whale in Depoe Bay
Thar she blows!
Thar she blows!

North to the land of liquid sunshine and red-legged kittiwakes – Linking individual foraging behaviour and physiology to survival and reproductive output

My name is Rachael Orben and I am a postdoctoral scholar affiliated with both the Seabird Oceanography Lab and the GEMM Lab here at Hatfield Marine Science Center. I am writing this from Anchorage, Alaska where Abram (a Master’s student at San Jose State University) and I are just finishing gear gathering and shopping before flying on to St George Island to spend the end of May and June observing, tracking, and sampling red-legged kittiwakes.

This video is taken looking down to the beach from the top of High Bluffs, St George Island.  Turn up the volume!

Just a little bit of background

Red-legged kittiwakes are endemic to the Bering Sea and most of their population nests on the cliffs on St George Island. St George is one of the Pribilof Islands located in the southeastern Bering Sea and is home to over a million nesting seabirds including auklets, cormorants, kittiwakes, murres, and puffins.  The Pribilofs are also known for the large rookeries of Northern Fur Seals (http://www.afsc.noaa.gov/nmml/education/pinnipeds/northfs.php).  St. George has a small Aleut community (http://www.apiai.org/tribes/st-george/) so we will be living in town and commuting by ATV and foot to the bird cliffs.

 

Click on the link below – Can you spot the red-legged kittiwake?

SeabirdsofPribilofs

Photo credits: Caitlin Kroeger

 

We would like to know how individual foraging behaviour and physiology influence reproductive success and then how these might carry over to wintering behaviour.

 

Tracking: We will be using GPS dataloggers (10g) and geolocation/wet-dry dataloggers (1g) to track movements and foraging behaviour of red-legged kittiwakes during incubation and overwinter.

GPS
GPS Logger from Rachel’s Kittiwake study

 

 

Physiology: When we catch birds we will take physiological samples to measure individual stress levels, mercury loads, and body condition that we can link to foraging behaviour.

 

Observations: We will observe the birds that we track so that we know when eggs are laid, chicks hatch and fledge so that foraging and physiology can be connected to these measures of breeding success.  And next year we will return and resight these birds to measure survival.

 

This study is funded by the North Pacific Research Board (http://www.nprb.org/) with additional support from OceanClassrooms (http://oceanclassrooms.com/) for pre-breeding tracking.  I also have been writing short blogs about project with the Seabird Youth Network aimed for middle schoolers that you can check out here:  (http://seabirdyouth.org/category/kittiwake-behavior/)

 

Internet access will be intermittent on St George, but I hope to periodically post updates via Twitter @RachaelOrben (#OCGrants), Instagram @raorben, and the Seabird Youth Network Blog.

CliffsofStGeorge
Cliffs of St. George