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() 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()         Three years of spring sampling trips resulted in thousands upon thousands of data samples. Back at the University of Alaska Fairbanks, the scientists resettle into their lab. Now with all their samples in front of them, they work to draw meaning from these snippets of information. It's like putting together a puzzle, but this one will take years to finish! Dr. Rolf Gradinger quickly discovered that there was a huge amount of ice algae production happening in the Bering Sea, even more than the team had hypothesized! Dr. Gradinger found that as much as 50% of all the algae growing in the Bering Sea in spring was growing with the sea ice. Armed with this knowledge, Dr. Bluhm and Dr. Iken set to work decoding the food web. First, they wanted to figure out which animals in the Bering Sea feed directly on ice algae. The two scientists are especially interested in animals that feed directly on the sea ice, because changes in the food available for these species will impact animals all the way up the food chain. To study the diet of these primary consumers they used a process called stable isotope analysis. VIDEO: BUILDING A FOODWEB USING STABLE ISOTOPES Learn about how researchers can piece together the marine food web by looking at muscle tissue (1:35) Video Transcript You might have heard the saying before, "you are what you eat". It turns out it's true! Certain chemicals from the foods we eat stay inside our body's tissue long after the food has been digested. Because different foods have different chemicals in them, each type of food has its own chemical signature, it's kind of like a fingerprint. Scientists can look at these signatures inside an animals tissues to see what kinds of food the animal has been eating. The chemicals that scientists look for are called stable isotopes.   In marine ecosystems like the Bering Sea, scientists use this technique to figure out which animals are eating certain types of algae. Imagine you're a clam. You live in the silty sediments at the bottom of the Bering Sea. In the springtime you eat 10 units of food in a day. Of these ten units, eight are of sea ice algae and two are from phytoplankton from the pelagic zone. You go along like this, every day eating eight units of sea ice algae and two units of phytoplankton, until one day.... SCOOP... you end up in our researchers sediment grab sampler. You're hauled up to the surface and taken to the laboratory where a sample of your muscle tissue is removed and tested for stable isotope signatures. The scientists recognize the signature of the stable isotopes from the algae you ate, so they can tell that the ice algae was an important part of your diet. This same techique can be used on animals higher up the food chain. Even the walrus who ate the clam who ate the sea ice algae will have muscle tissue with the sea ice algae's special signature. With the help of stable isotope analysis, the pieces begin falling into place. Dr. Bluhm and Dr. Iken are able to connect primary consumers to the ice algae they ate using their muscle tissue. The food chain doesn't stop there! These primary consumers can be connected to secondary consumers, who can be connected to one of the ecosystem's top predators: the polar bear. Suddenly, scientists are able to show that sea ice isn't just important to a few species; it connects animals throughout the food web! Navigate through the food web below to see what scientists have learned about how arctic organisms are interconnected: The evidence collected as part of this project clearly supports the team's hypothesis that sea ice is an important food source for pelagic and benthic Bering Sea communities during the springtime. The question now is: What will it mean for marine life as sea ice conditions in the Bering Sea continue to change? Scientists aren't sure yet, but they know that research projects like this one are important because they will provide baseline information which will help the science community quantify ecosystem changes over time.       WHO IS STUDYING SEA ICE?   ISOTOPES (n)- different forms of the same chemical   INTERCONNECTED (adj)- connected with each other   CLIMATE (n)- the general weather conditions in an area over a long period of time   BASELINE (n)- a starting value that is used for comparison to future values   QUANTIFY (v)- to assign a quantity to something              

animatedcollapse.addDiv('A', '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('B', '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()         WELCOME, TEACHERS! The Alaska SeaLife Center and COSEE-Alaska are excited to present their latest virtual field trip (VFT), Eyes on Eiders. Join Dr. Tuula Hollmen and her team as they investigate the lives of Steller's eiders in Alaska and what it takes for eiders to breed successfully. Learn from field researchers, animal care staff, lab researchers, and the principal investigator (Dr. Hollmen) herself. GRADE LEVEL: 5th-8th TIME NEEDED: Between one and four 1-hour class periods (teachers may choose to use all or some of the supplementary lessons). NUTSHELL: Students will learn about natural history of Stellers' eiders and their recent decline in Alaska. They will also explore the type of research that goes into planning the recovery of a species, as well as encounter several genres of scientific careers. LEARNING OBJECTIVES: After completing this virtual field trip, students will be able to: - Explain the life cycle of Steller’s eiders and how husbandry staff need to understand the life cycle and annual migration of these birds in order to care for the birds in captivity. - Describe this eider research project in terms of the scientific method. - Understand the scope of work, creativity, and inquisitiveness that goes into recovery efforts for a threatened species. BACKGROUND: In this virtual field trip, students will meet Dr. Tuula Hollmen (Principle Investigator), Tasha DiMarzio (Avian Curator), Nathan Bawtinhimer (Aviculturist), Sadie Ulman (Research Coordinator) and Dr. Katrina Counihan (Scientist). They compose the team at the Alaska SeaLife Center working with Steller’s eiders. Your students will follow the eider team into the field, a unique outdoor lab, and a traditional indoor lab as these scientists work to answer questions about Steller’s eiders. This VFT can be used in a number of ways. Individuals may navigate through the pages on their own and meet all the scientists through the links on the right-hand bar. Self-guided exploration can be completed in about an hour. Alternately, teachers may facilitate a structured experience, working through each page of the VFT together as a class. Lesson plans (included in the right-hand column of this page) are available to supplement online content. Lesson plans include activities that help explain taxonomy, explore community ecology, and engage students with hands-on field techniques and an egg dissection. TO USE THIS VIRTUAL FIELD TRIP YOU WILL NEED: - Internet access, video-streaming capabilities - Access to Eyes on Eiders the virtual field trip - Projection system (with audio) to display content or a computer lab (with headphones) - Corresponding lesson plans (arranged as PDFs in the right hand column of this page) UNABLE TO RUN THE STREAMING VERSION? REQUEST A FREE COPY OF ALL MATERIALS ON CD BY EMAILING: education@alaskasealife.org ADDITIONAL RESOURCES: General information on Steller's Eiders: US Fish & Wildlife Service: Steller's Eider Factsheet US Fish & Wildlife Service: Steller's Eider Recovery Plan US Fish & Wildlife Service: Species Profile for Steller's Eiders General information about the Y-K Delta: Video: Alaska's Yukon Delta National Wildlife Refuge Education Resources Related to Climate Change: NOAA Education Resources: Climate Change Impacts 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.         CURRICULUM SUPPLEMENTS Use the .pdf links below to access classroom activities for each section of the MELTDOWN virtual field trip. Background_Activities.pdf Questions_Activities.pdf Center_Activities.pdf Field_Activities.pdf Results_Activities.pdf Glossary.pdf          

Seward, Alaska (January 22, 2016) – The Alaska SeaLife Center (ASLC) is proud to announce the recipients of the 2016 Alaska Ocean Leadership Awards. These awards are given annually to individuals and organizations that have made significant contributions to the awareness and sustainability of the state’s marine resources. The Alaska SeaLife Center appreciates the support provided by the award sponsors and thanks the Awards Committee members: Denby Lloyd, Molly McCammon, Lisa Busch, Ian Dutton, Jason Brune, Michael Castellini and Phyllis Shoemaker for assistance in selecting the awardees. Two of the awards will be presented at the Alaska Marine Science Symposium on January 25, 2016 at the Hotel Captain Cook in Anchorage, Alaska. The remaining awards will be presented at the Alaska Marine Gala on February 13, 2016 at the Dena’ina Center in Anchorage, Alaska. Tickets and sponsorship opportunities are still available.  For additional information, visit www.alaskasealife.org or contact Nancy Anderson, nancya@alaskasealife.org or 907-224-6396. Following are the 2016 Alaska Ocean Leadership Award winners: Captain Ed Page will receive the prestigious Walter J. and Ermalee Hickel Lifetime Achievement Award. The late Governor Walter J. Hickel and his wife Ermalee endowed this award for 10 years to recognize an individual who has made exceptional contributions to the management of Alaska’s coastal and ocean resources over a period of 20 years or more. Through his tireless efforts to promote safety, stewardship, and environmental protection of the marine environment, Captain Ed Page has been an exemplary leader and public servant on behalf of Alaska's oceans. Even after 29 years of service with the United States Coast Guard, Captain Page chose not to retire. Instead, he put his extensive maritime experience, knowledge of marine law, contacts with the shipping industry, talent for communication, and passion for the ocean to good use by creating the Marine Exchange of Alaska in 2000. Under his leadership, the Marine Exchange of Alaska tracks and monitors over 2,000 vessels in the 1.2 million square miles of ocean bordering Alaska. The Marine Exchange makes it more likely that potential vessel-related problems at sea will be detected, thereby preventing unseen marine accidents. Award to be presented at the Alaska Marine Gala.  The nonprofit organizationSeaShare will receive the Stewardship & Sustainability Award. This award is sponsored by Jason Brune, and honors an industry leader that demonstrates the highest commitment to sustainability of ocean resources. SeaShare leads our seafood industry in a collective effort to improve nutrition for the people served by our nation’s food bank network. SeaShare combines the generosity of fishermen with processors, service providers, and financial donors to generate high volumes of donated seafood. SeaShare started in 1994 with an Experimental Fishing Permit to retain Prohibited Species Bycatch in Dutch Harbor and use those valuable fish resources for hunger relief. Over 20 years later, SeaShare remains the only organization authorized by NMFS to coordinate donations from over 120 boats and shore plants in Alaska. To date, this has resulted in 4 million pounds of fish distributed in communities such as Anchorage, Kodiak, Juneau, Cordova, Fairbanks, St. Paul, Kotzebue, Galena, Nome, Diomede, Savoonga and Wales. It’s a great story of fishermen and processors who respect the resource and who want to see that fewer fish are wasted. Award to be presented at the Alaska Marine Gala. Sofia Astaburuaga will receive the Hoffman-Greene Ocean Youth Award, which is sponsored by Dale Hoffman.The award honors an individual or team of Alaskan youth ages 12-19 who have displayed a dedication to promoting the understanding and stewardship of Alaska’s oceans. Sofia is an active member of Alaska Youth for Environmental Action, and is passionate about working with teens on issues related to climate change and the environment. She has worked on habitat restoration and resource monitoring efforts in Prince William Sound and the Chugach National Forest, as well as salmon habitat restoration through the Student Conservation Association. This past year, Sofia has been working with researchers at the University of Alaska to investigate the effects of plastics on seabirds in the Aleutians. Award to be presented at the Alaska Marine Gala. Arliss Sturgulewski will be recognized with the Ocean Ambassador Award. The Ocean Ambassador Award was created to recognize an individual or organization that has made outstanding contributions in promoting public awareness and appreciation of Alaska’s oceans, coasts, and marine ecosystems. Arliss is well-known throughout the state of Alaska for her service in political office and on many key advisory committees related to marine research and outreach. She is an active champion for the wise use of Alaska’s resources. While serving in the Alaska State Senate from 1979 to 1993, Arliss was an advisor to the International North Pacific Fisheries Commission. She fought against foreign fishing in US waters and championed the Community Development Quota program that supports local Alaska communities and fisheries. She has also been a member of the University of Alaska Fairbanks School of Fisheries and Ocean Sciences Advisory Council since 1992 and has served on the Alaska Sea Grant Program Statewide Advisory Committee since 2003. In these roles, she has been actively supportive of expanded marine research capacities in the state, as well as providing scholarship opportunities to students. Award to be presented at the Alaska Marine Gala. Susan Saupe will receive the Marine Science Outreach Award. This award is given to a person, team or organization that has made an outstanding contribution to ocean literacy via formal or informal education, media or other communications. It is co-sponsored by the University of Alaska, School of Fisheries and Ocean Sciences and the Alaska Ocean Observing System. Susan grew up on Kodiak Island, earned a Master’s degree in Chemical Oceanography, and has conducted research at sea throughout Alaska. She has been with the Cook Inlet Regional Citizens Advisory Council since 1996, and drew on her previous experiences to build their science program. Her role as Director of Science and Research provides unique opportunities to bridge the gap between marine researchers and coastal communities. Susan includes outreach in each program component – whether talking about oceanography, contaminants monitoring, coastal habitat mapping and assessments, or oil fate and effects research – to build meaningful partnerships. By seeking commonalities, Susan leverages funding, logistics, and expertise to collect and deliver user-friendly information about Alaska’s marine environment to a wider range of research, educational, agency, industry, and community users. Award to be presented at the Alaska Marine Science Symposium. Dr. Gunnar Knapp was selected toreceive the Marine Research Award, sponsored by Drs. Clarence Pautzke and Maureen McCrea. This honor is given to a scientist, team of scientists, or an institution that is acknowledged by peers to have made an original breakthrough contribution to any field of scientific knowledge about Alaska’s oceans. Dr. Gunnar Knapp has been studying fisheries management, fisheries markets, and the world seafood industry for more than twenty-five years, focusing particularly on the Alaska salmon industry. Gunnar’s willingness and ability to build close links with all sectors of the industry make him an inspiration to researchers in his field.  During the 1990’s, he began the Salmon Market Information Service for the Alaska Seafood Marketing Institute. He co-authored the major 1997 report “The Great Salmon Run: Competition between Wild and Farmed Salmon.” He has written numerous articles and reports on salmon markets, trends in limited entry permit ownership, the effects of halibut and crab IFQs, the Chignik salmon co-op, implications of climate change, and the economic impacts of Alaska fisheries. Dr. Knapp is closely engaged with the seafood industry and policy makers in Alaska. Currently, he is writing a book, The Economics of Fish, which is intended as an introduction to the insights provided by economics about fisheries, aquaculture and the seafood industry. Award to be presented at the Alaska Marine Science Symposium. About the ASLC Opened in 1998, the Alaska SeaLife Center operates as a private, non-profit research institution and public aquarium, with wildlife response and education programs. It generates and shares scientific knowledge to promote 

Today, on World Oceans Day, the Alaska SeaLife Center (ASLC) would like to tell the story of Zippy. Many Seward residents rightfully expressed concern about the sea otter in Resurrection Bay with a pink zip tie embedded around his paw this spring. While residents and ASLC staff were aware of the injured otter for months, catching a robust, male sea otter who can swim and dive is an incredible challenge. Both ASLC staff and locals spent hours daily looking for the otter trying to pinpoint his routine and whereabouts. On May 25th he was finally caught. ASLC staff, individuals from University of Alaska Fairbanks, and crew from the R/V Sikuliaq worked for over 4 hours trying to approach him and eventually net him off the stern of the research vessel. He was quickly transported to ASLC where veterinarians found that unfortunately, he sustained a very serious bone infection that could take months to heal. “Likely, Zippy's paw will never be the same, but we hope he will overcome the infection, show that he can forage normally, and be released back to Resurrection Bay.  We appreciate all the calls and support from local Sewardites as we monitored him this spring,” states Wildlife Response Curator, Jane Belovarac.    ASLC staff is doing everything they can to keep him comfortable and treat his infection, but there are significant challenges with housing an adult sea otter especially due to the financial hardships brought on by COVID-19. While the Center is thankful for partners like Sea Otter Foundation and Partners4Wildlife, many sponsors were understandably unable to offer support this year. Zippy, who is currently about 65 lbs, is being treated with daily antibiotics and other medication and eats around 18-20 lbs of shellfish a day, which adds up to be very expensive.   One way to help Zippy and other wildlife response patients is to donate to the Wildlife Response Program at: www.alaskasealife.org/donate   People can also symbolically adopt a sea otter in ASLC care at: https://alaskaanimalrescue.org/adopt-an-animal/   Sharing this story on World Oceans Day is important because while Zippy’s circumstances are disheartening, he brings a powerful message that we need to protect our Alaskan wildlife. Zippy is a victim of marine debris. It is every individual's responsibility to secure any type of plastic waste whether for personal or commercial use. Reduce plastic use when possible, keep track of trash, cut zip ties when done, and consider using biodegradable alternatives to plastic ties for short term tasks. There are many little things each and every one of us can do to make a big difference for marine life in Alaska.   Photo credit goes to @raven_song_photography   Please contact media@alaskasealife.org for any additional media requests regarding this story.

After nearly two months of rehabilitation at the Alaska SeaLife Center, male sea otter pup "Qilak" finds home in Chicago at Shedd Aquarium.  Qilak (pronounced Kee-lak), a five-month-old rescued male northern sea otter (Enhydra lutris kenyoni), arrived to his new home at Shedd Aquairum on October 24, 2022.  Since his rescue, the pup received around-the-clock care at the Alaska SeaLife Center (ASLC) in Seward, AK, the only permitted stranding marine mammal response facility in the state. Members of Shedd’s animal care and response team worked alongside partners to rehabilitate Qilak before bringing him to Shedd on Oct. 25. For now, Qilak remains behind the scenes at Shedd as he continues to reach milestones and build bonds with the animal care team and other otters.  Qilak spent nearly two months being monitored day and night and receiving regular health exams by ASLC staff. He has feedings every four hours, which has slowly decreased as he continues to grow and progress. He has been doing well since his arrival in Chicago, receiving continual care behind the scenes at Shedd’s Abbott Oceanarium. At five months old, he is a bit older than past rescues, which means he has already met some developmental milestones and continues to show signs of independence. ASLC and Shedd staff worked together to care for Qilak during his last few weeks of rehabilitation. (photo: Shedd Aquarium) The animal care team at Shedd looks forward to watching him continue to grow and thrive. Qilak’s next few milestones will be learning his new habitats, bonding with other otters and more. “As an organization dedicated to care and conservation, Shedd Aquarium is equipped to step in to assist our partners, and in this case, we offered rehabilitation support and ultimately a home for this pup in need,” said Peggy Sloan, chief animal operations officer at Shedd Aquarium. “Our rescued population of sea otters are important ambassadors for their wild counterparts creating compassion for this keystone, endangered species.” For now, Qilak remains behind the scenes at Shedd as he continues to reach milestones and build bonds with the animal care team and other otters.  Qilak spent nearly two months being monitored day and night and receiving regular health exams by ASLC staff. He has feedings every four hours, which has slowly decreased as he continues to grow and progress. He has been doing well since his arrival in Chicago, receiving continual care behind the scenes at Shedd’s Abbott Oceanarium. At five months old, he is a bit older than past rescues, which means he has already met some developmental milestones and continues to show signs of independence. Shedd staff members observe Qilak  at the Alaska SeaLife Center before his transport to Chicago. (photo: Shedd Aquarium) The pup was examined at ASLC and found to be underweight, but otherwise, he was strong and alert. Veterinarians and animal care team members monitored him closely to ensure he remained in good condition. He was already eating solid foods, swimming, grooming and more. During his rehabilitation, Shedd’s animal care team sent a rotating group of support staff to work alongside ASLC for round-the-clock care. ASLC led the pup’s naming that resulted in Qilak, which means dome of the sky, the entire sky or heaven in Inuit.  “Otter pups need care and attention 24 hours a day, seven days a week, so it takes a village to rehabilitate a young animal,” said Jane Belovarac, Wildlife Response Curator at ASLC. “While the process is lengthy, there is nothing more rewarding than watching our patients grow and find their homes. We’ve been honored to be part of his second chance at life, and we’ll continue to follow his journey.” Qilak joins the rescued sea otter population at Shedd Aquarium, including the other new arrivals Otters 926 and 929 that can now occasionally be seen on exhibit in the Abbott Oceanarium. There are now a total of six sea otters that call the aquarium home. Find more information about sea otters at Shedd on the aquarium’s website: https://www.sheddaquarium.org/animals/sea-otter.   Shedd Aquarium staff report that Qilak is settling in well. This photo is from when he first arrived at Shedd (photo: Shedd Aquarium)   About Northern Sea Otters The northern sea otter subspecies (E. lutris kenyoni), is found in the Aleutian Islands, Southern Alaska, British Columbia, and Washington. Within Alaska, there are three stocks. The Southeast stock can be found in the coastal waters of Southeast Alaska. The Southcentral population spans from west of Glacier Bay to the eastern edge of Cook Inlet. The Southwest population stretches from the western edge of Cook Inlet out the Aleutian Islands. In Alaska, sea otter populations in Southcentral and Southeast Alaska have stabilized or are continuing to increase. However, in Southwest Alaska, sea otters have experienced a sharp population decline in the last 20 years. The sea otter species as a whole are listed as “Endangered” on the IUCN Red List, while the northern sea otter is listed as “Threatened.” Main threats in the wild include predation, overharvest, fishery interactions, disease, and oil spill. Their main prey species include sea urchins, crabs, clams, mussels, octopus, fish, and other marine invertebrates. Sea otter teeth are adapted for crushing hard-shelled invertebrates such as clams, urchins, and crabs.   About the Alaska SeaLife Center Opened in 1998, the Alaska SeaLife Center operates as a private, non-profit research institution and a public aquarium. It 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.   About Shedd Aquarium The John G. Shedd Aquarium in Chicago sparks compassion, curiosity and conservation for the aquatic animal world. Home to 32,000 aquatic animals representing 1,500 species of fishes, reptiles, amphibians, invertebrates, birds and mammals from waters around the globe, Shedd is a recognized leader in animal care, conservation education and research. An accredited member of the Association of Zoos & Aquariums (AZA), the organization is an affiliate of the Smithsonian Institution and supported by the people of Chicago, the State of Illinois and the Chicago Park District. www.sheddaquarium.org  

Seward, AK – March 29, 2017– The Alaska SeaLife Center (ASLC) has admitted its first stranded marine mammal of 2017, a yearling ringed seal from Dutch Harbor. Following on the heels of a record breaking year in 2016 for the Center’s wildlife response team, ASLC President and CEO, Tara Riemer says wildlife response is shifting from a primarily summer activity to a steady year-round concern. “Over the past two years we have experienced a significant increase in total calls to our wildlife response hotline and in cases requiring action from our team. Based on what we have seen thus far in 2017, we expect this increased activity level to continue,” said Riemer. “The other trend we are seeing is that wildlife response is no longer primarily a summer activity. This has required a significant increase in staffing and allocation of our resources to ensure the high level of response and veterinary care to which the Alaska SeaLife Center is committed.” The recently admitted ringed seal first came to the attention of responders on February 26 following a call from a concerned citizen in Dutch Harbor. Community responders continued to observe the animal for several days at differing locations during which no physical abnormalities or injuries were observed. However, the ringed seal was approximately 250 miles out of its normal range, increasingly lethargic and appearing to avoid the water. With authorization for the rescue from the National Oceanic and Atmospheric Administration (NOAA) and the Alaska SeaLife Center, the seal was transported to Anchorage courtesy of PenAir where it was met by ASLC’s wildlife responders. When the ringed seal arrived at the Alaska SeaLife Center on March 3, she weighed 13.2 kilograms (29 pounds). Upon admission the seal’s coat was in good condition but she was underweight and severely dehydrated. The seal quickly transitioned to eating fish on her own. Further examination revealed that the seal was not maintaining body temperature and was severely parasitized. She is currently in “good but guarded” condition.   The Alaska SeaLife Center, a 501(c)(3) not-for-profit organization, is the only permitted marine mammal rehabilitation center in Alaska, responding with authorization from NOAA and the USFWS to wildlife across the state such as seals, walrus and sea otters. Staff at the Center work with community partners to assess animals and when appropriate transport them to the Center for care. For most seals admitted to the Center, treatment and rehabilitation is a three month process. NOAA has determined that ringed seals rehabilitated outside of their usual range are not releasable; therefore, the seal will be cared for at ASLC until a long-term placement facility is identified.                                                                                                                                                                                                                                                                            *Veterinarians at the Alaska SeaLife Center give a comprehensive health exam to a stranded ringed seal that was admitted on March 3, 2017 through the Center’s wildlife response program. The Center says it is seeing a significant increase in total annual cases as well as a shift from a primarily summer activity to a steady year-round concern. (Photo: ASLC)  “With these trends it is increasingly important for the Alaska SeaLife Center to maintain ongoing dialogue with coastal communities to keep each other informed regarding potential issues that may be impacting wildlife,” said Riemer. “Alaskans everywhere have a strong bond with marine wildlife from traditional culture and subsistence to tourism and local pride.”  Over 80% of the funding for the ASLC’s wildlife response program comes from charitable donations. “We especially thank individual Alaskans all across the state, our visitors, and corporate partners at BP Alaska, ConocoPhillips Alaska, GCI and PetZoo for their generous contributions to the Center in support of wildlife rescue,” said Riemer.  The Alaska SeaLife Center operates a 24-hour hotline for the public to report stranded marine mammals or birds,and encourages people whohave found a stranded or sick marine animal to avoid touching or approaching the animal.  Call first!  1-888-774-SEAL. High resolution photos available from media@alaskasealife.org; 907-422-7075. About the Alaska SeaLife Center: Opened in 1998, the Alaska SeaLife Center is a private, non-profit 501(c)(3) research institution and public aquarium. It 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.     

Seward, AK (March 9, 2018)– The Alaska SeaLife Center has concluded 159 days of round-the-clock care for the Cook Inlet beluga calf, Tyonek. On Thursday, Tyonek was successfully transported to SeaWorld San Antonio in Texas.  On September, 2017, the one-month-old calf was found stranded near Trading Bay in western Cook Inlet. With the authorization and assistance of NOAA, Tyonek was transported to the ASLC and housed in the Center’s I.Sea.U. When he first arrived he was in a weakened condition and required 24/7 care from multiple animal care experts. During Tyonek’s first days at the Center, he was 140 pounds and 162 cm long. He gradually progressed from suckling from a tube to drinking from a bottle. As Dr. Carrie Goertz, Director of Animal Health, described, “When it comes to helping a terribly rare Cook Inlet beluga, every day is a victory.” In November, Tyonek was transitioned to a larger outdoor pool as he became more independent. Over the next few months Tyonek steadily gained weight and grew stronger, becoming more playful with his caregivers. At his final weigh-in he was 260 pounds and 177 cm long. Once NOAA Fisheries determined Tyonek was non-releasable and could not survive in the wild, the agency followed its formal procedure to place him at a permanent care facility in the United States. Based on a thorough review of the applications, NOAA Fisheries selected SeaWorld San Antonio as the location best suited for Tyonek to thrive because they have both adult females and young male calves that will be important for Tyonek’s social development. Tyonek is the first Cook Inlet beluga calf to be successfully rehabilitated. “We are ecstatic that Tyonek continues to grow and gain strength when just over five months ago he was found stranded, malnourished, and dehydrated on a beach,” said Alaska SeaLife Center President and CEO, Dr. Tara Riemer. “The ASLC is thankful for the support of Georgia Aquarium, Mystic Aquarium, Shedd Aquarium and SeaWorld, who assisted the ASLC team since October. It has been a long journey for Tyonek, and we were happy to be a part of this young calf’s story.” Here are some statistics from Tyonek’s time at the Center: Over the course of 159 days, employees and volunteers of ASLC and partner aquariums worked over 7000 hours to care for Tyonek. While at the Center, this young calf nearly doubled his weight from 140 to 260 pounds. Tyonek drank 195 gallons of formula, an average of 1.2 gallons per day.   The Alaska SeaLife Center, a non-profit 501(c)(3) organization, is the only permitted marine mammal wildlife response and rehabilitation entity in Alaska. Over 80% of the funding for the Center’s wildlife response program comes from charitable donations. The wildlife response team responds to calls across the 33,904 miles of coastline throughout Alaska. The Center is prepared for wildlife response year-round. Last year was especially eventful with response to several sea otters, various species of seal, and a walrus as well as this Cook Inlet beluga calf. We are thankful for our donors, members, and supporters who help make what we do possible. The Alaska SeaLife Center operates a 24-hour hotline for the public to report stranded marine mammals or birds,and encourages people whohave found a stranded or sick marine animal to avoid touching or approaching the animal.  Call first!  1-888-774-SEAL. High resolution photos available from media@alaskasealife.org. About the Alaska SeaLife Center: Opened in 1998, the Alaska SeaLife Center is a private, non-profit 501(c)(3) research institution and public aquarium. We are excited to be celebrating 20 years of generating and sharing 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 or find us on Facebook.

Seward, Alaska (November 7, 2018) - Twenty-two top aquariums across the United States, including the Alaska SeaLife Center (ASLC), have already eliminated 5 million straws in their coordinated campaign to reduce sources of plastic pollution. Now they’re upping their game by encouraging individuals, businesses and cities around the country to cut back on single-use plastic—starting with plastic straws—by Earth Day 2019. Banding together in a joint #FirstStep to plastic-free waters, the aquariums seek commitments from 500 more businesses, pledges from individuals, and policy action by municipalities, all to reduce a growing source of single-use plastic waste that harms ocean and freshwater wildlife around the world. The campaign will kick off during #NoStrawNovember, a nationwide movement asking people who don’t need them to refuse plastic straws for 30 days.  “Reducing straws alone doesn’t solve the problem of plastic in our ocean, but it’s an important first step,” said Tara Riemer, ASLC President, and CEO. “Our goal is to get Alaskans thinking about ways to reduce single-use plastics—and encourage the availability of ocean-friendly alternatives in the state.” The #FirstStep campaign includes: Recruiting 500 new businesses to partner with aquariums across the country by committing to offer straws only on request, for a total of 1,000 businesses committed by Earth Day 2019 An online pledge site (pledge.ourhands.org/) where individuals can commit to make the last straw their first step to plastic-free waters Initiatives by partner aquariums to inspire cities in their regions to pass straws-on-request ordinances and other local measures to reduce single-use plastic An opportunity for individuals to get tips via text message on ways to cut back on single-use plastic in their daily lives. Since the 2017 launch of the Aquarium Conservation Partnership (ACP), 22 partner aquariums in 17 states – located on the coasts and in the heartland – have eliminated more than 5 million straws a year, stopped using plastic shopping bags, and have committed to significantly reduce or eliminate plastic beverage bottles by 2020.  Nearly 500 businesses—including United Airlines, the Chicago White Sox, Dignity Health hospitals and Farmer Brothers Coffee—have made plastic-reduction commitments in collaboration with ACP aquariums.                                                            Municipalities in aquarium communities, and California on a statewide basis, have enacted laws either banning single-use plastic from many foodservice operations or requiring businesses to offer plastic straws only when customers request them. ACP partner aquariums are supporting these efforts in a variety of ways. “There’s new scientific evidence, almost on a weekly basis, about the ways that plastic pollution is harming marine and aquatic wildlife,” said Monterey Bay Aquarium Executive Director Julie Packard.    “I find it so encouraging that people are responding quickly to the threat—by changing their habits, and asking businesses and governments to step up and take action.” “The health of our lakes and rivers is important not only to the wildlife that live there – they are a recreation and economic resource for us all,” said Bridget Coughlin, president and CEO of Chicago’s Shedd Aquarium. “Beyond inspiring the public to take action, it’s our duty to empower businesses and community leaders to raise the issue of plastic pollution taking place in both freshwater and marine habitats, lead by example and make long-lasting, impactful change.” “A sea change is underway, and people want to do their part to ensure the future of our ocean planet,” said National Aquarium President and Chief Executive Officer John Racanelli.“All 22 of the aquariums that make up the ACP are committed to reducing single-use plastics, and it is now our hope to inspire and serve as a model for other organizations and companies as well as individuals. The reality is that if everyone does their part, we can make a meaningful impact.” ACP's initiative has already expanded globally. Its work sparked the European Commission and United Nations Environment Program – with support from five international partners, including ACP – to announce a commitment by European Union Commissioner for Environment, Maritime Affairs and Fisheries Karmenu Vella at the 5th international "Our Ocean" conference October 29-30 in Bali, Indonesia to coordinate a global coalition of 200 aquariums by 2019 to raise public awareness about plastic pollution. For more information about the #FirstStep campaign or to take the pledge, please visit pledge.ourhands.org/. About the Aquarium Conservation Partnership The Aquarium Conservation Partnership (ACP) is a collaboration of 22 U.S.public aquariums in 17 states, all committed to advancing conservation of the world’s ocean, lakes, and rivers through consumer engagement, business leadership, and policy changes.  ACP was founded by Shedd Aquarium in Chicago, Monterey Bay Aquarium in California, and National Aquarium in Baltimore, in collaboration with the Association of Zoos and Aquariums. More information at pledge.ourhands.org/.   About the ASLC Opened in 1998, the Alaska SeaLife Center operates as a private, non-profit research institution and public aquarium. It generates and shares scientific knowledge to promote understanding and stewardship of Alaska’s marine ecosystems. To learn more, visit www.alaskasealife.org.  

Five organizations from around the United States have come together to provide care to an orphaned Pacific walrus calf receiving rehabilitative care at the Alaska SeaLife Center (ASLC) in Seward, Alaska, in hopes of giving her a second chance at life. The ASLC is leading the heartfelt and intensive effort to care for the rare orphaned Pacific walrus calf that arrived from Utqiagvik, Alaska, on July 22, 2024. The young female walrus, estimated to be only a few weeks old, was found abandoned after her herd left the area. She was emaciated, dehydrated, and had small superficial wounds covering her body when the United States Fish and Wildlife Service (USFWS) gave the ASLC’s Wildlife Response Program approval to respond to the calf. Since its opening in 1998, the ASLC has admitted only eleven Pacific walrus calves to its Wildlife Response Program. It is the only organization authorized to rehabilitate live stranded marine mammals in the state of Alaska, making this female calf very special. “Caring for an orphaned walrus calf is an incredibly demanding task, requiring unwavering dedication and expertise,” said Dr. Wei Ying Wong, ASLC President and CEO. “We watch her signs of improvement with cautious optimism and are pleased to be supported by our partners in providing the best possible care for her and all our wildlife response patients.” In the three weeks since the walrus calf's arrival, the ASLC has received support from top walrus care institutions across the U.S., including SeaWorld, Indianapolis Zoo and Point Defiance Zoo & Aquarium. Each organization, accredited by the Association of Zoos and Aquariums (AZA), has sent an additional staff member to assist with the calf's care. Additional AZA-accredited organizations are also assisting from afar and are potentially offering help for the coming weeks of care. This united effort highlights the power of collaboration in wildlife conservation and demonstrates the commitment of AZA-accredited institutions to preserving marine wildlife. “We are proud to have been able to answer the call to work with our AZA colleagues to care for this precious walrus. Our amazing animal care teams are on call 24/7/365 to help ill, injured or orphaned animals in need of expert care with the goal of rehabilitation,” said Dr. Chris Dold, SeaWorld’s Chief Zoological Officer. “As one of only four North American zoos and aquariums that are home to walruses, our staff are uniquely skilled to help provide care for this calf, and we were ready to pitch in as soon as the call came in,” said Point Defiance Zoo & Aquarium’s General Curator Malia Somerville after they sent a member of their team to Seward, Alaska to assist with the around-the-clock care. Walrus calves are with their mom for one to two years and are highly social. They seek comfort through physical contact with their mothers. In rehabilitation, staff act as surrogates, sitting with the calf 24/7 and providing intensive care. This habituation to human care means that this calf will not be a candidate for release, but she will serve as an important ambassador for her species, raising awareness about the challenges faced by Pacific walruses and the ecosystems they live in. “Animal conservation is a team effort that requires collaboration and commitment. Answering the call to help with this rescue embodies our mission of protecting nature and inspiring people to care for our world,” said Dr. Robert Shumaker, Indianapolis Zoo President and CEO. Indianapolis Zoo is currently home to “Aku,” the Pacific walrus calf the ASLC rescued and rehabilitated in 2017. Like Aku, this current patient and any young orphaned walrus calves that are successfully rehabilitated are not candidates for release to the wild. "Walrus are amazing ambassadors for the Arctic and an inspiration to all of us to be better stewards of the planet we all share. We are honored to have walruses in our parks, providing our guests the opportunity to learn about them and inspiring people to protect them and their habitats," said Dr. Chris Dold. The joint efforts of ASLC and its AZA walrus care partners illustrate the dedication required to rehabilitate and care for such a precious marine mammal from the Arctic. By coming together, these organizations are giving this specific walrus calf the best possible chance at survival while also highlighting the broader significance of her species and the plight of the Arctic ecosystem as a whole. “This one abandoned and rescued walrus calf serves as a vital ambassador for her species, the communities who rely upon them, and the arctic ecosystem. ASLC and our partners are excited to contribute to the broader effort of conserving these magnificent creatures and their ecosystems, including the rich culture and wisdom of the Alaska Native peoples, who have been here since time immemorial,” said Dr. Wei Ying Wong, ASLC President and CEO. The walrus calf, though still in a critical state, is showing positive signs of improvement. She is still in the quarantined wildlife response area and is not currently viewable to the public. If this changes, an announcement will be made on ASLC’s Facebook and Instagram pages. Updates on her condition will be shared through ASLC’s Facebook and Instagram pages, as well as on the pages of the partnering organizations. Those interested in contributing to the care of these patients can visit www.alaskasealife.org/donate.     

animatedcollapse.addDiv('A', '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('B', '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()         It’s October - springtime in the Antarctic. And on the Ross Sea, it’s pupping season. The world’s southernmost-breeding mammals, the Weddell seals, are hauled out on the fast ice of McMurdo Sound. The temperature hovers near zero degrees Fahrenheit. The surface of the sea remains frozen for miles. The only breaks in the ice are tidal cracks and breathing holes that the seals have carved out with their teeth. As the summer progresses and brings with it continuous daylight, the sea ice covering this area will begin to fracture and melt. For now, though, the ice is solid and the frozen landscape is dotted with female seals and their pups.  Weddell seals are uniquely adapted to survive life in this polar habitat. Just like their phocid (seal) relatives in the Arctic, these seals have thick blubber that insulates their bodies from the frigid climate. Still, life in this extreme environment isn’t easy!  VIDEO: LIFE IN THE ANTARCTIC Learn about the extreme Antarctic conditions Weddell seals are adapted to live in. (2:20) Video Transcript Measuring over 10 feet (3 meters) from head to flippers and weighing in at more than 1,000 pounds (450 kilograms), Weddell seals are a hardy bunch. And it’s a good thing! These marine mammals live in one of the world’s harshest environments: the Antarctic. Antarctica is often described as seeming like an alien planet. It certainly isn’t like anywhere else on Earth! 98% of the Antarctic continent is covered with ice, but the ice doesn’t stop at the land’s edge. Winter conditions in this area are severe enough that the sea surface freezes solid over much of the Southern Ocean. This sea ice is important habitat for wildlife, including Weddell seals. During the austral spring and summer it provides a safe place for the seals to haul out of the near-freezing water to rest and give birth to their pups. Although Antarctica receives 24-hour daylight in the summertime, it is definitely not a warm place to relax! Summer air temperatures in McMurdo Sound average about 26° Fahrenheit (-3° Celsius). In the winter, air temperatures can be as low as -58°F (-50°C). During these months, seals migrate out to sea where they forage near the ice edge. Because of the extreme air temperatures, seals spend all winter in the water, only surfacing to breathe. Recently, many people living and working in the Arctic have observed significant and measureable changes in the region’s climate. Because Antarctica has no permanent human population, far fewer people are aware that similar dramatic changes have been recorded in the Antarctic as well. Around Antarctica temperatures are warming. Coastal ice shelves have lost huge volumes of ice as massive pieces have broken away and melted. At the same time, some areas of the continent have been experiencing increased winter sea ice extent. Researchers hope to learn more about the lives of Weddell seals in Antarctica so they can gain a better understanding of how ice seals in both the Antarctic and Arctic might adapt to their changing environments. While environmental changes have presented themselves differently in the Arctic and Antarctic, one common theme is that conditions have become less predictable. Just as dealing with an unpredictable situation can be hard for a person, adapting to an unpredictable environment can be challenging for an animal. For Weddell seals, whose migration, foraging habits, and breeding activities are dependent on specific sea ice conditions, such unpredictable conditions could have negative impacts. Dr. Jo-Ann Mellish is a Marine Mammal Scientist.  She and her research team want to understand how hard it is to be a polar seal. In particular, they're curious to know how seals stay warm in such cold environments. Understanding how Weddell seals are able to survive in their environment will help the scientists begin to predict how seals at both poles may be impacted by changing environmental conditions. VIDEO: INTRODUCTION TO THE RESEARCH PROJECT Dr. Jo-Ann Mellish explains why the team is interested in studying polar seals. (1:56) Video Transcript Jo-Ann Mellish: “It was one of those cases where one question leads to another question. I was on a previous project on McMurdo Sound, with Weddell seals. We were down there for a couple years, and as we were there there were a lot of issues with the sea ice. There was some very thick, very old, multi-year sea ice. There were some icebergs around and it was impacting water patterns and ice patterns. In addition to that, everywhere in the news it’s ice change in the Arctic. “So you’ve got ice changing in very different ways at either end of the Earth, but the common factor is that you’ve got these seals that depend on the ice for where they breed; where it impacts very strongly, how they get to their breeding sites. These ice-obligate seals are at both poles, there’s ice changing at both poles, but nobody has ever looked at how much energy it costs just to be a seal in these environments. “One of the common themes in biology is that if an animal lives in a place, you assume that it’s adapted. But what happens if that habitat that the animal lives in starts to change? How much flexibility does that animal have to adapt to the change? Maybe there’s a lot, maybe there’s this huge buffer zone. Maybe there’s a teeny-tiny buffer zone. You kind of assume that these animals at the ends of the earth might have a teeny-tiny buffer zone. “Nobody knows what that buffer zone is. So what we wanted to do was actually document the cost of living in a polar seal. “   The research described in Southern Exposure was funded by the Office of Polar Programs, Antarctic Organisms and Ecosystems, National Science Foundation, Award #1043779. All research was conducted under National Marine Fisheries Service Marine Mammal Protection Act authorization 15748 and Antarctic Conservation Act permit 2012-003.  Unless otherwise noted, the videos in this virtual field trip are courtesy of Jo-Ann Mellish, John Skinner, Henry Kaiser, or the Alaska SeaLife Center.   WHO IS STUDYING SEALS?   FAST ICE (n) - sea ice that is attached to the shore   TIDAL CRACK (n) - a broken area of sea ice caused by movement of the tides   ADAPT (v) - to change behaviors or physical traits to survive in a specific environment   POLAR (n) - describing the area of the Earth’s surface around the north and south poles   PHOCID (n) - the scientific family name for true (earless) seals   ICE SHELF (n) - a floating sheet of ice, attached to a landmass   AUSTRAL (adj) - of or relating to the southern hemisphere   MIGRATION (n) - movement from one area to another   FORAGE (v) - to search for and collect food   THERMOREGULATION (n) - the ability to maintain a constant body temperature under changing conditions   HYPOTHESIS (n) - a proposed explanation to a question that must be tested   PHYSIOLOGY (n) - a branch of biology dealing with the study of how living things function      

  animatedcollapse.addDiv('A', '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('B', '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()         Eiders are sea ducks, which means that they live in coastal areas where they dabble for small invertebrates or dive for crustaceans and molluscs. Steller's eiders nest on the arctic and subarctic tundra. These birds are sexually dimorphic, so males generally look very different from females. Click on the images below to discover the advantages of different colors on the tundra: Steller's eiders are migratory and winter comes early on the Alaskan tundra. Before ice covers the ponds and coastal waters near the Steller's beeding grounds, the birds must travel south to areas where the coast doesn't freeze over, allowing them to access food resources in the ocean. Watch the video to learn where the Steller's eiders of Alaska travel throughout the year. VIDEO: Annual Cycle of Steller's Eiders in Alaska Discover the life history of Steller's eiders in Alaska. (2:44) Video Transcript In Alaska, Steller’s eiders spend the winter on the coast along the Aleutian Islands, the Alaska Peninsula, and the Kodiak Archipelago. As spring arrives, the birds wait for the sea ice to melt along their migratory paths. Before they migrate, the males begin to dance. All efforts are geared toward finding a mate. Then, the Steller’s eiders that winter in Alaska diverge into two separate breeding populations. Most of them fly northwest to breed and nest in Russia. Others fly north to breed and nest near Barrow, Alaska. These birds comprise the Alaskan breeding population. Historically, Steller’s eiders also nested on the Yukon-Kuskokwim, or Y-K Delta. Now Steller’s eiders are a rare sight on the Y-K Delta, and very few Steller’s nests have been discovered there in the past several decades. In late May or early June the Steller’s Eiders reach their breeding grounds on the arctic tundra. By late June the hens are ready to make a nest on the tundra in close proximity to tundra ponds. The males stay around to guard while the females construct elaborate grass nests lined with cozy down feathers. The end result is so well camouflaged that it virtually disappears into the tundra. By early July the Steller’s hens will lay up to 9 olive-brown eggs. While the females tend to their eggs, the males leave to travel south and return to their molting grounds. Adult eiders molt their flight feathers once each year, leaving them unable to fly for about a month as they grow new feathers. Males travel to protected bays and lagoons to molt before continuing on to their wintering sites. Meanwhile, on the tundra the hens incubate their eggs up to 26 days before the ducklings hatch. Within 24 hours of hatching the ducklings leave the nest to follow their mother around the coastal tundra. In 5 to 7 weeks the young birds are able to fly. Fall will soon give way to winter, so the mothers and their young must fly south to the molting and wintering grounds. The females reunite with the males and with the breeding population that spent its summer in Russia. And the annual cycle of the Steller’s eiders begins again. Every species of bird has different requirements for successful nesting but, with so few of these birds in the wild and so little known about them, how will researchers know what Steller's eiders need? In captivity, these birds won’t have to worry about predators or the challenges of migration. But will the scientists be able to provide them with requirements they need to nest and raise ducklings hundreds of miles away from the tundra?       CLICK BELOW TO LEARN ABOUT SEADUCK SCIENTISTS!   CAMOUFLAGE (n) - concealment that alters or obscures the appearance; helps an organism to hide from its predators.   FORAGE (v) - to search for and collect food.   INCUBATE (v) - to keep an egg or organism at an appropriate temperature for it to develop.   IRIDESCENT (adj) - shining with many different colors when seen from different angles.   LIFE HISTORY (n) - the series of changes a living thing goes through during its lifetime.   MIGRATION (n) - seasonal movement from one area to another.   MOLT (v) - to lose a covering of hair, feathers, etc., and replace it with new growth.   PLUMAGE (n) - the feathers that cover the body of a bird.   SEXUAL DIMORPHISM (n) - when the male and female of the same species look distinctly different from one another.  

animatedcollapse.addDiv('A', '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('B', '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()         The Steller's eiders kept the team busy during the 2014 breeding season. The combination of nesting materials, nest placement, privacy, mate choice and staffing worked for the eiders! For the first time in the program’s history, two Steller’s eider hens, Scarlet and Eek, incubated their eggs for the full 26 days and hatched ducklings. Scarlet had three ducklings and Eek had one. Four other ducklings hatched after artificial incubation and were raised by people for a total of eight Steller’s ducklings. The hens fully incubating their eggs was a grand achievement for the eider team! In the early stages of the project, hens would only lay infertile eggs, or not build a nest, or not stay on their nest through the whole incubation. In captivity, Steller’s eider hens had never incubated their eggs completely on their own before now! In addition to the eight ducklings of 2014, the eider team had many eggs that were infertile or that were fertile but never hatched. All the eggs that do not hatch go to the lab where Dr. Katrina Counihan and her lab technicians get to work. Every egg provides further data for researchers to use to learn more about eiders. VIDEO: DATA FROM EGG DISSECTIONS Discover what Dr. Katrina is learning in her eider lab. (1:40) Video Transcript I do various projects with the eiders. The major one is I oversee the processing of the eggs every summer. We get eggs from the captive spectacled and Steller’s eiders. For this summer we got over 300 eggs from both species, so we have help usually in the summer from interns and also volunteers which are often college students. Without them we wouldn’t be able to get through all these samples, because it takes about 30-45 minutes per egg to process it. As you can see here we use a variety of tools: digital calipers to measure the width and length of all of our eggs, and then we have a scale that we [use to] weigh the eggs before we start the dissection. The first thing we do is we’ll use these little just basic knitting scissors and we cut around the center of the egg. And then we’ll dump out as much of the albumen as we can into a large dish and then the yolk into a second one of the large Petri dishes. And then we’ll use really simple things, like just plastic forks to mix up albumen and yolk before we take samples, and then spatulas to scrape up every last little bit to make sure we get the samples. And then just little plastic syringes to suck up the samples into the vials. And then we weigh out the yolk and the albumen. So we literally save every bit of every egg we get. Dr. Katrina Counihan uses parts of the eggs she dissects to study eider health. We know a lot about how people deal with being sick, but not much about what eiders do to stay healthy. One part of the egg she is interested in is the yolk because it contains immunoglobulin (or antibodies) which would help the duck fight off diseases. Dr. Counihan looks at the immunoglobulin in the eggs to understand how the eiders are able to fight diseases. Thanks to Dr. Counihan’s work, if the eiders are reintroduced, the scientists will understand how healthy the captive birds are and how the eiders will be able to handle any diseases that they might encounter in the wild. Dr. Hollmen believes that the collaboration and communication between the research and husbandry staff is the key to the team’s success. The husbandry staff works to make the eiders feel at home and healthy so they lay eggs. Some of those eggs hatch into ducklings that increase the captive reservoir population. Researchers in the lab use the other eggs to find information on the health of the birds. The field team tries to find a wild habitat where the eiders could survive. Each team member contributes a specialized set of skills and everyone is united by the goal of learning about and helping a unique arctic species.       CLICK BELOW TO LEARN ABOUT SEADUCK SCIENTISTS!   ALBUMEN (n) - the white of an egg.   CALIPER (n) - a tool with two moveable arms that is used to measure thickness, diameter, length or width.   COLLABORATION (n) - the action of working with someone to do or create something.   IMMUNOGLOBULIN (n) - also called antibody; a protein that helps the immune system find and get rid of foreign objects like bacteria and viruses.   PETRI DISH (n) - a shallow plastic or glass dish often used in labs to culture bacteria or collect samples.   YOLK (n) - the yellow center of an egg that supplies food to a growing bird before it hatches.    

animatedcollapse.addDiv('A', '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('B', '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()         A typical day doesn’t exist on the Arctic tundra. Even in the summertime, you could wake to a day of hail, snow, fog, rain, or 70-degree sunshine. Luckily, on good weather days there is a lot of daylight when scientists can get their work completed. With a flat landscape, light from the sun lasts almost 24 hours. Researchers sometimes work until one o'clock in the morning! In the 2014 season, Alaska SeaLife Center scientists traveled to the Y-K Delta twice; once in June to investigate habitat for nesting pairs and once in July to study conditions during brood rearing. This fieldwork helped determine if there is suitable habitat on the Delta for the potential rearing of Steller’s eider ducklings in the upcoming years. If the team can hatch and raise Steller's eiders on the Y-K Delta, this may be a way to reintroduce Steller's eiders to that area. The prospective Steller's rearing location needs to have quality habitat for the eiders, but it also needs easy access for the scientists to come and go with supplies. VIDEO: STUDYING SITES FOR REINTRODUCTION Sadie Ulman explains what information the field team gathered in 2014 and why. (1:48) Video Transcript One of the primary goals of my work right now is to help with the reintroduction of Steller’s eiders on the Yukon-Kuskokwim Delta, and our focus is on this particular central Yukon-Kuskokwim Delta: Kigigak Island down on the further south, and then all the way up here on the Kashunuk River system were three different locations. We were looking for freshwater ponds, which happen to be mainly on top of these pingos which are essentially upraised tundra, kind of new tundra areas upraised with these deep, clear freshwater ponds on them with different vegetation than the lower, more grassland. This past season we were sampling a suite of habitat types, but a list of factors kept pointing toward these pingo ponds being the highest level of quality for habitat. We’re looking at salinity specifically because it’s been shown to affect the growth and mass of ducklings at an early age. Sea ducks in particular have salt glands that they don’t fully develop until anywhere from 3 to 6 days of age. After the salt glands have developed they can process salt water readily and it does not affect them. With the changing climate and weather there’s been a higher frequency of coastal storm surges coming in. So the seawater essentially is coming up and flooding a lot of the tundra area and therefore increasing the salinity in a lot of those ponds. That is very helpful to know for the reintroduction purposes, as we need to find a location where there’s plenty of freshwater available for these broods and these ducklings to be reintroduced. Click on the tools and equipment in the image below to learn more about what the research team does in the field. Can you find all six items to click on?         CLICK BELOW TO LEARN ABOUT SEADUCK SCIENTISTS!   CONDUCTIVITY (n) - the degree to which a specified material conducts electricity.   DATA (n) - values of something measured.   DELTA (n) - the area of land where a river splits into smaller rivers before it flows into an ocean.   HABITAT (n) - the natural home or environment of an animal, plant, or other organism.   INVERTEBRATE (n) - an organism that doesn’t have a spine or spinal column; insects are one example of invertebrates.   pH (n) - a number between 0 and 14 that indicates if a substance is an acid or a base.   PINGO (n) - a hill of soil-covered ice pushed up in an area of permafrost.   QUADRAT (n) - a square or rectangular plot of land marked off for the study of plants and animals.   REAR (v) - caring for and raising (offspring) until they are fully grown, especially in a particular manner or place.   SALINITY (n) - the saltiness or dissolved salt content of a body of water.   SEDIMENT (n) - matter that settles to the bottom of a liquid.   SLOUGH (n) - an inlet on a river or a creek in a marsh or tidal flat.    

Group Tickets The Alaska SeaLife Center is the perfect activity for Family Reunions Senior Communities Scout Troops Church Groups College Classes Corporate Outings Special Group Rates are available for groups with a minimum of 10 paying customers (Ages 3+) in a single transaction. Submit your group request by completing our Group Inquiry Form, and we will contact you with specific pricing and availability for your group. School Groups We offer a variety of opportunities for school groups General Admission Unstructured admission to the Center and its exhibits. Submit your group request by completing our Group Inquiry Form, and we will contact you with specific pricing and availability for your group. Guided Day Programs Choose from a variety of engaging Educational Programs, designed to inspire a love of learning and of Alaska's marine wildlife. Click here for more information. Nocturne Sleepovers Enjoy an overnight adventure at the Alaska SeaLife Center! Click here for more information. Tour Operators The Alaska SeaLife Center partners with tour companies to complement each visitor's own unique Alaska vacation. Vouchers purchased through your travel company provide your guests with quick and easy access to the Alaska SeaLife Center and assistance planning an exciting, customized itinerary that matches your group's interests. For more information or to begin a partnership, please contact: Laura Swihart Thacker Guest Services Supervisor Phone: (907) 224-6337 Toll Free: (800) 224-2525 ext. 6337 Email:lauras@alaskasealife.org Facility Rentals Email Pam Parker, Development Manager, pamp@alaskasealife.org for more information about Facility Rentals.      

Special Experiences    Encounters are available for a single group at a time at a flat-rate price. General Admission must be purchased in addition. Members receive 20% off the regular price! Learn more. To book a reservation by phone please call 907-224-6300. For more information and questions, email onlinesales@alaskasealife.org.  Click on a experience for more details. Reservations are strongly encouraged. Limited space available. Tickets only valid for date selected. ***Occasionally, experiences may be adjusted due to weather or other conditions beyond our control to ensure the comfort and safety of our animals and guests. Accessibility For guests needing accommodations, every effort will be made to allow participation in encounters. Some of our tours require walking on uneven surfaces, kneeling, walking up stairs, and standing for up to 45 minutes.  For the safety of both the service animal and our ASLC animals, service animals may not be present during behind-the-scenes animal encounters. If you require a service animal, please contact our visitor services team to learn about the best ways to participate in an encounter.  Please contact us at visit@alaskasealife.org if you have any questions about accessibility for any of our tours.                                                        Tickets only valid for date selected. Cancellation Policy To change or cancel your reservation, please call 888-378-2525 or email us at onlinesales@alaskasealife.org We encourage you to reschedule your reservation, if possible, as opposed to canceling. We will do our best to accommodate any changes.  1. 7 days or more in advance: no penalty, full refund or free rescheduling.  2. 2-6 days in advance: 50% of reservation refunded or free rescheduling. 3. Less than 48 hours in advance: no refund or rescheduling. All cancellations will be confirmed by phone or email.

Seward, Alaska (September 23, 2021) – The Alaska SeaLife Center (ASLC) is launching Virtual Visits again this fall. This free program for all ages will be live-streamed weekly from the ASLC YouTube channel. Each 30-minute program will begin at 11AM Alaska time on Wednesdays starting September 29, 2021 until May 11, 2022 with some exceptions for holidays.    A new behind-the-scenes look highlighting the work, staff, and animals at the ASLC will be introduced during each program and hosted live by ASLC’s award-winning Education Team. “We are very excited about Virtual Visits this year. These programs are meant to be a fun way for our viewers to learn something new and ask questions. It’s a chance to see a part of the Center you can’t see with regular admission, hear from staff who are doing our important mission work, and join us as we work together to conserve the critical marine ecosystems of Alaska,” states Senior Education Manager, Jeff Dillon. Since the public can ask questions if they watch the live program, they are encouraged to subscribe to the Alaska SeaLife Center on YouTube to receive notifications: www.youtube.com/user/AKSeaLifeCenter.   Virtual Visits are made possible by a grant from Royal Caribbean Group, in partnership with the Alaska Travel Industry Association (ATIA) Foundation. In 2020, ASLC launched Virtual Visits at the beginning of the pandemic in an effort to bring the Center to the public virtually. After a successful year of programming, Royal Caribbean Group has now graciously funded the program for three more years.    Royal Caribbean Group and the ATIA Foundation assisted more than 65 Alaska tourism businesses and community organizations in their pandemic recoveries.“We’re seeing the significant challenges the communities in our cruise destinations are experiencing and we knew there were partners who can’t turn a blind eye,” ATIA President and CEO Sarah Leonard said. “Royal Caribbean Group found the resources to provide relief through grants and in-kind donations in three areas: small business, food security, and health and well-being. As a partner, ATIA can streamline the grant-making process because we have first-hand knowledge of what Alaskan communities had to endure and understand how so many local businesses will really benefit from the grants, both big and small.”   About ASLC: Opened in 1998, the Alaska SeaLife Center is a private, non-profit 501(c)(3) research institution and public aquarium. It 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 or find us on Facebook.  About Royal Caribbean Group: Royal Caribbean Group is the operating business name for Royal Caribbean Cruises Ltd. Royal Caribbean Group is the owner and operator of three global cruise vacation brands: Royal Caribbean International, Celebrity Cruises, and SilverseaCruises. Royal Caribbean Group is also a 50% owner of a joint venture that operates TUI Cruises and Hapag-Lloyd Cruises. Together, our brands operate 59 ships with an additional 15 on order as of March 15, 2021. Learn more at www.royalcaribbeangroup.com About ATIA: The Alaska Travel Industry Association, Alaska’s leading statewide nonprofit membership association for the travel industry, promotes Alaska’s tourism industry as an economic contributor while providing statewide marketing resources, education opportunities and advocacy to members. ATIA has long managed Alaska’s destination marketing program: TravelAlaska. The ATIA Foundation is a non-profit 501(c)3that supports programs that educate and enhance the quality of Alaska’s visitor industry and educates the general public regarding tourism. For more information, visit www.alaskatia.org

It is with a heavy heart that we announce the death of Richard C. Hocking, the Alaska SeaLife Center’s esteemed Aquarium Curator of 24 years. Richard passed away November 21 at his home in Seward at the age of 70. Richard was born in Seattle, Washington on April 16, 1951. His curiosity about the natural world was evident from a young age when he declared his intentions to become a forest ranger. He loved camping and exploring at a little forested lot near the Skykomish River as well as during many family trips throughout his home state of Washington and to various national parks. Richard enjoyed numerous hobbies including reading on a variety of subjects, backpacking, skiing, kayaking, photography, movies, traveling, and scuba diving. Diving in particular became a prominent interest in his life as evidenced by his PADI divemaster certification in 1983. While Richard’s job with the Washington Department of Fish and Game paralleled his childhood dreams of being a forest ranger, his passion for the ocean truly defined his life's work. For over four decades, Richard grew his career in the zoo and aquarium industry. He began his legacy in 1976 with the Seattle Aquarium as an Aquarium Biologist. He worked there up until 1989 when he became employed with the Point Defiance Zoo & Aquarium as an Animal Care Technician and additionally assisted with diving and collecting operations. His time at Point Defiance ended when he left for Alaska in 1997.  Richard began his career at the Alaska SeaLife Center as the Aquarium Supervisor in 1997, before the building was even finished. He quickly was promoted to Aquarium Curator in 1998, a role he upheld until his passing. While he significantly shaped the aquarium exhibits and led the division at the Center, his management role never stopped him from doing any task; from checking water quality to leading a tour, Richard took part. “Richard was truly an ASLC treasure. Both a teacher and a student, he had a gift for sharing his endless knowledge of marine species and a passion for marine conservation. His contributions to ASLC for the past 24 years can be seen and felt through all of the exhibits,” explains Husbandry Director, Lisa Hartman. Richard was known as one of the most hands-on curators in the building. While his main role was managing a group of aquarists to maintain and display the species in the Center, he immersed himself in many other aspects of ASLC. Richard managed and secured permits that allow the Center to collect and display fish and invertebrates. He was very involved in the long term monitoring of invasive species in Alaskan waters and would often set and check green crab traps and tunicate plates. He not only was in charge of food procurement and inventory management for fish and invertebrates, but for every single species in the facility.   Always looking towards the future, Richard hoped to educate and motivate the next generation of ocean stewards. He found joy in working with youth and became involved in the Center’s after-school program, Ocean Science Club, leading dissections and classes. Richard was also active as a judge and mentor for the Alaska Ocean Science Bowl, an academic competition for teens involved in ocean science. “Richard knew more about the ocean and the creatures in it than anyone I have or more likely ever will meet.  The only thing that he enjoyed more than learning about the world's oceans was teaching others about it.  He got particular joy out of teaching the next generation about the wonders of the sea. I remember fondly how much he loved the time he got to spend as a judge for the Alaska Ocean Sciences Bowl and as a mentor for the Seward Team. Can you think of a better job for Richard than being a judge in an Alaska Ocean Science competition? I can't,” expresses Aquarist, Chuck DiMarzio.  Richard will be remembered for his kindness, infinite knowledge, selfless work, and inspiring conversation. In 2017, his coworkers fittingly designated him as the “Unsung Hero” for making a consistently important contribution to the day to day operations of the Alaska SeaLife Center. “If you know the ASLC, you know the impact and resource of Richard Hocking. He was a purveyor and connoisseur of biology and natural history, just as eager and willing to share with or learn from a first year college intern as he was a professor emeritus. If you knew Richard, you knew he valued people, what each individual may uniquely be able to offer, and great conversation,” recounts Aquarium Manager and Dive Safety Officer, Jared Guthridge.  A public memorial exhibit to celebrate the life of Richard C. Hocking will be open December 8, 2021 at the Alaska SeaLife Center from 3:30 PM to 6:30 PM. The life, work, and stories of Richard will be displayed throughout the Center and the public can tour at their own pace. A more formal outdoor memorial service is being planned for Spring 2022.

  The Alaska SeaLife Center is pleased to announce the recipients of the 2023 Alaska Ocean Leadership Awards.   These awards are given annually to individuals and organizations that have made significant contributions to the awareness and sustainability of the state’s marine resources. The Alaska SeaLife Center appreciates the support provided by the award sponsors and thanks the awards committee members (Jason Brune, Ginny Eckert, Lynn Palensky, Brian Pinkston, Robert Suydam, and Sheyna Wisdom) for their assistance in selecting the award recipients. These awards will be presented at the Alaska Marine Science Symposium on January 23 and the Alaska SeaLife Center Soiree on February 18, both in Anchorage.   Vera Metcalf will receive the prestigious Walter J. and Ermalee Hickel Lifetime Achievement Award. Following the footsteps of the late Governor Walter J. Hickel and the late Ermalee Hickel, the Hickel Family continues to sponsor this award to recognize individuals who have made exceptional contributions to the management of Alaska’s coastal and ocean resources for more than 20 years. Vera Metcalf has held the position of Eskimo Walrus Commission (EWC) Director for over 20 years. She is a recent inductee to the Alaska Women’s Hall of Fame, an honor given to women who have influenced the direction of Alaska. Vera has held several positions including Commissioner on the U.S. Arctic Research Commission, a member of the Inuit Circumpolar Council, and currently serves as a Special Advisor on Native Affairs with the U.S. Marine Mammal Commission. She works and communicates easily with scientists, researchers, political appointees, tribal leaders, and EWC members to ensure ocean resources are available for generations to come. Leading the EWC, Vera represents Alaska’s coastal walrus hunting communities in the co-management of the Pacific walrus and ensures that scientific and Indigenous Knowledge research is conducted responsibly and utilized effectively in management decisions regarding the Pacific walrus population.   Dr. Sue Moore, Ph.D., will receive the Marine Research Award. This award is sponsored by Drs. Clarence Pautzke and Maureen McCrea. This honor is given to a scientist, team of scientists, or an institution that is acknowledged by peers to have made an original breakthrough contribution to any field of scientific knowledge about Alaska’s oceans. Dr. Sue Moore has studied Arctic marine mammals and their ecosystems since 1981, with a focus on the northern Bering, Chukchi, and Beaufort seas. Dr. Moore served as the Cetacean Program Leader and Director of NOAA’s Alaska Fisheries Science Center’s Marine Mammal Laboratory, and as a Research Scientist and Senior Scientist at NOAA’s Office of Science and Technology. She has authored or co-authored more than 130 peer-reviewed articles and has consistently emphasized, promoted, and used long-term studies as the basis for her many scientific contributions. She is recognized for her expertise and contributions to science related to how the Arctic ecosystem functions and to the stewardship of upper trophic-level species. In 2020, she received the International Arctic Science Committee Medal in recognition of her outstanding achievement in understanding marine mammals as ecosystem sentinels and how climate change is influencing the phenology of Arctic species. In addition to her extensive science contributions, Dr. Moore has served on many boards and commissions, including the International Whaling Commission’s Scientific Committee and numerous advisory and steering committees for the National Science Foundation. Earlier this month, she was appointed by President Biden as one of three Commissioners on the U.S. Marine Mammal Commission.   Catherine Walker will receive the Marine Science Outreach Award. This award is given to a person, team, or organization that has made an outstanding contribution to ocean literacy via formal or informal education, media, or other communications. It is sponsored by the Alaska Ocean Observing System. Catherine Walker is a National Board Certified science teacher at Dimond High in Anchorage, teaching marine biology/oceanography, essentials of engineering, and drone aviation. Seeking to enrich the experiences of her students and empower the next generation of ocean stewards, Catherine is involved in the school’s Ocean Club, Green Effects Club, field trips to Kasitsna Bay and Prince William Sound, the National Ocean Science Bowl, has helped Dimond High become a NOAA Ocean Guardian School, and is a member of the NOAA Pacific Educators Network. Catherine has served as an adjunct professor through Prince William Sound College and is continually working to innovate and collaborate with other teachers and community members to better serve her student’s understanding of our oceans and the need for conservation of Alaska’s unique and vital ecosystems. Through her work, Catherine has increased ocean literacy for thousands of youth and adults. A winner of the Presidential Award for Excellence in Mathematics and Science Teaching as well as a National Geographic Certified Educator, Catherine is described as a tireless advocate for education and for the improvement of Alaska’s marine ecosystems.   Patrick Simpson, Alaska Plastic Recovery, LLC will receive the Stewardship and Sustainability Award. This award is sponsored by Jason Brune and honors an industry leader that demonstrates the highest commitment to sustainability of ocean resources. Patrick Simpson of Alaska Plastic Recovery, LLC is working to create innovative solutions to assess, collect, and utilize plastic ocean waste found on Alaskan beaches. An engineer and entrepreneur based in Anchorage, Simpson is working to develop technologies specifically for Alaska. One of these technologies includes creating plastic-based lumber from marine debris with a mobile plastic ocean waste recycler that is designed within a shipping container to be used even in remote communities. Simpson and Alaska Plastic Recovery LLC are also in development to include heavy-lift drones to remove bags of marine debris on beaches and marine learning algorithms that can be used to assess the debris. Simpson engages high school students to demonstrate these technologies. Taking the major worldwide problem of plastic marine debris pollution and turning it into an opportunity, Simpson’s exciting and inventive efforts will result in cleaner beaches and oceans and reduce microplastics in our marine ecosystems.   Mia Siebenmorgen Cresswell will receive the Ocean Youth Award. The Ocean Youth Award is awarded to an individual or team of Alaskan youth up to 19 years old who has displayed a dedication to promoting the understanding and stewardship of Alaska’s oceans. Mia Siebenmorgen Cresswell served as an intern for the Prince William Sound Regional Citizen’s Advisory Council’s marine invasive species monitoring program. Monitoring the nearshore coastal ecosystem in her hometown of Cordova, Mia set traps to monitor for European green crab and monitored settlement plates in the local harbor for benthic invasive species as part of the Smithsonian Environmental Research Center’s Plate Watch program. She has engaged in outreach by presenting her monitoring work at events including the Wrangell Institute for Science and Environment’s Science Lecture Series and the Prince William Sound Natural History Symposium. Mia also interned at the Prince William Sound Science Center and the Copper River Watershed Project, where she took on various multimedia and art projects, created small grant proposals, and served as a youth leader for a summer stewardship program. She has brought greater awareness to the issue of marine invasive species in Alaska and stewards the importance of marine science in Southcentral Alaska and beyond.  

The Alaska SeaLife Center (ASLC) has admitted three more harbor seal pups to the Wildlife Response Program in the past seven days, marking a busy start to the 2025 season. One of the pups was born prematurely, one was found severely malnourished, and another was rescued after it was found alone, likely due to maternal separation. These cases follow the recent admissions of another premature harbor seal pup and an orphaned northern sea otter pup, all requiring intensive rehabilitation and veterinary care.  On May 26, 2025, a premature male pup was found alone on a beach near Petersburg, Alaska. The next day, it was still there alone, prompting National Oceanic and Atmospheric Administration (NOAA) staff in the area to call the ASLC hotline. After receiving authorization, the pup was recovered and quickly prepared for a flight leaving Petersburg, Alaska that morning.  The seal was transported to the Alaska SeaLife Center, where he remains in critical condition as veterinary teams work to stabilize his fragile health. Similar to challenges a premature human baby may face, the pup’s yellow-tinted gums and bloodwork indicated that his liver isn’t functioning as it should, and his condition remains critical as he fights each day to survive. Just four days later, on May 31, 2025, and from over 700 miles away, a female harbor seal pup was found very emaciated on a beach in Homer, Alaska. She was very skinny, dehydrated, and had a fresh umbilicus, which indicates she was newly born. Once recovery was authorized by NOAA, ASLC Homer volunteers were able to recover and start her transportation to the ASLC for critical veterinary care. This pup’s bloodwork also pointed to liver dysfunction, but the primary concern for the animal care team is her severely malnourished and dehydrated state. She also remains in critical condition. As staff continued providing intensive care for the three harbor seal pups already admitted, they braced for another admit on June 3, 2025. A female harbor seal pup was spotted alone in an unusual location in Anchorage, Alaska. ASLC staff observed the pup for several hours and a tidal cycle through reports provided by the public via the ASLC marine mammal stranding hotline. When no mother returned and the pup remained vulnerable in a heavily trafficked area, NOAA authorized rapid intervention, and the pup was transferred to the ASLC for treatment and rehabilitation.  How can you help harbor seals like these three pups? One of the most significant threats to harbor seal pups during pupping season is human disturbance. If a pup is approached by a human or dog, the mother may abandon it. Once abandoned, a pup’s chances of survival drop dramatically, especially during the critical window when the pup relies entirely on her milk for nutrition, immune support, and survival.  It is essential to give seals space and share coastal areas responsibly. Do not approach, touch, or attempt to move a seal pup. Keep children and pets at a safe distance from haul-out sites and known pupping areas. Approaching or disturbing a marine mammal can cause serious harm to the animal, put people at risk, and may result in violations of the Marine Mammal Protection Act. Responsible viewing ensures that these young animals have the best chance to grow and survive in the wild. If you do see a seal pup in distress, the Alaska SeaLife Center remains ready to respond to reports of stranded and injured marine mammals statewide. Call the 24-hour Stranded Marine Animal Hotline at 1-888-774-SEAL (7325). We encourage all Alaskans and visitors to save this number in their phone contacts—and remember, always call first before approaching any stranded or injured wildlife.           The Alaska SeaLife Center’s Wildlife Response Program can only provide care for stranded and injured marine animals with help from corporate sponsors and individual donors. People are encouraged to contribute to the care of rehabilitating marine animals here: www.alaskasealife.org/donate.   The Center acknowledges the ongoing generous support of the Wildlife Response Program from supporters like ConocoPhillips Alaska, Marathon Petroleum Corporation, PetZoo, Partners 4 Wildlife, Matson, GCI,  and a number of individual donors, funds, and foundations such as Stanley J Williams Fund, Mesara Family Foundation, and the NC Giving Fund.    

A statewide rescue effort led by the Alaska SeaLife Center’s Wildlife Response Program brings in five more harbor seal pups from across Alaska The Alaska SeaLife Center (ASLC) has admitted five more harbor seal pups to the Wildlife Response Program in the span of twelve days from across the state of Alaska. Of the new patients, two pups remain in poor health, two are in critical condition, and one sadly succumbed to an infection despite intensive care efforts. These cases follow the recent admissions of an orphaned northern sea otter pup and four previously admitted harbor seal patients, all of whom required intensive rehabilitation and veterinary care.    On June 6, a female harbor seal pup was found alone on a beach near Nikiski, Alaska. Photos sent to the ASLC Wildlife Stranding Hotline confirmed that the pup was malnourished and dehydrated, likely from maternal separation. After receiving National Oceanic and Atmospheric Administration (NOAA) approval, the female pup was transported by ASLC volunteers in Kenai all the way to Seward for care. Now identified as patient PV2507, the pup is under the care of ASLC’s veterinary and wildlife response teams. While she remains in a guarded state, she has been stable for the past few days and continues to show slow signs of improvement. On June 10, a male harbor seal pup was admitted from the remote community of Pilot Point, Alaska.  Following a two-flight journey to Anchorage, the pup arrived in increasingly fragile condition. In a critical window where every minute mattered, the owner of Kenai Aviation graciously volunteered to fly the pup directly to Seward on a third and final flight, ensuring he could receive immediate veterinary care. Bloodwork confirmed the pup was battling a severe internal infection, and when his fever spiked above 105 degrees Fahrenheit the morning after his admit, the ASLC veterinary and wildlife response teams moved into critical care mode. Despite hours of intensive treatment, the pup unfortunately succumbed to his condition. The Alaska SeaLife Center extends its sincere gratitude to the Kenai Aviation pilot whose rapid response gave this vulnerable pup the best possible chance. Their support was vital in delivering urgent care when it mattered most, and it didn’t stop there.  The very next morning, on June 11, the Kenai Aviation team once again stepped in to help, transporting another harbor seal pup from Anchorage to Seward. This patient had traveled all the way from Sitka, Alaska, highlighting the statewide reach and rapid coordination of the ASLC Wildlife Response Program. Now identified as PV2509, the female harbor seal pup was found extremely malnourished and dehydrated. She remains in critical condition under close observation and intensive care.  The stream of patients being admitted wasn’t over yet. While the team worked to stabilize patient PV2509, the ASLC was monitoring a pup in a popular fishing area in Homer. At the beginning, an adult seal was observed briefly returning to the pup, but as the pup remained in a high-traffic area, more interactions between the pup and people were documented. Her condition deteriorated, and concerns grew. With no further sign of the mother and the pup’s health declining, authorization was granted. She was transported to the ASLC late on the night of June 12. She is now known as patient PV2511.  A few days later, on June 17, a seal pup near Egegik was reported alone. Photos sent showed a pup in lanugo with an umbilicus, indicating this was a premature seal. The next day, he was still in the area and there had been reports of people interacting with him.  Due to his condition and location, this animal was also authorized for recovery and rehabilitation. Thanks to the generous help of Coastal Air LLC, he was flown to King Salmon on short notice so he could make his flight to Anchorage. Harbor seal PV2512 is currently under critical care due to his delicate condition. Unfortunately, these most recent patient admits highlight the serious impacts human presence can have on harbor seal pups during pupping season. One of the most significant threats to these pups is disturbance from people and pets. If a mother seal is interrupted or feels unsafe, especially in high-traffic areas, she may abandon her pup. Once abandoned, a pup’s chances of survival drop sharply, particularly during the early days when it relies entirely on its mother’s milk for nutrition, immune support, and growth. It is critical to give seals space and share coastal areas responsibly. Never approach, touch, or attempt to move a seal pup. Keep children and pets well away from haul-out sites and known pupping areas. Approaching or disturbing a marine mammal can cause lasting harm, pose safety risks to people, and may violate the Marine Mammal Protection Act. Responsible viewing helps ensure that young animals have the best possible chance to grow and survive in the wild. If you do see a seal pup in distress, the Alaska SeaLife Center remains ready to respond to reports of stranded and injured marine mammals statewide. Call the 24-hour Stranded Marine Animal Hotline at 1-888-774-SEAL (7325). We encourage all Alaskans and visitors to save this number in their phone contacts—and remember, always call first before approaching any stranded or injured wildlife.             The Alaska SeaLife Center’s Wildlife Response Program can only provide care for stranded and injured marine animals with help from corporate sponsors and individual donors. People are encouraged to contribute to the care of rehabilitating marine animals here: www.alaskasealife.org/donate.   The Center acknowledges the ongoing generous support of the Wildlife Response Program from supporters like ConocoPhillips Alaska, Marathon Petroleum Corporation, PetZoo, Partners 4 Wildlife, Matson, GCI, and a number of individual donors, funds, and foundations such as Stanley J Williams Fund, Mesara Family Foundation, M.E. Webber Foundation, and the NC Giving Fund.        

Nocturne & Day Programs   Nocturne Programs Enjoy an overnight adventure at the Alaska SeaLife Center! Students will spend the evening honing observation skills and participating in hands-on marine science programs. At night they'll fall asleep with the seabirds, sea lions, and seals. Each Nocturne Sleepover includes dinner, a light breakfast, plenty of time to explore the Alaska SeaLife Center, and two education programs. Nocturnes start at 5pm and last until 9am the next morning. Minimum 16 paying participants; two free adults per Nocturne. Maximum of 65 students and 15 adults. Program cost includes admission, education programs, dinner and breakfast. Nocturnes are available year-round and must be booked at least 30 days in advance. Day Programs Spend a day in our underwater world! Our staff will greet your group with an orientation and start the students on a self-guided tour of the Alaska SeaLife Center. After an hour of exploring the aquarium, your group will come together for one of our fun education programs. See below for a list of our exciting program choices! Minimum 12 paying participants; two free adults per reservation. Program cost includes admission to the Alaska SeaLife Center. Day Programs are available year-round and must be booked at least 30 days in advance. Registration To register for a Nocturne Program, please Download the Nocturne registration form. To register for a Day Program, please Download the Day Program registration form. The forms can be emailed (preferable) or faxed, and we will confirm reservations in the order we receive them. Additional Information Click here for more information on how to prepare your students for their visit.  If you have any questions about our programs, please e-mail us at education@alaskasealife.org or call (907) 224-6306. Program Choices for Nocturne & Day Programs Program Name Grade Levels Program Description Seashore Survivors K-2 Become an intertidal creature and learn what it takes to live in this challenging habitat. Students review these amazing creatures’ adaptations thru a multimedia presentation, hands-on sticker activity, and fun role-playing dress up! Beaks, Bubbles, & Burrows K-4 Discover the many unique adaptations that allow Alaska's beautiful diving seabirds to master both sea and sky. Students review these adaptations by building their very own tufted puffin with clay. Marine Mammal Adaptations K-5 How are marine mammals able to live in Alaska's cold waters? Understand these animals better with our hands-on activities! Students review the adaptations of these amazing mammals by building their own clay harbor seal. Ocean Animal Perceptions 1-5 How do marine animals sense the world around them? How can you ‘smell’ underwater? How can you ‘see’ without using your eyes? Students will discover these other ways of knowing by participating in ‘senses-on’  activities that illustrate these amazing adaptations. There & Back Again: A Fish's Tale 3-6 It's a dangerous business, fry, going out your door...  Live the life of a salmon!  In this role-play adventure, students experience the life cycle of salmon first-hand, from hatching to the bitter end. Bioluminescence 3-8 What mysterious animals inhabit the ocean's depths? Investigate the bizarre adaptations of light-producers in the midnight zone and create actual bioluminescence! Cephalopods: The Jet Set 4-12 Get your hands into a "head-footed" animal as we learn more about cephalopods through a squid dissection and discussion! Watching Walrus 5-8 Get on the front lines of Global Climate Change as we learn how habitat changes are affecting Alaska’s walrus population today. Students will employ the scientific method to develop their own research strategies then follow Alaska SeaLife Center researchers to find out what method really works in the field to watch walrus. Hands- & feet-on activities get students up and moving and working in groups! Scientists in Action: Veterinarian 6-12 How do vets care for stranded or injured marine animals? Get an insider's view of the Alaska SeaLife Center's Wildlife Response and Rehabilitation program. Students will work in groups to ‘care for’ patients in this inter-disciplinary, hands-on program. The Scoop on Poop 6-12 Why are the Steller sea lions disappearing? Analyze the scat of these endangered animals to search for clues regarding their dramatic decline. Students will employ the scientific method to develop their own research strategies.  

The Alaska SeaLife Center (ASLC) and multiple partners responded to a male ringed seal that was found out of his habitat on an oilfield in Alaska’s Beaufort Sea on Dec. 17, 2025. This is the Center’s first ringed seal response in over four years and one of only 30 ringed seals admitted in the Center’s more than 25-year history, making the case exceptional for the ASLC Wildlife Response Program.  The seal, part of the Arctic subspecies listed as threatened under the Endangered Species Act, was first observed by oilfield operators. Staff contacted NOAA Fisheries, the federal agency that manages the Marine Mammal Health and Stranding Response Program, for guidance. With coordination from NOAA Fisheries, the ASLC, the local operators, and Alaska Clean Seas, the young ringed seal was brought back to the ice, but repeatedly returned to the oilfield.  The ice extending along the coast of Alaska’s Beaufort Sea is a remote Arctic region where winter sea ice extends miles from shore and is often stacked by high winds, making it unlikely that humans could safely escort the seal to open water. Crews at the oilfield used an auger to drill breathing holes in the ice to encourage the seal to access the sea. Although the seal placed his head in the open holes, he did not swim away. When the seal was found moving into areas with heavy machinery, and taking into account the seasonal low light conditions, he was placed into a crate to prevent accidental injury from vehicles. With continued risk to the animal, NOAA Fisheries authorized transport to the ASLC for rehabilitation (MMPA/ESA Permit #24359).  Any response involving ice seals in Alaska requires careful consideration of regulatory policy and respect for the Indigenous communities that rely on these animals for subsistence. In rehabilitation situations involving Alaska’s four ice seal species (ringed, spotted, bearded, and ribbon), the ASLC follows a precautionary non-release policy developed by NOAA Fisheries, an Alaska Native organization, and the Ice Seal Committee: ice seals transported outside of their natural range for treatment and care are not eligible for release. This policy eliminates the risk of disease transmission between marine ecosystems from these individuals, particularly for animals originating from remote and culturally significant regions. In this case, the collaborative decision to admit this ringed seal was not made lightly, as it shapes this seal’s future.  “This response reflects the complexity of wildlife response in Alaska,” said Jane Belovarac, ASLC Wildlife Response Curator. “Our priority with live animals is always to rehabilitate, release, and see animals thrive in the wild. When relocation efforts in situations like this are unsuccessful, and the animal remaining in place is not safe, we are prepared to provide the specialized care needed to ensure their well-being.” ?Currently, only the ASLC and two other facilities in the United States care for ringed seals. As one of the very few ringed seals in human care and a member of the Arctic subspecies listed as threatened under the Endangered Species Act, this seal will serve as an important ambassador for his species and teach us more about the challenges that his species faces as Arctic conditions continue to change.  The ASLC remains committed to working alongside federal agencies, Indigenous partners, and industry collaborators to protect the health of ice seal populations and the ecosystems they depend on. This response reflects the complexity of conservation work in Alaska’s rapidly changing Arctic and the importance of thoughtful, collaborative decision-making when human activity and wildlife intersect. We thank the partners and crews involved in the response, including Alaska Clean Seas, the Ice Seal Committee, members of the Marine Mammal Health and Stranding Response Program, and NOAA Fisheries.    The Center acknowledges the ongoing generous support of the Wildlife Response Program from supporters like ConocoPhillips Alaska, Marathon Petroleum Corporation, PetZoo, Partners 4 Wildlife, Matson, GCI,  and a number of individual donors, funds, and foundations such as Stanley J Williams Fund, Mesara Family Foundation, The Theresa Bannister Fund, and the NC Giving Fund.   Call first! Before approaching an injured or stranded marine animal in Alaska, call the  24-hour Stranded Marine Animal Hotline at 1-888-774-SEAL(7325).