Nat Geo WILD’s new series, “Alaska Animal Rescue,” is airing on Saturdays at 5 p.m. Alaska time. This new show highlights three renowned animal conservation centers, the Alaska SeaLife Center, the Alaska Wildlife Conservation Center, and the Alaska Raptor Center.   The series will give viewers a unique behind the scenes look at wildlife response in action as animal care teams experience both the rewards and challenges of rescuing wildlife in various regions of Alaska. From Nat Geo WILD: “Whether caring for a stranded sea lion, an orphaned lynx or an injured eagle, these are the people on the front lines, willing to do whatever it takes to rescue and preserve Alaska’s wildlife.”   Learn more about the organizations and the show and how you can support them on our wesbite here. 

Join us every Thursday, October 31, 2019–Feb. 27, 2020* from 11:00 am – 12:00 am. Did you know that newly hatched fish are called fry? Bring your little fry to the Alaska SeaLife Center for a free parents and preschooler adventure! Weekly activities will include crafts, stories, hands-on science-based activities games, etc. Themes will change weekly and will be specially designed for children ages 3-5 years old.  Learn more here, or call 907-224-6306 for more information.  *dates subject to change. Closed Thanksgiving & Christmas Day Sponsored by Marjor Marine Tours, Vergeben Services, and Seward Community Foundation.

Join us for the Seward Seabird Festival! Activities will take place all around Seward June 10, 11, and 12, 2022. All weekend long, visit Seward for events celebrating the migration of Alaska's seabirds through education, science, and art!  Visit www.alaskasealife.org/sewardseabirdfestival for updates on the event!    

Dive into Alaska’s marine ecosystems, discover marine animals, and build a connection to nature. Each day kids will engage in hands-on games and activities, explore the amazing views and wildlife within Resurrection Bay, have a snack, and tour the Alaska SeaLife Center. This a unique opportunity to learn about the wonders of Alaska in a socially interactive environment.  Each day has a theme ranging from animal metamorphosis, tide pool animals, whales, octopuses, otters, seals, Steller sea lions, puffins, and other seabirds.       Ages 8- 14 2 Camps Daily: Morning Session 8:00 am-12:00 pm Afternoon Session 1:00 pm-5:00 pm   CLICK HERE for more information

It’s Plastic Free July! Join the effort to reduce your single-use plastic and help keep plastic out of Resurrection Bay by joining fellow community members and the ASLC Staff for three beach cleanups in the month of July. ASLC staff will have educational resources so you can learn how to reduce your own plastic consumption, prizes, and more at the community beach cleanups!   Saturday, July 31, 2024; 12 - 2 p.m. Meet at the tent near the Seward culvert (Scheffler Creek Bridge) No sign-up is required for participation. Guests under 18 must come with an adult or legal guardian. Gloves, trash bags, and hand sanitizing stations will be provided!

Small Fry School is a FREE educational program at the Alaska SeaLife Center, specially designed for preschool-aged children! Each week, you and your preschooler(s) can enjoy a variety of age-appropriate, interactive activities together! From crafts and exploration to storytelling and more, every session is thoughtfully designed to be both educational and fun.  Join our Small Fry School Facebook Group to access Pre-K activities from our education team and connect with other families! Stay updated with weekly schedules, curriculum, games, and more. For additional information email: smallfry@alaskasealife.org or call: 907-224-6306 *Participants must be accompanied by a parent or guardian.  

A limited number of tickets will be available at the door. Doors open at 6:15 pm, you must have photo ID for this 21+ event. Online ticket sales have closed.  Learn more about the event: click here On November 8, 2025, explore the Alaska SeaLife Center after hours at Beers by the Bay. Sample beer, wine, cider, mead, and kombucha from Alaskan brewers, enjoy a generous appetizer buffet, and take part in fundraising games woven throughout the evening – a relaxed fall night of sipping and strolling in support of our work! Proceeds help us continue our mission work supporting marine life throughout Alaska.

Alaskan bird enthusiasts flock to Seward this month for the annual Seward Seabird Festival! Join community partners to celebrate the rich seabird diversity of the Kenai fjords through family-friendly activities, local art, sightseeing opportunities, and chances to network with seabird researchers and professionals. From the budding birder to the seasoned seabird expert, this city-wide event has something for everyone!   Click Here to View & Download 2025 Schedule of Events           Join us for the Seward Seabird Festival Presentations on May 31, 2025 from 11 AM - 1 PM, featuring keynote speaker Dr. John F. Piatt, Ph.D., Director, World Puffin Congress. Presentations will be held at the Kenai Fjords National Park Visitor Center, 1212 4th Ave, Seward, AK. All are welcome at this free event, and no registration is required.     Register for this year's Paint-a-Puffin Artist Workshop with Ashley Seabolt Originals! Friday, May 30 from 6-8 PM at the Alaska SeaLife Center. Open to ages 10+, children under 16 must be with an adult. There is a $15 registration fee, and space is limited! Registration: https://bit.ly/4kG1fkA   Major Marine Tours will be hosting a special discounted cruise for festival attendees on Sunday, June 1st. Explore the best seabird viewing areas in Resurrection Bay, Northwestern Fjord, and Kenai Fjords National Park on the 8.5 hour small vessel cruise. Learn more and book a spot: https://majormarine.com/seward-seabird-festival/  

  Tickets on sale now! Alaska SeaLife Center Soirée   The Alaska SeaLife Center’s annual Anchorage fundraising event returns to the Anchorage Museum to benefit marine research, education, and conservation. Guests will savor a bountiful selection of chef-inspired hors d’oeuvres, connect with others who share a deep passion for Alaska’s oceans, and enjoy the excitement of silent and live auctions featuring unique Alaskan experiences and treasures. Complimentary wine provided by Michael David Winery.   If you are interested in becoming a sponsor for this event, please email development@alaskasealife.org. Purchase tickets NOW!

  Enjoy delicious soup served by Seward students in handcrafted ceramic bowls glazed by students and local artists.Take home a one-of-a-kind bowl and help send every 5th grader to KMTA Outdoor School Sleepover. A Zero-Waste Event honoring sustainability and our local marine habitats (Recommended donation for purchase of bowl with soup - $25 Recommended donation of soup with your own container - $5-15).   Join us for a special community watch party at the Alaska SeaLife Center as we livestream Cruisin’ Deep Time with Ray Troll & Kirk Johnson: The Travels of a Scientist and an Artist in search of Paleo America from Anchorage's Alaska Center for the Performing Arts – part of the University of Alaska Anchorage’s CAS Community Lecture Series. The stream will take place in the Bear Mountain Conference Room and will be displayed on a large screen for group viewing.  *Seating is limited for the Livestream portion of this event. Click here to register and secure your spot.    

          WELCOME, TEACHERS! The Alaska SeaLife Center and COSEE-Alaska are excited to present "Southern Exposure", a virtual field trip (VFT) to one of the most remote regions on Earth. Join Dr. Jo-Ann Mellish and her team as they travel to Antarctica's McMurdo Sound to investigate how changing sea ice conditions may impact ice-dependent polar seals, like Antarctica's Weddell seals. GRADE LEVEL: 5th-8th TIME NEEDED: Between one and four 1-hour class periods (teachers may choose to use all or part of the supplementary lessons) NUTSHELL: Students will learn about animal physiology while exploring how changing sea ice conditions may affect ice-dependent Weddell seals. LEARNING OBJECTIVES: After completing this virtual field trip, students will be able to: - Highlight two ways that habitat conditions in the Arctic and the Antarctic are different - Define the term energy budget and explain how living things earn (gain) and use energy to meet the requirements of life - Describe the relationship between the depth of a seal's blubber and the animal's mass BACKGROUND: VIDEO: RESEARCH PROJECT PROMO Use this short research promo video to get your class excited about Southern Exposure. (0:56) In this virtual field trip, students will meet Drs. Jo-Ann Mellish, Markus Horning, and Allyson Hindle - a team of animal physiologists collaborating on a project about Antarctica's Weddell seals. Your students will follow Dr. Mellish's research team into the field as they work to answer the questions "What is the 'cost of living' for a polar seal?" and "How will the lives of these seals be impacted as their habitats continue to change?" This VFT can be used in a number of ways. Individuals may navigate through the pages on their own. 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. For a thorough introduction to Weddell seals, we recommend that teachers check out the PolarTrec webinar The Life Science of Weddell Seals with Dr. Jennifer Burns of the University of Alaska Anchorage. Though not affiliated with this project, Dr. Burns' presentation gives teachers a nice overview of current behavioral and physiological research on Weddell seals in Antarctica (40 minutes). TO USE THIS VIRTUAL FIELD TRIP YOU WILL NEED: - Internet access, video-streaming capabilities - Access to Southern Exposure - 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: Weddell seal specific Resources : Weddell Seal Science Project, YouTube Channel ARKive Weddell Seal Species Profile General information about Sea Ice: National Snow and Ice Data Center: Sea Ice Introduction National Snow and Ice Data Center: Arctic Vs. Antarctic NASA Earth Observatory: Sea Ice 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 Distance Learning programs, visit our website at www.alaskasealife.org.       LESSON PLANS Use the .pdf links below to access classroom activities for each section of the virtual field trip. Lesson Plan One.pdf Lesson Plan Two.pdf Lesson Plan Three.pdf Glossary.pdf Guide to Standards Addressed All research was conducted under National Marine Fisheries Service Marine Mammal Protection Act authorization 15748 and Antarctic Conservation Act permit 2012-003.           

          WELCOME, TEACHERS! The Alaska SeaLife Center and Gulf Watch Alaska are excited to present this virtual field trip (VFT). Join the Gulf Watch Alaska team of scientists as they investigate the long term effects of the Exxon Valdez oil spill on the ecosystems of the Gulf of Alaska. Learn about the work of a collaborative team of scientists from many different ocean science disciplines, who represent over 15 different government agencies, non-profit research institutions, and universities. GRADE LEVEL: 6-8th TIME NEEDED: Between one and four 1-hour class periods (teachers may choose to use all or only some of the supplementary lessons). NUTSHELL: Students will learn about the long-term monitoring projects that have been studying the effects of the 1989 Exxon Valdez oil spill in Prince William Sound and the northern Gulf of Alaska. They will explore the various projects and how, collectively, they can inform us about the overall ecosystem. LEARNING OBJECTIVES: After completing this virtual field trip, students will be able to: • Explain how the long-term monitoring project called Gulf Watch Alaska was founded and what its overall goals are. • Understand the collaborative nature of science and how researchers from various disciplines working together can provide a ‘big picture’ view of a massive project. • Explain the various levels of a biome and how all components of an ecosystem depend upon each other for a healthy environment. BACKGROUND: In this virtual field trip, students will meet various scientists and researchers working for the Gulf Watch Alaska long-term ecosystem monitoring program, a project of the Exxon Valdez Oil Spill Trustee Council, encompassing the marine ecosystems affected by the 1989 oil spill. This program is organized into four related ecosystem monitoring components, with data management, modeling, and synthesis components providing overall integration across the program. This VFT can be used in a number of ways. Individuals may navigate through the pages on their own and meet the scientists through the links provided on the right-hand bar. Self-guided exploration can be completed in a couple of hours. Alternatively, teachers may facilitate a structured experience, working through each page of the VFT together in a class. Lesson plans (links included on the right-hand column of this page) are available to supplement online content. TO USE THIS VIRTUAL FIELD TRIP YOU WILL NEED: • Internet access, video-streaming capabilities • Projection system (with audio) to display content or a computer lab (with headphones) • Corresponding lesson plans (linked 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: • Gulf Watch Alaska • Alaska Ocean Observing System • Nearshore Ecosystem Projects • Ecological Trends in Kachemak Bay • Nearshore Benthic Systems in the Gulf of Alaska • National Park Service SWAN Nearshore Monitoring • Environmental Drivers Projects • Continuous Plankton Recorder • Gulf of Alaska Mooring (GAK1) Monitoring • Oceanographic Conditions in Lower Cook Inlet and Kachemak Bay • Oceanographic Conditions in Prince William Sound • The Seward Line: Marine Ecosystem Monitoring in the Northern Gulf of Alaska • Lingering Oil Projects • Weathering and Tracking • Harlequin ducks and sea otters • EVOS Status of Injured Resources and Services • Pelagic Ecosystem • Detection of Seabird Populations • Fall and Winter Seabird Abundance • Forage Fish • Humpback Whales • Killer Whales • Prince William Sound Marine Bird Population Trends   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 Gulf Watch Alaska virtual field trip experience. Lesson 1 Nearshore.pdf Lesson 2 Drivers.pdf Lesson 3 Lingering_Oil.pdf Lesson 4 Pelagic.pdf Gulf Watch Whale Fluke ID.pdf Who's that Whale? slideshow          

  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()         At the northern fringe of the Pacific Ocean, along the United States’ most remote boundary, lies the Bering Sea.  Covering an area more than three times the size of Texas (nearly 900,000 sq. mi.), and supporting some of the most valuable fisheries in the world, the Bering Sea’s remote waters have attracted explorers for thousands of years.  This cold maritime environment is home to a huge diversity of life. From migrating whales to clams, seabirds, seals and fish, organisms in the Bering Sea have evolved to make up one of the world’s most unique ecosystems.  The Bering Sea’s high northern latitude means nearly continuous daylight throughout the summer months.  In contrast, the winters are long and dark. Winter conditions are so harsh that the surface of the ocean, over much of the Bering Sea, freezes.  Organisms living in this region have had to adapt to these challenging, extreme, and changeable polar conditions. VIDEO: INTRODUCTION TO THE BERING SEA Discover why the Bering Sea is important to people in Alaska and around the world (1:50) Video Transcript Despite its remoteness, the coastline of the Bering Sea is home to many Alaskans. There are no roads connecting these remote communities to Alaska’s larger cities, so people living along the coast rely on the ocean to sustain their way of life. Subsistence hunting and fishing of marine animals has traditionally been an important source of food, material for clothing, fuel and culture for many people living in these villages. Successful harvest of these marine resources requires an understanding of the Bering Sea ecosystem including the ability to predict how weather and species distribution vary throughout the year. However, it isn’t only people who live beside the Bering Sea who are affected by it. Even if you’ve never heard of the Bering Sea, chances are it’s had an impact on your life. If you’ve ever eaten fish sticks or tried ‘artificial’ crab meat, you were probably eating Pollock. Pollock is a species of cod that live in the Bering Sea. These fish make up the largest single species fishery in the United States. On average two billion pounds of Pollock are harvested in Alaska every year (that’s equal to about 100 times the weight of the Eiffel Tower in Paris). The Pollock fishery in Alaska is worth about three hundred million dollars a year, making it an important part of our state and national economy. So whether you live beside Alaska’s coast, or thousands of miles from it, the Bering Sea is worth caring about. It’s home to unique animals and dynamic people. It provides American jobs and is a source of food, insight and inspiration. Recently, people living in coastal areas, companies exploring and building along the coast, and researchers with an eye on the Bering Sea have observed significant and measureable changes. Sea ice has been arriving later in the winter.  Animals are migrating farther north and the distribution of species is changing.  Some animal populations are growing quickly, while others seem to be in decline. These changes directly impact everyone who relies on the Bering Sea.  They make it harder for local communities to support their food and infrastructure needs, and harder for companies to plan on the expected ice or weather conditions two years down the road.   VIDEO: ARCTIC MELT IN ACTION This NOAA visualization illustrates how sea ice cover in the Arctic changes annually across the seasons. Compare 2012's record melt season to the historic (1979-2000) median. (0:34) Changes in the Bering Sea won’t just affect people and their activities; they may also impact the balance of the marine ecosystem. This has scientists concerned. They realize that before we can make predictions about what these changes may mean for this important marine ecosystem, we need to learn more about the area as it is now. Dr. Rolf Gradinger and his colleagues at the University of Alaska Fairbanks are one group of researchers working to better understand the Bering Sea. Observations they've made have sparked scientific questions and inspired futher research about the Bering Sea food web.  VIDEO: INTRODUCTION TO THE RESEARCH PROJECT Dr. Rolf Gradinger explains why the team is interested in studying the Bering Sea ecosystem. (1:30) Video Transcript "My name is Rolf Gradinger. I'm a faculty member at the School of Fisheries and Oceans Sciences (at UAF). I have a research interest in Arctic Ecology and I've been doing this now for quite a while. "Since 2008 I worked in the Bering Sea in spring. The Bering Sea is very unique, it's a unique ocean because it's part of the Arctic system. The Bering Ecosystem is very rich in a lot of marine resources, there are lots of fish living in the Bering Sea like Pollock, and most of the US fisheries are actually happening in the Bering Sea. In addition to that you will find lots of marine mammals and seabirds in the Bering Sea. And a lot of people living in that region, like native populations on Saint Lawrence Island or on the Alaskan coastline rely on marine resources. "Now the big question is, which you might have heard, that ice conditions in the Arctic are changing. Summer sea ice is disappearing, ice melts happen much sooner, so there is a tremendous change in the Arctic. "The question is, what does it all mean to the ecosystem if ice conditions change? For really addressing that question you need to know what lives with the ice. You know about the Polar bears and the seals living on the ice, but there's actually little critters that live within the ice, and they grow within the ice, and they only exist within the ice. Our part was to learn as much as possible about the spring biology, in association with ice in the Bering Sea." Dr. Rolf Gradinger and his team know that among the many species of plant and animal life living with the sea ice are marine plants called algae. The team wants to better understand the role that this sea ice algae plays in the entire Bering Sea food web during the spring. Dr. Gradinger knows that to accurately hypothesize the importance of this algae bloom, the researchers will need to study the science of sea ice as well as discover what types of living things make their homes throughout the sea ice ecosystem.        WHO IS STUDYING SEA ICE?   FISHERY (n)- an area where fish are caught   MIGRATE (v)- to move seasonally from one area to another   ORGANISM (n)- an individual life form   ECOSYSTEM (n)- a community of interacting living organisms and their physical environment   LATITUDE (n)- a measure of the distance north or south of the equator, expressed in degrees   SUBSISTENCE (n)- a style of living where a person relies on the local environment for survival   DISTRIBUTION (n)- the way something is spread over an area   ALGAE (n)- any aquatic plant or plant-like organism (seaweed)    

  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()         WELCOME TEACHERS! The Alaska SeaLife Center and COSEE-Alaska are excited to present the second in a series of virtual field trips. Meltdown is a virtual field trip (VFT) designed to immerse students in the important field of polar research as they learn about how a changing climate is impacting sea ice ecosystems in the Arctic. Educators and scientists from across Alaska have teamed up to bring you this new and innovative teaching tool. Meltdown takes students on an Arctic expedition where they'll connect with researchers studying the marine foodweb in the Bering Sea. Throughout this exploration, students will watch videos, examine images, and piece together foodwebs as they follow Dr. Rolf Gradinger and his team of real-life scientists out onto the ice. OVERVIEW FOR TEACHERS This VFT can be used in a number of ways. Teachers may facilitate a structured experience using the curriculum supplements included on this page. Alternatively, individuals may choose to navigate through the pages on their own, learning about sea ice ecosystems and why changes in arctic climate have scientists concerned. Self-guided exploration can be completed in about an hour.  GRADE LEVEL: 5th-8th TIME NEEDED:  One to eight 1-hour class periods (teachers may choose to use all or some of the supplementary lessons- see teachers guide for details). NUTSHELL: Students will learn about the role of sea ice in the Arctic ecosystem while studying the Bering Sea food web. LEARNING OBJECTIVES: After completing this virtual field trip, students will be able to: - Illustrate how changes in the population of one species may affect population dynamics throughout a food web. - Differentiate between the physical properties of sea ice and freshwater ice and justify the reason for these differences. - Describe the conditions necessary for sea ice algae to grow and explain the role of sea ice algae to the Bering Sea in spring. BACKGROUND: At the Northern fringe of the Pacific Ocean, along the United States’ most remote boundary, lies the Bering Sea. Covering an area more than three times the size of Texas (nearly 900,000 sq. mi.), and supporting some of the most valuable fisheries in the world, the Bering Sea’s remote waters have attracted explorers for thousands of years. Now your students can join in the process of discovery as they accompany modern-day explorers onto the ice! In this virtual field trip, students will meet Dr. Rolf Gradinger, a Sea Ice Biologist conducting research in the Bering Sea. They will follow his research team into the field as they work to answer the question 'What does sea ice mean to the Bering Sea ecosystem?' and 'What would it mean if arctic sea ice were to disappear as a result of climate change?' Their quest for answers leads the researchers to look under the ice, where they'll investigate the role of sea ice algae (tiny marine plants that grow on the bottom surface of sea ice during the spring) in the spring Bering Sea foodweb. As your class navigates through this field trip they'll be introduced to the process of science: from initial questions, through development of hypotheses, data collection and, finally, data analysis. Watch as an unfamiliar world unfolds, revealing a complex spring foodweb all stemming from the sea ice algae. The research of Drs. Rolf Gradinger, Katrin Iken and Bodil Bluhm inspired this virtual field trip. Join us as we explore how climate change may impact one of the world's most productive marine ecosystems, the Bering Sea. We also recommend listening to Encounters Radio: Ice Algae, a recorded interview in which host Elizabeth Arnold interviews Rolf Gradinger about this research project. (10 minutes) TO USE THIS VIRTUAL FIELD TRIP YOU WILL NEED: - Internet access, video-streaming capabilities - Access to Meltdown the virtual field trip - Projection system (with audio) to display VFT content or a computer lab (with headphones) - Teacher's guide and corresponding curriculum supplements (arranged as PDFs in the right hand column of this page) UNABLE TO RUN THE STREAMING VERSION? REQUEST A COPY OF ALL MATERIALS ON CD BY EMAIL: education@alaskasealife.org SPECIAL NOTES FOR TEACHERS: Guide to State & National Standards addressed in this field trip (Click to download .pdf) Using Curriculum Supplements We encourage teachers to read through all Curriculum Supplements before beginning Meltdown with your students.  Some projects, like the invertebrate research project, will be completed over the course of several sections.  Videos and weblinks Many sections of Meltdown include embedded videos and weblinks.  All weblinks require internet access.  In the CD version of the virtual field trip, all videos will play without internet, unless noted.  In the online version of Meltdown, all videos will stream from YouTube.  Each video is less than 3 minutes long (exact durations can be found in the description below each video).  Video transcripts are available for each video and 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 standards 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: Resources for Invertebrate Research Project: OCEANUS: Arctic Ecosystem Interactive Arctic Ocean Diversity Project: Species Info ARKive: Marine Invertebrates Info General information about Sea Ice: National Snow and Ice Data Center NASA Earth Observatory: Sea Ice International Polar Year: Sea Ice Fact Sheet Resources highlighting Bering Sea & Arctic Ocean research and education: BEST-BSIERP-Bering Sea Project Bering Sea Project: Profile on Sea Ice Arctic Ocean Diversity Project 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. Teachers Guide.pdf Introduction_Activities.pdf Background_Activities.pdf Questions_Activities.pdf Plan_Activities.pdf Action_Activities.pdf Results_Activities.pdf Glossary.pdf        

  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()         All research starts with one or more questions. Dr. Tuula Hollmen and her team are tackling a broad question: What do Steller’s eiders need to breed successfully? The team isn't going to find the answer just by looking in a textbook. Steller’s eiders are unique. Little is known about their needs and they don’t follow the same breeding behaviors of other well-studied waterfowl like domestic ducks. So, why is Dr. Hollmen interested in this particular question when it comes to eiders? VIDEO: STELLER'S EIDERS RESEARCH QUESTIONS Dr. Tuula Hollmen discusses the factors that led to her research questions and how she plans to investigate those questions. (1:46) Video Transcript The eider is a long-lived species that has a high adult survival but very variable and potentially low annual productivity or reproductive success. And it works because the species lives a long time, so each individual can have a really long reproductive career, and they don’t have to be successful every year, because they have (in eider’s case) they potentially have at least 15 years to breed. Reproductive success is really one of the key questions for the recovery. If that continues to be low or doesn’t reach some certain threshold, recovery will either not happen or take a really long time. But if they can increase productivity then we might see recovery. I would like to ask the question: what does an eider need to breed successfully? We have a suite of sub questions: What makes an eider pairing successful? What kinds of nests are successful? How do you set the incubation conditions for successful hatching? So those are sub-questions. So when we set up to answer the question in our program here, we think about all these factors that the eiders are faced with in the wild and we transfer that to our own virtual reality that we are creating here. The habitat is not the natural habitat, but we are learning from the wild birds as to what are the key features of their habitat that they need to go through all the different steps of the reproductive cycle. So we would try to mimic the available nest sites, the privacy, the ponds, the water quality, all those kinds of things to the best we can and match them to the natural environment. Dr. Hollmen has to think about how to convert the complex, wild system that the eiders come from into a virtual habitat at the Alaska SeaLife Center so that her team can learn from the captive reservoir population. With little existing research, a small wild population in Barrow, sporadic nesting on the Y-K Delta, and hundreds of variables, how will the scientists figure out what a pair of Steller’s eider needs to breed successfully? Here’s the benefit of science: they can try out different materials and techniques (experimentation!) and use careful observation to figure out a strategy that works for the captive eiders. The research question cannot be answered in one year. Every breeding season tests if the scientists’ current arrangement helps the birds breed successfully. Scientific inquiry is a process, and the eider team knows it well as they continue to learn, question, and adapt. It's what they've been doing for over a decade!        CLICK BELOW TO LEARN ABOUT SEADUCK SCIENTISTS!   ADAPT (n) - to change behaviors or physical traits to survive in a specific environment.   BROOD (n) - the offspring of an animal, especially of a bird.   BROOD (v) - to sit on eggs to hatch them.   EXPERIMENT (v) - to do a scientific test in which you perform a series of actions and carefully observe their effects.   INQUIRY (n) - an act of asking or searching for information.   THRESHOLD (n) - a level, point, or value above which something is true or will take place.   VARIABLE (n) - an element, feature, or factor that can vary or change.   VIRTUAL (adj) - very close to being something without actually being it.    

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()         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          

  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() As Yosty mentioned, during the years of 2014 and 2015 scientists with Gulf Watch Alaska began to notice multiple strange occurrences happening in the Gulf, and they wondered how these could be connected. The area of water monitored by the team of scientists at Gulf Watch Alaska is crucial for the survival of animals in and surrounding the Gulf, as well as the populations of people situated on the coast. Using the power and capabilities of the Gulf Watch Alaska team, scientists have begun to piece together the mystery of these strange events. But before figuring out how these events are connected, the scientists needed to fully understand the scope of what was happening in 2014 and 2015. Starting in the winter of 2014, residents of communities surrounding the Gulf of Alaska were witness to a very concerning phenomenon happening to one of the area’s most familiar seabirds, the common murre. Striking numbers of common murres were washing up dead along the coast, and thousands were traveling unusually far inland and away from their feeding grounds in the Gulf of Alaska. It is considered normal for common murre populations to intermittently experience large-scale die-offs, known as wrecks, but the series of die-offs beginning in the winter of 2014 and extending through 2016 were unparalleled in the historic record, both in terms of geographic area and length of time. As the initial reports of these unusual common murre deaths and migratory patterns began making their way to the scientists of Gulf Watch Alaska, there was a lot of speculation about what could be causing this event. Travel with Yosty to meet Gulf Watch Alaska Scientist Kathy Kuletz to hear her account of the common murre die-off event and how her research seeks to understand what was causing the die-off. Click the video below to hear Kathy’s experience with the common murres. VIDEO: Kathy Kuletz and the Common Murres Kathy Kuletz talks about common murre die-offs and their potential causes, and some of the challenges scientists face when trying to study these events. (3:45) Video Transcript Narrator:The first person Yosty sat down with was Kathy Kuletz, a scientist who studies birds for Gulf Watch. Yosty: Hi Kathy, you’ve been a wildlife biologist with U.S. Fish and Wildlife service since 1978? Kathy: Yes. Yosty: Can you tell me about what went on in 2014-2015 that was so unusual in the Gulf of Alaska? Kathy: Everyone knows, it’s been really warm, that was the main thing. And associated with that we started having reproductive failure by seabirds and large die-off events - mainly with common murres but some other species were involved as well. But the main event, which has been really noteworthy, has been the die-off of common murres. It has been unprecedented in its geographic scope, extending from southeast Alaska all the way up into the Aleutian Islands and Bering Sea but mainly in the Gulf, the northern Gulf of Alaska. And it’s been unprecedented in the length of time that this has continued, we started having hints of it in 2014, it really hit heavy in the winter of 2015 and 2016 and just continued in episodes, die-offs happening throughout 2016. Yosty: So what do you think is killing the birds? Kathy: When we find them, we have looked at some carcasses on the beach and taken some back to the labs. USGS has been working with us and many other groups - COASST and Fish & Game - and they have, the birds have been empty, their stomachs have been empty and they have lost muscle mass, they have all the evidence of sort of consuming from the inside because they are starved. I know there is a lot of concern about domoic acid and saxatoxin, which is found with paralytic shellfish poisoning, and that certainly could be there, but so far we’ve only found some of the birds have trace amounts of saxatoxin. So the problem with determining if that has played a part is that they don’t keep food in their gut for very long, and because they are empty we haven’t been able to test the food that they have eaten. We do know that those kinds of toxins can change behavior of seabirds, and so it might have affected their ability to forage and find food, but it is also just as likely that there is not enough food or the food is of low quality in the areas where they normally feed. Now when it is really warm, some of these fish will go very deep in the water column, so birds like black legged kittiwakes who just feed on the surface, they can’t access the fish. Murres can dive quite deep, 100 meters, so they should be able to access fish if they go deep but the fish might also have moved far offshore if it is very warm, they are looking for colder water sometimes or more food. So it is quite likely that their food wasn’t available, or it wasn’t nutritious. Often when it is very warm the zooplankton tend to be smaller and less energy dense and up the food chain the fish will be smaller and have less energy for weight, so that affects seabirds and marine mammals that feed on them. We are continuing to collect carcasses when we find them, or people will ship them in and we’ll help get them sent to the lab. USGS now is putting together their own lab so we can do testing here in Anchorage, so that will expedite things a lot and maybe that’ll help us get better access to fresh samples that we can more accurately test for saxatoxin and other toxins. Yosty: Thank you.       Who is watching the Blob?   Carcass (n): the full skeletal and organ remains of a dead organism   Crucial (adj): very important to the success or failure of something   Data (n): values of something measured   Domoic acid (n): an acid produced by algae that accumulates in the shellfish that consume the algae, affecting the brain and nervous system of the animals that eat the shellfish   Food chain (n): the organization of organisms in an ecosystem, describing which organisms eat which   Intermittently (adv): happening in an irregular pattern   Phenomenon (n): a situation that is observed for which the cause is unknown or questioned   Saxatoxin (n): a toxin produced by algae that accumulates in the shellfish that consume the algae, causing illness in the animals that eat the shellfish   Speculation (n): a theory or idea without evidence to support it   Unparalleled (adj): having no equal or match, something that is unique   Unprecedented (adj): never seen or experienced before   Wrecks (n): large die-offs of common murres that have happened periodically throughout history    

Invitation to Bid (2): Fiberglass Cabin Cruiser and Platform Barge Invitation to Bid (ITB) for 21’ Fiberglass Cabin Cruiser and Trailer ITB Number: ASLC-ITB-2025-001 Start Date 06/04/2025 Close Date 06/18/2025, 3:00 PM Organization: Alaska SeaLife Center                                                                   PO Box 1329 / 301 Railway Avenue                                       Seward, AK 99664                                                                                Contact: Johanna Kinney Phone: 907-224-6349.    Email: Johannak@alaskasealife.org Date: June 4, 2025 1. Introduction The Alaska SeaLife Center invites qualified bidders to submit sealed bids for the sale of a used 21’ Parker fiberglass cabin cruiser vessel and 1,400 lb. capacity EZ Loader trailer. This procurement aims to update our fleet to support our research and outreach activities. 2. Viewing Opportunities Interested bidders are invited to view the vessel and trailer in person at Storm Chasers Marine Services, located at 13552 Lowell Point Rd, Seward, AK 99664. Viewing opportunities are available during normal business hours, which are Monday through Friday, 8 am to 5 pm. Climbing on and/or entering the vessel is not permitted. 3. Bid Submission Bids should be delivered or mailed in a sealed envelope and addressed as follows: Alaska SeaLife Center Attn: Johanna Kinney, RE: ASLC-ITB-2025-01 PO Box 1329 Seward, AK 99664 Envelopes must be clearly marked “ITB – Cabin Cruiser and Trailer: ASLC-ITB-2025-01”. Bids can be delivered in person to the front ticket counter at the Alaska SeaLife Center, located at 301 Railway Avenue, Seward, AK 99664, during normal business hours. To be considered, bids must be received by 3:00 p.m. on June 18, 2025. Bid contents should include the bidder's name, mailing address, phone number, bid number (ASLC-ITB-2025-01), bid item (Cabin Cruiser and Trailer), and bid amount. No money should be included in the bid envelope. 4. Evaluation and Award Bids will be evaluated based on complete bid information and price. The Alaska SeaLife Center reserves the right to accept or reject any bid and waive any minor irregularities. 5. Additional Terms The successful bidder must remit payment in cash or a cashier’s check and sign a bill of sale by June 25, 2025. Upon successful payment, execution of the bill of sale, and transfer of the trailer title, the successful bidder is responsible for either removing the items from the Storm Chasers' property by June 30, 2025, or providing documentation of a new storage services agreement to remain at the current location. The vessel and all associated equipment, parts, and materials are being offered and will be sold “AS IS, WHERE IS,” with no warranties or guarantees, express or implied, including but not limited to any warranty of merchantability or fitness for a particular purpose. The buyer assumes all responsibility for inspection and evaluation of the items prior to purchase and agrees to accept the items in their present condition. Vessel and Trailer Specifications Vessel Details: Vessel Name: Sea Searcher Type: Cabin Cruiser Year: 2003 Length: 21 feet Vessel Make: Parker Marine Enterprises Hull Material: Fiberglass/plastic Engines: 2 Yamaha Outboard engines, 200 HP / 10 HP each Fuel Capacity: 80 gallons (gasoline) Trailer Details: Type: EZ Loader – EZZY Class: 31 Year: 2003 Body: BT Weight: 1,400 lbs Most recent boat surveys and additional photos are available upon request to Johanna Kinney: johannak@alaskasealife.org, 907-224-6349. Invitation to Bid (ITB) for Platform Barge ITB Number: ASLC-ITB-2025-002 Start Date 06/04/2025 Close Date 06/18/2025, 3:00 PM Organization: Alaska SeaLife Center                                                                      PO Box 1329 / 301 Railway Avenue                                   Seward, AK 99664                          Contact: Johanna Kinney Phone: 907-224-6349.    Email: Johannak@alaskasealife.org           Date: June 4, 2025 1. Introduction The Alaska SeaLife Center invites qualified bidders to submit sealed bids for the sale of a used aluminum-pontoon platform barge with hydraulic steering console. This procurement aims to update our fleet to support our research and outreach activities. 2. Viewing Opportunities Interested bidders are invited to view the vessel in person at Storm Chasers Marine Services, located at 13552 Lowell Point Rd, Seward, AK 99664. Viewing opportunities are available during normal business hours, which are Monday through Friday, 8 am to 5 pm. Climbing on and/or entering the vessel is not permitted. 3. Bid Submission Bids should be delivered or mailed in a sealed envelope and addressed as follows: Alaska SeaLife Center Attn: Johanna Kinney, RE: ASLC-ITB-2025-02 PO Box 1329 Seward, AK 99664 Envelopes must be clearly marked “Platform Barge: ASLC-ITB-2025-02”. Bids can be delivered in person to the front ticket counter at the Alaska SeaLife Center, located at 301 Railway Avenue, Seward, AK 99664, during normal business hours. To be considered, bids must be received by 3:00 p.m. on June 18, 2025. Bid contents should include the bidder's name, mailing address, phone number, bid number (ASLC-ITB-2025-02), bid item (Platform Barge), and bid amount. No money should be included in the bid envelope. 4. Evaluation and Award Bids will be evaluated based on complete bid information and price. The Alaska SeaLife Center reserves the right to accept or reject any bid and waive any minor irregularities. 5. Additional Terms The successful bidder must remit payment in cash or a cashier’s check and sign a bill of sale by June 25, 2025. Upon successful payment and execution of the bill of sale, the successful bidder is responsible for either removing the vessel from the Storm Chasers' property by June 30, 2025, or providing documentation of a new storage services agreement to remain at the current location. No trailer is included with the vessel. The vessel and all associated equipment, parts, and materials are being offered and will be sold “AS IS, WHERE IS,” with no warranties or guarantees, express or implied, including but not limited to any warranty of merchantability or fitness for a particular purpose. The buyer assumes all responsibility for inspection and evaluation of the items prior to purchase and agrees to accept the items in their present condition. Vessel Specifications Vessel Details: Vessel Name: SSL Barge Year: 2003 Overall length: 32 feet Overall width/beam: 10 feet Deck load capacity: 10,000 pounds Weight: 3820 Vessel Make: Alcan Products Ltd Hull Material: double aluminum pontoon structure Pressure-treated lumber deck Propulsion: outboard compatible (no motors are for sale) Additional photos and information are available upon request to Johanna Kinney: johannak@alaskasealife.org, 907-224-6349. ***Motors and equipment shown in photographs are not for sale.  

Porthole Cafe  Welcome to The Porthole Cafe, your go-to cafe spot inside the Alaska SeaLife Center! Enjoy craft coffee, espresso, refreshing Lotus Energy and boba drinks along with a selection of grab-and-go food, bagels, baked goods, and delicious sandwiches. Whether you're fueling up before your adventure or winding down afterward, we’ve you covered.  Learn more on the Porthole Cafe website.  The Porthole Cafe is open year-round with limited hours.  General admission is not required to visit the Porthole Cafe.    Discovery Gift Shop Take a part of the Alaska SeaLife Center with you! We have all of your favorite SeaLife plush animals, logo t-shirts, sweatshirts, mugs, green-conscious goodies, and gifts handmade by Alaskan artists. Discovery Gift Shop is open year-round. General admission is not required for entry to Discovery Gift Shop.   Phone: (907) 224-6300 ext. 6204 Toll Free: (800) 224-2525 ext. 6204 Email: linda.summerst@eventnetwork.com 

Seward, Alaska (November 1, 2016)– The Alaska SeaLife Center invites Alaska residents to take advantage of FREEzing Winter Wednesdays when planning their winter excursions. Every Wednesday from November 2, 2016 through February 22, 2017, Alaska residents receive free general admission to the Alaska SeaLife Center upon presentation of a valid ID. Visitors 12 years of age and under must be accompanied by an adult.   The Alaska SeaLife Center is open seven days a week from 12:00p.m. to 5:00 p.m, except November 24 and December 25 for the Thanksgiving Day and Christmas Day holidays.  

Seward, Alaska (January 31, 2017) – The Alaska SeaLife Center (ASLC) is pleased to announce the recipients of the 2017 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: Betsy Baker, Molly McCammon, Lisa Busch, Ian Dutton, Jason Brune and Michael Castellini for assistance in selecting the awardees.  The awards will be presented at the Alaska Marine Gala on February 11, 2017 at the Dena’ina Center in Anchorage, Alaska. Tickets are nearly sold out.  For more information, please contact: Nancy Anderson, nancya@alaskasealife.org or 907-224-6396.   Following are the 2017 Alaska Ocean Leadership Award winners: Dorothy Childers 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 for more than 20 years. Dorothy Childers’ contributions to the management of Alaska’s coastal and ocean resources have included tireless work of an exceptional quality as program staff, executive director, and as a Pew Marine Fellow with the Alaska Marine Conservation Council. She devoted her career to protecting the long-term health of Alaska’s oceans and to ensuring a voice for those Alaskans whose economy and culture depend on the long-term health of our ocean resources. Dorothy was instrumental in the North Pacific Fishery Management Council’s promulgation of a northern bottom trawl boundary in the Bering Sea, a collaboration with Bering Sea Elders Group on the publication of “The Northern Bering Sea: Our Way of Life” to inform conservation decisions, and production of the “Faces of Climate Change” DVD featuring climate scientists and Alaska Native observers. She has been a quiet catalyst for ongoing efforts to bring together Western science and traditional knowledge for continued understanding of climate change and its consequences for marine life, ocean habitat, communities, and cultures. Special projects supporting Bristol Bay fisheries and engaging coastal Alaskans on ocean acidification are helping to safeguard marine ecosystems. She has served on the North Pacific Research Board since 2004. ConocoPhillips 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. The year 2016 marked the 31st year that ConocoPhillips and its predecessors have funded a collaborative program with local fishers to monitor the fall Qaaqtak (Arctic cisco, Coregonus autumnalis) subsistence fish harvest on the Nigliq Channel of the Colville River, making it one of the longest Arctic subsistence fishery datasets in the world. Qaaqtak are a highly-prized food source for Alaskan Inupiat communities and a particularly important cultural resource for the nearby community of Nuiqsut. The monitoring program incorporates local and traditional knowledge of Nuiqsut fishers and collects data on Qaaktak abundance, the effort required to catch the species throughout the harvest season, as well as age, length, and weight of the catch. The information is used to monitor overall trends in the fishery. The program concept was originally focused on monitoring fish in Prudhoe Bay, but was expanded to include the Colville River Delta based on a request from Nuiqsut residents. ConocoPhillips has continued to voluntarily support the program as a commitment to the sustainability of an important anadromous species for which little was known of its lifecycle before the monitoring program began. Cade Emory Terada 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 has displayed a dedication to promoting the understanding and stewardship of Alaska’s oceans. Cade has dedicated the past two years to advocating for our oceans. As the son of a fisherman and an active community member in Unalaska, he has a vested interest in protecting the oceans. Cade has traveled to Washington D.C. and Juneau to meet and speak with politicians about the impacts of ocean acidification on the crabbing and commercial fishing industries. Last year he also became an Arctic Youth Ambassador, and joined in official Arctic Council meetings to talk about his community’s concerns around oceans on an international level. Cade also participated in the Students on Ice program, which last summer brought together youth from across the Arctic to Greenland and Canada to dive deeper into how communities, land, and ocean are connected to ice and warming temperatures. In August of 2016, he took part in the Aleutian Life Forum which discussed ocean acidification and strategies for building more resilient communities. Despite the jet setting lifestyle that Cade has lived for the past two years as he has traveled to advocate for our oceans, he is a committed community member and student. He maintains a high grade point average and participates in school sports and clubs. He also encourages his peers to get involved and recently helped start a chapter of Alaska Youth for Environmental Action to bring Unalaska students together. Phyllis Shoemaker 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. Phyllis Shoemaker coordinated and quietly led the Alaska Region National Ocean Sciences Bowl – “Tsunami Bowl” – in Seward for over 15 years. Her work make possible the development of hundreds of budding marine science high school students, many of whom have gone on to the university study of marine science and careers in the field. During her time as coordinator for the “Tsunami Bowl” it grew from about ten teams competing each year to the maximum of twenty teams, often with waiting lists, that represent schools from throughout urban and rural parts of the state, from Southeast Alaska to the Arctic. Her leadership and work in getting sponsors for the Bowl, finding housing for teams and volunteers coming from thousands of miles away, organizing a complex competition schedule and set of brackets and bringing the National Ocean Sciences Bowl final competition to Alaska, have been essential to the Bowl’s success. Dr. Stanley Rice was selected to receive 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. Following a federal career spanning more than 40 years, Dr. Stanley Rice, known to all as “Jeep,” retired as Program Manager of Habitat and Chemistry at NOAA’s Auke Bay Laboratories in 2012. Jeep and his team’s tireless efforts, including more than 150 publications, have greatly added to our understanding of the long term fate and biological effects of oil in the marine environment whether it be from spills or chronic oil pollution. The discovery of the extent to which very low concentrations of oil in the environment could damage the productivity of marine organisms and compromise their habitats culminated, after a decade of further research, in a publication in Science (2003). These findings were built upon by other scientists to extend to seabirds, marine mammals, and the intertidal biota, resulting in a major paradigm shift in the scientific view of oil spills and chronic pollution. Beyond the arena of catastrophic oil spills, Jeep’s findings have been applied by scientists in the management of very low levels of hydrocarbon pollution and the protection of ecosystems in urban estuaries. For example, Jeep’s team’s findings led to more stringent water quality standards for hydrocarbons in fish spawning habitats. Jeep’s work also had an impact on oil spill contingency planning where proactive measures such as double hulled tankers and altered shipping routes have appeared in plans that once focused solely on cleanup technologies. 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 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.

A meaningful gift option for you or the ASLC fan in your life! By symbolically adopting your favorite animal at the Alaska SeaLife Center, you support important work in wildlife rehabilitation, scientific research, and husbandry.  Packages are mailed via USPS. Your adoption kit includes: A plush animal of your choice A certificate of adoption A fact sheet about the species If a gift, you can include a special message for the recipient                        Choose Your Delivery Option to Check Out: