It’s that time of year!

We’re heading out for our 2018 summer field season

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June 19, 2018
Katie Sweeney

Biologist

 

Well, Steller Watch team, it’s that time of year again! We are gearing up to head out for our summer field season to Alaska to study Steller sea lions. While we are away, we will not be present on our Project Blog or the Talk Forum. Our current workflow will still be live while we are away! We are hoping to be almost complete with this current set of images very soon since we plan on coming back in the fall with a whole new set of images!

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We have several Steller sea lion trips happening this summer, very similar to last year: a research cruise to the western Aleutian Islands, a traditional aerial survey, and a resight cruise to the eastern Aleutian Islands and Gulf of Alaska. Unfortunately, this year we are not able to do our field camps. This will be the first time since our field camp effort began a couple decades ago that we will be unable to do field camps (except for in 2006 when field camps were on hold due to a law suit). Other science groups from the Alaska Fisheries Science Center are heading out this summer for field work, as well.

Western Aleutian Island Research Cruise:

This year’s cruise is very similar to last year. We will be on board the U.S. Fish and Wildlife Service’s R/V Tiglax for about two weeks surveying between Attu and Adak Islands. During this trip we will be conducting count surveys by boat, land, and air with our drone. We will also be looking for marked animals at all the sites we visit and visit those sites with remote cameras to collect more images for Steller Watch! We will be doing some work with pups to collect data to help figure out more about pup health in the Aleutian Islands. Finally, there will be a couple whale biologists on board with us to help look for whales in the area, including killer whales.

NOAA Twin Otter Aerial Survey:

Since 2006, NOAA’s Aircraft Operations Center has operated a NOAA Twin Otter for the aerial survey that will go from the Delarof Islands to the western Gulf of Alaska. This means they mostly operate out of Adak Island and Dutch Harbor. We even hope they’ll be able to check out Bogoslof Island, a volcano that erupted for over a year and has more than doubled in size. Will we see Steller sea lions, northern fur seals, and sea birds?

Eastern Aleutian Islands & Gulf of Alaska Resight trip:

We are not able to do field camps this year but luckily we are able to do a resight trip to look for animals that were marked on Ugamak Island, just last year. During this trip, we will just be visiting sites to look for those newly marked one year olds and marked adults beginning around Dutch Harbor and ending in Homer, AK.

A HUGE thank you to those of you who have contributed to Steller Watch! We’ll be back in the fall with many, many more images to share! 


I have been a biologist in NOAA Fisheries Alaska Fisheries Science Center studying Steller sea lion population abundance and life history for over 10 years. I am an FAA certified remote pilot and have been flying marine mammal surveys with our hexacopter since 2014. I earned my B.S. in Aquatic and Fishery Sciences at the University of Washington and my Master in Coastal Environmental Management at Duke University. 

Part II: Is that a healthy pup?

With a few measures we can check on the health of pup and find out about mom too

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April 24, 2018
Brian Fadely
Biologist

 

In my last post, I shared how we use pup weights and lengths to calculate a condition index to better understand the health of the pups. When we handle Steller sea lion pups that will be marked, we also collect blood, tissue, and fur samples. Collecting blood and other tissue samples allows us to evaluate health status in another way involving work in a lab. We look at blood chemistry and hematology parameters, to test for signs of disease, contaminant exposure, or other systemic concerns.

Some degree of clinical issues or disease is normal to find in any wild population; we’re interested in determining whether there is evidence of clusters of disease, contaminant exposure, or other concerns at a rookery or greater area. This can provide insight into local conditions that may help explain population declines or lack of recovery. Samples are collected while the pup is gently but firmly restrained by hand.

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Collecting a blood sample from a restrained pup. The restraint board helps prevent wriggling so the procedure is safe for the pup and handlers.

The board that we place the pup on helps prevent wriggling so the procedure is safe for the pup and handlers. We looked at blood chemistry and hematology profiles of 1,231 pups sampled during 1998-2011 throughout Alaska. We found no indications that pup condition was compromised during their first month after being born, including pups within the declining parts of the Aleutian Islands (Lander et al. 2013).

Exposure to heavy metal contaminants (like mercury) is a concern since Steller sea lions are apex predators, or predators that feed at highest trophic level. In other words, Steller sea lions eat prey that are high up in the food web. That means, if there are contaminants in an environment, the contaminants can bioaccumulate and biomagnify through the food chain. Exposure to high levels of mercury can cause neurological disruption that may impact health and consequently survival and reproduction. Pups accumulate mercury during gestation in utero (while they are a fetus in their mothers), and again once they are born and suckling milk from their mothers. In a project led by collaborators at the University of Alaska Fairbanks and Alaska Department of Fish and Game, we’re investigating the mercury burden of pups throughout their range in Alaska and Russia. We shave off a small patch of hair from the pups when we handle them and are then able to measure the mercury content. Specifically, we can figure out the mercury concentration the pup was exposed to from its mother over a period of several months during gestation.

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The patch where hair was removed for a sample to measure mercury content is evident on this pup chilling with mom at Agattu/Gillon Point. 

We found that pups in some areas of the endangered western population had a higher mercury exposure than pups from Southeast Alaska (Castellini et al. 2012). The greatest exposure is shown by pups from the Gillon Point rookery on Agattu Island, with three pups showing exposure levels known to cause neurological effects in other fish-eating wildlife (Rea et al. 2013). If you look at the figure below, you can see the difference in mercury exposure (median values are shown by colored lines and average values by black lines) between pups from Agattu Island and other rookeries can be seen in this boxplot that was published in Rea et al. (2017).

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We do not have direct evidence that this exposure to mercury during gestation leads to health consequences for the pups and their subsequent survival, nor that it impacts adult reproduction. But, these levels of mercury exposure do indicate that further research is necessary to better understand the role of contaminants in the ecology and biology of Steller sea lions.


I am a research wildlife biologist with NOAA Fisheries Alaska Fisheries Science Center in Seattle, in the Alaska Ecosystems Program where I’ve studied Steller sea lions and northern fur seals since 2000. My primary research interest is vertebrate physiological ecology, which at NOAA Fisheries translates into studying sea lion foraging behavior, health status, and body condition to help address conservation questions and wildlife management issues.

Part I: Is that a healthy pup?

Part 1: Studying the condition of sea lion pups

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April 10, 2018
Brian Fadely
Biologist

 

When we handle Steller sea lion pups that will be marked, we also check their condition and health status, similar to when you take your pets to the veterinarian for a check-up.  Collecting health data can give an indication of local environmental conditions, and allows testing of some hypotheses for the population decline.

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Pups are weighed by holding them in a small hoop net and measuring with a digital scale suspended from a tripod. Photo by Kristen Campbell.

While we are handling the pups, we weigh them and measure their length and girth as indicators of condition. We look at these measurements relative to the weighing date (since we don’t know a pups birth date), as well as, their weight relative to their length. Both are used as indices of body condition and help us explore trends among pup measured across regions or over years.

Weighing and measuring pups is straightforward, as simple as suspending them from digital scale while nestled in a hoop net. Length is measured from the tip of nose to the tip of their tail, and girth is measured around the body just behind the front flippers.

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A pup that fell asleep in the net while being weighed

Pups are born between late May and early July but half of the pups are born by June 10th. For consistency, we try to sample pups between June 20th and July 7th, which means we’re sampling them when they are 12-25 days old, but possibly 5-37 days old. At this young age, the size and health of the pup largely reflects the mother’s condition while she was carrying the pup, since about April. Pup condition can vary with many factors including age and size of the mother and the local foraging conditions she encounters, which we typically don’t have any way to directly assess.

Looking at pup measurements collected throughout the Aleutian Islands from 1990 to 2017, the weight of female pups (a total of 1,958 measured) has ranged between 33 and 97 Ibs (15 to 44 kg), or an average of 62 Ibs (28 kg). The weight of male pups (a total of 2,234 measured) ranged between 29 and 115 Ibs (13 to 52 kg), with an average of 75 Ibs (34 kg). Male pups tend to weigh about 11 Ibs (5 kg) more than females. Generally, pups grow just under a pound (over a third of a kg) per day.

Just as with human infants, we can compare the size of any pup against all others to determine whether they are relatively large, small, or about average. In the figure below, the sizes of pups from Hasgox Point on Ulak Island (white squares) and Gillon Point on Agattu Island (black circles) are compared to all other Aleutian Island pups (light gray circles) for females (F, left figure) and males (M, right figure). It’s evident that while some individuals are small or large compared to others, the size ranges of pups from these islands are similar to all others.

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In these plots, each dot represents the weight of a single pup. The left plot shows females and the right, males. The two sites you may be familiar with are Hasgox Point on Ulak Island (white squares) and Gillon Point on Agattu Island (black circles). The light gray circles are all other pups in the Aleutian Islands.

Since we don’t weigh the pups on the same day and they put on weight each day as they grow, to compare pup condition over years or between rookeries, we create a condition index. The condition index compares the weight we collect to the weight we would expect to see on the weighing date, or to the weight expected for their length. This condition index is a ratio of the measured weight to the expected weight which is calculated from doing a regression of all pup masses by weighing date.

In the figure below is called a box plot (also called a box and whisker plot). This is a great way to visualize data. The condition index ratio we described above is plotted in the following two figures. Median values (black lines) are shown within the 25th and 75th data percentiles (boxes), and outlier values (black dots) are plotted outside of the whiskers (1.5 times the percentile range, showing data dispersion). This box plot above shows the data collected from female pups measured from 1994 to 2017 at rookery sites within the area we have remote cameras deployed in the Aleutian Islands. Essentially, if the observed and expected weights are the same, then the condition index ratio is 1.0 (the horizontal dashed line).

CIfems

Values above that are interpreted as ‘better’ condition (they weigh more than expected for their length), and ratios less than 1 are ‘poorer’. Pups from Agattu Island rookeries tended to weigh less for a given length than did pups at Kiska or Ulak Islands, though overall there is not a great difference among these sites.

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Alternatively, we can look at differences in pup condition over the years at specific sites or region. The box plot above shows the condition indices for female pups at Hasgox Point (Ulak Island) collected from 1994 to 2017. This data suggest that the pup cohort of 1994 was in apparently relatively poorer condition compared to later years, while cohorts since 2013 have been in relatively better condition.

All of this information are valuable pieces in the puzzle towards figuring out why Steller sea lions have not recovered in the Aleutian Islands. In the next blog, I will be sharing what we can learn from the different samples that we collect from pups along with weight and length measurements. Be sure to sign up for blog notifications by filling in your email and clicking the “Follow” button!


I am a research wildlife biologist with NOAA Fisheries Alaska Fisheries Science Center in Seattle, in the Alaska Ecosystems Program where I’ve studied Steller sea lions and northern fur seals since 2000. My primary research interest is vertebrate physiological ecology, which at NOAA Fisheries translates into studying sea lion foraging behavior, health status, and body condition to help address conservation questions and wildlife management issues.

Gearing up for the field season

We heading off to Alaska and we will be back in August!

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June 6, 2017
Katie Sweeney
Biologist

 

The office has been humming with energy lately. It’s that time of year, the field season is just around the corner. Spring and summer are busy times at the Alaska Fisheries Science Center. This is the time of year when the Center conducts the majority of its field work. Weather in Alaska over the winter isn’t conducive to getting work done, though summer weather offers no guarantees, either!

While we’re away, we will be putting the Steller watch project on hold starting June 20th. Since we won’t have internet while we are in Alaska we can’t respond on the Talk Forum but don’t worry! We’ll be back in August with many more images and stories to share with you all.

Some of the Center’s research trips this year include bottom trawl and hydro-acoustic groundfish surveys, marine mammal aerial surveys in the Arctic, harbor seal vessel surveys, Cook Inlet beluga aerial surveys, and vessel surveys to deploy passive acoustic recorders to record marine mammal sounds. Along with Steller sea lion surveys, our program will also conduct several studies on northern fur seals.

We have four Steller sea lion trips planned, similar to our efforts in 2016. And like all the field work at the Center, these trips require a lot of preparation. It is a coordinated effort to ensure we have everything we need since we will be isolated in very remote places and can’t just run to the store if we forgot something. Here’s a little background about each of our Steller sea lion trips:

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One of our featured bloggers, Katie Luxa, has been working with other biologists to accomplish the large task of packing and preparing gear to be shipped up to Alaska to our remote field camps. They have also been preparing the week-long training class for the seven biological observers who will be living on two uninhabited islands (Ugamak and Marmot Islands) for almost two months. The field campers will live in rudimentary shelters with limited electricity, no internet or cell phones, and no running water. They will be perching above sea lions, going unnoticed to collect data on marked animals and sea lion behavior.

Research cruise

One of the trips I will be participating in will be our annual research cruise on board the U. S. Fish and Wildlife Service (USFWS) Research Vessel (R/V) Tiĝlax̑ (pronounced TEKH-lah; Aleut for eagle). For two weeks, 13 people from the Alaska Fisheries Science Center will call this 120 foot vessel home. Every summer, six skilled USFWS crew members operate this vessel, a vital platform, for nearshore research along the Alaska Maritime National Wildlife Refuge.

During our trip, the primary goal is to study sea lions to collect population counts, service our 20 remote cameras and download images (more images to come for our citizen scientists team members!), look for marked individuals, and mark individuals for on our ongoing research project. Along with sea lion biologists, there are two fish biologists who will dropping an underwater camera near sea lion sites to get a better idea of the available prey. There will also be two killer whale biologists on board looking for killer whales and other species of whales.

hexacopterTo prepare for this trip, I’ve been working with our other remote pilots to test out our new camera mount, called a gimbal, mounted to our hexacopter (or drone). The gimbal mount ensures that the camera will always point directly down and over the sea lions no matter how much the wind causes the hexacopter to tilt. I’m excited to see these mounts in action! We also have a new person on our team who you heard form in our last post about the NOAA Corps. LTJG Blair Delean will be heading up to Alaska with us for the first time to help with hexacopter surveys.

Aerial survey

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Biologists (and featured bloggers) Lowell Fritz, Josh Cutler, and Katie Luxa will be heading out on the annual aerial survey. The team will meet up with NOAA Aircraft Operation Center flight team and Twin Otter aircraft in southeast Alaska. They will survey along the coastline, capturing images of sea lions hauled out on land at known sites.

The aerial survey team assembled and tested our camera mount that holds three cameras; it will be installed on the NOAA Twin Otter. Now we know it’s working fine, I’m packing up all the gear to ship to Alaska.

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After the aerial survey and research cruise, Katie Luxa and I will meet up in Dutch Harbor (Unalaska Island) for our final survey. We will be on board a small boat for six days, checking out nearby sea lion sites for marked animals.

While we’re away, we will be putting the Steller watch project on hold starting June 20th. Since we won’t have internet while we are in Alaska we can’t respond on the Talk Forum but don’t worry! We’ll be back in August with many more images and stories to share with you all. Thank you all for your contributions classifying so many images before we head out. It’s been a joy to share our research with such dedicated people and we are so happy to have you as apart of our team!

Wish us calm seas, clear skies, low winds, and many sea lions!


I have been a biologist in NOAA Fisheries Alaska Fisheries Science Center studying Steller sea lion population abundance and life history for over 10 years. I am an FAA certified remote pilot and have been flying marine mammal surveys with our hexacopter since 2014. I earned my B.S. in Aquatic and Fishery Sciences at the University of Washington and my Master in Coastal Environmental Management at Duke University. 

Discovering the secret lives of Steller sea lions

Where do sea lions go when they’re not onshore?

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May 9, 2017
Brian Fadely
Biologist

 

Our remote camera images give us insights about sea lion behavior onshore, but where do they go when they’re at sea? To better understand why their numbers are declining in parts of the Aleutian Islands, we need to know where Steller sea lions forage (or hunt) for their prey that consists of fish and squid. Due to our concern with declining pup births, we are focusing on monitoring adult females’ hunting patterns while they are pregnant, and may also be nursing a pup.

The best way to track an individual sea lion’s movements and dive behavior is by using satellite-linked transmitters, also known as satellite tags. The tags are slightly larger than a deck of cards and allow us to see where sea lions go, how deep they dive, and when they come to shore. This information is saved to the tag, then up-linked to satellites (via the Argos satellite location and data collection system) so we can download the data later when we’re back at the office.

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Looking out the back (aft) window of the ship towards Attu Island on a day we wish wasn’t so typical. Photo credit: Aaron Christ

The best time to attach tags on females is complicated by their biology and the weather in the Aleutians. Sea lions shed their fur from August through November. That means if we attach a tag before she has molted, the tag will fall off with her shed fur. Unfortunately, large storms and typhoons tend to kick up after September, and the high seas and strong winds can keep us from being able to work. By November the storms intensify through winter. So, we schedule our trips during October when many of the females have already molted and storm activity is just beginning.

Attaching the tags onto the animals is a coordinated effort to minimize any impacts on the sea lions and any risks to the researchers who must get close to adult females that weighs more than 800 pounds.

Attaching the tags onto the animals is a coordinated effort to minimize any impacts on the sea lions and any risks to the researchers who must get close to adult females that weigh more than 800 pounds. We work with colleagues from Alaska Department of Fish and Game, University of Alaska Fairbanks, and the Vancouver Aquarium to safely capture and handle the adult female sea lions. It can take up to 12 scientists to have the expertise necessary to safely capture, sample, and attach a satellite tag.

Similar to our summer research cruises to look for marked animals, we visit known sea lion sites and take the inflatable skiff to shore to drop off the team and heavy gear. The problem with finding animals during October is that they are a lot harder to locate than they are during the summer breeding season when they gather on land in larger numbers. But your work classifying remote camera images on Steller Watch, helps us pinpoint the most popular sites.

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Gear schlepping processional across Amchitka Island. Photo credit: Kimberlee Beckmen

Once we arrive near a site with a good number of females, we find a safe place to land, which can sometimes be up to a mile away. The whole team hikes and climbs to a staging location and the scouting begins. A few people, including a skilled darter, will sneak up to get a closer look, searching to maximize our chances for a successful capture. When all the conditions are just right, sedatives are loaded into a dart that will be delivered from C02-powered rifle.

It takes a lot of stealth and patience to slowly sneak in for the perfect line-up. Steller sea lions have great sensory capabilities. That means if they smell, see, or hear you, they will head into the ocean. Once in position and a female is in a good location, the skilled darter will take the shot and the dart—essentially a flying syringe—launches and hits, the sedative is delivered immediately and the dart falls out.

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A puff of C02 launches a dart filled with sedatives on Kiska Island. Photo credit: Martin Haulena

The rest of the team hears the good news on the radio call and waits about 10-minutes for the sedative to kick in. The veterinarian and a few others are the first to approach the adult female. The veterinarian administers gas anesthesia and as soon as she is assured that the animal is doing well, she gives the OK. Suddenly the team erupts into hurried and quiet movements and a lot happens very quickly and efficiently to ensure safety of the sea lion and keep the handling time as short as possible.

I immediately get to work on attaching the satellite tag on top of her head—the best body location to maximize satellite up-links. First, I clean and brush the fur to remove dirt and loose fur, then I align the tag for good fit, and finally I use quick-setting epoxy to glue the tag to the fur. In the meantime other biologists are taking measurements and samples for laboratory analysis that will allow us to assess her physical condition, health, and whether she has any diseases or contaminants. She is marked for future identification, just the like the animals you see in the remote camera images. When everyone is done, we clear away and the veterinarian administers the reversal agents to counteract the sedatives, and removes the gas anesthesia device. The female starts to wake and rather quickly is up and on her way, usually to the water, as we all watch, hidden from her view.

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Here I am positioning a satellite tag amidst a flurry of measuring and sampling activity. Photo credit: Michael Rehberg

Between 2011 and 2015, 13 adult females have been captured and tracked in the Aleutian Islands; you’ll see them in the remote camera images marked with an equal sign (“=”) and numbers, from 25 to 36. We’ve had great success with the satellite tag data—we even tracked one female up to 254 days! This information offers insights into their behavior leading up to when they give birth in the following summer breeding season. Adult female Steller sea lions in the Aleutian Islands have shown a diversity of foraging behaviors, from remaining exclusively nearshore on short trips, to trips of over 260 miles (420 km) offshore and lasting six days.


I am a research wildlife biologist with NOAA Fisheries Alaska Fisheries Science Center in Seattle, in the Alaska Ecosystems Program where I’ve studied Steller sea lions and northern fur seals since 2000. My primary research interest is vertebrate physiological ecology, which at NOAA Fisheries translates into studying sea lion foraging behavior, health status, and body condition to help address conservation questions and wildlife management issues.

You are what you eat

The not-so-glamorous way we investigate Steller sea lion diets

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March 15, 2017
Lowell Fritz
Biologist

 

You are what you eat. That’s the basic philosophy behind monitoring the diets of wild animals. In the case of Steller sea lions, we can’t see what they are eating since they feed at-sea, so we have to investigate their diet in other ways. The most common way to find out what Steller sea lions are eating is to — wait for it — collect and analyze their feces. That’s right, we go onshore to sea lions sites, where they have hauled out and pick up after them. Here’s a picture of a group of us ready to collect scat.

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Check out that male sea lion on the right! He’s has not quite grown to start competing with larger males for a breeding territory.

Collecting scat is just like cleaning up after your dog, if your dog weighed over 2,000 pounds! We use gallon size bags for samples. A good collection of many scat samples from one site might weigh 60 lbs.

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Welcome to the not-so-glamorous world of being a field biologist!

What can we learn about their diet from analyzing their scat? Well, quite a bit. Sea lions can swallow many fish, squid and octopus whole. Fish bones and squid and octopus beaks from their mouth parts, gradually make their way through the sea lion’s digestive tract. We can isolate these hard parts in the scat to identify individual prey species from just a few bones.

In the lab, the scats are washed in sieves and the hard debris left behind is cleaned and studied further under a microscope. Each solid bit is compared to other parts kept in our reference collection of known sea lion prey species.  As you can imagine, it takes a lot of skill and time to make identifications from small fragments.

Aside from cataloging hard parts, we can also analyze prey DNA found in the soft parts of the scat. This technique is especially good at detecting prey that don’t have very many hard parts (invertebrates like squid and octopus), fish that are very large and may not always be consumed whole (like Pacific cod), and fish that have small and fragile bones (like smooth lumpsucker) that may not make it through the digestive track undamaged. But DNA studies are expensive, so, we use this technique to supplement the traditional studies of hard parts, such as a recent description of the late winter diet of sea lions in the Aleutians.

Collecting scat is just like cleaning up after your dog, if your dog weighed over 2,000 pounds!

Steller sea lions target fish that aggregate near the bottom of the ocean or in the middle the water column. While sea lions can dive a lot deeper than humans, they aren’t considered deep divers compared to other marine mammal species. Most of the prey they target live on the continental shelf in waters less than 650 feet deep — that’s still a little deeper than the Space Needle in Seattle is tall.

Steller sea lions in the Aleutian Islands have a diverse diet. In the Aleutians, there are almost 300 species of fish alone, plus dozens of species of squid and octopus. Steller sea lions consume about 50 different species, usually whatever is the most abundant fish in the area.

Here are some of the most common prey items we see in the Aleutian Islands:

Atka mackerel: 

atkamackereAtka mackerel is one of the most abundant yearlong resident fish in the Aleutians Islands, and it also sustains the largest commercial fishery in the region. During the summer, Steller sea lions feed on enough Atka mackerel to make up more than half of their diet.  In winter, the fish make up about a quarter of their diet.

Pacific cod: cod

Like Atka mackerel, Pacific cod are year round residents and since they grow up to 43 inches long and weigh up to 37 pounds they are probably the biggest fish that sea lions eat in the Aleutian Islands. Pacific cod are consumed more often in winter than summer. In winter, Pacific cod make up about one quarter of the sea lion diet.

redirishlordSculpins: 

Sculpins are bottom-dwelling (demersal) fish that are widely distributed on the continental shelf. Steller sea lions eat mostly red Irish lords based on our DNA analyses. They eat sculpins mostly in winter, when they make up about 15 percent of their diet.

Salmon: salmon

Salmon aren’t considered year round residents of the Aleutian Islands. Steller sea lions eat mostly pink and sockeye salmon based on our DNA analyses, and they eat salmon mostly in summer.

Smooth lumpsuckers: 

smoothlumpsuckerThese funny little guys are an enigma. Not much is known about their abundance and distribution, but Steller sea lions eat them far more often in winter (10 percent of their diet), when lumpsuckers aggregate to spawn, than in summer. Lumpsuckers are named for their pelvic fins that have evolved to form an adhesive disk that enables them to latch onto rocks in areas with a lot of current, like the Aleutian Islands.

Squid and octupuses:octopus

Cephalopods are a group of invertebrates that includes both squid and octopus. Based on DNA evidence in scat, we know Steller sea lions more commonly prey on giant Pacific octopus. Cephalopods make up about 10 percent of the sea lion diet in winter.


I have been studying Steller sea lions since 1990 with NOAA Fisheries Alaska Fisheries Science Center in Seattle.  My primary research interests are sea lion population dynamics, demographics, and interactions with commercial fisheries.  I’ve also worked on fish during my career with NOAA, particularly species eaten by sea lions, like Atka mackerel, walleye pollock (you may know them as fish sticks and imitation “krab”), and Pacific cod.   I graduated from Bucknell University (B.A. Biology, 1976) and College of William and Mary (M.S. Marine Science, 1982), and started my science career in 1982 at Rutgers University as a Research Associate.  At Rutgers, I worked at the Haskin Shellfish Research Laboratory in Bivalve, NJ (down the road from Shellpile… you can’t make this up) studying the shells of mollusks living in habitats ranging from freshwater lakes and streams to deep-sea hydrothermal vents. I even had the opportunity to go down in the Alvin submersible!

*Images of Aleutian Island sea lion prey were borrowed from other NOAA Fisheries programs.