Search Results: 1968 to Present Abstract contains all words: FISH GULF OF ALASKA Cont. #: 3417 Atwood, E., J.T. Duffy-Anderson, J.K. Horne, and C. Ladd (2010): Influence of mesoscale eddies on ichthyoplankton assemblages in the Gulf of Alaska. Fish. Oceanogr., 19(6), 493-507, doi: 10.1111/j.1365-2419.2010.00559.x. Cont. #: 2675 Bailey, K.M., L. Ciannelli, N.A. Bond, A. Belgrano, and N.C. Stenseth (2005): Recruitment of walleye pollock in a physically and biologically complex ecosystem: A new perspective. Prog. Oceanogr., 67, 24–42, doi: 10.1016/j.pocean.2005.06.001. Cont. #: 1546 Bailey, K.M., S.A. Macklin, R.K. Reed, R.D. Brodeur, W.J. Ingraham, J.F. Piatt, M. Shima, R.C. Francis, P.J. Anderson, T.C. Royer, A.B. Hollowed, D.A. Somerton, and W.S. Wooster (1995): The 199193 ENSO event in the northern Gulf of Alaska and its effects on selected marine fisheries. In ENSO Effects on Fisheries in Gulf of Alaska, CalCOFI Report, 36, 7896. Cont. #: 5207 Bednaršek, N., K.-A. Naish, R.A. Feely, C. Hauri, K. Kimoto, A.J. Hermann, C. Michel, A. Niemi, and D. Pilcher (2021): Integrated assessment of ocean acidification risks to pteropods in the northern high latitudes: regional comparison of exposure, sensitivity and adaptive capacity. Front. Mar. Sci., 8, doi: 10.3389/fmars.2021.671497, View online (open access). Cont. #: 4083 Cooper, D., J. Duffy-Anderson, B. Norcross, B. Holladay, and P. Stabeno (2014): Nursery areas of juvenile northern rock sole (Lepidopsetta polyxystra) in the eastern Bering Sea in relation to hydrography and thermal regimes. ICES J. Mar. Sci., 71(7), 1683–1695, doi: 10.1093/icesjms/fst210. Cont. #: 5137 Cross, J.N., W.C. Long, D.J. Pilcher, T.P. Hurst, R.A. Feely, and C. Stepien (2020): Arctic region acidification research. Chapter 4 in NOAA Ocean, Coastal, and Great Lakes Acidification Research Plan: 2020-2029, Jewett, E.B., E.B. Osborne, K.M. Arzayus, K. Osgood, B.J. DeAngelo, and J.M. Mintz (eds.), https://oceanacidification.noaa.gov/ResearchPlan2020. Cont. #: 4134 Di Lorenzo, E., D. Mountain, H.P. Batchelder, N. Bond, and E.E. Hofmann (2013): Advances in marine ecosystem dynamics from US GLOBEC: The horizontal-advection bottom-up forcing paradigm. Oceanography, 26(4), 22–33, doi: 10.5670/oceanog.2013.73. Cont. #: 3799 Dougherty, A.B., K.M. Bailey, T.C. Vance, and W. Cheng (2012): Underlying causes of habitat-associated differences in size of age-0 walleye pollock (Theragra Chalcogramma) in the Gulf of Alaska. Mar. Biol., 159(8), 1733–1744, doi: 10.1007/s00227-012-1961-2. Cont. #: 4683 Doyle, M., S.L. Strom, K.O. Coyle, A.J. Hermann, C. Ladd, A.C. Matarese, S.K. Shotwell, and R.R. Hopcroft (2019): Early life history phenology among Gulf of Alaska fish species: Strategies, synchronies, and sensitivities. Deep-Sea Res. II, 165, 41–73, doi: 10.1016/j.dsr2.2019.06.005, View online. Cont. #: 3512 Doyle, M.J., S.J. Picquelle, K.L. Mier, M.C. Spillane, and N.A. Bond (2009): Larval fish abundance and physical forcing in the Gulf of Alaska, 1981-2003. Prog. Oceanogr., 80(3–4), 163–187, doi: 10.1016/j.pocean.2009.03.002. Cont. #: 1678 Doyle, M.J., W.C. Rugen, and R.D. Brodeur (1995): Neustonic ichthyoplankton in the western Gulf of Alaska during spring. Fish. Bull., 93, 231–253. Cont. #: 4432 Gibson, G.A., W.T. Stockhausen, K.O. Coyle, S. Hinckley, C. Parada, A.J. Hermann, M. Doyle, and C. Ladd (2019): An individual-based model for sablefish: Exploring the connectivity between potential spawning and nursery grounds in the Gulf of Alaska. Deep-Sea Res. II, 165, 89–112, doi: 10.1016/j.dsr2.2018.05.015, View online. Cont. #: 5018 Goldstein, E.D., J.L. Pirtle, J.T. Duffy-Anderson, W.T. Stockhausen, M. Zimmermann, M.T. Wilson, and C.W. Mordy (2020): Eddy retention and seafloor terrain facilitate cross-shelf transport and delivery of fish larvae to suitable nursery habitats. Limnol. Oceanogr., 65(11), 2800-2818, doi: 10.1002/lno.11553, View online (open access). Cont. #: 3130 Hermann, A.J., S. Hinckley, E.L. Dobbins, D.B. Haidvogel, N.A. Bond, C. Mordy, N. Kachel, and P.J. Stabeno (2009): Quantifying cross-shelf and vertical nutrient flux in the Coastal Gulf of Alaska with a spatially nested, coupled biophysical model. Deep-Sea Res. II, 56(24), 2474–2486, doi: 10.1016/j.dsr2.2009.02.008. Cont. #: 1920 Hermann, A.J., S. Hinckley, B.A. Megrey, and J.A. Napp (2001): Applied and theoretical considerations for constructing spatially explicit individual-based models of marine larval fish that include multiple tropic levels. ICES J. Mar. Sci., 58, 1030–1041, doi: 10.1006/jmsc.2001.1087. Cont. #: 1550 Hinckley, S., A.J. Hermann, and B.A. Megrey (1996): Development of a spatially explicit, individual-based model of marine fish early life history. Mar. Ecol. Prog. Ser., 139, 47–68, doi: 10.3354/meps139047. Cont. #: 5136 Hurst, T.P., J.N. Cross, W.C. Long, D.J. Pilcher, M. Dalton, K.K. Holsman, J.T. Thorson, R.J. Foy, and J.M. Mintz (2020): Alaska region acidification research. Chapter 3 in NOAA Ocean, Coastal, and Great Lakes Acidification Research Plan: 2020-2029, Jewett, E.B., E.B. Osborne, K.M. Arzayus, K. Osgood, B.J. DeAngelo, and J.M. Mintz (eds.), https://oceanacidification.noaa.gov/ResearchPlan2020. Cont. #: 3899 Hurst, T.P., E.R. Fernandez, J.T. Mathis, J.A. Miller, C.M. Stinson, and E.F. Ahgeak (2012): Resiliency of juvenile walleye pollock to projected levels of ocean acidification. Aquat. Biol., 17, 247–259, doi: 10.3354/ab00483. Cont. #: 4220 Hurst, T.P., B.J. Laurel, J.T. Mathis, and L.R. Tabosa (2016): Effects of elevated CO2 levels on eggs and larvae of a North Pacific flatfish. ICES J. Mar. Sci., 73, 981–990, doi: 10.1093/icesjms/fsv050, Published online. Cont. #: 1255 Ingraham, Jr., W.J., R.K. Reed, J.D. Schumacher, and S.A. Macklin (1991): Circulation variability in the Gulf of Alaska. Eos Trans. AGU, 72, 257–264, doi: 10.1029/EO072i024p00257-01. Cont. #: 1682 Kendall, Jr., A.W., J.D. Schumacher, and S. Kim (1996): Walleye pollock recruitment in Shelikof Strait: Applied fisheries oceanography. Fish. Oceanogr., 5(S1), 4–18, doi: 10.1111/j.1365-2419.1996.tb00079.x. Cont. #: 4227 Ladd, C., W. Cheng, and S. Salo (2016): Gap winds and their effects on regional oceanography Part II: Kodiak Island, Alaska. Deep-Sea Res. II, 132, 54–67, doi: 10.1016/j.dsr2.2015.08.005, Understanding Ecosystem Processes in the Gulf of Alaska: Volume 1. Cont. #: 2652 Ladd, C., P. Stabeno, and E. Cokelet (2005): A note on cross-shelf exchange in the northern Gulf of Alaska. Deep-Sea Res. Pt. II, 52(5–6), 667–679, doi: 10.1016/j.dsr2.2004.12.022. Cont. #: 2903 Lanksbury, J.A., J.T. Duffy-Anderson, M.S. Busby, P.J. Stabeno, and K.L. Mier (2007): Distribution and transport patterns of northern rock sole, Lepidopsetta polyxystra, larvae in the southeastern Bering Sea. Prog. Oceanogr., 72(1), 39–62, doi: 10.1016/j.pocean.2006.09.001. Cont. #: 2968 Lee, Y.-W., B.A. Megrey, and S.A. Macklin (2009): Evaluating the performance of Gulf of Alaska walleye pollock (Theragra chalcogramma) recruitment forecasting models using a Monte Carlo resampling strategy. Can. J. Fish. Aquat. Sci., 66(2), 367–381, doi: 10.1139/F08-203. Cont. #: 4778 Li, L., A.B. Hollowed, E.D. Cokelet, S.J. Barbeaux, N.A. Bond, A.A. Keller, J.R. King, M. McClure, W.A. Palsson, P.J. Stabeno, and Q. Yang (2019): Sub-regional differences in groundfish distributional responses to anomalous ocean bottom temperatures in the northeast Pacific. Global Change Biol., 25(8), 2560–2575, doi: 10.1111/gcb.14676, View online. Cont. #: 1528 Liu, A.K., C.Y. Peng, and J.D. Schumacher (1994): Wave-current interaction study in the Gulf of Alaska for detection of eddies by synthetic aperture radar. J. Geophys. Res., 99(C5), 10,075–10,085, doi: 10.1029/94JC00422. Cont. #: 3024 Logerwell, E.A., P.J. Stabeno, C.D. Wilson, and A.B. Hollowed (2007): The effect of oceanographic variability and interspecific competition on juvenile pollock (Theragra chalcogramma) and capelin (Mallotus villosus) distributions on the Gulf of Alaska shelf. Deep-Sea Res. II, 54(23–26), 2849–2868, doi: 10.1016/j.dsr2.2007.08.008. Cont. #: 1637 Macklin, S.A., B.A. Megrey, A.B. Hollowed, P.J. Stabeno, and S.R. Hare (1995): Guiding fisheries management by examining relationships between features of the environment and recruitment variation in Gulf of Alaska walleye pollock. In Coastal Zone '95: Extended Abstracts for the Ninth Conference, B.L. Edge (ed.), American Society of Civil Engineers, Tampa, FL, 1621 July 1995, 173174. Cont. #: 736 McConaghy, D.C. (1984): FOCUS Users Guide. NOAA Tech. Memo. ERL PMEL-58, NTIS: PB85-133767, 35 pp. [PDF Version] Cont. #: 674 McConaghy, D.C., M.J. McPhail, P.D. Moen, and K.S. Parker (1983): FOCUS—Fisheries Oceanography Cooperative Users System. NOAA Tech. Memo. ERL PMEL-50, NTIS: PB84-145689, 74 pp. [PDF Version] Cont. #: 1683 Megrey, B.A., A.B. Hollowed, S.R. Hare, S.A. Macklin, and P.J. Stabeno (1996): Contributions of FOCI research to forecasts of year-class strength of walleye pollock in Shelikof Strait, Alaska. Fish. Oceanogr., 5(Suppl. 1), 189–203, doi: 10.1111/j.1365-2419.1996.tb00092.x. Cont. #: 1851 Merati, N., and R.D. Brodeur (1996): Feeding habits and daily ration of juvenile walleye pollock, Theragra chalcogramma, in the western Gulf of Alaska. In Ecology of Juvenile Walleye Pollock, Theragra chalcogramma, NOAA Tech. Report NMFS 126, Papers from the workshop "The Importance of Prerecruit Walleye Pollock to the Bering Sea and North Pacific Ecosystems", Seattle, WA, 2830 October 1993, 6579. Cont. #: 5507 Mogen, S.C., N.S. Lovenduski, S. Yeager, L. Keppler, J.D. Sharp, S.J. Bograd, N. Cordero Quiros, E. Di Lorenzo, E.L. Hazen, M.G. Jacox, and M. Pozo Buil (2023): Skillful multi-month predictions of ecosystem stressors in the surface and subsurface ocean. Earth's Future, 11(11), e2023EF003605, doi: 10.1029/2023EF003605, View open access article at Wiley/AGU (external link). Cont. #: 5479 Mordy, C.W., N.A. Bond, E.D. Cokelet, A. Deary, E. Lemagie, P. Proctor, P.J. Stabeno, H. Tabisola, T. Van Pelt, and E. Wisegarver (2023): Progress of Fisheries-Oceanography Coordinated Investigations in the Gulf of Alaska and Aleutian Passes. Oceanography, 36(2–3), 94–100, doi: 10.5670/oceanog.2023.218, View open access article online at Oceanography (external link). Cont. #: 4337 Mordy, C.W., P.J. Stabeno, N.B. Kachel, D. Kachel, C. Ladd, M. Zimmerman, A.J. Hermann, K. Coyle, and M.J. Doyle (2019): Patterns of flow in the canyons of the northern Gulf of Alaska. Deep-Sea Res. II, 165, 203–220, doi: 10.1016/j.dsr2.2019.03.009, View online. Cont. #: 1104 Overland, J.E. (1990): Prediction of vessel icing for near-freezing sea temperatures. Weather Forecast., 5(1), 62–77, doi: 10.1175/1520-0434(1990)005<0062:POVIFN>2. Cont. #: 3019 Overland, J.E., and M. Wang (2007): Future climate of the North Pacific Ocean. Eos Trans. AGU, 88(16), 178, 182, doi: 10.1029/2007EO160003. Cont. #: 558 Parker, K.S., and D.C. McConaghy (1983): FOCUS: An environmental data accessing system for Alaskan fishery oceanography investigations. In 1983 IEEE Proceedings of the Third Working Symposium on Oceanography Data Systems, IEEE Computer Society, 188193. Cont. #: 2814 Piatt, J.F., J. Wetzel, K. Bell, A.R. DeGange, G.R. Balogh, G.S. Drew, T. Geernaert, C. Ladd, and G.V. Byrd (2006): Predictable hotspots and foraging habitat of the endangered short-tailed albatross (Phoebastria albatrus) in the North Pacific: Implications for conservation. Deep-Sea Res. II, 53, 387–398, doi: 10.1016/j.dsr2.2006.01.008. Cont. #: 1332 Reed, R.K., A.V. Verkhunov, G.V. Khen, E.D. Cokelet, J.E. Overland, and T.E. Whitledge (1992): Recent U.S.–U.S.S.R. cruise in Bering Sea. Eos Trans. AGU, 73(16), 184, doi: 10.1029/91EO00155. Cont. #: 767 Schumacher, J.D., and J.G. Wilson (1986): On the atmospheric and oceanic environment of the Gulf of Alaska. In Proceedings, A Workshop on Comparative Biology, Assessment, and Management of Gadoids from the North Pacific and Atlantic Oceans, Seattle, WA, June 1985, 135178. Cont. #: 4707 Siwicke, K.A., J.H. Moss, B.R. Beckman, and C. Ladd (2019): Effects of the Sitka Eddy on juvenile pink salmon in the eastern Gulf of Alaska. Deep-Sea Res. II, 165, 348–363, doi: 10.1016/j.dsr2.2018.06.001, View online. Cont. #: 2942 Stockhausen, W.T., and A.J. Hermann (2007): Modeling larval dispersion of rockfish: a tool for marine reserve design? In Biology, Assessment, and Management of North Pacific Rockfishes, Proceedings of the 23rd Wakefield Fisheries Symposium, J. Heifetz, J. DiCosimo, A.J. Gharrett, M.S. Love, V.M. O'Connell, and R.D. Stanley (eds.), University of Alaska Sea Grant, AK-SG-07-01, September 13-15, 2005, 251–274. Cont. #: 2676 Strom, S.L., M.B. Olson, E.L. Macri, and C.W. Mordy (2006): Cross-shelf gradients in phytoplankton community structure, nutrient utilization, and growth rate in the coastal Gulf of Alaska. Mar. Ecol.-Prog. Ser., 328, 75–92, doi: 10.3354/meps328075. Cont. #: 4768 Yang, Q., E.D. Cokelet, P.J. Stabeno, L. Li, A.B. Hollowed, W.A. Palsson, N.A. Bond, and S.J. Barbeaux (2019): How "The Blob" affected groundfish distributions in the Gulf of Alaska. Fish. Oceanogr., 28(4), 434-453, doi: 10.1111/fog.12422, View online. Your search returned 46 records Feature Publications | Outstanding Scientific Publications Contact Sandra Bigley | Help