Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012)

This program continues a 40(+) year time series of temperature and salinity measurements at hydrographic station GAK 1. The data set, which began in 1970, now consists of monthly CTDs and a mooring with 6 - 7 temperature/conductivity recorders throughout the water column, a fluorometer and nitrate s...

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Bibliographic Details
Main Authors: Thomas J. (Tom) Weingartner, Thomas C. Royer
Format: Dataset
Language:unknown
Published: Gulf of Alaska Data Portal
Subjects:
Online Access:https://search.dataone.org/view/df35b.21.2
id dataone:df35b.21.2
record_format openpolar
institution Open Polar
collection Gulf of Alaska Data Portal (via DataONE)
op_collection_id dataone:urn:node:GOA
language unknown
topic Marine-Nearshore
Marine-Pelagic
Exxon Valdez Oil Spill Trustee Council
Exxon Valdez Oil Spill
EVOSTC
Oil Spill
Gulf of Alaska
Seward, Alaska
Alaska
Climate/Atmosphere
Management & Policy
Oceanography
Physical/Chemical Oceanography
Physics
Modeling
Moored observing arrays (i.e. buoys)
spellingShingle Marine-Nearshore
Marine-Pelagic
Exxon Valdez Oil Spill Trustee Council
Exxon Valdez Oil Spill
EVOSTC
Oil Spill
Gulf of Alaska
Seward, Alaska
Alaska
Climate/Atmosphere
Management & Policy
Oceanography
Physical/Chemical Oceanography
Physics
Modeling
Moored observing arrays (i.e. buoys)
Thomas J. (Tom) Weingartner
Thomas C. Royer
Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012)
topic_facet Marine-Nearshore
Marine-Pelagic
Exxon Valdez Oil Spill Trustee Council
Exxon Valdez Oil Spill
EVOSTC
Oil Spill
Gulf of Alaska
Seward, Alaska
Alaska
Climate/Atmosphere
Management & Policy
Oceanography
Physical/Chemical Oceanography
Physics
Modeling
Moored observing arrays (i.e. buoys)
description This program continues a 40(+) year time series of temperature and salinity measurements at hydrographic station GAK 1. The data set, which began in 1970, now consists of monthly CTDs and a mooring with 6 - 7 temperature/conductivity recorders throughout the water column, a fluorometer and nitrate sensor at 20 m depth and a nitrate sensor at 150 m depth. The project monitors five important Alaska Coastal Current ecosystem parameters and to quantify and understand interannual and longer period variability in: 1. Temperature and salinity throughout the 250 m deep water column, 2. Near surface stratification, 3. Near and subsurface nitrate supply on the inner shelf, 4. Fluorescence as an index of phytoplankton biomass, and 5. Atmosphere-ocean heat fluxes. In aggregate these variables are basic descriptors of the Alaska Coastal Current, an important habitat and migratory corridor for organisms inhabiting the northern Gulf of Alaska, including Prince William Sound. Data here spans 1970 - 2012. ON GOING DATA CAN BE ACCESSED AT THE UAF GAK1 WEBSITE: http://www.ims.uaf.edu/gak1/ *****Publications which have cited this data: --Janout, M. A., T. J. Weingartner, T. C. Royer, and S. L. Danielson, 2010, On the nature of winter cooling and the recent temperature shift on the northern Gulf of Alaska shelf, J. Geophys. Res., 115, C05023, doi:10.1029/2009JC005774. --Bechtol, W.R., 2009. Abundance, recruitment, and environmental forcing of Kodiak red king crab. University of Alaska Fairbanks, Doctoral dissertation, 205 p --Tribuzio, C.A.,. 2009. Life history, demography and ecology of the spiny dogfish (Squalus acanthias) in the Gulf of Alaska: Critical information for aiding management. University of Alaska Fairbanks, Doctoral dissertation, in prep. --Ebbesmeyer, C. C., W. J. Ingraham, T. C. Royer, and C. E. Grosch, 2007, Tub Toys Orbit the Pacific Subarctic Gyre, Eos Trans. AGU, 88(1), 1. --Sarkar, N., 2007, Mixed layer dynamics along the Seward Line in the northern Gulf of Alaska, Ph.D. dissertation, Old Dominion University, Norfolk, VA, 71p. --Schroeder, I. D., 2007, Annual and interannual variability in the wind field and hydrography along the Seward Line in the northern Gulf of Alaska, Ph.D. dissertation, Old Dominion University, Norfolk, VA, 81p. --Royer, T. C. and C. E. Grosch, 2006, Ocean warming and freshening in the northern Gulf of Alaska, Geophysical Research Letters, 33 (16), L16605,doi:10.1029/2006GL026767 --Capotondi, A., M. A. Alexander, C. Deser and A. J. Miller, 2005, Low-Frequency Pycnocline Variability in the Northeast Pacific, Journal of Physical Oceanography, V. 35, 8, 1403-1420 --Ingolfsson, A., 2005, Community structure and zonation patterns of rocky shores at high latitudes: an interocean comparison, Journal of Biogeography, 32(1), 169-182, doi:10.1111/j.1365-2699.2004.01150.x --Royer, T.C., 2005, Hydrographic responses at a coastal site in the northern Gulf of Alaska to seasonal and interannual forcing, Deep-Sea Research Part II-Topical Studies in Oceanography, 52 (1-2): 267-288 --Sarkar, N, T. C. Royer and C. E. Grosch, 2005. Hydrographic and mixed layer depth variability on the shelf in the northern Gulf of Alaska, 1974-1998. Cont. Shelf. Res. 25: 2147 - 2162. --Weingartner, T.J., Danielson, S.L. and Royer, T.C., 2005, Freshwater variability and predictability in the Alaska Coastal Current, Deep-Sea Research Part II-Topical Studies in Oceanography, 52 (1-2): 169-191 --Mueter, F.J., 2004, Gulf of Alaska - Marine Ecosystems of the North Pacific, Vol. PICES Special Publication 1 (pp. 153-175): PICES Special Publication 1. --Stabeno, P.J., N.A. Bond, A.J. Hermann, N.B. Kachel, C.W. Mordy and J.E. Overland, 2004, Meteorology and oceanography of the Northern Gulf of Alaska, Continental Shelf Research, 24, 859-879 --PICES, 2004. Marine Ecosystems of the North Pacific. PICES Special Publication 1, 280p. --Committee to Review the Gulf of Alaska Ecosystem Monitoring Program, National Research Council, 2002, A Century of Ecosystem Science - Planning Long-Term Research in the Gulf of Alaska, National Research Council, National Academy Press, Washington, D.C. --Boldt, J. L. and L. J. Haldorson, 2002 A Bioenergetics Approach to Estimating Consumption of Zooplankton by Juvenile Pink Salmn in Prince William Sound, Alaska, Alaska Fishery Research Bulletin, V9 No. 2, Winter 2002 --Royer, T.C., Grosch, C.E., and Mysak, L.A., 2001, Interdecadal variability of Northeast Pacific coastal freshwater and its implications on biological productivity, Progress in Oceanography, 49 (1-4): 95-111 Sp. Iss. SI --Mueter, F.J., 1999, Spatial and temporal patterns in the Gulf of Alaska groundfish community in relation to the environments, Doctoral dissertation --Parker, K.S., T.C. Royer, and R.B. Deriso, 1995. High latitude climate forcing by the 18.6 year lunar nodal cycle and historical recruitment trends in Pacific halibut, Can. Spec. Publ. Fish. Aquat. Sci., 121:447-459. --Muter, F.J., B.L. Norcross and T.C. Royer, 1994. Do cyclic temperatures cause cyclic fisheries?, Can. Spec. Publ. Fish. Aquat. Sci., 121:119-129. --Royer, T.C. 1993. High-latitude oceanic variability associated with the 18.6-year nodal tide. J. Geop. Res., 98:4639-4644. --Royer, T.C. 1989. Upper ocean temperature variability in the Northeast Pacific Ocean: Is it an indicator of global warming? J. Geop. Res., 94:18175-18183. --Xiong, Q. and T.C. Royer. 1984. Coastal temperature and salinity in the northern Gulf of Alaska, J. Geop. Res., 89:8061-8066.
format Dataset
author Thomas J. (Tom) Weingartner
Thomas C. Royer
author_facet Thomas J. (Tom) Weingartner
Thomas C. Royer
author_sort Thomas J. (Tom) Weingartner
title Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012)
title_short Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012)
title_full Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012)
title_fullStr Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012)
title_full_unstemmed Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012)
title_sort toward long-term monitoring of the gulf of alaska ecosystem, gak1 mooring in seward, alaska (1970-2012)
publisher Gulf of Alaska Data Portal
publishDate
url https://search.dataone.org/view/df35b.21.2
op_coverage GAK1 Mooring off of Seward, Alaska
ENVELOPE(-149.46666,-149.46666,59.835278,59.835278)
BEGINDATE: 1970-01-01T00:00:00Z ENDDATE: 2012-01-01T00:00:00Z
long_lat ENVELOPE(-149.46666,-149.46666,59.835278,59.835278)
geographic Fairbanks
Gulf of Alaska
Pacific
geographic_facet Fairbanks
Gulf of Alaska
Pacific
genre Kodiak
Red king crab
Subarctic
Alaska
spiny dogfish
Squalus acanthias
genre_facet Kodiak
Red king crab
Subarctic
Alaska
spiny dogfish
Squalus acanthias
_version_ 1811925861018894336
spelling dataone:df35b.21.2 2024-10-03T18:46:13+00:00 Toward Long-Term Monitoring of the Gulf of Alaska Ecosystem, GAK1 Mooring in Seward, Alaska (1970-2012) Thomas J. (Tom) Weingartner Thomas C. Royer GAK1 Mooring off of Seward, Alaska ENVELOPE(-149.46666,-149.46666,59.835278,59.835278) BEGINDATE: 1970-01-01T00:00:00Z ENDDATE: 2012-01-01T00:00:00Z 2013-06-24T23:00:00Z https://search.dataone.org/view/df35b.21.2 unknown Gulf of Alaska Data Portal Marine-Nearshore Marine-Pelagic Exxon Valdez Oil Spill Trustee Council Exxon Valdez Oil Spill EVOSTC Oil Spill Gulf of Alaska Seward, Alaska Alaska Climate/Atmosphere Management & Policy Oceanography Physical/Chemical Oceanography Physics Modeling Moored observing arrays (i.e. buoys) Dataset dataone:urn:node:GOA 2024-10-03T18:06:15Z This program continues a 40(+) year time series of temperature and salinity measurements at hydrographic station GAK 1. The data set, which began in 1970, now consists of monthly CTDs and a mooring with 6 - 7 temperature/conductivity recorders throughout the water column, a fluorometer and nitrate sensor at 20 m depth and a nitrate sensor at 150 m depth. The project monitors five important Alaska Coastal Current ecosystem parameters and to quantify and understand interannual and longer period variability in: 1. Temperature and salinity throughout the 250 m deep water column, 2. Near surface stratification, 3. Near and subsurface nitrate supply on the inner shelf, 4. Fluorescence as an index of phytoplankton biomass, and 5. Atmosphere-ocean heat fluxes. In aggregate these variables are basic descriptors of the Alaska Coastal Current, an important habitat and migratory corridor for organisms inhabiting the northern Gulf of Alaska, including Prince William Sound. Data here spans 1970 - 2012. ON GOING DATA CAN BE ACCESSED AT THE UAF GAK1 WEBSITE: http://www.ims.uaf.edu/gak1/ *****Publications which have cited this data: --Janout, M. A., T. J. Weingartner, T. C. Royer, and S. L. Danielson, 2010, On the nature of winter cooling and the recent temperature shift on the northern Gulf of Alaska shelf, J. Geophys. Res., 115, C05023, doi:10.1029/2009JC005774. --Bechtol, W.R., 2009. Abundance, recruitment, and environmental forcing of Kodiak red king crab. University of Alaska Fairbanks, Doctoral dissertation, 205 p --Tribuzio, C.A.,. 2009. Life history, demography and ecology of the spiny dogfish (Squalus acanthias) in the Gulf of Alaska: Critical information for aiding management. University of Alaska Fairbanks, Doctoral dissertation, in prep. --Ebbesmeyer, C. C., W. J. Ingraham, T. C. Royer, and C. E. Grosch, 2007, Tub Toys Orbit the Pacific Subarctic Gyre, Eos Trans. AGU, 88(1), 1. --Sarkar, N., 2007, Mixed layer dynamics along the Seward Line in the northern Gulf of Alaska, Ph.D. dissertation, Old Dominion University, Norfolk, VA, 71p. --Schroeder, I. D., 2007, Annual and interannual variability in the wind field and hydrography along the Seward Line in the northern Gulf of Alaska, Ph.D. dissertation, Old Dominion University, Norfolk, VA, 81p. --Royer, T. C. and C. E. Grosch, 2006, Ocean warming and freshening in the northern Gulf of Alaska, Geophysical Research Letters, 33 (16), L16605,doi:10.1029/2006GL026767 --Capotondi, A., M. A. Alexander, C. Deser and A. J. Miller, 2005, Low-Frequency Pycnocline Variability in the Northeast Pacific, Journal of Physical Oceanography, V. 35, 8, 1403-1420 --Ingolfsson, A., 2005, Community structure and zonation patterns of rocky shores at high latitudes: an interocean comparison, Journal of Biogeography, 32(1), 169-182, doi:10.1111/j.1365-2699.2004.01150.x --Royer, T.C., 2005, Hydrographic responses at a coastal site in the northern Gulf of Alaska to seasonal and interannual forcing, Deep-Sea Research Part II-Topical Studies in Oceanography, 52 (1-2): 267-288 --Sarkar, N, T. C. Royer and C. E. Grosch, 2005. Hydrographic and mixed layer depth variability on the shelf in the northern Gulf of Alaska, 1974-1998. Cont. Shelf. Res. 25: 2147 - 2162. --Weingartner, T.J., Danielson, S.L. and Royer, T.C., 2005, Freshwater variability and predictability in the Alaska Coastal Current, Deep-Sea Research Part II-Topical Studies in Oceanography, 52 (1-2): 169-191 --Mueter, F.J., 2004, Gulf of Alaska - Marine Ecosystems of the North Pacific, Vol. PICES Special Publication 1 (pp. 153-175): PICES Special Publication 1. --Stabeno, P.J., N.A. Bond, A.J. Hermann, N.B. Kachel, C.W. Mordy and J.E. Overland, 2004, Meteorology and oceanography of the Northern Gulf of Alaska, Continental Shelf Research, 24, 859-879 --PICES, 2004. Marine Ecosystems of the North Pacific. PICES Special Publication 1, 280p. --Committee to Review the Gulf of Alaska Ecosystem Monitoring Program, National Research Council, 2002, A Century of Ecosystem Science - Planning Long-Term Research in the Gulf of Alaska, National Research Council, National Academy Press, Washington, D.C. --Boldt, J. L. and L. J. Haldorson, 2002 A Bioenergetics Approach to Estimating Consumption of Zooplankton by Juvenile Pink Salmn in Prince William Sound, Alaska, Alaska Fishery Research Bulletin, V9 No. 2, Winter 2002 --Royer, T.C., Grosch, C.E., and Mysak, L.A., 2001, Interdecadal variability of Northeast Pacific coastal freshwater and its implications on biological productivity, Progress in Oceanography, 49 (1-4): 95-111 Sp. Iss. SI --Mueter, F.J., 1999, Spatial and temporal patterns in the Gulf of Alaska groundfish community in relation to the environments, Doctoral dissertation --Parker, K.S., T.C. Royer, and R.B. Deriso, 1995. High latitude climate forcing by the 18.6 year lunar nodal cycle and historical recruitment trends in Pacific halibut, Can. Spec. Publ. Fish. Aquat. Sci., 121:447-459. --Muter, F.J., B.L. Norcross and T.C. Royer, 1994. Do cyclic temperatures cause cyclic fisheries?, Can. Spec. Publ. Fish. Aquat. Sci., 121:119-129. --Royer, T.C. 1993. High-latitude oceanic variability associated with the 18.6-year nodal tide. J. Geop. Res., 98:4639-4644. --Royer, T.C. 1989. Upper ocean temperature variability in the Northeast Pacific Ocean: Is it an indicator of global warming? J. Geop. Res., 94:18175-18183. --Xiong, Q. and T.C. Royer. 1984. Coastal temperature and salinity in the northern Gulf of Alaska, J. Geop. Res., 89:8061-8066. Dataset Kodiak Red king crab Subarctic Alaska spiny dogfish Squalus acanthias Gulf of Alaska Data Portal (via DataONE) Fairbanks Gulf of Alaska Pacific ENVELOPE(-149.46666,-149.46666,59.835278,59.835278)