If you have wondered how Alaska SeaLife Center’s CO2 refrigerant seawater heat pump system works, watch this! Alaska’s Energy Desk has produced a video that walks the viewer through the process, explaining the journey nature and science travel together to make this groundbreaking system possible, thanks to leadership, skill, innovation and collaboration. Alaska’s Energy Desk is a team of six reporters collaborating between multiple news stations—including Alaska Public Media in Anchorage, KTOO in Juneau and KUCB in Unalaska—to cover energy and environment in the Last Frontier. Check out Heat From the Deep: How Cold Ocean Water Heats the Alaska SeaLife Center here: https://youtu.be/UgxwDPcsZeQ.    

Virtual Field Trips Virtual Field Trips are your opportunity to join field researchers as they pursue information about the natural environment. Don’t worry about packing survival gear! You’ll stay dry and warm as you follow these intrepid adventurers to places such as the Bering Sea, Antarctica, and the Yukon-Kuskokwim Delta. Click on any of the field trips below to get started! These field trip links will take you to web pages that include video. Transcripts are provided for each video, but we suggest turning up your volume if possible. Each field trip also links to optional lesson plans for grades 5-8.                                                

Virtual Small Fry School Welcome to Virtual Small Fry School - The Fun Learning Show for Kids! At Virtual Small Fry School, join us from anywhere in the world to explore the amazing underwater world of Alaska! This educational and fun kids' show is perfect for pre-k learners (ages 3-5) who love sea animals and want to learn all about them!  In each 2-5 minute episode, your little one will join Allie, Aurelia, Auntie  Carol, and more of our friends at the Alaska SeaLife Center to meet  awesome sea creatures like sea urchins, sea stars, seals, octopuses, sea lions, and more. We’ll learn new big words and practice  counting while we play, move like animals, and discover how these underwater creatures live, eat, and find their homes.  Each month, we'll explore new themes:  1. Squishy, Prickly, & Sticky – Meet squishy, prickly, and sticky animals of the sea!  2. Animals Like You & Me – See how sea animals are just like us! 3. Hide & Seek – Learn how animals use camouflage to blend into their environment!  4. ABCs of the Sea – Get to know our puffins, sea lions, diving ducks, and salmon up close! 5. Homes – Discover how sea animals find safe places to live! With fun activities, games, and amazing facts, Virtual Small Fry School makes learning about sea animals easy and exciting for little ones. Kids will be inspired to care for the ocean and explore the wonders of Alaska’s sea life. By the end of each episode, your little one will be excited to explore the natural world and understand how we all play a part in keeping our environment healthy and happy!  In the description of each episode you’ll find a link to an overview of the week's topic, as well as suggested activities and crafts. Subscribe to the Alaska SeaLife KIDS YouTube page now for more underwater adventures every week!   Why Small Fry School is Perfect for Kids:  FREE, fun, short episodes (2-5 minutes) great for preschoolers • Learn about sea animals and the ocean Fun movement activities and games for kids to do along with the show Unique learning opportunities that can only be found in Alaska A great way to start conversations about caring for our  environment   Join our Small Fry School Facebook Group to connect with other pre-k families and continue learning with activities provided by our education team!   Email smallfry@alaskasealife.org with any questions you may have.         Episodes and Activities    February: Homes Don't forget to download this episode's activities!  Borrowed Homes Don't forget to download this episode's activities!  Neighborhoods Don't forget to download this episode's activities!  Seasons Don't forget to download this episode's activities!  Working Together Don't forget to download this episode's activities!    January: The ABCs of the Seas Don't forget to download this episode's activities!  “F” is for Flying, Floating, Feathered Puffins Don't forget to download this episode's activities!  “D” is for Dancing, Diving Ducks Don't forget to download this episode's activities!  “L” is for Leaping, Listening, Learning Sea Lions Don't forget to download this episode's activities!  “S” is for Silver, Swimming Salmon Don't forget to download this episode's activities!  December: Hide and Seek Don't forget to download this episode's activities!  Hide With a Wolf Eel Don't forget to download this episode's activities!  Dress Up With Decorator Crabs Don't forget to download this episode's activities!    Change Like An Octopus Don't forget to download this episode's activities!  Blend In Like a Ringed Seal Don't forget to download this episode's activities!    November: Animals Like You and Me Don't forget to download this episode's activities!  Meet One Special Seal: Asiqtuq Don't forget to download this episode's activities!  Meet a Wildlife Veterinarian: Fingers, Flippers, and Paws Don't forget to download this episode's activities!  Move Like Our Animals Friends Don't forget to download this episode's activities!  Learn How to Do the Seal Hop with the Qutecak NAtive Youth Olympics Team Don't forget to download this episode's activities!          October: Squishy, Prickly, and Sticky!  Squishy Sea Stars Don't forget to download this episode's activities!  Prickly Urchins & Squishy Anemones Don't forget to download this episode's activities!    Sticky Octopus Don't forget to download this episode's activities!  Squishy, Prickly, and Sticky Game!  Don't forget to download this episode's activities!        November  Check back at the start of the month       December Check back at the start of the month       January Check back at the start of the month       February Check back at the start of the month           Virtual Visits for All Ages Virtual Visits bring you an inside look at the animals and staff that contribute every day to the mission of the Alaska SeaLife Center. Whether you consider yourself an ASLC amateur or an "a-fish-ionado," there is always something to discover!  Weekly Virtual Visit episodes available now on the ASLC Facebook and Youtube pages!    Subscribe to our YouTube channel and watch new and previously aired episodes at any time: https://www.youtube.com/user/AKSeaLifeCenter   Virtual Visits are made possible from generous support from Royal Caribbean Group.            Both programs will be FREE on our YouTube channel. Subscribe today>>> www.youtube.com/user/AKSeaLifeCenter Teachers & Groups, please visit our Distance Learning page to find out about group programs.

Join us every week on Wednesday at 11 AM for a FREE virtual program for all ages!   Virtual Visits bring you an inside look at the animals and staff that contribute every day to the mission of the Alaska SeaLife Center. Whether you consider yourself an ASLC amateur or "a-fish-ionado," there is always something to discover!  Streaming live on our YouTube channel every Wednesday at 11 AM (AKDT): https://www.youtube.com/user/AKSeaLifeCenter   Don't miss an episode! Subscribe to our YouTube channel and watch new and previously aired episodes!   Virtual Visits are made possible from generous support from Royal Caribbean Group and ATIAF.       

Volunteer Those who can, do. Those dedicated and enthusiastic individuals who can do more, volunteer! Join the Alaska SeaLife Center family as a volunteer. As a non-profit organization, the Alaska SeaLife Center relies on our active volunteer staff to fulfill our mission year-round.   Please feel free to contact our volunteer coordinator at volunteercoordinator@alaskasealife.org with any questions about our volunteer program. Application Information: Please submit a resume if available to complement your application An interview and the mandatory orientation/training session are required Learn about becoming an RV Volunteer for the summer  Benefits include: Gain valuable, hands-on experience Discounts on Gift Shop merchandise - 20% discount on non-sale items Discounts at Haul Out Cafe Guests accompanying volunteers will receive a 20% discount on gate admission and programs Free or discounted admission to some state/local attractions, hotels, and restaurants (with ASLC ID) Free admission to ASLC for volunteers, their spouse, children, parents, grandparents, and grandchildren Worker's compensation benefits Program Requirements: Complete and submit a volunteer application and attend mandatory training Must be at least 14 yrs of age, 16 to work in the Husbandry or Laboratory Departments or apply with HR for the Parent-Partner Interpreter Program (at least 9 yrs of age) Most positions require a commitment of at least 4 hours a week for at least 4 months or equivalent No experience necessary Dress appropriately Bring your enthusiasm Must be able to commit to a consistent schedule and be on time for scheduled shifts Must have effective communication skills, both oral and written, be detail oriented and willing to work Must be able to work independently as well as part of a team Comply with policies and procedures Must be comfortable with the use of animals for research purposes Some positions require: Ability to handle confidential information Applicants should be agile with a good sense of balance in order to maneuver around the exhibits and holding areas Must be able to lift 50 pounds Applicants must possess the ability to adapt to an ever-changing work environment Must be able to perform physically challenging work in a variety of weather conditions, including snow, ice, and rain Must be familiar with operation of computers and software including Word, Excel, and Access Applicants must possess the ability to interact with visitors in a professional manner Hear what our volunteers say about us: "This was an awesome experience. I made many new friends and learned much more about birds and their ecosystems." "I was very impressed by all the opportunities I was given to learn and participate." "ASLC is a great place to get marine animal exposure and learn about the marine field." "It was a wonderful experience, the people are great!" "I had a fabulous time working at ASLC!" All volunteer positions may include performing other duties related to the Center's goals and mission statement.        Apply Here       

The Alaska SeaLife Center is recruiting RV’ers for Interpretation, Ticketing, and Cafe volunteer positions for the 2016 season. An RV camping space with electric & water hook ups will be provided! Before volunteering you will participate in training and receive additional information on each position. ·         Interpretation - As an interpretation volunteer you will help the Alaska SeaLife Center guests connect with our animals and appreciate our mission. This will be accomplished by interpreting live and static exhibits for our guests. You may also have daily interaction with education, exhibits, husbandry, and research personnel. ·         Ticketing/Café Cashier – As a cashier you would be responsible for front-line customer service, ticket sales, and café duties at the Center.   Applicants must be able to provide their own camping unit. An RV site will be provided on the shores of beautiful Resurrection Bay, within walking distance of the Center. The site is in the City of Seward waterfront campground and includes water, electricity, and refuse removal (there is a $5 dump fee). In exchange the Center asks for 20 hours of volunteering per week per person for a minimum of 6 weeks. The volunteer positions are open from May through September. The position duration is based on acceptable performance and will be reviewed for renewal. Depending on the volunteer position you are appointed to you may be subject to a background check. No salary is provided. Please visit our website at www.alaskasealife.org under volunteer for a list of benefits of volunteering at the Center.    About the ASLC Opened in 1998, the Alaska SeaLife Center operates a private, non-profit research institution and public aquarium. ASLC's mission is to generate and share knowledge to promote understanding and stewardship of Alaska's marine ecosystems. The ASLC is an accredited member of the Association of Zoos and Aquariums. To learn more, visit www.alaskasealife.org. 

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus?           Meet... Terril Efird Research Coordinator Terril began studying marine biology in 2001 while working as a research diver in Santa Cruz, California. Since then, he's worked with seals, sea lions, walrus, fish, sea stars, tunicates, sponges and algae. "I love that there is still so much to learn about the ocean. It's remarkable that we depend so greatly on an ecosystem that we are just starting to understand."     Hear Terril describe his work at the Alaska SeaLife Center and how he got to this point in his career. (2.5 minutes)      

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('3', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('4', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus? BASELINE (n) - Information about what is "normal" or expected. This kind of information helps researchers measure change. DATA (n) - factual information             Action! Dr. Polasek decided that, because her research questions were complex, they would take many years to answer. Her first goals were to establish a baseline and test out their monitoring method. To accomplish these goals, in the first year of the project the team would only set up cameras at sites in Bristol Bay. Haulouts in Bristol Bay are "established". This means that walrus are known to haul out there every summer. The animals in Bristol Bay are males. Although male walrus do not depend on summer sea ice, their behavior at haulouts will give researchers the baseline they need to make comparisons with females and calves in the north. As Dr. Polasek explained in her research hypotheses, she hopes to find out whether walrus at new haulouts in the Chukchi Sea will react differently to disturbances than walrus at established haulouts in the southern parts of the Bering Sea. Installation took the research team on remote adventures as they installed cameras at five sites in Bristol Bay: Round Island (West Main) Round Island (First Beach) Cape Peirce Hagemeister Island Cape Seniavin The two videos below highlight the experiences of our scientists as they set up cameras for the 2011 summer season. VIDEO: Round Island Join our researchers as they head out to Round Island to place the first set of cameras. (3 minutes) Video Transcript How did you travel to Round Island? There was a lot of planning necessary before we could travel to Round Island. Round Island is very remote, and we had to make sure that we had all the equipment and materials that we would need to set up the cameras. If we forgot something, we wouldn’t be able to run back and get it. For our travel out there we had to schedule multiple flights and work with partners and other scientists to make travel plans. Once all the planning was done, we drove from Seward to Anchorage and then got on a small plane and flew from Anchorage to Togiak. We flew on the same plane that delivers groceries for the store. The town of Togiak is located at the head of Togiak Bay, which leads out into Bristol Bay. It lies in the Togiak Wildlife Refuge and is the gateway to the Walrus Island Game Sanctuary. Togiak is a small traditional Yup’ik Eskimo village with a fishing and subsistence lifestyle. We spent the night in Togiak in a U.S. Fish & Wildlife bunkhouse, and then took a helicopter to Round Island. The helicopter could fit the pilot, two people and our gear, but it was a tight squeeze. Some of our gear had to be tied to the outside of the helicopter so we could make it out in one trip. The helicopter was an amazing way to see Bristol Bay and Round Island. You can see the steep cliffs and rocky beaches of Round Island. These cliffs are one of the reasons that we picked Round Island to set the cameras up on, as they would give us a good vantage point over the walruses. You can also see the cabin where we would spend three nights while we were setting up the cameras. Once we had unloaded all of our gear and got set up in the cabin, it was time to get to work. We walked the length of the island, about two miles, to pick the best camera site that would allow us to capture the walruses on their haulout and the surrounding area. We then had to carry all the camera equipment to the site we chose. Some of the materials, like the car batteries and all the tools, were very heavy. The whole process took about twelve hours to set up one of the camera pairs. There are several haulouts on Round Island. We chose two sites to monitor: we put cameras at First Beach and West Main Beach.   VIDEO: Cape Seniavin Learn about the researchers’ next adventure: placing remote cameras on Cape Seniavin. (1.5 minutes) Video Transcript How did you travel to Cape Seniavin? Just like Round Island, we had to spend time planning and preparing for the trip to Cape Seniavin. This time we flew from Anchorage to a town called King Salmon. King Salmon is a small town of about 400 people on the western Alaska Peninsula. It’s located at the Naknek River about 15 miles from Bristol Bay. Instead of a helicopter we took a small fixed-wing plane from King Salmon to Cape Seniavin. We flew over King Salmon and the Naknek River. As we approach Cape Seniavin, you can see the steep sandy bluffs and the beaches below. Like the cliffs on Round Island, the bluffs provide a great vantage point to set up the cameras to view the walrus haulout. No one lives at Cape Seniavin, and there is no landing strip. We landed right on the beach, with the waves crashing next to us. It was beautiful, but it does give you an idea of how remote we were. This time we had to carry all the equipment up the steep bluff to the spot where we wanted to place the cameras. Then we picked a good site for installing the cameras and got to work. We only chose one site at Cape Seniavin. The whole process this time took about eight hours to set up the cameras. We were much faster the second time around. Once the cameras were up and we had tested them, it was time to leave. Just like at Round Island, the cameras will stay up all summer watching the walrus, and in the fall we will travel back and pick them up. Then next spring we get to do it all over again. With their cameras in place, data collection began! Since the scientists were trying to observe walrus disturbances, it was very important that they not disturb the walrus during the actual study. For this reason, they visited the Bristol Bay haulouts in early spring and late fall, when the walrus were not present. This meant many months of images were recorded! Watch the two videos below to learn about the camera timing systems and what the researchers hoped to capture on film. VIDEO: TAKING Pictures Jll Prewitt describes how often the cameras are taking pictures and how the researchers chose to take pictures at those times.  (1.5 minutes) Video Transcript How often are these cameras taking pictures? We’re going to end up with a lot of pictures, because we’re limited just by the camera card size, but we’re trying to take them as often as possible. In the early morning hours they’re just going to be taken once an hour from 6am to 10am, then at 10am they’re actually taking pictures once a minute. And then in the later evening hours they’re being taken – from 6pm to 10pm – once an hour again. And the reason why we wanted to take them once a minute during the majority of the time is to be able to actually detect a disturbance. So, if we were just taking them once an hour all day, we might just, you know, in one picture have 300 walrus, and then in the next picture have zero walrus and we don’t know why. But if we’re taking them once a minute we might be able to actually see a vessel go by, or a plane land, or something else happen and all of the herd disperse or abandon the haulout all at one time, so we wanted that fine scale, once a minute. So there will be thousands of pictures at the end of the summer. VIDEO: COLLECTING Data Jill Prewitt explains what information she’ll be collecting from the pictures. (1 minute) Video Transcript What data are you collecting from these pictures? So what we’re recording, what we’re looking at primarily, is presence or absence of walrus in the picture. If we see walrus, what we’re going to try to do is count them as much as possible. Then we’ll take a look closely at the herd and see if we can detect any juveniles, especially calves, in the pictures, so we can get kind of an idea of who’s using that haulout. And then disturbance of course is one of our biggest questions, so we’ll be looking at the behavior. Whenever there’s walrus in the picture we’ll be looking at them serially, looking at them one after another, to detect whether walrus are reacting to disturbances such as lifting their head, moving, shifting around, or completely abandoning the haulout, and what might be causing that. So what data did these cameras really capture? What did Dr. Polasek and her team learn? Click "Results" to find out!      

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus? IMPACT (v) - to affect or change something else FORAGE (v) - to search for and collect food MIGRATE (of animal) (v)- to move seasonally from one area to another           Background Scientists know that when summer sea ice in the Arctic melts away from their shallow feeding grounds, Pacific walrus will haul out on land to stay near their food. The Icy Cape stampede showed scientists that land haulouts in the Chukchi Sea can be dangerous for young walrus. Scientists wonder how walrus populations will be impacted when the walrus have to use land haul outs more and more often. To understand how walrus populations might be affected by changes in their Arctic habitat, scientists first had to understand "normal" Pacific walrus behavior. Take a look at the videos and fact sheet below to explore what researchers already know about the mysterious Pacific walrus. VIDEO: The Pacific Walrus Understanding walruses' relationship with sea ice is important to understanding their behavior. (1 minute) Video Transcript Pacific walrus feed in relatively shallow water, hunting for small invertebrates on the ocean floor. In the Bering and Chukchi Seas, the continental shelf provides a vast area of shallow, rich feeding grounds for the walrus. Walrus haul out on sea ice or on land to rest between feeding trips. Although they are good swimmers, they don’t typically swim long distances, so they prefer to rest near where they eat. In the winter, arctic sea ice extends south into the Bering Sea, where large herds of male and female walrus spend the winter together. Then in the springtime, females and calves follow the melting sea ice north into the Chukchi Sea, while adult males separate from the rest of the population and migrate south to spend the summer in Bristol Bay. The male walruses in Bristol Bay typically haul out on land and feed near shore. In the Chukchi Sea, the females and calves spend their summer floating on the sea ice, drifting over the shallow continental shelf. In recent years, summer sea ice in the Arctic has melted beyond the edge of the continental shelf, leaving the females and calves without their traditional feeding and resting platforms.   WALRUS FACT SHEET (click to download .pdf) Female walrus and their calves use sea ice all year. They migrate to the Chukchi sea in summer because there is so much food available for them there. Watch the video below to hear Dr. Lori Polasek talk more about how females and calves may be affected if they can't haul out on sea ice and must move to areas on land, instead. VIDEO: Females and Calves Dr. Lori Polasek describes how females and calves might be impacted by hauling out on land instead of sea ice. (1.5 minutes) Video Transcript What are some of the possible impacts of females and calves hauling out on land instead of sea ice? There are several important facts about walrus that we had to understand before starting this project, and one of those is that land haulouts are primarily used by male walruses, of all ages, and ice is primarily used by females and calves. And the importance of ice, you can think of it as a mom and calf are floating around on a piece of ice and that keeps them moving across the water so it allows them to utilize different resources so they don’t impact a resource and completely deplenish [deplete] it. Also, by allowing them to float around, they’re not congregated together, where they’re more susceptible to predators, where then you allow the whole herd’s offspring to potentially be wiped out by a predator. It also takes your young, your offspring which are more susceptible to disease, and separates them from the population so that disease can’t spread as fast. So these new emerging haulouts with moms & calves packed together, then wipe out all of those protections of those calves by exposing them to disease as a group, by allowing them higher exposure to predators, and then by also having them together totally deplete resources in a localized area. Arctic sea ice extent is impacted by changes in seasonal and global climate. Walrus respond to changes in sea ice by migrating and adapting their behavior. Understanding how sea ice forms and why it melts can help scientists understand more specifically how walrus will be influenced. Check out the sea ice fact sheet below! SEA ICE FACT SHEET (click to download .pdf) This important background knowledge helped scientists from the Alaska SeaLife Center develop a research project studying walrus.      

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus? CONTINENTAL SHELF - the area of shallow ocean water around the edge of a continent before the seabed slopes down into the deep ocean HAUL OUT (v) - to leave the water and rest on land, rocks, or floating ice HAULOUT (n) - a place where marine mammals leave the water to rest STAMPEDE - a sudden rush of many individuals, usually in a panic DISTURBANCE - when an animal or group of animals changes its behavior as a result an event           In the cold northern ocean between Alaska and Russia, freezing weather is possible during any month of the year. Throughout the long winter, temperatures in the Arctic are so cold that the surface of the ocean freezes for millions of square miles! Remarkably, animals like the Pacific walrus are adapted to live in this chilly climate, and they use sea ice as part of their habitat. In recent summers, scientists and local residents have noticed less sea ice than normal in the Arctic. In September 2009, sea ice in the Chukchi Sea melted past the edge of the continental shelf. As a result, 3,500 walruses who usually rest in small groups on floating sea ice were forced to haul out together on land at Icy Cape. Something startled the walrus while they were resting there. When startled, walrus will leave their haulout and rush into the water. As the huge group of walrus at Icy Cape rushed to the water, younger and smaller animals were trampled. Alaska SeaLife Center scientists and veterinarians were on the team that was sent to Icy Cape after the stampede. They found more than 130 young walrus dead on the beach. This dramatic scene sparked their interest in studying walrus. Land-based haulouts in the Chukchi Sea were first seen in the United States less than ten years ago. A walrus's choice to haul out on land is directly linked to the availablity of sea ice. If ice is available within their range, they will haul out on it. If ice is not available, they will haul out on land. Scientists fear that, if we continue to have summers with less-than-normal sea ice, events like the stampede at Icy Cape will become more common. Scientists at the Alaska SeaLife Center want to understand how walrus use these new land haulouts. They also want to learn how walrus will respond to disturbances while they are on land. The challenge is that walrus live in isolated, wild areas spread across a huge region. To study walrus, scientists must find a way to observe them closely without causing any disturbance events themselves. How will the scientists do it? Join our team as they come up with a plan. To get started, let's learn more about the Icy Cape stampede by checking out the videos and news release below. You'll be amazed how crowded the walrus haulouts can get! VIDEO: Icy Cape Stampede 2009 When large numbers of walrus haul out together on land, a disturbance event can mean disaster. This video, including images from the 2009 Icy Cape stampede, examines what can happen when walrus haul out on land in large groups. (1 minute) Video Transcript Over the past few decades, sea ice in the Arctic has been shrinking at increasing rates. When the ice recedes past the continental shelf, walrus females and calves are forced to leave the ice and haul out on shore to stay near their feeding grounds. As you can see in this video taken near Point Lay in 2011, conditions on shore can get very crowded. If the walruses are disturbed, they may rush to the water in a massive stampede. In September 2009 scientists observed thousands of walruses hauling out together on land near Icy Cape on the shore of the Chukchi Sea. When researchers surveyed the area a few days later, they found over 130 walruses dead on the beach. Veterinarians and scientists from the Alaska SeaLife Center and other organizations investigated the event and determined that most of the fatalities were young animals that had died as a result of a stampede. Though the cause of this disturbance at Icy Cape is unknown, the number of fatalities can be attributed to the crowded conditions at the haul out.   Click here for more information on walrus haulout events in Alaska's North Slope Borough, including the 2009 Icy Cape event.   Now that we've observed the same event that sparked the interest of our Alaska SeaLife Center marine mammal research team, let's learn more about Pacific walrus and what they need to survive.      

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus?           Meet... Dr. Lori Polasek   Marine Mammal Scientist and Assistant Research Professor for the School of Fisheries and Ocean Sciences at the University of Alaska Fairbanks Dr. Polasek has studied many species of seals, sea lions, fur seals, walrus, whales and dolphins. She was an accounting major in college until she took a required biology class – then she changed her major to marine biology and never looked back! "I became interested in marine biology when I learned how to SCUBA dive when I was 12 years old. I wanted to learn more about how animals were capable of surviving in such extreme conditions without suffering the consequences humans experienced."     Hear Dr. Polasek describe her work at the Alaska SeaLife Center and how she got to this point in her career. (2.5 minutes)      

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus?             Meet... Jill Prewitt   Research Associate Jill has worked with many species of animals, from bobcats and wolves to belugas and walrus. She worked as an animal trainer and a veterinary technician before becoming a researcher. "I love learning how these species survive in such a challenging environment."     Hear Jill describe her work at the Alaska SeaLife Center and how she got to this point in her career. (3 minutes)      

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus? HYPOTHESIS (n) - a scientific explanation to a problem. Scientists form hypotheses to explain something that they observed. Scientists then test the hypothesis to determine how true it is.               Questions   Dr. Lori Polasek is a marine mammal scientist. When she has a scientific question, she designs a research project to help her find answers. She wants to learn how walrus use land haulouts. Dr. Polasek works together with her team to decide which specific questions they hope to answer. With this project, the team wants to learn: How many walruses are using a haulout? How long are they at the haulout? How often do the walruses use a haulout site? They already know that walruses are easily startled by things like airplanes or predators in the area, so they also want to learn more about how walrus react to disturbances while hauled out on land. Watch the videos below to learn more about the questions and hypotheses Dr. Polasek plans to look at with her study. VIDEO: DR. POLASEK'S RESEARCH Questions Learn what questions Dr. Polasek had about walrus that made her want to study them. (1 minute) Video Transcript Why did you want to study walruses? I think walruses as a whole are a very interesting species, they’re very tactile and gregarious. Why I specifically wanted to look at this particular study with walruses is because we had the mortality event that you guys heard about in 2009, where with ice loss moms and calves moved onto a land haulout, and we don’t really understand how the population will interact with humans and other species while they’re hauled out. What questions did you have? The question that I wanted to specifically look at was: what causes walruses to abandon a haulout – what disturbs them – and then how long does it take for them to come back?   VIDEO: DR. POLASEK'S Hypotheses Dr. Polasek explains four hypotheses that she will be testing in this investigation. (1 minute) Video Transcript What are your hypotheses? For this project we have four primary hypotheses specifically looking at disturbance: 1. The first hypothesis is that the new emerging haulouts will have a different reaction than the established haulouts. 2. That ice extent will impact how the two different haulouts will respond to disturbance events. 3. That mother and calves using the new haulouts will have a different reaction to disturbance events than males that are using the pre-established haulouts. 4. And lastly, that the time for recovery from a disturbance event will be different with the females and calves on the new haulouts versus the established haulouts with males. To answer these research questions, Dr. Polasek and her team needed to come up with a way to consistently observe walrus on their haulouts. Join the researchers as they develop a plan for watching walrus.        

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus? DEPLOY (v)- to set something up so that it is ready for action BLIND SPOT (n) - an area that cannot be seen because something is blocking your view DATA SET (n)- all of the information collected UPGRADE (v) - to improve the quality of something; to buy the next version of a product             Results   Cameras at the five sites captured data during the season of May-September 2011. For each of the sites, the timeline below shows (1) when the cameras were deployed, (2) when the first walrus was spotted at that location, (3) the date when the largest number of animals were counted on that site, and (4) the date of the last image taken by the cameras. The team collected census data by examining the photos at the end of the season and counting the walruses. Below are images captured from the haulout site on Cape Seniavin on August 4th, 2011. On this day, over 1,400 male walruses were counted hauled out in this single spot. Click on the thumbnail images below to see the larger versions: Researchers decided to add more cameras at this site in 2012 to avoid blind spots like the one created by the rock in the pictures above. On Hagemeister Island, cameras recorded the disturbance event seen below. Click on the thumbnail images below to see the larger versions: In the fourth photo you can see that these walrus quickly returned to the beach. The scientists couldn't see what caused the disturbance, but they think it was likely a bear or other land-based predator nearby. With clear images like the ones above, Dr. Polasek and her team agreed that camera monitoring at these remote sites is both possible and useful for understanding Pacific walrus behavior. Unfortunately, the type of camera the Alaska SeaLife Center team installed for the 2011 season tended to fail often. Many of the cameras stopped taking pictures before the last walrus left the site at the end of the season. So the 2011 data set isn't as complete as the team had hoped. They knew camera monitoring worked, but they needed to find a better type of camera. In 2011, the scientists were able to begin establishing their baseline. In 2012, they purchased new, more reliable cameras and added more haulout sites to their study. They're continuing to work on their baseline using male walrus in Bristol Bay, but with the help of the residents of Point Lay they've also set up their first cameras along the Chukchi Sea. Check the updates section for images captured in the second season!        

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() CURRICULUM SUPPLEMENTS Use the .pdf links below to access classroom activities for each section of the Watching Walrus virtual field trip. Teachers Guide.pdf Introduction_Activities.pdf Background_Activities.pdf Questions_Activities.pdf Plan_Activities.pdf Action_Activities.pdf Results_Activities.pdf Glossary.pdf               Welcome Teachers!   Educators and scientists at the Alaska SeaLife Center have teamed up to bring you a new and unique teaching tool. "Watching Walrus" is a virtual field trip (VFT) designed to introduce students to the process of designing a scientific research plan.  Throughout this exploration, students watch videos, examine images, and read fact sheets as they follow real-life scientists into the wilds of Alaska to study Pacific walrus populations.  This VFT can be used in a number of ways.  Individuals may choose to navigate through the slides independently, learning about Pacific walrus and why changes in Arctic climate have scientists concerned about these animals.  Self-guided exploration can be completed in under an hour.  Alternately, teachers may wish to facilitate a structured experience using the curriculum supplements.  Overview for Teachers Grade Level: 5th-8th Time needed:  6-8 one-hour class periods Nutshell: Students will gain experience designing a scientific research plan while learning about an actual research project that studies Pacific walrus in Alaska. Objectives: After completing this virtual field trip, students will be able to: - Describe how the research plan they develop meets the objectives set out by Alaska SeaLife Center scientists - Explain how Arctic animals, like Pacific walrus, may be impacted by decreased availability of sea ice - Locate geographic features of the Arctic and subarctic oceans using a world map Background: Pacific walrus are a marine mammal species native to the Bering and Chukchi Sea area between Alaska and Russia. A member of the pinniped (fin-footed) family, walrus are ocean bottom feeders that can weigh up to one and a half tons. Walrus live along the continental shelf where water is shallow and food resources are plentiful. Floating sea ice provides females and calves with access to varied food resources, protection from predators, and isolation from disease. Though walrus are a social, gregarious species (males are known to haul-out together in large numbers), females with calves usually stay separate from the herd, depending on sea ice for their haulouts. As a consequence of warming Arctic climate, scientists have observed that sea ice in the Arctic Region is shrinking. This means decreased habitat for Pacific walrus, particularly for vulnerable segments of the population like females with calves. As a result of these changes in habitat, walrus have been observed hauling out on land in numbers rarely seen before. Not only does this make populations more susceptible to disease, predation, and depletion of food resources, it also means moms and calves are living in large herds rather than in small groups or pairs. Walrus are known to abandon a haulout upon disturbance (e.g., by the presence of boats, people, predators). In such cases, walrus move quickly from land into water when they are on ice. As walrus are observed gathering in large groups (as many as 14,000 walrus have been observed hauling out together) scientists are concerned about the increased consequences of such disturbances. Instances of stampede have been recorded, including that at Icy Cape (described in Watching Walrus), leaving hundreds of animals dead. Such events led scientists at the Alaska SeaLife Center to begin research observing Pacific walrus. Their intention is to increase the understanding of what causes these animals to abandon a haulout.  They are particularly interested in how the patterns in walrus response differ between established land haulout outs and newly emergent ones. The research of lead Marine Mammal Scientist Dr. Lori Polasek, Marine Mammal Research Associate Jill Prewitt, and Research Coordinator Terril Efird inspired this virtual field trip. Join us as we explore some of Alaska’s most remote coastline and work to learn more about how sea ice loss is impacting Pacific walrus. Throughout their exploration of Watching Walrus, students will engage in discussions, make observations, complete a research ma,p and design their own research plan for observing walrus as they use land haulouts.  To use this virtual field trip you will need: - Internet access, video-streaming capabilities - Access to Watching Walrus the virtual field trip - Projection system (with audio) to display VFT content or a computer lab - Teacher guide and corresponding curriculum supplements (arranged as PDFs in the right hand column of this page) Specials Notes to Teachers: Guide to State & National Standards addressed in this field trip (Click to download .pdf) Using the Virtual Field Trip Teachers may choose to have the class navigate through Watching Walrus as one large group, using a projection system to display content, or have students work independently in a computer lab setting.  All activities included in the curriculum supplements work best in a classroom setting with tables arranged into small groups. Using Curriculum Supplements We encourage teachers to read through the Teacher’s Guide and all Curriculum Supplements before beginning Watching Walrus with your students.  Some projects, like the Research Map, will be completed over the course of this exploration.  Videos and PDFs Many sections of Watching Walrus include embedded videos and .pdf documents.  Teachers may elect to print class sets of the .pdfs or use them digitally.  All .pdf files are 1-2 pages long.  Most videos are less than 3 minutes long (exact durations can be found in the description of each video).  Video transcripts can be accessed by clicking the video transcript button below each clip.  Vocabulary Important vocabulary terms are included in the VOCABULARY box in the lower right-hand corner of each section.  A complete glossary of terms is included as a .pdf in the FOR TEACHERS section.  Age appropriateness This virtual field trip is designed to meet Alaska state and National science content for students in grades 5-8.  We understand that students in grades 5-8 may display a variety of skill sets and reading levels; therefore, this grade distinction is designed only as a guideline.  The scientific process discussed in this virtual field trip is appropriate for and may be enjoyed by older students, as well.  Older students may progress through this virtual field trip at a faster rate than that outlined above.  Additional Resources: Web Resources: Walrus Natural History Alaska Department of Fish & Game (ADF&G): Walrus Profile Walrus Information from SeaWorld/Busch Gardens National Geographic Kids Creature Features: Walrus NOVA: How to Speak Walrus USFWS Species Info: Walrus ADF&G Walrus Island, State Game Sanctuary Sea Ice National Snow and Ice Data Center NASA Earth Observatory: Sea Ice Print Resources: For an overview of Pacific walrus facts, and information on other Alaskan marine mammals: Wynne, Kate. Guide to Marine Mammals of Alaska. Fairbanks, AK: University of Alaska, Fairbanks, Alaska Sea Grant College Program, 2007. For more information on Alaska marine invertebrates, including those predated by Pacific walrus: Field, Carmen M., and Conrad J. Field. Alaska's Seashore Creatures: a Guide to Selected Marine Invertebrates. Anchorage: Alaska Northwest, 1999. For more information about the Bering Sea region: Johnson, Terry Lee. The Bering Sea and Aleutian Islands: Region of Wonders. Fairbanks, AK: University of Alaska, Fairbanks, Alaska Sea Grant College Program, 2003.   Contact Us: If you have any questions about this virtual field trip, please contact the Alaska SeaLife Center Education Department at education@alaskasealife.org or 907-224-6306. For more information on classes we offer, including our inquiry-based 50-minute Distance Learning programs, visit our website at www.alaskasealife.org.          

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus? REMOTE (adj) - far from cities. In Alaska, this almost always means a place that is not on the road system and can only be reached by boat, plane, dogsled, snowmachine, or helicopter. DURATION (n) - the length of time CENSUS (n) - a count of individuals METHOD (n) - the way information is collected STILL CAMERA (n) - a camera that takes photos (not video) COST EFFECTIVE (adj) - worth the price MARITIME (adj) - related to marine (ocean) environments or conditions           The Plan Figuring out how to observe walrus at land haulouts was a challenge for the research team. Their system needed to be: Low cost Low maintenance (because sites are in remote locations) Able to measure duration (from the first walrus to arrive to the last walrus to leave) Able to visually observe the presence of walrus and allow for a census count Able to observe the cause(s) of possible disturbances Minimally disruptive to the animals While brainstorming, many methods were considered. The team thought about using airplanes to fly over haulout sites. They considered asking locals to report observations or stationing their own research staff near haulouts throughout the entire summer season. Finally, the team talked about placing remote video or still cameras at known haulout locations. The pros and cons for each method were evaluated. Flying over sites would be expensive and time consuming because the range of Pacific walruses covers thousands of miles. The sound of low flying planes might also disturb the animals. Local observations are impossible in many areas because haulouts are so remote. And stationing field researchers at known haulouts all season could prove very expensive. In the end, the team concluded that setting up remote cameras was the most cost-effective choice. They also decided that using still cameras set on timers would let them get the most data about how walrus were using land haulouts. Watch the two videos below to learn about the equipment Dr. Polasek's team used and some of the challenges they had to deal with while designing a plan to observe walrus using remote cameras. VIDEO: Equipment But won’t it get wet? Terril Efird talks about the equipment the team chose and how they keep it dry and functioning in the maritime climate. (1 minute) Video Transcript What equipment are you using to study walruses in remote areas? This is an example of one of the camera setups that we’ll have out in the field. It’s a Nikon digital camera, eight megapixel camera, and that’s wired into a 12-volt battery to keep it charged. A lot of these cameras will be going out for months at a time, so keeping the battery charged is really important, and to do that we’ll have a solar panel out there that will charge the larger battery. We’ll put the camera inside of this weatherproof and waterproof housing, and that’ll keep everything nice and dry so the electronics don’t fry while we’re out there. And we’ll have two of these at each of the sites, one looking at the haulout and then another one just looking offshore to see if we can capture any boats or predators of walrus that might be coming by and see how the walrus respond to that. VIDEO: Challenges Terril Efird describes some of the challenges involved in monitoring walrus. (35 seconds) Video Transcript What challenges did you face while planning for this project? One of the most challenges parts was picking our sites. We want to make sure that we have sites where we can go put these cameras up and we know that the walrus are going to come and be at those sites during the season. And not only have the walrus there but also have cliffs or bluffs that we can set these cameras up on top of so we can get a good vantage point, so we can get good estimates of how many walrus are hauling out and also what the immediate water access is like. With these challenges in mind, the scientists put a lot of thought into selecting the best locations to set up their cameras. Continue on to the "Action!" page to see which sites along Alaska's coastline they chose.      

animatedcollapse.addDiv('1', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() animatedcollapse.addDiv('2', 'fade=1') animatedcollapse.ontoggle=function($, divobj, state){ //fires each time a DIV is expanded/contracted //$: Access to jQuery //divobj: DOM reference to DIV being expanded/ collapsed. Use "divobj.id" to get its ID //state: "block" or "none", depending on state } animatedcollapse.init() Who is watching walrus? DISTRIBUTION (n) - how thickly or evenly something is spread out over an area             2012 Updates from Bristol Bay In May 2012, the researchers returned to Bristol Bay. Installing cameras was again a big adventure. After their plane broke down, the team unexpectedly spent a night sleeping on the beach of a remote island! Check out some of their observations from the 2012 season! We'll continue adding data as more is analyzed over the winter. Cape Seniavin Disturbance (click to download .pdf) VIDEO: Foot Traffic Disturbance Walruses at Cape Seniavin are disturbed by people walking along the beach. (1 minute) Sometimes just the presence of people on the beach is enough to disturb walrus. These folks might not have known it, but the Marine Mammal Protection Act makes it illegal to get within 100 yards of any marine mammal. VIDEO: Airplane Disturbance Walruses at Cape Seniavin are disturbed by an airplane flying overhead. (1 minute) Just the sound of a plane flying low overhead was enough to disturb these walrus at Cape Seniavin. Scientists are curious what impact repeated disturbances (like planes flying over daily or people using the area regularly) might have on the number of walrus using a haulout. Next Steps In the summer of 2012, the scientists took a huge step. They installed their first cameras along the Chukchi Sea near the village of Point Lay, Alaska. Dr. Lori Polasek hoped that, if the season's sea ice melted past the edge of the walruses' normal range, the animals might choose to haulout on land in this area. She had good reason to expect this, because walrus had hauled out near Point Lay twice in recent summers. Since the beach in this area is so flat, the team could not rely on cliffs or other natural features to provide good vantage points for their cameras. Instead, they constructed a tower. The tower was designed so that local volunteers could rotate the camera angles depending on where along the beach the walrus had hauled out. However, the team didn't get any data from the Point Lay cameras in 2012. This time, it wasn't because the cameras failed to work. Instead, sea ice remained available in that area, so no walrus hauled out at the site this year. An organization called the National Snow and Ice Data Center works together with NASA to monitor sea ice coverage in the Arctic using satellites. Data is collected daily and is used to form models that help scientists predict how much sea ice will cover the Arctic during different times of the year. Satellite monitoring of Arctic sea ice began in 1979. When scientists compare historical data with recent ice conditions, they can say with confidence that conditions in the Arctic are changing. In fact, satellite data shows that the amount of sea ice covering the Arctic was lower in the summer of 2012 than in any other year since monitoring began! So why didn't walrus haul out on land in Alaska if there was less sea ice in the Arctic than ever before? It all comes down to the distribution of ice. Although there was less ice overall in 2012, patchy areas of ice remained floating in the Chukchi Sea. There was enough floating sea ice to allow females and calves to stay near their feeding grounds without having to move to land-based haulouts. This year's results don't mean the end of the research project and Dr. Lori Polasek isn't abandoning the idea of monitoring haulouts in the Chukchi Sea. In fact, the team hopes to add more monitoring sites along this area in upcoming years. Global climate patterns are changing and the impact is evident in the Arctic. These changes are visible in warmer-than-average annual global temperatures and in a decrease in the extent of summer sea ice in the Arctic over many decades. Climate scientists know that looking at the conditions in one year doesn't paint a clear picture of long-term conditions in the Arctic. In the same way, the walrus research team recognizes that, just because walrus did not use Alaska land-based haulouts along the Chukchi in 2012, it doesn't mean they won't rely on these areas in the future. Stay tuned for more information as this research project continues. In the mean time, educate yourself about how humans are impacting climate in the Arctic and around the globe. Do your part to help lessen our impact: learn about your carbon footprint and about what earth-friendly actions you can take in your everyday life. Dr. Lori Polasek and her team would like to thank all the sponsors and partners for this research project, including the Alaska Department of Fish and Game, Defenders of Wildlife, the National Fish and Wildlife Foundation, SeaWorld & Busch Garden’s Conservation Fund, and the United States Fish and Wildlife Service. 2012 Updates from US Geological Survey   Walruses at Cape Seniavin are disturbed by people walking along the beach. (1 minute)      

The Alaska SeaLife Center (ASLC) is proud to announce that Wei Ying Wong has been chosen to become ASLC’s first Chief Science and Education Officer. As the first executive to serve in this newly created senior leadership position, Dr. Wong will lead the team of educators and scientists in a collaborative commitment to promote ASLC’s science and education programs. Dr. Wong earned her B.A in Environmental Studies and English Literature from the University of Toronto, and her M.A. and Ph.D. from Brown University. She comes to ASLC after serving as Assistant Director for Science and Technical Assistance at Washington Sea Grant in Seattle. Dr. Wong has additionally served in executive roles at the Woodland Park Zoo, the Philadelphia Zoo, and The Ocean Project in Providence, Rhode Island.  “We are very fortunate to find a leader with Wei Ying’s passion for education, science and conservation,” says ASLC President and CEO Tara Riemer. “She brings to us more than 20 years of experience as a highly respected educator, speaker and scientist. Creating this new senior leadership position represents our commitment to bring our experienced educators and world class scientists even closer together to advance our mission.” Dr. Wong has a background in cultural ecology, market research, and strategic communications. “As an avid scuba diver, the marine ecosystem has special resonance for me,” says Dr. Wong. “I am excited to be part of this catalyst for growth at the Center, and the opportunity it provides to amplify our impact through integrating our scientific endeavors and educational engagements. I am excited to join with our visitors and communities in becoming wildlife advocates.” The Chief Science and Education Officer will be part of the Alaska SeaLife Center’s senior management team and serve as staff liaison to the Scientific Advisory Committee. Dr. Wong will start in her new role December 6, 2021. About ASLC  Opened in 1998, the Alaska SeaLife Center operates as a 501(c)(3), non-profit research institution and public aquarium in Seward, Alaska. The Center generates and shares scientific knowledge to promote understanding and stewardship of Alaska’s marine ecosystems. The ASLC is an accredited member of the Association of Zoos and Aquariums. To learn more, visit www.alaskasealife.org.  

Wei Ying has worked in interdisciplinary and multicultural conservation projects both locally and internationally for almost two decades. An experienced executive with a passion for marine science, the pursuit of studies and career has brought her to many different states and countries. Amidst snowstorms, Wei Ying joined ASLC and the community of Seward in December 2021 as the Chief Science and Education Officer (CSEO). As CSEO, Wei Ying reenergized and expanded the science and education programs to develop and implement a visionary science agenda. Wei Ying was named President and CEO on March 31, 2024. Wei Ying marries her social science training and love of strategy to build programs that engage diverse stakeholders in conservation to achieve measurable outcomes. She is committed to the establishment of inclusive discourses and socially just environmental policies, as well as dismantling the systems of power and privilege in the conservation arena. Wei Ying earned her M.A. and Ph.D. in Environmental Studies at Brown University and continues to keep her fingertips in invasion ecology research. She has been the recipient of multiple research fellowships including Mellon Postdoctoral Fellowship in Environmental Communication and Margaret Sheridan Community Learning Award, as well as a participant of several leadership programs such as Toyota-Audubon Conservation Leader, Rhode Island Foundation Emerging Non-Profit Leader, and AZA Executive Leadership.

Seward, Alaska (March 18, 2015) - The Alaska SeaLife Center got a special delivery last week! Mara, an 11-year-old female, is the latest addition to ASLC's Steller sea lion family. Mara arrived on February 12 from the Mystic Aquarium in Connecticut. She was originally part of a research study at the University of British Columbia and Vancouver Aquarium. Here at the Center, Mara will join our Steller sea lion breeding program. The study focuses on the maternal care of females, as part of the Center’s research to better understand this endangered species. ASLC Marine Mammal Scientist Dr. Lori Polasek and her team are looking at the energetic cost of raising a pup from conception to weaning through hormone levels, pregnancy detection, and pup care. So far, Mara has been exploring her new home and loves to play with her enrichment toys. Our animal care team will slowly introduce her to other resident sea lions before putting her on habitat. Dr. Polasek and her team are hoping for a successful encounter this summer with male Steller sea lion Pilot.              

Variety is the spice of life, especially in the sea! ASLC's award-winning education team will provide an engaging program on a topic of their choice. Topics will change monthly.  Learn about the ASLC from the comfort of your own home - Virtually       For more info and to register: http://www.alaskasealife.org/virtualvisits Tuesday, November 24 - 3:00pm Episode 2: Benthic Buddies with Special Guest: Ms. Mallory Adventures Wednesday, November 25 - 11:00am Episode 2: Benthic Buddies with Special Guest: Ms. Mallory Adventures Tuesday, December 22 - 3:00pm Episode 3: Family Game Night - Trivia Wednesday, December 23 - 11:00am Episode 3: Family Game Night - Trivia Tuesday, January 19 - 3:00pm Episode 4: Fun with Food Webs Wednesday, January 20 - 11:00am Episode 4: Fun with Food Webs Tuesday, February 16 - 3:00pm Episode 5: Dive into ASLC Wednesday, February 17 - 11:00am Episode 5: Dive into ASLC

This popular mission-based event returns in April 2023. Guests will enjoy a special tour through the Center, stopping at designated locations while sampling food and wine pairings. Interact with Alaska SeaLife Center staff and learn how the Center is achieving its mission. Tickets are limited for this 21+ event. Sponsors get the first chance at limited tickets.    Click to purchase limited tickets.

Join us for an evening of food, fine wine, and fundraising while deepening your connection to the Alaska SeaLife Center and its mission As you explore the Center after hours, you’ll hear firsthand success stories — each a testament to the groundbreaking research, rescue, and education efforts made possible through your support. Thoughtfully paired food and wine selections will accompany you, and the night will culminate in a wine pull. Don’t miss this chance to engage directly with our dedicated animal care and research staff while raising essential funds for Alaska’s marine ecosystems! Tickets are limited for this 21+ event (ID will be required at the door). Dress code is casual Alaskan cocktail!