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

Seward, Alaska (January 15, 2015) - Science meets art as the Alaska SeaLife Center (ASLC) brings the Buzz Saw Sharks of Long Ago exhibit to Seward, Alaska. The exhibit is on loan from the Idaho Museum of Natural History (IMNH) and is done in collaboration with Ray Troll. Areas around the aquarium will be transformed into the Paleozoic marine world of the humongous, whorl-toothed shark.   “Summer of Sharks” at the Alaska SeaLife Center opens April 17 with fossils, sculptures, and artwork featuring the majestic Helicoprion. This prehistoric giant is the world’s only animal – past or present – with a complete 360-degree spiral of teeth. Imagine a fearsome behemoth equipped with a circular blade of teeth and strong jaws that researchers believe crimped and cut its prey.   The Buzzsaw Shark roamed the Permian Seas more than 270 million years ago. Now, it has come back to life thanks to the informed imagination of Alaskan artist Ray Troll and Idaho State University researchers.  Obsessing over this prehistoric marine species for more than 20 years, Troll is now the go-to guy for all things Helicoprion. Detailed artwork from Troll include a 17.5-foot-long by 8-foot-high mural of sharks, as well as 21 individual pieces. His colorful artwork combined with informational graphics explore a side of scientific history you have never seen before.   Sculptures by artist Gary Staab welcome visitors as they travel back in time. A hanging 15-foot shark sculpture and a giant shark head bursting through the wall watch over visitors as they are immersed in Troll’s ode to this extinct creature. The exhibit, which was previously at Point Defiance Zoo and Aquarium in Tacoma, Washington, also includes four fossils of the shark’s unusual and complex whorl dentition dug from Idaho phosphate mines. Three casts of rare fossils and an interactive shark jaw showcase the power of the animal kingdom’s most unusual set of teeth.  “I’m really excited to have the ‘Buzz Saw Sharks of Long Ago’ be a big part of the Alaska SeaLife Center's ‘Summer of Sharks.’ I think visitors to this special exhibit will find the fossils, life-sized models and colorful artwork to be pretty amazing. I can guarantee that folks have never seen sharks like these ancient wonders before. It's going to be wonderful to get to share them with my fellow Alaskans,” Ray Troll said recently when asked about the exhibit. Children and adults alike will enjoy a humorous documentary film about the artist as they sit on a whorl-patterned “art couch,” activate the whorl tooth mechanism, “walk the whorl,” and ponder the incredible bite of a “large-as-life” Helicoprion head.  “This is the Alaska SeaLife Center’s first traveling exhibit, and we are thrilled to have such scientifically significant artifacts and the fantastic artwork of Ray Troll here at the Center. This is a milestone for ASLC and a major event for Alaska,” President and CEO Dr. Tara Riemer said. Buzzsaw Sharks of Long Ago explores the many ways that people have come to better understand the natural world through mysterious fossils and the quest for creatures of the deep. Troll hopes Buzzsaw Sharks will not only intrigue visitors, but also inspire them to take action and help protect all species of shark and marine life. Summer of Sharks is open April 17 through Labor Day and made possible by our presenting sponsor BP. 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, and the Alliance of Marine Mammal Parks and Aquariums. To learn more, visit www.alaskasealife.org. About the IMNH The Idaho Museum of Natural History is home to permanent and special collections in Anthropology, Earth Sciences, and Life Sciences, a place where researchers pursue scholarly study of the collections and publish their findings in peer-reviewed and museum-sponsored publications.  

  Recent Publications by ASLC Scientists:   Richard, J. T., Schultz, K., Goertz, C. E. C., Hobbs, R. C., Romano, T. A., and Sartini, B. L. (2022). Evaluating beluga (Delphinapterus leucas) blow samples as a potential diagnostic for immune function gene expression within the respiratory system Conservation Physiology, 10(1). doi:10.1093/conphys/coac045 Schmitt, T. L., Goertz, C. E. C., Hobbs, R. C., Osborn, S., DiRocco, S., Bissell, H., & Harris, W. S. (2022). Erythrocyte, Whole Blood, Plasma, and Blubber Fatty Acid Profiles in Oceanaria-Based versus Wild Alaskan Belugas (Delphinapterus leucas). Oceans, 3(4), 464-479. doi:10.3390/oceans3040031 Joblon, M. J., Flower, J. E., Thompson, L. A., Biddle, K. E., Burt, D. A., Zabka, T. S., Adkesson, M. J., Halaska, B., Goertz, C. E. C., Rouse, N., Cahoon, S. N., Jetzke, K., Giovanelli, R. P., and Tuttle, A. D. (2022). Investigation Of The Use Of Serum Biomarkers For The Detection Of CardiacDisease In Marine Mammals. Journal of Zoo and Wildlife Medicine, 53(2), 373-382 Pace, C. N., Webber, M. A., Boege Tobin, D. D., Pemberton, S., Belovarac, J., & Goertz, C. E. C. (2022). The Northernmost and Westernmost Records of the Guadalupe Fur Seal (Arctocephalus philippii townsendi). Aquatic Mammals, 48(6), 592-601. doi.org/10.1578/AM.48.6.2022.592 Thompson, L. A., Goertz, C. E. C., Quackenbush, L. T., Huntington, K. B., Suydam, R. S., Stimmelmayr, R., & Romano, T. A. (2022). Serological Detection of Marine Origin Brucella Exposure in Two Alaska Beluga Stocks. Animals, 12(15), 1932. doi.org/10.3390/ani12151932 Sills, J. M., and Reichmuth, C.,(2022) Vocal behavior in spotted seals (Phoca larcha) and implications for passive acoustic monitoring.  Fronteirs in Remote Sensing, 3:862435 Burek Huntington, K. A., Gill, V. A., Berrian, A. M., Goldstein, T., Tuomi, P., Byrne, B. A., Worman, K., and Mazet, J., (2021) Causes of Mortality of Northern Sea Otters (Enhydra lutris kenyoni) in Alaska from 2002 to 2012. Frontiers in Marine Science (8:630582). Coletti, H. A., Bowen, L., Ballachey, B. E., Wilson, T. L., Waters, S., Booz, M., Counihan, K. L., Hollmén, T. E., Pister, B. (2021) Gene Expression Profiles in Two Razor Clam Populations: Discerning Drivers of Population Status. Life, 11(12), 1288. https://doi.org/10.3390/life11121288. Hermann-Sorensen, H., Thometz, N., Woodie, K., Dennison-Gibby, S., & Reichmuth, C. (2021). In vivo measurements of lung volumes in ringed seals: insights from biomedical imaging. Journal of Experimental Biology, 224(2), jeb 235507. doi:10.1242/jeb.235507 Goertz, C. E. C., Woodie, K., Long, B., Hartman, L., Gaglione, E., Christen, D., Clauss, T., Flower, J. E., Tuttle, A. D., Richard, C., Romano, T. A., Schmitt, T. L., Otjen, E., Osborn, S., Aibel, S., Binder, T., Van Bonn, W., Castellote, M., Mooney, T. A., Dennison-Gibby, S., Burek Huntington, K. A., and Rowels, T. K. (2021) Stranded beluga (Delphinapterus leucas) calf response and care: reports of two cases with different outcomes: Polar Research, 40(S1). McGuire, T. L., Shelden, K. E. W., Himes Boor, G. K., Stephens, A. D., McClung, J. R., Garner, C., Goertz, C. E. C., Burek Huntington, K. A., O' Corry-Crowe, G., and Wright, B. (2021) Patterns of mortality in endangered Cook Inlet beluga whales: Insights from pairing a long-term photo-identification study with stranding records: Marine Mammal Science, v. 37, p. 492-511. Rosen, D. S., Thometz, N. M., and Reichmuth, C. (2021) Seasonal and Developmental Patterns of Energy Intake and Growth in Alaskan Ice Seals: Aquatic Mammals, v. 47, p. 559-573. Rouse, N. M., Counihan, K. L., Boege Tobin, D. D., Goertz, C. E. C., and Duddleston, K. N. (2021) Habitat associations between Streptococcus bovis/equinus complex and Streptococcus phocae, the causative agents of strep syndrome in sea otters, and the marine environment. Marine Ecology, 43, e12689. Rouse, N. M., Counihan, K. L., Goertz, C. E. C., and Duddleston, K. N. (2021) Competency of common northern sea otter (Enhydra lutris kenyoni) prey items to harbor Streptococcus lutetiensis and S. phocae: Diseases of Aquatic Organisms, v. 143, p. 69-78. Savage, K. N., Burek Huntington, K. A., Wright, S. K., Bryan, A., Sheffield, G., Webber, M., Stimmelmayr, R., Tuomi, P., Delaney, M. A., and Walker, W. (2021) Stejneger's beaked whale strandings in Alaska, 1995-2020, Marine Mammal Science, 37(3), 843-869. Spies, I., Orr, J. W., Stevenson, D. E., Goddard, P., Hoff, G., Guthridge, J., Hollowed, M., and Rooper, C. (2021) Skate egg nursery areas support genetic diversity of Alaska and Aleutian skates in the Bering Sea: Marine Ecology Progress Series, v. 669, p. 121-138. Spies, I., Orr, J. W., Stevenson, D. E., Goddard, P., Hoff, G. R., Guthridge, J., and Rooper, C. N. (2021) Genetic evidence from embryos suggests a new species of skate related to Bathyraja parmifera (Rajiformes: Arhynchobatidae) in the Bering Sea: Marine Ecology Progress Series, v. 670, p. 155-166. Suryan, R. M., Arimitsu, M. L., Coletti, H. A., Hopcroft, R. R., Lindeberg, M. R., Barbeaux, S. J., Batten, S. D., Burt, W. J., Bishop, M. A., Bodkin, J. L., Brenner, R., Campbell, R. W., Cushing, D. A., Danielson, S. L., Dorn, M. W., Drummond, B., Esler, D., Gelatt, T. S., Hanselman, D. H., Hatch, S. A., Haught, S., Holderied, K., Iken, K., Irons, D. B., Kettle, A. B., Kimmel, D. G., Konar, B., Kuletz, K. J., Laurel, B. J., Maniscalco, J. M., Matkin, C., McKinstry, C. A. E., Monson, D. H., Moran, J. R., Olsen, D., Palsson, W. A., Pegau, W. S., Piatt, J. F., Rogers, L. A., Rojeck, N. A., Schaefer, A., Spies, I. B., Straley, J. M., Strom, S. L., Sweeney, K. L., Szymkowiak, M., Weitzman, B. P., Yasumiishi, E. M., and Zador, S. G. (2021) Ecosystem response persists after a prolonged marine heatwave: Nature, Scientific Reports, v. 11. Tanedo, S., Hollmén, T. E., Maniscalco, J. M., and Ulman, S. E. G. (2021) Using Remote Video Technology to Study Environmental Factors Influencing Productivity of Black-Legged Kittiwakes Rissa Tridactyla: Marine Ornithology, v. 49, p. 293-299. Bishop, A., Brown, C., Sattler, R., & Horning, M. (2020). An Integrative Method for Characterizing Marine Habitat Features Associated with Predation: A Case Study on Juvenile Steller Sea Lions (Eumetopias jubatus). Frontiers in Marine Science, 7: 576716   Bowen, L., Counihan, K., Ballachey, B., Coletti, H., Hollmén, T., Pister, B., and Wilson, T. L. (2020). Monitoring nearshore ecosystem health using Pacific razor clams (Siliqua patula) as an indicator species. Peer J 8:e8761   Counihan, K. L., Tuomi, P.A., and Hollmen, T.E. (2020) Differential Progression of Lymphoma in Two Captive Steller’s Eiders (Polysticta stelleri).  Journal of Avian Medicine and Surgery, 34(3), 302-305, doi: 10.1647/1082-6742-34.3.302   Levin, M., Jasperse, L., Desforges, J-P., O’Hara, T., Rea, L., Castellini, J. M., Maniscalco, J. M., Fadely, B., and Keogh, M. (2020) Methyl mercury (MeHg) in vitro exposure alters mitogen-induced lymphocyte proliferation and cytokine expression in Steller sea lion (Eumetopias jubatus) pups. Science of the Total Environment 725: 138308.   Lian, M., Castellini, J. M., Kuhn, T., Rea, L., Bishop, L., Keogh, M., Kennedy, S. N., Fadely, B., van Wijngaarden, E., Maniscalco, J. M., O’Hara, T. (2020) Assessing oxidative stress in Steller sea lions (Eumetopias jubatus): Associations with mercury and selenium concentrations. Comparative Biochemistry and Physiology, Part C 235: 108786,   Maniscalco, J. M., Springer, A. M., Counihan, K. L., Hollmen, T., Aderman, H. M., and Toyukak, S., M. (2020). Contemporary diets of walruses in Bristol Bay, Alaska suggest temporal variability in benthic community structure. Peer J, (8), e8735.   McGuire, T.L., Shelden, K.E., Himes Boor, G.K.,  Stephens, A.D., McClung, J.R., Garner, C., Goertz, C.E.C., Burek-Huntington, K.A.,  O’Corry-Crowe, G., Wright, B., (2020) Patterns of mortality of endangered Cook Inlet beluga whales: Insights from pairing a long-term photo-identification study with stranding records. Marine Mammal Science. doi.org/10.1111/mms.12766    Mooney, T.A., Castellote, M., Jones, I., Rouse, N., Goertz, C.E.C. (2020). Audiogram of a Cook Inlet beluga whale (Delphinapterus leucas). The Journal of the Acoustical Society of America. http://asa.scitation.org/doi/10.1121/10.0002351   Safine, D.E., Lindberg, M.S., Martin, K.H., Talbot ,S.L., Swem, T.R., Pearce, J.M., Stellrecht, N.C., Sage, G.K., Riddle, A.E., Fales, K., and T.E. Hollmén. (2020). Use of genetic mark-recapture to estimate breeding site fidelity and philopatry in a threatened sea duck population, Alaska-breeding Steller’s eiders. Endangered Species Research 41:349-360.   Sattler, R., Bishop, A., and Polasek, L. (2020) Cortisol Levels for Pregnant and Non-Pregnant Steller Sea Lions (Eumetopias jubatus) in Human Care: Aquatic Mammals, 2 (46), p.146-151.   Tanedo, S.A., and T.E. Hollmen. (2020). Refining remote observation techniques to estimate productivity of Black-legged Kittiwakes (Rissa tridactyla) in Resurrection Bay in the Northern Gulf of Alaska. Marine Ornithology 48: 61-69.   Van Cise, A.M., Wade, P.R., Goertz, C.E.C., Burek- Huntington, K.A., Parsons, K.M., Clauss, T., Hobbs, R.C., and Apprill, A. (2020). Skin Microbiome of Beluga Whales: Spatial, Temporal, and Health-Related Dynamics. Animal Microbiome 2(39).   Walden, H. S., A. L. Bryan, et al. (2020). Helminth Fauna of Ice Seals in the Alaskan Bering and Chukchi Seas, 2006-15.  Journal of Wildlife Diseases 4(56): p. 863-872.   Allen, K.N., Vazquez-Medina, J.P., Lawler, J.M., Mellish, J.E., Horning, M., and Hindle, A.G. (2019) Muscular apoptosis but not oxidative stress increases with old age in a long-lived diver, the Weddell seal. Journal of Experimental Biology, 222(12) jeb200246   Andrews, R. D., Baird, R. W., Calambokidis, J., Goertz , C. E. C., Gulland, F. M. D., Heide-Jorgensen, M. P., Hooker, S. K., Johnson, M. P., Mate, B., Mitani, Y., Nowacek, D. P., Owen, K., Quakenbush, L. T., Raverty, S. A., Robbins, J., Schorr, G. S., Shpak, O. V., Townsend, F. I., Uhart, M., Wells, R. S., and Zerbini, A., (2019) Best Practice guidelines for cetacean tagging: Journal of Cetacean Research and Management,  20, p. 27-66.   Bishop, A.M., Dubel, A., Sattler, R., Brown, C.L., and Horning, M., (2019) Wanted dead or alive: Characterizing likelihood of juvenile Steller sea lion predation from diving and space use patterns. Endangered Species Research, 40, p. 357-367.   Brown, C., Horning, M., and Bishop, A. (2019) Improving emergence location estimates for Argos pop-up transmitters. Animal Biotelemetry, 7(4), p. 1-10.   Counihan, K. L., Bowen, L., Ballachey, B., Coletti, H., Hollmén, T.E., Pister, B., and Wilson, T.L. (2019) Physiological and gene transcription assays to assess responses of mussels to environmental changes. PeerJ, 7, e78000.   Goertz, C.E.C., Burek-Huntington, K.A., Royer, K., Quakenbush, L., Clauss, T., Hobbs, R., and Kellar, N., (2019) Comparing progesterone in blubber and serum to assess pregnancy in wild beluga whales (Delphinapterus leucas): Conservation Physiology, 7, p. coz071.   Goertz , C.E.C., Reichmuth, C., Thometz, N.M., Ziel, H., and Boveng, P.L. (2019) Comparative health assessments of Alaskan Ice seals. Frontiers in Veterinary Science, 6(4), p. 1-15. Horning, M., Andrews, R.A., Bishop, A.M., Boveng, P.L., Costa, D.P., Crocker, D.E., Haulena, M., Hindell, M., Hindle, A.G., Holser, R.R., Hooker, S.K., Huckstadt, L.A., Johnson, S., Lea, M.A., McDonalds, B.I., McMahon, C.R., Robinson, P.W., Sattler, R.L., Shuert, C.R., Steingass, S.M., Thompson, D., Tuomi, P.A., Williams, C.L., and Jamie N. Womble. (2019) Best practice recommendations for the use of external telemetry devices on pinnipeds.  Animal Biotelemtry, 7:20 Miller, M.W.C., Lovvorn, J. R., Matz, A.C., Taylor, R.J., Latty, C.J., Brooks, M.L., and Hollmén, T.E. (2019) Interspecific patterns of trace elements in sea ducks: Can surrogate species be used in contaminants monitoring? Ecological Indicators, 98, p. 830-839.   Shelden, K.E.W., Burns, J.J., McGuire, T., Burek Huntington, K.A., Vos, D.J., Goertz , C.E.C., O' Corry-Crowe, G., and Mahoney, B.A., (2019) Reproductive status of female beluga whales from the endangered Cook Inlet Population: Marine Mammal Science, p. 1-10.   Steingass, S., Horning, M., and Bishop, A. (2019) Space use of Pacific harbor seals (Phoca vitulina richardii) from two haulout locations along the Oregon coast. PLoS ONE, 14(7), e0219484. Christie, K.S., Hollmén, T.E., Huntington, H.P., and Lovvorn, J. (2018) Structured decision analysis informed by traditional ecological knowledge as a tool to strengthen subsistence systems in a changing Arctic. Ecology and Society,23(4):42 Sattler, R., Bishop, A., Woodie, K., and Polasek, L. (2018) Characterizing estrus by trans-abdominal ultrasounds, fecal estrone-3-glucuronide, and vaginal cytology in the Steller sea lion (Eumetopias jubatus). Theriogenology,120, p.25-32. Counihan, K.L. and Hollmén, T.E. (2018) Immune parameters in different age classes of captive male Steller's eiders (Polysticta stelleri). Developmental and Comparative Immunology, 86: p.41-46. Jacob, J.M., Subramaniam, K., Tu, S.L., Nielsen, O., Tuomi, P., Upton, C., and Waltzek, T.B. (2018) Complete genome sequence of a novel sea otterpox virus. Virus Genes, p.1-12. Mooney, T.A., Castellote, M., Jones, I.T., Quakenbush, L., Hobbs, R., Gaglione, E., & Goertz, C. (2018). Local acoustic habitat relative to hearing sensitivities in beluga whales (Delphinapterus leucas). Journal of Ecoacoustics, 2. doi.org/10.22261/JEA.QZD9Z5 Counihan, K.L. (2018) The physiological effects of oil, dispersant and dispersed oil on the bay mussell, Mytilus trossulus, in Arctic/Subarctic conditions.  Aquatic Toxicology, 199: p.220-231. Churchwell, R.T., Kendall, S., Brown, S.C., Blanchard, A.L., Hollmén, T.E., Powell, A.N. (2018) The first hop: use of Beaufort Sea deltas by hatch-year semipalmated sandpipers.  Estuaries and Coast, 41(1) 280-292. Mooney, T.A., Castellote, M., Quakenbush, L., Hobbs, R., Gaglione, E., & Goertz, C. (2018). Variation in hearing within a wild population of beluga whales (Delphinapterus leucas). Journal of Experimental Biology.  221(9), jeb171959.   Bishop A, Brown C, Rehberg M, Torres L, Horning M (2018) Juvenile Steller sea lion (Eumetopias jubatus) utilization distributions in the Gulf of Alaska. Movemement Ecology 6:6. Allen, K., Hindle, A., Vazquez-Medina, J.P., Lawler, J.M., Mellish, J.E. and M. Horning (2018) Age and muscle specific oxidative stress management strategies in a long-lived diver, the Weddell seal. The FASEB Journal 2018 32:1_supplement, 861.5-861.5  Hocking, D.P., Marx, F.G., Sattler, R., Harris, R.N., Pollack, T.I., Sorrel, K.J., Fitzgerald, E.M.G., McCurry, M.R., and Evans, A.R. (2018) Clawed forelimbs allow northern seals to eat like their ancient ancestors, Royal Society Open Science, 5:172393. Latty, C.J., Hollmén, T.E., Petersen, M.R., Powell, A.N. and R.D. Andrews (2018) Erratum: Biochimical and clinical responses of Common Eiders to implanted satellite transmitters. The Condor, 120(1) 185-187. Maniscalco, J.M., and Parker, P. (2018) Maternal and offspring effects on the timing of parturition in western Steller sea lions (Eumetopias jubatus).  Canadian Journal of Zoology, 96(4), p. 333-339. Miller, C.N., L. Polasek, A.M.C. Oliveria, and J. Maniscalco. (2017).  Milk fatty acid composition of perinatal and foraging Steller sea lions: examination from pup stomachs. Canadian Journal of Zoology doi:10.1139/cjz-2016-0015. Sattler, R., and Polasek, L. (2017)  Serum estradiol and progesterone profiles during estrus, pseudopregnancy and active gestation in Steller sea lions. Journal of Zoo Biology 2017:1-9, https://doi.org/10.1002/zoo.21381 Burgess, T.L., Kreuder Johnson, C., Burdin, A., Gill, V.A., Doroff, A.M., Tuomi, P., Smith, W.A., and Goldstein, T. (2017) Brucella Infection in Asian Sea Otters (Enhydra lutris lutris) on Bering Island, Russia. Journal of Wildlife Diseases.  epub, DOI 10.7589/2016-09-220 Morey, J.S., Burek Huntington, K.A., Campbell, M., Clauss, T.M., Goertz, C.E., Hobbs, R.C., Lunardi, D., Moors, A.J., Neely, M.G., Schwacke, L.H., Van Dolah, F.M. (2017) De novo transcriptome assembly and RNA-Seq expression analysis in blood from         beluga whales of Bristol Bay, AK, Marine Genomics, epub, DOI 10.1016/j.margen.2017.08.001 Richard, J.T., Schultz, K., Goertz, C.E.C., Hobbs, R., Romano, T., and Sartini, L. (2017) Assessing the Quantity and Downstream Performance of DNA Isolated from Beluga (Delphinapterus leucas) Blow Samples. Aquatic Mammals,43(4), p. 398-408. Horning M, Haulena M, Tuomi PA, Mellish JE, Goertz CE, Woodie K, Berngartt RK, Johnson S, Shuert CR, Walker KA, Skinner JP, Boveng PL. (2017) Best practice recommendations for the use of fully implanted telemetry devices in pinnipeds. Animal Biotelemetry (2017)5:13. Horning M, Haulena M, Rosenberg JF, Nordstrom C. Intraperitoneal implantation of life-long telemetry transmitters in three rehabilitated harbor seal pups. BMC Veterinary Research (2017)13:139. Steingass S, Horning M. (2017) Individual-based energetic model suggests bottom up mechanisms for the impact of coastal hypoxia on Pacific harbor seal (Phoca vitulina richardii) foraging behavior. Journal of Theoretical Biology 416:190-198. Andrews, R.D. and Enstipp, M.R. (2016) Diving physiology of seabirds and marine mammals: Relevance, challenges and some solutions for field studies. Comparative Biochemistry and Physiology, Part A: Molecular and Integrative Physiology, 202, 38-52. Belonovich, O.A., Fomin, S.V., Burkanov, V.N., Andrews, R.D., and Davis, R.W. (2016) Foraging behavior of lactating northern fur seals (Callorhinus ursinus) in the Commander Islands, Russia. Polar Biology 39:357–363 Beltran, R., Peterson, S. McHuron, E., Reichmuth, C., Huckstadt, L., Costa, D. (2016) Seals and sea lions are what they eat, plus what? 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(2016) Whisker growth dynamics in two North Pacific pinnipeds: implications for determining foraging ecology from stable isotope analysis. Marine Ecology Progress Series,554: 213-224. Mooney, T.A.Castellote, M., Quackenbush, L., Hobbs, R., Goertz, C.E.C., and Gaglione, E. (2016) Measuring Hearing in Wild Beluga Whales. The Effects of Noise on Aquatic Life II.  A.N. Popper, A. Hawkins (eds). Springer Science+Business Media, LLC, New York Owen, K., Jenner, C.S., Jenner, M.N.M., and Andrews, R.D. (2016) A week in the life of a pygmy blue whale: migratory dive depth overlaps with large vessel drafts. Animal Biotelemetry 4:17. Polasek, L., Frost, C., David, J.H.M, Meyer, M.A., and Davis R.(2016)  Myoglobin distribution in the locomotory muscles of Cape fur seals (Arctocephalus pusillus pusillus). Aquatic Mammals 42(4), 421-427.  

      The CORaL Network Go to the CORaL Network Website The Community Organized Restoration and Learning (CORaL) Network strengthens existing resources across the Exxon Valdez Oil Spill-impacted region, ranging from Prince William Sound, Homer, and Kodiak Island. The CORaL Network empowers the region by fostering collaboration, sharing scientific, cultural, and Traditional Knowledge, and co-creating solutions that respond to community needs. Our efforts, funded by the Exxon Valdez Oil Spill Trustee Council (EVOSTC), ensure that science outreach remains relevant, culturally responsive, and co-created with the communities we serve. The CORaL Network aims to engage youth in community-based science, coordinate science outreach between organizations, and sustain capacity-building activities such as learning opportunities and internships. We also seek to deepen understanding of Alaska Native knowledge, foster cultural competency, and build collaborative community relationships. Through these initiatives, the CORaL Network supports ongoing regional restoration efforts while addressing the unique needs of impacted communities. The Alaska SeaLife Center (ASLC) is a proud partner of the CORaL Network alongside five other organizations that serve Southcentral Alaska: Alutiiq Museum Archaeological Repository (AMAR) in Kodiak, Chugach Regional Resources Commission (CRRC) in Seward, Prince William Sound Science Center (PWSSC) in Cordova, Alaska Sea Grant (ASG) in Valdez, and Center for Alaskan Coastal Studies (CACS) in Homer.     CORaL’s Programs and Initiatives: Community Coastal Experience: This annual program is an opportunity for adults ages 18 and up to explore career and internship pathways in marine science, archaeology, cultural history, and more. Over the span of four to five weeks, participants travel with program leaders to observe, learn, and practice new skills in Kachemak Bay, Seward, Cordova, and Kodiak. The program is spearheaded by CACS, but overall it is a colossal collaborative effort among partners, from program development, participant selection, and hosting in their respective locations. This level of collaboration also presents opportunities for co-learning between participants and host organizations. Collective Alaska Native Perspectives: Each year CRRC leads a Collective Alaska Native Perspectives series to build an understanding of Alaska Native true history, legal complexities, diverse cultural practices, and the way of life from the perspective of Alaska Native People. Participants are invited to explore opportunities to learn from other cultures and share experiences through panel participation with Alaska Native Elders and an all-Native Mentor panel.  Educational Programs: Many partners within the CORaL Network offer immersive educational opportunities that demonstrate the power of cross-sector collaboration between local schools, organizations, and scientists. Two examples of this include Ocean Science Week, led by CACS, and Ocean Sciences Festival, led by PWSSC. All CORaL partners participate in Ocean Science Week, collaborating in the process of program creation and presentation to create a diverse experience for students. These opportunities grow students’ awareness, expand their curiosity, and help them to begin building relationships with scientists and educators throughout the region. CORaL is also involved in the annual Seward Symposium and Stewards of the Bay monthly series led by ASLC, CRRC, and other local Seward agencies. AKSEA: The Alaska Knowledge, Science, and Education Alliance (AKSEA)aims to foster connections across the region and share knowledge from, and with, all our community members. It brings together traditional knowledge experts, researchers, graduate or recent graduate students, and school educators to co-create lessons focused on marine-related anchoring phenomenon in the Exxon Valdez Oil Spill region. Coastal Connections Camp: This camp-in-a-box program, facilitated by ASG as a CORaL community outreach activity, is a week-long summer program that includes outdoor exploration, hands-on science, art, team building, and personal resilience skills. ASG recruits members from the community hosting the camp, creating an opportunity for local involvement. CORaL partners also attend camp training, bringing the curriculum back to their own facilities. The camps are offered in collaboration with local entities. Historic Preservation: Spearheaded by AMAR, this set of resources promotes the value of archaeological sites and their preservation. When people know that ancestral sites and objects hold valuable information, they are more likely to respect sites and report findings to a local professional. Alutiiq/Sugpiaq Cultural Orientation: AMAR hosts a bi-monthly virtual, one-hour orientation to introduce the history and culture of the Alutiiq/Sugpiaq people who have lived in Kodiak for at least 7,500 years.   ASLC’s Key Contributions to the CORaL Network:   The Alaska SeaLife Center (ASLC) serves as the grant administrator and principal investigator for the CORaL Network, playing a key role in advancing the network’s goals. ASLC facilitates partner meetings, manages communications, oversees budgeting and reporting, and conducts evaluations to ensure the success of the initiative. In addition, ASLC integrates cultural competencies into exhibits and educational programming, fostering collaboration on both scientific and cultural outreach efforts. As a founding partner of Stewards of the Bay, ASLC helps organize the annual Seward Science Symposium and the monthly Community Connections Series, which highlight the intersection of research, science, and culture. These events promote community pride and environmental stewardship, with a strong emphasis on Indigenous-led research. The ASLC also leads the production of videos for a cross-network media portal and kiosk library, showcasing the diverse and impactful work of the CORaL Network. Additionally, in 2023, the ASLC launched COMPASS (Community Pathways for Student Science), a 6-year program to establish a regional partnership that connects schools with citizen science opportunities. This project builds upon Dr. Tuula Hollmen’s successful SeeBird Project, a community science education initiative started in Seward. COMPASS allows students to actively engage in the scientific process, explore their local environment, and contribute to research in the Gulf of Alaska, strengthening the partnership between scientists, educators, and communities.   (Caption: CORaL Network partners gather for a photo during a shared meal at the CORaL Annual Meeting in Cordova, 2024)   SUBSCRIBE TO OUR MONTHLY NEWSLETTER [Subscribe to email newsletter link]     Previous CORaL Network Newsletters: February 2025 January 2025 December 2024 November 2024 March 2024 December 2023 November 2023

Check here to learn more about the round-the-clock care provided to Tyonek while at the Alaska SeaLife Center.                     3/9/2018 It has been a long journey for Tyonek and we were happy to be a part of this young calf’s story. Tyonek is the first Cook Inlet beluga calf to ever be successfully rehabilitated. Learn more about how the Alaska SeaLife Center team worked to rehabilitate Tyonek here. 3/9/2018 Learn more about Tyonek’s transition to his new home at SeaWorld San Antonio here. 2/27/2018 One of Tyonek's favorite enrichment activities is playing with bubbles. Check out this video! 2/21/2018 Check out this KTUU Channel 2 News story on Tyonek! 2/10/2018 Tyonek is the first Cook Inlet beluga calf to ever be successfully rehabilitated. He was found stranded, high and dry on the beach in very poor condition. Six institutions from all across North America united to care for this little cetacean. He has recovered against the odds thanks to our staff here at ASLC and dedicated partners at Shedd Aquarium, Mystic Aquarium, Georgia Aquarium, SeaWorld, and Vancouver Aquarium. When Tyonek first arrived at the Center, September 30th he was 64 kilos and 162 cm long. Today he is 116 kilos and 180 cm long. We are ecstatic that Tyonek continues to grow and gain strength when just over four months ago he was found stranded, malnourished, and dehydrated on a beach. Amazing the things we can do when we work together.     2/8/2018 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. Read more about NOAA’s decision here. 1/19/2018 We, at ASLC, along with our supporters and partners, have been awaiting NOAA's decision about Tyonek's future. Since he is the first stranded Cook Inlet beluga calf to ever be successfully rehabilitated, it was a long process to determine what would be best for this young calf. NOAA Fisheries has announced Tyonek is not a candidate for release due to his young age upon arrival, health conditions, and other factors. Read more about NOAA's decision and the next steps for Tyonek here. 1/7/2018 As part of our environmental enrichment we play Cook Inlet beluga whale sounds for Tyonek twice a day in five minute intervals. Our animal caretakers notice that he is very curious about the sounds and even mimics the calls. This type of enrichment helps us assess how his vocalizations are progressing as well as his hearing. Watch this video to hear Tyonek's calls.  We receive Cook Inlet beluga whale sounds from a National Oceanic and Atmospheric Administration (NOAA) based study. Learn more about the study here.  12/22/2017 The Alaska SeaLife Center is excited to introduce Beluga Chats! What does it take to care for a baby beluga? Don't miss this opportunity to chat with Alaska SeaLife Center husbandry or vet staff caring for Tyonek, the three-month-old beluga whale. Chats will be at 12:15 PM on December 26th, 28th, 29th, and 30th. For a limited time only. Participation is free with paid admission. 12/18/2017 Similar to newborns in hospitals across the country, Tyonek had his hearing tested. Preliminary results do not indicate any significant problems and he appears to have hearing ability similar to belugas tested in Bristol Bay. 12/7/2017 Click here to watch a Q&A session and bottle feed with Tyonek, the rescued Cook Inlet beluga calf. 11/21/2017 While Tyonek's energy levels are on a positive trend, we still monitor him very closely as stranding is a traumatic experience that can cause unseen internal damage. Our team uses imaging (ultrasound, radiographs, and CT scans) to regularly monitor Tyonek's condition. For instance, we are able to track increase in blubber as he puts on weight as well as changes in his internal organs. 11/19/2017 "When it comes to helping a terribly rare Cook Inlet beluga, every day is a victory.” Check out this Washington Post article to learn a bit more about Tyonek and hear from his caretakers here.  11/17/2017 We have been getting some wonderful support from our Facebook community regarding ASLC's efforts with Tyonek and we thank you! Our Wildlife Response efforts are made possible by visitors, members, donors, and the community.  "We support your incredible efforts to save this calf! Kudos to your dedicated and hard working team. This is a round the clock effort. Incredibly proud of the work you are doing! Keep it up crew!" - Nancy C.  To support Tyonek and our other Wildlife Response patients, donate here. 11/15/2017 Tyonek is now in our outdoor pool. Only after slowly acclimating the beluga to colder water temperatures in our I.Sea.U unit, was our team able to transition him outside. He is handling the climate change well. 11/12/2017 Tyonek is now exclusively on bottles! Initially, he was not strong enough to take in the necessary daily calories through just a bottle so we had to supplement his diet with tube feedings. Thanks to the efforts of our staff and partners, this little calf has recovered enough to successfully participate in all of his bottle feedings. Georgia Aquarium, Mystic Aquarium, SeaWorld, Shedd Aquarium, Vancouver Aquarium. 11/05/2017 Marc Lester, from Alaska Dispatch News wrote this article about Tyonek, the Cook Inlet beluga calf here at ASLC. Read the story here. 11/05/2017 Tyonek's rehabilitation has progressed enough that we are introducing him to our outdoor pool in short intervals. We want to slowly acclimate him to the cooler temperatures beluga's are accustomed to. For now, his outdoor time will vary from day to day. 11/03/2017 Check out this video to learn more about how the beluga team assesses Tyonek's health!  10/26/2017 Check out this video to learn more about what goes in to caring for a stranded beluga calf. We could not do this without the help of our dedicated partners: Georgia Aquarium, Shedd Aquarium, SeaWorld, Mystic Aquarium, and Vancouver Aquarium. This little cetacean is still in our I.Sea.U and is currently not viewable to the public. We will keep you updated when this changes. Thank you for your patience and support! 10/24/2017 BELUGA UPDATE! There are various tests and check-ups our staff regularly conducts on this little beluga calf to gauge his condition. One thing we do is collect thermal imagery from a FLIR camera to keep track of any sore muscles or other soft tissue injuries. In this particular image it looks like his only current “hot spot” is from his eye, which is normal. No other sources of heat are obvious which is good since it means no infections or injured muscles are in the pictured area.      

Seward, AK (October 3, 2017)-The Alaska SeaLife Center (ASLC) received a stranded male beluga whale calf from Cook Inlet on Saturday, September 30. The solitary animal, estimated at two to four weeks old, was found stranded near Trading Bay in western Cook Inlet. The calf was first spotted from a helicopter by a National Oceanic and Atmospheric Administration Office of Law Enforcement (NOAA OLE) Enforcement Officer and Department of Public Safety / Alaska Wildlife Troopers Pilot returning from a patrol in trooper helicopter “Helo 3.” No adult belugas were seen in the area. Under authorization from NOAA Fisheries’ Marine Mammal Health and Stranding Response Program (MMHSRP), the NOAA enforcement officer and the Alaska Wildlife Troopers pilot attempted unsuccessfully to encourage the animal back in the water. NOAA helped coordinate with Helo 3 to transport an Alaska SeaLife Center veterinarian working in the area to the site to assess the animal's condition. A decision was made to transport the beluga calf to Anchorage for subsequent transfer to the Alaska SeaLife Center in Seward.                      “The rescue and recovery of this animal would not have been possible without the support of the Alaska Wildlife Troopers aviation section pilot,” said NOAA Law Enforcement Officer Noah Meisenheimer. “He was willing to re-configure space on the aircraft to accommodate the beluga calf, and once on the ground in the Department of Public Safety hangar at Lake Hood, we were able to keep water on the calf inside the hangar until the Alaska SeaLife Center transport team arrived.” The calf is currently receiving treatment in the Alaska SeaLife Center’s I.Sea.U. “The calf appeared to have been stranded for several hours and was in a weakened condition; without evidence of major physical trauma. He is able to swim on his own and is breathing regularly, which are very positive signs. However, there are tremendous hurdles ahead. Because this animal is extremely young, there is a high risk of complications,” said Dr. Carrie Goertz, DVM, ASLC Director of Animal Health. When the 162-cm-long (64-inch) calf was brought to the Center, it weighed 64.5 kilograms (142 pounds). The calf is currently being fed every two hours with an electrolyte solution and dilute formula. Beluga whales exist in five distinct populations in Alaska. This calf is from the Cook Inlet population, which is listed as endangered under the Endangered Species Act. The Alaska SeaLife Center is the only permitted marine mammal rehabilitation center in Alaska, responding to stranded wildlife such as sea otters, harbor seals, and whales. The Center's Wildlife Response Program responded to this Cook Inlet beluga whale stranding under authorization from NOAA Fisheries. Once a stranded marine mammal is admitted to the ASLC, it receives care from our experienced and dedicated veterinary and animal care staff. Currently the Center is caring for six patients: two harbor seals, two sea otters, a walrus calf and the beluga calf. The Alaska SeaLife Center operates a 24-hour hotline for the public to report stranded marine animals, and encourages people who have found a stranded or sick marine animal to avoid touching or approach­ing the animal. Call first! 1-888-774-SEAL. 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. The ASLC is an accredited member of the Association of Zoos and Aquariums. To learn more, visit www.alaskasealife.org.  About NOAA NOAA's mission is to understand and predict changes in the Earth's environment, from the depths of the ocean to the surface of the sun, and to conserve and manage our coastal and marineresources. Join us on Twitter, Facebook, Instagram, and our other social media channels. To learn more, visit  https://alaskafisheries.noaa.gov/ NOAA Fisheries statewide Alaska Marine Mammal Stranding Hotline number is 877-925-7773. High resolution photos and full story available from media@alaskasealife.org or 907-422-7075.

          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('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() Talking with Kathy, Yosty learned that the common murres in the Gulf of Alaska were starving during this period of uncharacteristically warm water. This common murre die-off event was very puzzling for scientists because there was not a clear reason as to why the birds were behaving abnormally. If the birds were not getting enough food, there must be something in the Gulf of Alaska impacting the food chain. Scientists study all levels of marine food webs, beginning with the organisms at the base — the plankton. Plankton are a diverse group of living organisms that spend at least part of their life floating through the water column, unable to swim against the current. Plankton consist of both plants and animals and help to form the base of the marine food chain. Every organism that relies on the ocean for food depends on an adequate supply of plankton to keep the ecosystem properly fed. Even animals that don’t eat plankton themselves, like the common murres, require enough healthy plankton to feed the fish and invertebrates that they prey upon. So, if the common murres were starving, causing them to move close to shore and inland to search for food, and dying in large numbers, there might be some evidence that maybe something was different about the amount or types of plankton in the Gulf of Alaska those years. Following this lead, Yosty moves forward in the investigation by questioning Gulf Watch scientist Sonia Batten, who specializes in monitoring plankton populations to understand what had been happening at the base of the Gulf’s food chain that might have been related to the murre die-off. Watch the video below to hear what Sonia has observed with the plankton in the Gulf of Alaska. VIDEO: Sonia Batten and Plankton Sonia Batten describes her observations of plankton in the Gulf of Alaska. (4:17) Video Transcript Narrator: Hmm… It all seemed to go back to the murres’ food chain. Why did these seabirds starve to death? Was something wrong with their food source? Yosty needed to start at the bottom of the food chain. She needed to talk to Sonia Batten, A Gulf Watch scientist monitoring plankton in the Gulf of Alaska. Yosty: Hi Sonia, what evidence do you have that 2014-2015 were unusual times for plankton in the Gulf of Alaska? Sonia: We’ve been looking at plankton in the northern Gulf of Alaska since 2000, so we have quite a long time series now. We look at the plankton from spring through fall of each year. We noticed in 2014 and then again in 2015 that there was something unusual happening, and we were kind of expecting it because we knew that the waters offshore were really warm from the end of 2013 through the next two years (really unusually warm, and it’s been called “the blob” by some people). So we were expecting to see something unusual. What we typically see in the plankton… There are two types of plankton. There’s the plant plankton and those are little tiny single-celled plants that float around and take the sun’s energy to grow – and they typically get blooms of those in the spring because there’s lots more sunlight in the spring, there’s lots of nutrients from the winter storms that have been mixed up, and it starts warming up. All those things are really good for them to grow, so we typically see those take off in the spring. And then as they grow they get eaten by the animal plankton and their numbers die back a little and they run out of nutrients and so on, so there’s lower levels of them through the summer. And then sometimes in the autumn we get another bloom because we get a few storms come in and mix things up again and give them more nutrients. That’s the typical pattern. What we saw in 2014 was we didn’t see anywhere near as many of those plant plankton as normal, and we saw big numbers of very small animal plankton that were around. It was quite unusual – we hadn’t seen anything quite like that in the whole 50 years of sampling that we’ve done. Yosty: What impacts could this have on the rest of the Gulf? Sonia: It’s still a question we’re working on. Plankton support everything in the ocean. All of the fish and mammals either feed on plankton themselves, or they feed on something that’s been eating plankton already. If there’s not so many of one type of plankton that might be bad, but there were quite a lot of animal plankton around so there obviously eating something. They may be eating something that we don’t see… One of the things we saw was that the types of plant plankton were slightly different: there were more of the smaller type of cell that are longer and thinner. Those cells typically do better in years when there’s not so many nutrients around, because they find it’s easier to take the nutrients up. It’s possible that those are not such a good food source for some of the animal plankton, or maybe the animal plankton weren’t finding as much of what they wanted and in turn that could mean that there’s not enough animal plankton for the fish and seabirds and mammals. But we still don’t really know – those kinds of patterns take a long time to be revealed. Yosty: Kathy mentioned something called domoic acid and its potential to impact seabirds. How is this related to the plankton that you’ve been studying? Sonia: Some phytoplankton – that’s the plant plankton – can produce a toxin called domoic acid. They don’t necessarily produce it over time, sometimes they produce it as a response to a stress in their environment. One of those stresses could be being eaten, so they produce it to put off zooplankton from eating them. There were reported instances of domoic acid in Alaska, and actually through a wide area of the North Pacific a lot of places were reporting it. Although the plankton have evolved to deal with the domoic acid that’s produced by the phytoplankton when other animals eat the zooplankton they concentrate the toxin, and as you go up the food chain the poison gets concentrated and it can potentially cause problems in larger animals that never ate plankton themselves but have eaten other organisms that have concentrated it. So it’s one explanation for why some of the seabirds may have been struggling in that year.   Plankton are considered one of the environmental drivers, so they’re the link between what happens in the ocean – in terms of water chemistry, temperature, the water conditions – and the fish, because plankton respond to their environment really quickly, and fish feed on plankton and larger organisms feed on fish, so the plankton are the link between the oceanography and the fish. We know that plankton respond really quickly because they have life cycles that are really short, sometimes even days, but all of them less than a year or at least a year is the longest life cycle. So if changes happen in their environment they respond quite quickly, and you can see that in changes in their numbers, and the types of plankton and where they’re at. So by monitoring them it gives you a really rapid response to a change in the environment. In the early part of the twentieth century in the UK, it was kind of hard to know where to send the fishing boats, you know, where they were going to find the herring, and Alister Hardy invented this instrument that could be towed behind ships, measuring the plankton, and it’s called the continuous plankton recorder. Continuous because, rather than taking a sample as a snapshot across, it continuously samples the plankton as it goes. His idea was that if you could understand the food of the herring, the food of the fish, maybe you could predict where they were going to be and then send the fishing boats there. You would build a map, a bit like a weather map, of where plankton were and when they were, and then you could send the fishers. So that was his idea, back in the early part of the early part of the twentieth century. And it took a few years to get routine, but from the 1930s onwards they were using this instrument to do that – to build up a picture of plankton meteorology, basically.         Who is watching the Blob?   Abnormally (adv): different from what is normal   Diverse (adj): a lot of variety   Invertebrate (n): an organism lacking a backbone   Organism (n): an individual life form   Phytoplankton (n): freely floating, often minute plants that drift with water currents   Productive (adj): producing enough energy to sustain life   Zooplankton (n): freely floating animals that drift with water currents  

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('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() animatedcollapse.addDiv('C', '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()   While talking with Yosty, Sonia mentioned a lot of important processes that happen in the Gulf over the course of the year and described what was different during these strange years. During periods of warmer than average water offshore, species of phytoplankton that were indicators of lower nutrient conditions in the Gulf began to make up a large part of plankton blooms in the Gulf of Alaska. Some incidences of species of phytoplankton that can produce harmful toxins were reported in Alaska during those periods. If toxic phytoplankton were consumed by zooplankton, this could impact the higher levels of the food chain of the Gulf of Alaska. Sonia also pointed out that she expected the abnormally warm water that began at the end of 2013 to have an impact on the plankton, and did it ever! Picking up these clues, Yosty digs even deeper into the oceanic conditions in the Gulf when water temperatures were higher than average by talking to Seth Danielson, an Oceanographer with Gulf Watch Alaska. Watch the video below to hear about the ocean conditions Seth has observed in the Gulf of Alaska. VIDEO: Seth Danielson and Ocean Conditions Seth Danielson describes his observations of recent ocean conditions in the Gulf of Alaska. (4:28) Video Transcript Narrator: Okay, so clearly something was really different during these years and it affected the whole system. The clues led Yosty to talk to Seth Danielson, a Gulf Watch oceanographer with the University of Alaska Fairbanks. Yosty: Hey Seth, so what do you mean when you use the term “oceanic conditions”? Seth: As oceanographers, we can measure the temperature and the salinity of the water column, and from temperature and salinity we can compute the water density. Just like warm air rises, the ocean is layered with colder, more dense water sitting below warmer and fresher waters near the surface. Yosty: Was there anything unusual about the oceanic conditions in 2015? Seth: 2015 was one of a number of years in a row where the ocean conditions in the northern Gulf of Alaska were particularly warm. We’ve been measuring temperature and salinity at the mouth of Resurrection Bay since 1970, and over the past 45 years we’re finding the warmest temperatures that we’ve ever seen. In the winter of 2013-2014, some scientists from Canada noticed that we had extremely strong temperature anomalies in the North Pacific. These were anomalies that were three to four standard deviations away from average, which is an anomaly that would happen once every couple thousand years if it was just a random event. So we assume that this is not just a random event, it’s been forced by something in the atmosphere. And through analysis of the sea surface data and our understanding of the weather patterns, we see that the North Pacific Ocean was able to retain a lot of heat in the last few winters, and that led to the creation of this “blob”. The blob is a feature that was created, in large part, by a lack of cooling during the winter months. Yosty: Anomalies? Deviations? Blob? Wait, did he say “blob”? Seth: An anomaly is a deviation from what we consider to be normal conditions. Cool anomalies are when the water is not as warm as we expect it to be. We had a prolonged period of cool anomalies in the early 1970s and another period of cool anomalies in the first decade of the 2000s. Interspersed between this long-term trend of warming over the Gulf of Alaska, we have periods of warm anomalies and cool anomalies. Often the warm anomalies are associated with events such as El Niño. That happened in 2015 for example: there was a large El Niño event. Yosty: How could this anomaly of warmer water – this “blob” – cause problems for animals living in the Gulf of Alaska? Seth: The temperature and the salinity both help regulate the “communication” of subsurface waters to the near-surface waters, and it’s the availability of nutrients and light up near the surface that make those waters productive for phytoplankton growth. By increasing our stratification – for example during years where it’s warmer than normal near the surface layers – you can cut down the communication between the subsurface waters and the near-surface waters, and that reduces the nutrient supply to the surface layers. So an increase of stratification would tend to reduce the amount of nutrients available for phytoplankton growth, and over the course of the last three years – 2014, 2015 and 2016 – we’ve seen stronger than average stratification across the Gulf of Alaska shelf. Below are two visuals of what Seth, and the other Gulf Watch Alaska Scientists, observed happening to the ocean conditions and organisms in the Gulf of Alaska. The first of two animations depicts what a normal calendar year looks like in the Gulf, while the second portrays how the Gulf was impacted by "The Blob". VIDEO: Normal Ocean Conditions Animation of oceanographic conditions in "normal" years. (4:47) Video Transcript As Yosty learned from Seth, the processes going on in the Gulf of Alaska can be quite complex. In the Gulf of Alaska during a normal cooling season from October to March, the water column is separated into an upper and lower section with a thermocline diving the two layers. Let’s pop over to the laboratories in the Alaska SeaLife Center to discover what a thermocline is. Hi everyone, and welcome to the laboratories here at the Alaska SeaLife Center. I’ve set up a quick demonstration to show you visually what a thermocline is. Bodies of water – like oceans or lakes – are broken up into layers, and these layers are determined by two different things: temperature and salinity. Variations in the temperature and salinity create variations in the density of water, and density is what determines whether some water will sink below or rise above other layers of water. Now warm water is generally less dense than cold water, which means that warm water will actually sit above cold water. And the area where the warm water and cold water meet – that’s called the thermocline. So the thermocline is just that layer between the two different densities of water. Have any of you ever jumped into a lake? If you have, when you were diving down deep – just a little bit below the surface – did you feel a large change in the temperature of the water? If so, then you’ve felt a thermocline! Over here, I have created a little demo to show us what that looks like. On one half of this container I have cool, blue water; and on the other half I have warm, red water. Now let’s watch what happens when I remove the divider and the two waters combine. As you can see here, the two layers of water are going to start to separate. And once they are separated this will be called “stratified” water. At the top we will have the warmer, less dense water; and at the bottom we will have the colder, denser water. And that purple layer that will form right in between? That will be the thermocline. So our thermocline is just the area of rapid transition between the two different layers. Now in bodies of water, the thermocline isn’t the only cline that exists. And that’s because there are many more factors that go into determining the density of water. For instance, in the ocean, salinity – or the salt content – actually plays a much larger role in determining density than does the temperature. Now these variations in density within the ocean actually drive a global pattern of ocean water mixing. And this global pattern of ocean mixing played a vital role in the cause and effect of the “blob”. So now back to our animation to learn just exactly what is happening in the Gulf of Alaska. As we begin the fall season, storms build, bringing with them a strong easterly wind, which causes a mixing effect in the water. As we take a closer look into the upper layer, we can see that important nutrients like nitrogen and phosphorus are delivered from the lower layer due to this strong mixing effect. Now we see a normal warming season. After the winter, the upper water layer is now rich with nitrogen and phosphorus. Combined with the increased amount of daylight, these increased nutrient levels create a phytoplankton bloom that depletes the surface nutrients by late spring. This abundance pf phytoplankton is met by an abundance pf zooplankton. Zooplankton feed upon the phytoplankton and recycle some of the nutrients back into the ocean. The abundance of phytoplankton and zooplankton allow for other animals in the Gulf to thrive. As zooplankton abundance increases, so does the abundance of fish in the Gulf that eat the zooplankton. Predators like common murres, marine mammals, and humans are then drawn into the Gulf to catch the abundant fish. As you can see, the nutrients that allow the phytoplankton to bloom are important for the health of the entire ecosystem. The unusual warming event in the ocean first detected at the end of 2014 was very different from the seasonal weather pattern of cooling and warming considered normal for the Gulf of Alaska. Watch the next set of animations below to observe the normal pattern of seasonal changes in the ecosystem that scientists have observed and what was different about the “blob” pattern and the effects it may have had on the Gulf of Alaska. VIDEO: Anomaly "Blob" Conditions Animation of oceanographic conditions in "Blob" years. (2:10) Video Transcript In the Gulf of Alaska, during a winter season with less-than-normal cooling, the upper water layer stays warmer than average leading to stronger separation between the upper and lower layers. During this period, there is a ridge of high pressure in the atmosphere that reduces the amount of winds in the winter leading to a weaker mixing effect between the lower and upper layers. Additionally, with less cooling there is glacial melt and river input into the Gulf year-round. This means that the upper water layer receives a lot of fresh water that is less dense than the salt water. Mixing between the upper and lower water layers weakens and the thermocline stratification of the water column strengthens, reducing the transport of nutrients from the lower to upper water layer. The lack of nutrient mixing over the winter leads to a nutrient-starved upper water layer in the spring. The lack of nutrients in the upper layer greatly reduces the bloom of phytoplankton. In 2014, 2015 and 2016 much of the phytoplankton left was a smaller, thinner variety that may have been less nutritious for the animal zooplankton that fed on them. This lack of nutrition would have worked its way up the food chain, with less nutritious plankton leading to malnourished and less nutritious forage fish – typically a large food source for marine birds like the common murre. A lack of these forage fish may explain the empty stomachs found by researchers examining the dead murres and why some murres were found inland. They may have been hopelessly looking for the food they weren’t finding in the ocean. The impacts of this unusually warm "blob" of water were not limited to the Gulf of Alaska. The blob was first seen along the coasts of California and Oregon, and the entire Northeast Pacific has been subject to its impacts. The Gulf Watch Alaska team has been able to piece together the mystery of these unusual events using the power of systems thinking. The lingering oil studies occur in western Prince William Sound, which is where the oil from the Exxon Valdez oil spill landed, and actually there’s still some oil out there today – small pockets of oil that’s buried in sediments on beaches, throughout western Prince William Sound. So that’s where the lingering oil issues are still important to track. From the USGS perspective, we’re looking at effects of that lingering oil on wildlife. So considering effects of exposure to that lingering oil, and also to understand what that might mean to individuals and populations of the wildlife that live out there. The main species that we’re thinking about in terms of lingering oil are harlequin ducks and sea otters, and that’s because there’s a long history of understanding that lingering oil’s been an important constraint on population recovery of those two species, and so we’ve spent a lot of time trying to understand the timeline and the mechanisms by which those species are recovering from the oil spill. We’ve measured exposure in a number of different ways. For example, with harlequin ducks we’ve used an enzyme called cytochrome P450 1A. It’s a long word basically for an enzyme that gets induced when any vertebrate’s exposed to hydrocarbons. So if you and I were exposed to oil, we would have an induction of that enzyme that would be measurable and then could tell us whether one has been exposed to that. The enzyme itself is part of a cascade of physiological processes that any vertebrate goes through once they’ve been exposed to oil. And it could be indicative of physiological harm, or it could be indicative of just exposure without physiological harm. So we’re not inferring harm from induction of the enzyme, what we’re inferring is that they’re still exposed to oil with the potential for harm.         Who is watching the Blob?   Abundance (n): the number of individuals per population or per species   Anomaly (n): deviation from normal conditions   Density (n): measure of mass per unit of volume   Downwelling/Upwelling (n): the downward (or upward) movement of fluid, especially in the sea   El Niño (n): large climate disturbances in the tropical Pacific Ocean that occur every 3-7 years and affect ocean water temperature patterns   Inorganic (adj): not made of living matter   Near-surface (n): layer of water that lies just beneath the surface   Salinity (n): the saltiness of a body of water, usually measured in parts per thousand (ppt) by weight   Standard deviation (n): a measure of how different a set of numbers are   Stratification (n): when water masses with different properties form layers that act as barriers to water mixing   Sub-surface (n): layer of water below the surface   Thermocline (n): transition layer or boundary between two water layers of different temperatures  

Seward, Alaska (January 24, 2020) – The Alaska SeaLife Center (ASLC) is pleased to announce the recipients of the 2020 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, Jason Brune, Lisa Busch, Dale Hoffman, Molly McCammon, Robert Suydam) for their assistance in selecting the award recipients. These awards will be presented at the in Anchorage Alaska Marine Gala on February 8 at the Dena’ina Center and/or at the Alaska Marine Science Symposium on January 27-31. The following are the 2020 Alaska Ocean Leadership Award winners: Molly McCammon will receivethe 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 individuals who have made exceptional contributions to the management of Alaska’s coastal and ocean resources for more than 20 years. Molly has worked tirelessly to promote the long term sustainability of Alaska’s coastal and ocean resources, and find creative solutions to meet the needs of Alaskans. Molly came to Alaska in 1973, first as a reporter covering a variety of natural resource issues, then homesteading in the Brooks Range, and later working in various fields in state government. Her service to marine conservation began in 1984 as a legislative aide working on the wild fishery stock priority policy and the new community development quota program. At the Alaska Department of Fish & Game, Molly worked on salmon management issues and on legislation strengthening Alaska’s response and prevention efforts following the Exxon Valdez oil spill. From there, Molly served as Executive Director of the Exxon Valdez Oil Spill Trustee Council for nine years. As Executive Director, Molly managed the largest research and monitoring program in the state, with one of her many accomplishments being the installation of annual, multi-disciplinary conferences focused on marine research. These conferences were initially funded by EVOS, and over time, have evolved into the annual Alaska Marine Science Symposium that continues today. Her leadership and work for the Trustee Council directly contributed to many significant research programs that provided a comprehensive understanding of marine ecosystems of Prince William Sound, creating a baseline for evaluation of any future oil spills as well as the dramatic changes in the ocean we are seeing now. In 2003, Molly organized and launched the Alaska Ocean Observing System where she continues to serve as its Executive Director.  Molly has direct involvement in the actual development and running of regional coastal and ocean observations systems. She has taken a leading national role in developing the Integrated Ocean Observing System on a regional level and established the national IOOS Association. Throughout her career, Molly has worked effectively for positive solutions that meet the needs of Alaskans, and, at the same time, foster the conservation and wise use of Alaska’s natural resources, especially its fisheries. Her contributions have made a lasting difference for marine conservation in Alaska. Alaska Wildland Adventures will receivethe 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. Since 1977 and under the leadership of Kirk Hoessle, Alaska Wildland Adventures has operated natural history tours exclusively in Alaska, providing high quality, interactive experiences in wild Alaska. At the heart of this company’s culture is the strong respect for the environment and unique native heritage of Alaska. AWA recently celebrated its 10th year of operation of the Kenai Fjords Glacier Lodge, which was born from a collaborative partnership with Port Graham Native Corporation. The lodge was created to support community goals of the corporation’s Native residents while also creating an environmentally-conscious lodge to host small groups of Alaskan tourists each summer. It is a solid example of positive stewardship and sustainability in Alaska, from its low impact construction methods, to working with local government agencies to create and maintain the Pedersen Lagoon Wildlife Sanctuary that protects native flora and fauna, to supporting the local marine community of Seward. Alaska Wildland Adventures puts a strong emphasis on hiring, shopping, and transporting locally which contributes to the sustainability of the Seward community. Dr. Switgard Duesterloh 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. Dr. Switgard Duesterloh created the Ocean Science Discovery Lab in Kodiak in 2009 and has run several programs for students grades 3-12. She offers science summer camps in Kodiak Island villages and in the city of Kodiak. Her programs include a diverse study of marine biology from food webs to sea otter ecology to sea star experiments, dissections, oil spill history and response, various oceanography experiments, and more. Dr. Duesterloh is inclusive and creative with her students. During the past year she has partnered with the Island Trails Network, a local nonprofit that does beach cleanups throughout Kodiak. She works tirelessly to raise awareness of the problems associated with plastic pollution. Currently, she is organizing a spring Whale Festival, a program inviting the community to partake and recognize Kodiak’s unique position in whale migrations. She also writes a column in the Kodiak Daily Mirror, educating the community about life in the ocean. This year, the Awards Committee named two recipients for the Marine Research Award: Carin Ashjian and the Alaska Beluga Whale Committee.  This award issponsored 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. Carin Ashjianhas contributed important insights to marine research and significantly advanced leadership in shaping marine science programs in the Arctic and Bering Sea for the past two decades. Her substantial expertise in oceanography, zooplankton ecology, and biological-physical interactions focusing on Arctic and sub-arctic regions has advanced our understanding of these systems, and how lower trophic levels respond to the physical environment and connect to higher trophic levels. One specific example of her boundary-straddling work is her decade-long work around UtqiaÄ¡vik where she and her colleagues Steve Okkonen and Bob Campbell focus on the oceanographic mechanisms that produce a favorable feeding environment for bowhead whales, a species of imminent subsistence and ecological value. Carin has worked to communicate the results of her research to Alaskan coastal communities and local hunters. Carin has been published in top-ranking journals and has made continued significant contributions to Arctic and sub-arctic marine science. That her work and expertise is well-known and important beyond regional scales is exemplified by her involvement in international programs, most recently the interdisciplinary MOSAiC program that explores Arctic processes throughout an entire year on a ship-based platform frozen into the sea ice. The Alaska Beluga Whale Committee (ABWC) serves as the co-management partner with the National Oceanic and Atmospheric Association for four stocks of belugas in western and northern Alaska. Since its creation in 1988, the committee has encouraged and promoted the conservation and informed, sustainable management of beluga whales through collaboration of Alaska Native subsistence hunters, biologists, and agency managers. They have initiated and continue management of this important resource and conduct scientific research on belugas to address management needs. At the time the ABWC was formed, there was little precedent for hunters and scientists working together. Now the committee brings representatives from beluga hunting communities in Alaska; local, state, tribal and federal governments; and beluga researchers together to discuss management and conservation issues, the biology of belugas, and the needs for additional information. Because of this committee, there is now information on the annual harvest of belugas since 1988, population estimates, satellite tracking of belugas, and sampling for genetics from approximately 2,500 beluga whales. The information and transparency shared by the ABWC provide assurances to Alaska, the U.S., and the international community that belugas in western and northern Alaska are being well managed.  Fran Ulmeris this year’s recipient of the Ocean Ambassador Award. The Ocean Ambassador Award recognizes an individual or organization that has made outstanding contributions in promoting public awareness and appreciation of Alaska’s oceans, coasts, and marine ecosystems. Fran Ulmer’s legacy of public service spans over 40 years and is still going strong. Her achievements reflect an exceptional contribution to management of Alaska’s coastal and ocean resources, a commitment to community, and first-hand appreciations for Alaska’s unique people and resources. Fran has had a significant impact in terms of coastal and ocean public policy. As the first director of the Alaska Coastal Policy Council, she was instrumental in the early formation and development of Alaska’s coastal management program. As a mayor, legislator, and lieutenant governor, she advocated for responsible use of the marine environment by Alaska’s growing tourism and cruise industry, as well as commercial and recreational fisheries. She was a strong voice for the careful management of Pacific Ocean fisheries as a commissioner on the North Pacific Anadromous Fish Commission for over a decade. Her advocacy for enhancing relevant science and policy research as Chancellor of the University of Alaska Anchorage continues beyond Alaska, as a Visiting Professor at Stanford and now a Senior Fellow at Harvard. As chair of the U.S. Arctic Research Commission, she has ensured that the U.S. maintains a strong focus on marine research and has built collaborations with other nations across the Arctic to ensure that activities in the Arctic are conducted in an environmentally sustainable manner. Fran lectures internationally about the rapid changes happening in the Arctic, why people everywhere should care, and why conservation of our oceans is essential to everyone’s wellbeing. 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.

The Alaska SeaLife Center is pleased to announce the recipients of the 2022 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, Dale Hoffman, Molly McCammon, Lynn Palensky, Robert Suydam) for their assistance in selecting the award recipients. These awards will be presented at a virtual event on March 31.           Dr. Robert Suydam, Ph.D., will receive the prestigious Walter J. and Ermalee Hickel Lifetime Achievement Award. The late Governor Walter J. Hickel and the late Ermalee Hickel endowed this award for 10 years to recognize individuals who have made exceptional contributions to the management of Alaska’s coastal and ocean resources for more than 20 years. Senior Wildlife Biologist Dr. Robert Suydam’s three decades of research on bowhead and beluga whales as well as his deep involvement with co-management and Alaska Native organizations represents a truly exceptional contribution to the management and science of Alaska’s marine mammal resources. Robert has published well over 200 peer-reviewed papers and technical reports throughout his tenure at the North Slope Borough Department of Wildlife Management on a wide range of species and topics. In addition, he has served on multiple advisory panels and boards that have greatly advanced understanding of the Arctic and Sub-Arctic marine environment, including Science Advisor to the US Marine Mammal Commission, member of the National Research Council, Fellow of the Arctic Institute of North American, member of the Alaska Beluga Whale Committee, advisor to the Alaska Eskimo Whaling Commission, and member of the International Whaling Commission Scientific Committee. Moreover, Robert has worked closely with the oil and gas industry in Alaska to ensure that the implementation of sound science-driven policies related to offshore exploration and development facilitated the protections of the arctic environment and fauna potentially impacted by development. One of Robert’s more important and unique achievements has been his long and consistent involvement advancing the use of traditional knowledge in scientific research and management. Robert has been a strong and articulate advocate for Alaskan Native subsistence rights to harvest marine mammals and feed their communities with traditional foods and for high-quality arctic marine science and has worked with North Slope Borough, Alaskan Native, state, federal, and international organizations to ensure that sound science is used to develop marine policy.   Jim Pfeiffenberger 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. National Park Service Education Coordinator Jim Pfeiffenberger has done an extraordinary job connecting students and adults of all ages to the wonders, mysteries, challenges, science, and stewardship of Alaska’s marine and coastal ecosystems. From teaching in classrooms located in remote or rural Alaska communities, in-person programs along coastlines or from ships, to virtual and online platforms when the need arose, Jim has embraced every opportunity to connect students to the marine environment, the science that helps to inform its stewardship, management and protection, as well as doing the hard work of cleaning it up. Jim has designed innovative and engaging media that has connected people to Alaska’s eleven coastal parks and their diverse and critically important resources. He has thrived working as the Education Coordinator for the Ocean Alaska Science and Learning Center, co-located at Kenai Fjords National Park. Jim has made marine science, ecosystems, and stewardship relevant, meaningful and inspiring for students from K – 12 and beyond, including mentoring college students completing media development internships focused on the work, management, and stewardship of Alaska’s coastal parks and partners. Jim’s professional delivery of education in the field of marine science and outreach has been transformational—shifting the first impressions of students, teachers, and visitors into knowledge and ultimately, into care.   Dr. Tuula Hollmén, D.V.M., 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. Hollmén’s career reflects three decades of work on seabird ecology and epidemiology, including twenty years of focus on the threatened Steller’s eider. She applies her veterinary and biology training to a broad portfolio of fieldwork, laboratory analysis, modeling, and teaching. She currently holds positions as a Senior Research Scientist at the Alaska SeaLife Center and as a Research Associate Professor at the College of Fisheries and Ocean Science and the Center for One Health Research at the University of Alaska Fairbanks. She served as the Science Director at the Alaska SeaLife Center (2010-2015) as well as the Eider Program Manager (2002-2020). She is a member of the U.S. Fish and Wildlife Service’s Spectacled and Steller's eider recovery teams, and was the chair for the Steller’s Eider reintroduction committee. She also found time to sit on the North Pacific Research Board Science Panel from 2011 to 2019, serving as Vice Chair from 2014 to 2019. Dr. Hollmén and her team successfully established a captive breeding flock of endangered Steller's eiders at the ASLC to serve as one of the main routes for potential re-introduction of to the wild. Prior to Dr. Hollmén's research at ASLC, Steller’s eiders had never successfully bred in captivity in North America. Most recently, her research has provided groundbreaking insights to the impacts of climate change on Arctic lagoons with real-time implications for marine species conservation efforts.   Ward Cove Dock Group and Norwegian Cruise Line will jointly receivethe 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 Mill at Ward Cove is a partnership between Ward Cove Dock Group, LLC and Norwegian Cruise Line Holdings Ltd. that has built a two-berth, floating cruise ship dock and corresponding Welcome Center and Passenger Transit Facility in Ward Cove, near Ketchikan. When the Ketchikan Pulp Mill closed, Ward Cove was found to be contaminated with fuels, paints, and heavy metals as well as large quantities of sunken longs which affected the health of all local marine life. Ward Cove was then declared a Superfund site under the Comprehensive Environmental Response, Compensation, and Liability Act and was remediated with institutional controls under the oversight of the Environmental Protection Agency and the Alaska Department of Environmental Conservation. Under the leadership of John Binkley and Dave Spokely, a plan was created to responsibly repurpose this area, which resulted in an innovative design and construction of the largest cruise ship dock in Alaska. This project has transitioned a decaying brownfield site into a place the community takes pride in once again. The advanced design of the dock required fewer pilings to be drilled into the ocean floor, reducing impact on the sand cap. Additionally, the unique construction techniques preserved the sensitive marine environment. Today, with ongoing monitoring, the marine life is thriving in Ward Cove, and Ward Cove Dock Group is committed to preserving this sensitive environment into the future.   Elin Antaya will receive the Hoffman-Greene 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. Juneau Douglas High School Senior Elin Antaya cares about our planet and ocean. Elin is currently working in a University of Alaska Fairbanks (UAF) laboratory in Juneau helping to support research on harmful algal blooms and ocean acidification monitoring. Elin is a 4.0 student and has participated in the National Ocean Sciences Bowl all four years of high school. Last summer she held a Hutton Junior Fisheries Biology Program Internship funded by the American Fisheries Society where she worked closely with graduate students and faculty from the UAF conducting field and laboratory research. Elin collects old buoys and repurposes them with Alaskan ocean themed art, with the motivation to share Alaska’s diverse marine habitats and honor the diverse fishers and vessels who navigate and enjoy the bounty of our oceans. Elin not only expands on her own scientific knowledge, but also has a vested interest in public scientific education and shows understanding and ability to disseminate complex ecological processes. She has co-published opinion articles in the Juneau Empire and Pacific Fishing explaining the roles that sea otters play in marine ecosystems. Whether she is leading squid dissections with elementary students, saving halibut heads for otolith removal, or picking up workdays at the local oyster farm, Elin continues to share the intrigue of marine organisms with the next generation of researchers. She has applied for and been accepted to many outstanding universities including UAF, Colorado College, UC San Diego, Hawaii Pacific, Quest and Cal Poly Humboldt to study ocean and marine science to continue her desire to be find solutions for the future health of our marine environments. Elin is also an elite dancer, president of the Nordic Club, member of the National Honor Society, and an employee of Salty Lady Seafood Co.     Richard Hocking is this year’s recipient of the Ocean Ambassador Award. The Ocean Ambassador Award recognizes an individual or organization that has made outstanding contributions in promoting public awareness and appreciation of Alaska’s oceans, coasts, and marine ecosystems. Richard’s passion for the ocean defined his work and his life. He spent 45 years working in the marine science field, beginning with the Seattle Aquarium, Point Defiance Zoo and Aquarium, and the Alaska SeaLife Center. Richard served as the Center’s Aquarium Curator from 1998 until his passing in November 2021. Richard was known as one of the most hands-on curators in the building, including designing exhibits, checking water quality, managing permits, and diving for collection trips, all while leading the Aquarium Division for twenty-three years. Richard became widely known as ASLC’s resident nutritionist, and he understood the intricate diets of animals ranging from the smallest sea star to the largest Steller sea lions. His knowledge of marine animal biology and husbandry was unmatched. He co-authored papers ranging trophically from monogenean fish parasites to centuries-old elasmobranchs, and is a widely acknowledged contributor to dozens of research publications and projects. Richard sought out and promoted opportunities for ASLC staff to take part in professional growth opportunities, ensuring that ASLC’s animal care teams remained highly skilled. One of the many activities Richard led was the monitoring for marine aquatic invasive species in Resurrection Bay. Since 2009, Richard has guided ASLC staff and interns in evaluating the health of the bay by surveying the habitat year-round for European green crab, tunicates, and other invasive species and sharing these findings with the Invasive Species Program at the Alaska Department of Fish and Game. Richard lent his expertise to marine-oriented organizations and activities in the Seward area, including the Alutiiq Pride Shellfish Hatchery and the Seward Chamber of Commerce Seward Silver Salmon Derby, where he served as the expert fish authority, placing his verification stamp on the winning salmon each year. He strived to educate and motivate the next generation of ocean stewards by assisting in the Center’s after-school Ocean Sciences Club, as a judge during the Alaska National Ocean Sciences Bowl, as a graduate committee member for Alaska Pacific University graduate students, and as an unofficial advisor for every scientist that worked at ASLC. Richard manifested a lifelong stewardship for the ocean and its inhabitants that he expressed through a lifetime of daily acts of service. Richard leaves a legacy of a life led by example, motivated by an enduring belief that ocean life could be used to convey the extraordinary richness of biological diversity, and further, that knowledge of the oceans could be used to spark wonder and inspire others to action.   Congratulations to this year's winners!   

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()         Many of the species of birds, mammals, and fish that live in Prince William Sound hunt for food far from shore. Gulf Watch Alaska scientists are working hard to understand the productivity of these offshore areas. But it’s more than just learning how much food is available. Understanding what might cause the amount of food to change from year to year can help scientists predict impacts on the animals that depend upon offshore resources of the Gulf of Alaska. Productivity is influenced by a lot of factors: temperature (both air & water), salinity, tides, currents, rain, wind, the sun, water turbidity and, especially, the amount of plankton. These factors are also called environmental drivers and drivers are key indicators of the overall status of the Gulf of Alaska. Five Gulf Watch Alaska projects are collecting long-term physical and biological data. Several of the Environmental Drivers projects even pre-date EVOS. Some already have up to 30 years of data! Scientists are using this data to answer the following questions: • How exactly does the Gulf of Alaska ecosystem function? • What are the climate trends? • What is the influence of environmental drivers on the recovery of species impacted by the oil spill? Click on the images below to learn about the tools that researchers use to sample environmental drivers. Monitoring marine plankton is central to the Environmental Drivers research. Phytoplankton are the primary producers of the sea. Just like larger plants, they convert sunlight and carbon dioxide into energy. Zooplankton are the primary consumers of the sea. They feed on the phytoplankton. Zooplankton are a critical food source for a lot of marine animals. Watch the video below to learn more about plankton! VIDEO: Introduction to Plankton "Plankton" (on Vimeo). Plankton are a multitude of living organisms adrift in the currents. Our food, our fuel, and the air we breathe originate in plankton. From the Plankton Chronicles series by Christian Sardet (CNRS), Sharif Mirshak and Noé Sardet (Parafilms). (2:02) Video Transcript “Plankton” comes from the Greek word planktos, which means “wandering.” Any living creature carried along by ocean currents is classified as plankton. It ranges in size from the tiniest virus to siphonophores (the longest animals in the world) and also includes microscopic algae, krill or fish larvae. Some plankton, like these salps, drift all their lives; others, like mollusks and fish, are only planktonic during their embryonic or larval stage. When they reach adulthood, they settle or swim freely. Planktonic organisms play important roles in human life. Many microscopic species get their energy from photosynthesis. They absorb carbon dioxide and produce oxygen; thus, they constantly renew the air we breathe. Plankton has also been a great provider of fossil energy. When it dies it sinks to the sea bed. This layer of sediment has fossilized for more than a billion years, producing our precious oil. Finally, plankton nourishes us. It’s the basis of the food chain, in which the large eat the small. Without plankton there would be no fish. Scientists are using Environmental Drivers’ data to find answers to vital questions such as: • How do springtime conditions in the Gulf of Alaska influence the phytoplankton bloom? • How does this bloom of phytoplankton affect the numbers and location of zooplankton from year to year? The Continuous Plankton Recorder (CPR) is a tool made to sample plankton from ships sailing across the Gulf of Alaska. A CPR is designed to be towed from merchant ships as they follow their scheduled routes. These ships are not research vessels, but they use CPR instruments during their voyages to help researchers gather data. The cargo vessel Horizon Kodiak is one ship that tows a CPR northbound towards Cook Inlet about once a year. View the video below to discover more about the benefits of using CPR on vessels like the Horizon Kodiak. VIDEO: Continuous Plankton Recorder Sonia Batten describes the use of Continuous Plankton Recorders in the Gulf of Alaska. (1:53) Video Transcript Plankton are considered one of the environmental drivers, so they’re the link between what happens in the ocean – in terms of water chemistry, temperature, the water conditions – and the fish, because plankton respond to their environment really quickly, and fish feed on plankton and larger organisms feed on fish, so the plankton are the link between the oceanography and the fish. We know that plankton respond really quickly because they have life cycles that are really short, sometimes even days, but all of them less than a year or at least a year is the longest life cycle. So if changes happen in their environment they respond quite quickly, and you can see that in changes in their numbers, and the types of plankton and where they’re at. So by monitoring them it gives you a really rapid response to a change in the environment. In the early part of the twentieth century in the UK, it was kind of hard to know where to send the fishing boats, you know, where they were going to find the herring, and Alister Hardy invented this instrument that could be towed behind ships, measuring the plankton, and it’s called the continuous plankton recorder. Continuous because, rather than taking a sample as a snapshot across, it continuously samples the plankton as it goes. His idea was that if you could understand the food of the herring, the food of the fish, maybe you could predict where they were going to be and then send the fishing boats there. You would build a map, a bit like a weather map, of where plankton were and when they were, and then you could send the fishers. So that was his idea, back in the early part of the early part of the twentieth century. And it took a few years to get routine, but from the 1930s onwards they were using this instrument to do that – to build up a picture of plankton meteorology, basically.         Who is watching the Gulf?   Biological (adj): pertaining to the science of life or living matter   CTD (n): acronym for Conductivity, Temperature, Depth. An oceanography instrument that records the salinity (conductivity) & temperature at a prescribed depth of seawater   Consumer (n): a living thing that eats other living things to survive. It cannot make its own food.   Buoy (n): a fixed-in-place, floating device that can serve many purposes in the sea. The GAK1 Data Buoy is fitted with many different oceanographic instruments.   Physical (adj): pertaining to the properties of matter and energy other than those distinctly related to living matter   Phytoplankton (n): freely floating, often minute plants that drift with water currents   Plankton (n): organisms that swim weakly, or not at all, and drift with water currents   Primary producer (n): an organism that makes its own food from light energy or chemical energy   Salinity (n): the saltiness of a body of water   Zooplankton (n): freely floating animals that drift with water currents  

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 

Seward, Alaska (February 8, 2018) – The Alaska SeaLife Center (ASLC) is pleased to announce the recipients of the 2018 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, Lisa Busch, Ian Dutton, Dale Hoffman, and Molly McCammon for their assistance in selecting the award recipients. These awards were presented at the Alaska Marine Gala on February 3, 2018 at the Dena’ina Center in Anchorage, Alaska. The following are the 2018 Alaska Ocean Leadership Award winners: Mead Treadwell received 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 individuals who have made exceptional contributions to the management of Alaska’s coastal and ocean resources for more than 20 years. Mead Treadwell has been one of the most influential Alaska ocean leaders of the past 30 years. From his early career experience responding to the Exxon Valdez oil spill on behalf of the City of Cordova and as Deputy Commissioner of the Alaska Department of Environmental Conservation, to his service on the boards of the Oil Spill Recovery Institute and the Prince William Sound Science Center, and to his more recent roles as Chair of the United States Arctic Research Commission, Lieutenant Governor of Alaska, and as a business leader catalyzing international fisheries partnerships, Mead has demonstrated remarkable vision and helped ensure a strong science and education base for ocean management in Alaska. He has also been a leader in Alaska’s efforts to build circumpolar cooperation through the Arctic Council and through his active involvement in numerous Arctic policy-focused organizations including the Institute of the North, the Aspen Institute, the Hoover Institution at Stanford University, the Arctic Circle, and the World Economic Forum’s Global Action Council on the Arctic. He is always open to work with diverse stakeholders and has been a proactive supporter of innovation and pan-Arctic partnerships. Mead has been a tremendous advocate for our oceans and champion for Alaska’s ocean industries, ocean dependent communities and ocean research and education institutions. Major Marine Tours received 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. Major Marine Tours applies environmentally friendly practices, by using environmentally friendly cleaning solutions on their vessels and by outfitting their vessels with emission reducing and fuel saving engines. In 2016, owner Tom Tougas was awarded the Business Energy Efficiency Leader of the Year Award from the Seward Alternative Energy Group. A current member of the Board of Directors of the Alaska SeaLife Center, Tougas invites guests to donate to the ASLC at the time of booking to raise funds for their Wildlife Response Program. They also conduct other fundraisers, and have assisted the ASLC in the release of rehabilitated wildlife from their vessels. Major Marine Tours is an active participant in Whale SENSE, a voluntary education and recognition program, committed to responsible whale watching practices. Major Marine Tours also partners with the National Park Service and the National Forest Service to promote environmental education through their onboard Park Range narration and Junior Ranger Program, helping guests from all over the world learn about how to better care for our marine environment and coastlines. Kyrstyn Kelly received 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. As a freshman at Colony High School, Kyrstyn joined the Alaska Youth for Environmental Action (AYEA) to learn about ways to advocate for Alaska’s environment. In 2015, she was an intern for the Center for Alaska Coastal Studies in Homer, where she gained experience working in the fields of environmental education and environmental science. At the Center for Alaska Coastal Studies, she helped with research, tours, and other aspects of protecting our oceans. Kyrstyn is a member of the board of the Alaska Center Education Fund. She is a passionate advocate for research and the health of our oceans and shows an eagerness to expand her understanding of marine and environmental issues. She has attended and presented at the Alaska Forum on the Environment for three years in a row. Last summer, Kyrstyn traveled to Washington, D.C. to meet with the Alaska delegation and urge funding for vital programs for our oceans and coasts including the Village Safe Water program. She has participated in the state Science Olympiad program in events such as ecology, hydrogeology, and invasive species. Kyrstyn is the Colony High School Senior Class Secretary, has been a member of the Key Club since her freshman year, and is an avid skier. Paula Cullenberg received 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. Paula Cullenberg is the Director of Alaska Sea Grant, a University of Alaska Fairbanks-NOAA partnership with offices across coastal Alaska. Paula has brought over 35 years of service, vision, and skill to Alaska, its coastal communities, and the marine resources we all depend on. Paula first came to the state in the late 1970’s serving as an observer on a Russian trawler in the Bering Sea. She then traveled to villages in western Alaska as the first extension agent for the Bering Sea Fishermen’s Association. She continued her career working as an aide for interior legislator Kay Wallis, as a subsistence advocate for the Tanana Chiefs Conference and as a Sea Grant Marine Advisory agent in Bristol Bay. At the University of Alaska, Paula directed the Fishery Observer Training Center at UAA and joined Alaska Sea Grant in 2002 working as a coastal communities specialist and ultimately director of the program. Paula has provided well-respected leadership of Alaska Sea Grant, whose passionate and talented Marine Advisory faculty and staff help Alaskans understand and responsibly use our marine resources. Paula established the Alaska Sea Grant State Fellowship program which links newly completed graduate students with state and federal agencies. In 2015, Paula worked to create the Alaska Maritime Workforce Development Plan for the State of Alaska. She has also initiated an innovative school grant program that has invested more than $100,000 in marine and watershed education programming in schools around the state. She and her family fish commercially in Bristol Bay and just completed their 30th salmon season last summer. Dr. John “Craig” George 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. A Senior Wildlife Biologist for the North Slope Borough, Craig George has lived in UtqiaÄ¡vik (formerly called Barrow) since the late 1970’s. His presence in the Arctic and among Iñupiat hunters and elders has given Craig a unique perspective that has been extremely helpful for wildlife conservation and for protecting subsistence hunting opportunities. Craig has helped establish a meaningful process where combining traditional knowledge and western science has improved our understanding and management of the Arctic environment. Craig’s studies, numerous publications, and technical reports have been especially helpful in managing the subsistence hunt of bowhead whales at local, national, and international levels. He has improved knowledge about many aspects of the biology of bowheads, including physiology, energetics, foraging, survival, and reproduction. Because of Craig’s commitment we know more about bowhead whales and how they use the ocean than just about any other marine mammal in the world. Craig’s most noteworthy contribution to biological science is providing evidence that bowhead whales live up to 200 years and are likely the longest-lived mammal. The son of a well-known children’s book author and a professor of Wildlife Management, Craig attributes his achievements by being persistent, working with a diverse group of people, being curious, and recognizing the value of local knowledge. V Rae is this year’s recipient of the Ocean Ambassador Award. The Ocean Ambassador Award recognizes an individual or organization that has made outstanding contributions in promoting public awareness and appreciation of Alaska’s oceans, coasts, and marine ecosystems. V Rae’s images at the Alaska SeaLife Center are not only gorgeous and captivating, they light the way for our deeper respect and love for Alaska’s marine animals. Her work adorns many homes and offices in Alaska and beyond. V’s overall impact is to inspire and excite all of us in our understanding, knowledge, and stewardship of Alaska’s living marine resources. But she is also a direct, fantastic benefactor to the Alaska SeaLife Center, by her many donations of breathtaking artwork for our Gala auction. Each year a portion of V’s work is dedicated to wildlife preservation efforts that protect and sustain the natural tension between subsistence and conservation unique to Alaska and Hawaii, as well as non-profit humanitarian outreach. 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.  

Fall 2025 Availability October 2-31: 2:30 pm Mondays, Thursdays, Fridays, Saturdays, Sundays Winter 2025 Availability coming soon Duration: Approximately 30-minute tour Maximum of 4 people per tour - Minimum age 10* Go behind the scenes in our aviary to meet our puffins and other resident bird species and participate in a feeding session with these remarkable birds. This tour includes walking and kneeling on uneven surfaces.  One Group Per Tour Group Size of 1-2 Guests: $289.95 Group Size of 3 Guests: $339.95 Group Size of 4 Guests: $389.95 Members get an additional 20% discount, buy your membership today and use the benefits immediately. (does not include admission)   Tickets only valid for date selected. Online tickets must be purchased at least one day in advance.    *Guests aged 10-16 must be accompanied by a paying adult

Fall 2025 Availability  October 2-31: 1:45 pm Mondays, Thursdays, Fridays, Saturdays, Sundays Winter 2025 Availability coming soon Duration: Approximately 30-minute tour Maximum of 5 people per tour - ages 10+* Come behind the scenes for a unique experience with one of our marine mammal ambassadors! This tour will allow visitors to get an up-close view of the exceptional day-to-day care our seals or sea lions receive while learning about how these amazing species are specially adapted for Arctic and sub-Arctic environments. Each encounter will be unique (and special!).   No photography allowed on this tour. One Group Per Tour Group Size of 1-2 Guests: $289.95 Group Size of 3 Guests: $339.95 Group Size of 4 Guests: $389.95 Group Size of 5 Guests: $439.95 Members get a 20% discount, buy your membership today and use the benefits immediately. (does not include admission) *Guests aged 10-16 must be accompanied by a paying adult Tickets only valid for date selected. Online tickets must be purchased at least one day in advance.     

Thank you for supporting the Alaska SeaLife Center by being an Annual Event Sponsor!   Thank you to our Sponsors!             Luke and Rachel Bunnell       Fred and Laurel Stutzer       Acrisure Alaska Chadux Network Alaska Railroad Aleutian Pribilof Island Community Development Association Alyeska Pipeline Services Company Chugach Corporation Marathon Petroleum Corporation Marsh McLennan Agency Petrotechnical Resources of Alaska Resource Development Council       Shannon and Justin Clark Donlin Gold Global Diving & Salvage Guardian Security Systems, Inc. Bruce and Carole Jaffa JAG Pacific Seafood Processors Association Premier Alaska Tours Rising Tide Communications Sedor Wendlandt Evans & Filippi Seward Ocean Excursions Seward Properties Thomas, Head & Greisen, P.C. Visit Anchorage      

Make your way around Seward and visit local businesses hosting featured artists during the Seward First Friday Art Walk! Visit the ASLC lobby from 6 - 8 PM on July 1, 2022 to see this month's TWO featured artists: Dreaming Bear Studio & Rabbit Creek Studio Dreaming Bear Studios will have items displayed in the ASLC Lobby for the month of July. See more of the artist's work on their websites -   Rabbit Creek Studio: https://rabbit-creek-studio.square.site/ https://www.facebook.com/kimnielsenak/ Dreaming Bear Studio: https://www.dreamingbearstudio.com/   Seward First Friday Art Walks are hosted by the Seward Chamber of Commerce and Seward Art Council.

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!      

$(document).ready(function() { var obj = document.createElement("audio"); obj.src="/uploads/vft/gulf_watch/audio/fetcheduphardaground.mp3"; obj.volume=0.10; obj.autoPlay=false; obj.preLoad=true; $(".playSound").click(function() { obj.play(); }); });     animatedcollapse.addDiv('A', 'fade=1') animatedcollapse.ontoggle=function($, 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()         On March 24, 1989, an oil tanker leaving the port of Valdez, Alaska hit a shallow reef and spilled 11 million gallons of oil into the sea. This spill spread southwest, covering nearly 1,300 miles of coastline in thick, sticky oil. Oil was even found washed up near the village of Chignik, 470 miles away from the spill site. It is estimated that 250,000 seabirds, 2,800 sea otters, 300 harbor seals, 250 bald eagles, up to 22 orcas, and billions of salmon and herring eggs were lost in the spill. It is difficult to know how many intertidal plants and animals, such as barnacles, sea stars, and hermit crabs, were also impacted. The Gulf of Alaska is part of the North Pacific Ocean. It stretches from the Alaska Peninsula in the west to the islands of Alaska’s southeast. The coast includes mountains, glaciers, forests, towns, and cities. The waters are full of life and support one of the country’s largest fishing industries. Powerful currents circulate marine life and bring up nutrients from deep waters. Seabirds and marine mammals feed in the many bays and estuaries of the gulf. These areas also provide nursery habitats for fish. So many factors influence the Gulf of Alaska! The major factors include: Precipitation in the form of snow and rain Freshwater runoff from rivers, glaciers, and melting snow The upwelling & downwelling of water carrying nutrients that get mixed by the tides and currents Click the image below for a closer look at some of these factors. Be sure to use the vocabulary list at the right if you run into any terms you are not familiar with! Thousands of workers, volunteers, and community members worked together to clean up the spill. However, oil still remains hidden below the sand and rocks on the beaches and scientists want to know what this means for the Gulf of Alaska ecosystem. Since 1989, scientists have continued to study how the Gulf of Alaska's ecosystem is responding to the Exxon Valdez oil spill (EVOS). All of Earth’s ecosystems are affected by both natural changes and human activities. After the 1989 spill, scientists realized something important. We did not have enough data to fully understand how complex the northern Gulf of Alaska ecosystem really is. We were lacking what researchers call “baseline” data. A baseline is a measure of how things are (or were) at a particular time. Without baseline data, it is hard to understand how ecosystems respond to changes in environmental conditions, which can occur naturally or as a result of human activities. Think of a baseline like this: If you measure your heartbeat when you are resting, it’s beating regularly and probably pretty slowly. This is your baseline to measure from. If you suddenly run up a long flight of steps, your heart starts beating much faster and you are probably out of breath. If you count your heartbeat now, you can measure how much it changed from the baseline. That change is the impact caused by running up the steps. For example, in the Gulf of Alaska it is difficult to know exactly how the 1989 oil spill changed sea otter population numbers. This is hard to measure because baseline data for the number of sea otters living there before the spill doesn't exist. In order to improve our understanding of baselines and change for the entire Gulf of Alaska ecosystem, the Exxon Valdez Oil Spill Trustee Council created and continues to fund the work of the Gulf Watch Alaska long-term monitoring program. Gulf Watch Alaska is a team of scientists and researchers who work together to measure and monitor different parts of the ecosystem in the spill area. They compare their data to get a “bigger picture” about how the ecosystem works and how healthy it is. VIDEO: Introduction to Gulf Watch Alaska Introduction to the Gulf Watch Alaska ecosystem monitoring program. (1:14) Video Transcript On March 24, 1989, the oil tanker Exxon Valdez ran aground in Alaska’s Prince William Sound, spilling more than 10 million gallons of crude oil into the Gulf of Alaska. Today, more than 26 years after the accident, scientists are still trying to understand the full impacts of the spill on the waters and wildlife of the Gulf. To that end, Gulf Watch Alaska has brought together twelve different organizations and over 40 scientists to study all aspects of the Gulf of Alaska and its state of recovery from the spill. Monitoring the lasting effects of the oil spill is no small task. Like a large puzzle, the Gulf of Alaska is a complex system made up of ever smaller components. The four main components being studied by Gulf Watch Alaska are the driving environmental forces of the Gulf, the pelagic ecosystem of its waters, the nearshore ecosystems of its coast, and the lingering oil that still remains from the Exxon Valdez spill. By closely monitoring these components simultaneously, the scientists of Gulf Watch Alaska hope to better understand the whole picture of the Gulf of Alaska and its continuing recovery from the spill.   The Gulf Watch Alaska monitoring program is organized into four related ecosystem monitoring components. Click below to discover each component.       Who is watching the Gulf?   Baseline data (n): a measure of normal or how things usually are before change   Carbon pump (n): the ocean's biologically-driven transfer of carbon from the atmosphere to the deep sea   Detritus (n): waste or debris of any kind, but especially organic matter produced by the decomposition of organisms   Downwelling/Upwelling (n): the downward (or upward) movement of fluid, especially in the sea   Ecosystem (n): a community of living things and its nonliving surroundings linked together by energy and nutrient exchange   Eddy (n): a circular movement of water counter to a main current   Estuary (n): where the salty ocean tide meets freshwater from the land at the mouth of a river, stream, creek, or the toe of a glacier   EVOS (n): Exxon Valdez oil spill   Exxon Valdez Oil Spill Trustee Council (n): organization formed after EVOS to oversee the restoration of the injured ecosystem   Habitat (n): a place that provides an animal or plant with adequate food, water, shelter, and living space to feed, breed, seek shelter, and raise young   Impact (n): a powerful or major influence or effect   Lunar forcing (n): the effect that the gravitational pull of the moon has upon the oceans, creating the tide cycles   Monitor (v): to observe and check the progress or quality of (something) over a period of time; keep under systematic review   Photic boundary (n): the depth of the ocean that indicates the division between the photic (or sunlight) zone and the aphotic zone where photosynthesis becomes impossible  

Every Bid Supports SeaLife! Online auction to benefit the Alaska SeaLife Center February 20-23, 2025   *Preview items now! Bidding Begins February 20, 2025!*  Click here to View the Auction   Every year, the ASLC Online Auction brings together a passionate community of ocean lovers from across the country, united by a shared mission: to support the Alaska SeaLife Center’s vital work in wildlife rescue, research, and education. For four exciting days, you’ll have the chance to bid on breathtaking Alaskan getaways, handcrafted jewelry, original artwork, unique experiences, and more. With most items available for worldwide shipping, anyone can take part in this incredible event! This event has grown to be one of our most impactful fundraisers of the year, and wouldn’t be possible without the generosity of artists and businesses who donate their work to be auctioned off on our behalf to support our mission work. Now it’s your turn to be part of the impact! Get ready to bid, win, and make waves for marine life. Mark your calendar, invite your friends, and let the bidding begin!  Quick Tips: The auction will be open for bidding February 20–23, 2025 All bids are submitted online through our auction website  Most items can be shipped worldwide Every dollar raised helps protect marine life through ASLC mission work Want to donate an item to the auction or learn more? Email fundraising@alaskasealife.org      

Seward, Alaska (January 29, 2015) – The Alaska SeaLife Center (ASLC) is proud to announce the 2015 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, Dale Hoffman, Dr. Mike Castellini, Dr. Ian Dutton, Lisa Busch, Molly McCammon, Denby Lloyd, and Carlyn Nichols for assistance in selecting the awardees.  Two of the awards were presented at the Alaska Marine Science Symposium the week of January 19, 2015 at the Hotel Captain Cook in Anchorage, Alaska. The remaining awards will be presented at the Alaska Marine Gala on February 21, 2015 at the Dena’ina Center in Anchorage, Alaska. Tickets and sponsorship opportunities are still available.  For additional information, visit www.alaskasealife.org Following are the 2015 Alaska Ocean Leadership Award winners: Al Burch 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. Starting as a shrimp dragger in Seward, Al Burch has fished Alaskan waters for more than 55 years and serves on numerous national and international fishing boards. Since 2002, Al has represented the Kodiak Island Borough on the board of the Prince William Sound Regional Citizens’ Advisory Council. Al accepted the council position because he believes it is important that active fishermen have representation. He strives for an equal balance between various interest groups to ensure Alaskan waters are protected but not overly regulated. Al is a founding member of the Alaska Fisheries Development Foundation and served 30 years on the North Pacific Fishery Management Council’s Advisory Panel. He recently retired as the Executive Director of the Alaska Whitefish Trawlers Association, a non-profit group representing approximately 40 bottom-fish vessels out of Kodiak. He was inducted into the United Fishermen of Alaska’s Seafood Hall of Fame in 2009 for his dedication to Alaska’s fisheries and ocean resources. Award to be presented at the Alaska Marine Gala.   The Alyeska Vessel of Opportunity Program 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. Alyeska Pipeline Service Company employs its Ship Escort/Response Vessel System (SERVS) annually to train and educate crew members of some 450 vessels in Prince William Sound to support spill response in the region. Participants from Valdez, Cordova, Whittier, Homer, Kodiak, and Seward learn necessary skills to join Alyeska in spill response, containment, and recovery. The training results in an entire fleet of an estimated 1,500 professionals now poised to work with SERVS to protect their communities in the unlikely case of an actual incident. The local knowledge and commitment of the Prince William Sound fishing communities is evident in this program’s ongoing success - ensuring that the fisheries and environment are protected and sustained for years to come. Award to be presented at the Alaska Marine Gala.   Alisa Aist will receive the 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. Alisa is a student at Polaris K-12 School in Anchorage. Her dream to become a marine biologist was born in seventh grade during a school field trip to the tide pools in Homer. Since that trip, Alisa has taken every opportunity to expand her scientific knowledge. Alisa has taken extra science classes at school, attended two summer science camps run through the University of Alaska Fairbanks, and created four research projects for the Alaska Science and Engineering Fair, presenting two of these projects at the Intel International Science and Engineering Fair. Alisa has worked alongside her community to do research and has continued to present her work at school, local organizations, and symposiums. Award to be presented at the Alaska Marine Gala.   Benjamin Carney received 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. Armed with a B.S. in Wildlife Biology and M.S. in Fisheries, Ben currently teaches chemistry, physical science, and oceanography at Juneau-Douglas High School.  His passion centers on the National Ocean Sciences Bowl and coaching his students to victory. Ben has coached a team from Juneau-Douglas High School to first place at the state level since 2007, the longest winning streak in the history of the Alaska Tsunami Bowl. Last year’s winning team, Team Pogonophoraphobia, placed third at the National Finals. Award was presented at the Alaska Marine Science Symposium.   Jacqueline Grebmeier and Lee Cooper received 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. Jacqueline and Lee have shown major leadership in Pacific Arctic marine research over the past several decades. Both conducted their Ph.D. work at the University of Alaska Fairbanks and are now Research  Professors at the University of Maryland, Center for Environmental Science. Spending most of their summers at sea in Alaska’s arctic, both have participated in dozens of research cruises, many as chief scientists. Through involvement in high level national committees, strong management skills, and deep knowledge of the Pacific Arctic, they have provided important leadership in large research  programs, such as BEST-BSIERP, the Pacific Arctic Marine Regional Synthesis, and the Distributed Biological Observatory. Award was 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 understanding and stewardship of Alaska’s marine ecosystems. The ASLC is an accredited member of the Association of Zoos and Aquariums, and the Alliance of Marine Mammal Parks and Aquariums. To learn more, visit www.alaskasealife.org.  

Giving Circle Levels and Benefits The Alaska SeaLife Center relies on a combination of grants, donations, and admission sales to operate at a world-class level. Donors like you support Alaska's marine wildlife by helping to fund research, education, and wildlife response programs. We invite you to join a Giving Circle at a level best suited to you. The SeaLife Circle begins at the $300 donation level and the Steller Circle begins at the $1,000 donation level. SeaLife Circle Level SeaLife Associate SeaLife Advocate Cost $300-$499 $500-$999 Family membership including 2 named adults and named dependent children/grandchildren ages 17 and under* Discounts for guests, tours, café, and gift shop Recognition on the Alaska SeaLife Center website and on the donor board at the Center Invitation to an annual virtual CEO update   Guest Passes 4 8 *Adults and dependent children/grandchildren must be in the same household. Steller Circle Level Steller Partner Steller Guardian Steller Patron Steller Champion Cost $1,000-$2,499 $2,500-$4,999 $5,000-$9,999 $10,000+ Family membership including 2 named adults and named dependent children/grandchildren ages 17 and under* Discounts for guests, tours, café, and gift shop Recognition on the Alaska SeaLife Center website and on the donor board at the Center Invitation to an annual virtual CEO update Guest Passes 8 8 8 8 VIP Tour  For 4 For 4 For 8 For 8 Invitation to quarterly VIP virtual programs   Breakfast or lunch with the CEO     Keeper for a Day, a 5-hour program for one or two people with minimum age of 16       *Adults and dependent children/grandchildren must be in the same household. Please contact the Development Office at development@alaskasealife.org or call Nancy Anderson, Development Director, 907-224-6396, if you have any questions about joining a Giving Circle.