SEARCH

SEARCH BY CITATION

References

  • Alin, S. R., R. A. Feely, A. G. Dickson, J. M. Hernández-Ayón, L. W. Juranek, M. D. Ohman, and R. Goericke (2012), Robust empirical relationships for estimating the carbonate system in the southern California Current System and application to CalCOFI hydrographic cruise data (2005-2011) J. Geophys. Res., 117, doi:10.1029/2011JC007511.
  • Anderson, L. A., and J. L. Sarmiento (1994), Redfield ratios of remineralization determined by nutrient data analysis, Global Biogeochem. Cycles, 8(1), 6580.
  • Armstrong, J. L., J. L. Boldt, A. D. Cross, J. H. Moss, N. D. Davis, K. W. Myers, R. V. Walker, D. A. Beauchamp, and L. J. Haldorson (2005), Distribution, size, and interannual, seasonal and diel food habits of northern Gulf of Alaska juvenile pink salmon, Oncorhynchus gorbuscha, Deep-Sea Res. II, 52, 247265, doi:10.1016/j.dsr2.2004.09.019.
  • Aydin, K. Y., G. A. McFarlane, J. R. King, B. A. Megrey, and K. W. Myers (2005), Linking oceanic food webs to coastal production and growth rates of Pacific salmon (Oncorhynchus spp.), using models on three scales. Deep-Sea Res. II, 52(5-6), 757780, doi:10.1016/j.dsr2.2004.12.017.
  • Bandstra, L., B. Hales, and T. Takahashi (2006), High-frequency measurements of total CO2: Method development and first oceanographic observations, Mar. Chem., 100, 2438, doi:10.1016/j.marchem.2005.10.009.
  • Caldeira, K., and M. E. Wickett (2003), Anthropogenic carbon and ocean pH, Nature, 425, 365.
  • Caldeira, K., and M. E. Wickett (2005), Ocean model predictions of chemistry changes from carbon dioxide emissions to the atmosphere and ocean, J. Geophys. Res., 110(C09S04), doi:10.1029/2004JC002671.
  • Castro, C. G., F. P. Chavez, and C. A. Collins (2001), Role of the California Undercurrent in the export of denitrified waters from the eastern tropical North Pacific, Global Biogeochem. Cycles, 15(4), 819830.
  • Childers, A. R., T. Whitledge, and D. A. Stockwell (2005), Seasonal and interannual variability in the distribution of nutrients and chlorophyll a across the Gulf of Alaska shelf: 1998–2000, Deep-Sea Res. II, 52, 193216, doi:10.1016/j.dsr2.2004.09.018.
  • Comeau, S., G. Gorsky, R. Jeffree, J.-L. Teyssié, and J.-P. Gattuso (2009), Impact of ocean acidification on a key Arctic pelagic mollusc (Limacina helicina), Biogeosci., 6, 18771882.
  • Crawford, W. R., P. Brickley, and A. C. Thomas (2007), Mesoscale eddies dominate surface phytoplankton in northern Gulf of Alaska, Prog. Ocean., 75, 287303, doi:10.1016/j.pocean.2007.08.016.
  • Cullison Gray, S. E., M. Degrandpre, T. S. Moore, T. R. Martz, G. E. Friederich, and K. S. Johnson (2011), Applications of in situ pH measurements for inorganic carbon calculations, Marine Chem., 125, 8290, doi:10.1016/j.marchem.2011.02.005.
  • DeGrandpre, M. D., T. R. Hammar, S. P. Smith, and F. L. Sayles (1995), In situ measurements of seawater pCO2, Limnol. Oceanogr., 40(5), 969975.
  • DeGrandpre, M. D., G. J. Olbu, C. M. Beatty, and T. R. Hammar (2002), Air-sea CO2 fluxes on the US Middle Atlantic Bight, Deep-Sea Res. II, 49, 43554367.
  • Deutsch, C., N. Gruber, R. M. Key, and J. L. Sarmiento (2001), Denitrification and N2 fixation in the Pacific Ocean Global Biogeochem. Cycles, 15(2), 483506.
  • Dickson, A. G., C. L. Sabine, and J. R. Christian (Eds.) (2007), Guide to Best Practices for Ocean CO2 Measurements, 191 pp., North Pacific Marine Science Organization (PICES).
  • Doney, S. C., V. J. Fabry, R. A. Feely, and J. A. Kleypas (2009), Ocean acidification: The other CO2 problem, Annu. Rev. Mar. Sci., 1, 169192, doi:10.1146/annurev.marine.010908.163834.
  • Emery, W. J., and R. E. Thomson (2004), Data Analysis Methods in Physical Oceanography; Second and Revised Edition, 638 pp., Elsevier, Amsterdam.
  • Evans, W., B. Hales, and P. G. Strutton (2011), The seasonal cycle of surface ocean pCO2 on the Oregon shelf, J. Geophys. Res., 116(C05012), doi:10.1029/2010JC006625.
  • Fabry, V. J., B. A. Seibel, R. A. Feely, and J. C. Orr (2008), Impacts of ocean acidification on marine fauna and ecosystem processes, ICES J. Mar. Sci., 65, 414432.
  • Feely, R. A., B. Hales, C. L. Sabine, D. Greeley, K. Lee, S. R. Alin, and L. W. Juranek (2008), A new proxy method for estimating the aragonite saturation state of coastal waters using chemical and hydrographic data, EOS, Transac., Am. Geophys. Union, 89(53), Fall Meet. Suppl. Abstract OS33E-03.
  • Feely, R. A., C. L. Sabine, K. Lee, W. Berelson, J. Kleypas, V. J. Fabry, and F. J. Millero (2004), Impact of anthropogenic CO2 on the CaCO3 system in the oceans, Science, 305, 362366, doi:10.1126/science.1097329.
  • Friederich, G. E., P. G. Brewer, R. Herlien, and F. P. Chavez (1995), Measurement of sea surface partial pressure of CO2 from a moored buoy, Deep-Sea Res. I, 42(7), 11751186.
  • Friederich, G. E., P. M. Walz, M. G. Burczynski, and F. P. Chavez (2002), Inorganic carbon in the central California upwelling system during the 1997–1999 El Niño-La Niña event, Prog. Ocean., 54, 185203.
  • Gawarkiewicz, G., F. Bahr, R. C. Beardsley, and K. H. Brink (2001), Interaction of a slope eddy with the shelf break front in the Middle Atlantic Bight, J. Phys. Ocean., 31(9), 27832796.
  • Gruber, N., and J. L. Sarmiento (1997), Global patterns of marine nitrogen fixation and denitrification, Global Biogeochem. Cycles, 11(2), 235266.
  • Hales, B., and T. Takahashi (2002), The pumping SeaSoar: A high-resolution seawater sampling platform, J. Atmos. Oceanic Technol., 19, 10961104.
  • Hales, B., and T. Takahashi (2012), Mesoscale biogeochemical responses to iron fertilization in the upper layers of the Southern Ocean Iron Experiment areas, J. Geophys. Res., 117(C01018), doi:10.1029/2011JC006956.
  • Hales, B., D. Chipman, and T. Takahashi (2004), High-frequency measurements of partial pressure and total concentration of carbon dioxide in seawater using microporous hydrophobic membrane contactors, Limnol. Ocean.: Methods, 2, 356364.
  • Hales, B., T. Takahashi, and L. Bandstra (2005), Atmospheric CO2 uptake by a coastal upwelling system, Global Biogeochem. Cycles, 19, GB1009, doi:10.1029/2004GB002295.
  • Henson, S. A., and A. C. Thomas (2008), A census of oceanic anticyclonic eddies in the Gulf of Alaska, Deep-Sea Res. I, 55, 163176, doi:10.1016/j.dsr.2007.11.005.
  • Hofmann, G. E., et al. (2011), High-frequency dynamics of ocean pH: A multi-ecosystem comparison, PLoS One, 6(12), doi:10.1371/journal.pone.0028983.
  • Janout, M. A., T. J. Weingartner, S. R. Okkonen, T. Whitledge, and D. L. Musgrave (2009), Some characteristics of Yakutat Eddies propagating along the continental slope of the northern Gulf of Alaska, Deep-Sea Res. II, 56, 24442456, doi:10.1016/j.dsr2.2009.02.006.
  • Juranek, L. W., R. A. Feely, W. T. Peterson, S. R. Alin, B. Hales, K. Lee, C. L. Sabine, and J. O. Peterson (2009), A novel method for determination of aragonite saturation state on the continental shelf of Oregon using multi-parameter relationships with hydrographic data, Geophys. Res. Lett., 36(L24601), doi:10.1029/2009GL040778.
  • Juranek, L. W., R. A. Feely, D. Gilbert, H. Freeland, and L. A. Miller (2011), Real-time estimation of pH and aragonite saturation state from Argo profiling floats: Prospects for an autonomous carbon observing strategy, Geophys. Res. Lett., 38(L17603), doi:10.1029/2011GL048580.
  • Juranek, L. W., R. A. Feely, S. R. Alin, C. Meining, and S. E. Stalin (2012), Evaluating Seasonal and Event-Scale Effects of Upwelling, Biological Production, and Hypoxia on Central Oregon Margin Carbon Chemistry Using a Coastal Glider, Paper Presented at Ocean Sciences Meeting, American Geophysical Union, Salk Lake City, Utah.
  • Kim, T.-W., K. Lee, R. A. Feely, C. L. Sabine, C.-T. A. Chen, H. J. Jeong, and K. Y. Kim (2010), Prediction of Sea of Japan (East Sea) acidification over the past 40 years using a multiparameter regression model, Global Biogeochem. Cycles, 24(GB3005), doi:10.1029/2009 GB003637.
  • Ladd, C., N. B. Kachel, C. W. Mordy, and P. J. Stabeno (2005a), Observations from a Yakutat eddy in the northern Gulf of Alaska, J. Geophys. Res., 110(C03003), doi:10.1029/2004JC002710.
  • Ladd, C., P. J. Stabeno, and E. D. Cokelet (2005b), A note on cross-shelf exchange in the northern Gulf of Alaska, Deep-Sea Res. II, 52, 667679, doi:10.1016/j.dsr2.2004.12.022.
  • Ladd, C., C. W. Mordy, N. B. Kachel, and P. J. Stabeno (2007), Northern Gulf of Alaska eddies and associated anomalies, Deep-Sea Res. I, 54, 487509, doi:10.1016/j.dsr.2007.01.006.
  • Lee, K., R. Wanninkhof, R. A. Feely, F. J. Millero, and T.-H. Peng (2000), Global relationships of total inorganic carbon with temperature and nitrate in surface seawater, Global Biogeochem. Cycles, 14(3), 979994.
  • Lee, K., L. T. Tong, F. J. Millero, C. L. Sabine, A. G. Dickson, C. Goyet, G.-H. Park, R. Wanninkhof, R. A. Feely, and R. M. Key (2006), Global relationships of total alkalinity with salinity and temperature in surface waters of the world's oceans, Geophys. Res. Lett., 33(L19605), doi:10.1029/2006GL027207.
  • MacIntyre, G., B. Plache, M. R. Lewis, J. Andrea, S. Feener, S. D. McLean, K. S. Johnson, L. J. Coletti, and H. W. Jannasch (2009), ISUS/SUNA nitrate measurements in networked ocean observing systems, paper presented at oceans 2009, MTS/IEEE Biloxi-Marine Technology for Our Future: Global and Local Challenges, Biloxi.
  • Martz, T. R., J. G. Connery, and K. S. Johnson (2010), Testing the Honeywell Durafet® for seawater pH applications, Limnol. Ocean.: Methods, 8, 172184, doi:10.4319/lom.2010.8.172.
  • Millero, F. J. (2007), The marine inorganic carbon cycle, Chem. Rev., 107, 308341, doi:10.1021/cr0503557.
  • Musgrave, D. L., T. Weingartner, and T. C. Royer (1992), Circulation and hydrography in the northwestern Gulf of Alaska, Deep-Sea Res. 39, 14991519.
  • Okkonen, S. R., G. A. Jacobs, E. J. Metzger, H. E. Hurlburt, and J. F. Shriver (2001), Mesoscale variability in the boundary currents of the Alaska Gyre, Continent. Shelf Res., 21, 12191236.
  • Okkonen, S. R., T. J. Weingartner, S. L. Danielson, D. L. Musgrave, and G. M. Schmidt (2003), Satellite and hydrographic observations of eddy-induced shelf-slope exchange in the northwestern Gulf of Alaska, J. Geophys. Res., 108, doi:10.1029/2002JC001342.
  • Orr, J. C., et al. (2005), Anthropogenic ocean acidification over the twenty-first century and its impact on calcifying organisms, Nature, 437, 681686, doi:10.1038/nature04095.
  • Orton, P. M., C. J. Zappa, and W. R. McGillis (2011), An autonomous self-orienting catamaran (SOCa) for measuring air-water fluxes and forcing, in Gas Transfer At Water Surfaces 2010, edited by S. Komori, W. R. McGillis and R. Kurose, Kyoto University Press, Kyoto, 343357.
  • Overland, J. E., J. M. Adams, and N. A. Bond (1999), Decadal variability of the Aleutian low and its relation to high-latitude circulation, J. Climate, 12, 15421548.
  • Quinn, G. P., and M. J. Keough (2002), Experimental Design and Data Analysis for Biologists, 556 pp., Cambridge University Press, New York, NY.
  • Royer, T. C. (2005), Hydrographic responses at a coastal site in the northern Gulf of Alaska to seasonal and interannual forcing, Deep-Sea Res. II, 52, 267288, doi:10.1016/j.dsr2.2004.09.022.
  • Sabine, C. L., and T. Tanhua (2010), Estimation of anthropogenic CO2 inventories in the ocean, Annu. Rev. Marine Sci., 2, 175198, doi:10.1146/annualreviews.org.
  • Sabine, C. L., R. A. Feely, R. M. Key, J. L. Bullister, F. J. Millero, K. Lee, T.-H. Peng, B. Tilbrook, T. Ono, and C. S. Wong (2002), Distribution of anthropogenic CO2 in the Pacific Ocean, Global Biogeochem. Cycles, 16(4), doi:10.1029/2001GB001639.
  • 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, Continent. Shelf Res., 25, 21472162, doi:10.1016/j.csr.2005.07.006.
  • Seidel, M. P., M. D. DeGrandpre, and A. G. Dickson (2008), A sensor for in situ indicator-based measurements of seawater pH, Mar. Chem., 109, 1828, doi:10.1016/j.marchem.2007.11.013.
  • 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, Continent. Shelf Res., 24, 859897, doi:10.1016/j.csr.2004.02.007.
  • Takahashi, T., et al. (2002), Global sea-air CO2 flux based on climatological surface ocean pCO2, and seasonal biological and temperature effects, Deep-Sea Res. II, 49, 16011622.
  • Takahashi, T., S. C. Sutherland, R. A. Feely, and R. Wanninkhof (2006), Decadal change of the surface water pCO2 in the North Pacific: A synthesis of 35 years of observations, J. Geophys. Res., 111, C07S05, doi:10.1029/2005JC003074.
  • Thacker, W. C. (2012), Regression-based estimates of the rate of accumulation of anthropogenic CO2 in the ocean: A fresh look, Mar. Chem., 132-133, 4455, doi:10.1016/j.marchem.2012.02.004.
  • Thomson, R. E., and M. V. Krassovski (2010), Poleward reach of the California Undercurrent extension, J. Geophys. Res., 115(C09027), doi:10.1029/2010JC006280.
  • van Heuven, S., D. Pierrot, J. W. B. Rae, E. Lewis, and D. W. R. Wallace (2011), MATLAB program developed for co2 system calculations rep., Department of Energy, Oak Ridge, Tennessee.
  • Wallace, D. W. R. (2001), Storage and transport of excess CO2 in the oceans: The JGOFS/WOCE global CO2 survey, in Ocean Circulation and Climate, edited by G. Siedler, J. Church and J. Gould, Academic Press, San Diego, Calif, 489521.
  • Wanninkhof, R., S. C. Doney, J. L. Bullister, N. M. Levine, M. Warner, and N. Gruber (2010), Detecting anthropogenic CO2 changes in the interior Atlantic Ocean between 1989 and 2005, J. Geophys. Res., 115(C11028), doi:10.1029/2010JC006251.
  • Ware, D. M., and R. E. Thomson (2005), Bottom-up ecosystem trophic dynamics determine fish production in the Northeast Pacific, Science, 308, 12801284, doi:10.1126/science.1109049.
  • Weingartner, T. (2007), The physical environment of the Gulf of Alaska, in Long-term Ecological Change in the Northern Gulf of Alaska, edited by R. B. Spies, 589 p., Elsevier, Oxford.
  • Weingartner, T. J., et al. (2002), The Northeast Pacific GLOBEC Program: Coastal Gulf of Alaska, Oceanogr., 15(2), 4863.
  • Whitledge, T., S. C. Malloy, C. J. Patton, and C. D. Wirick (1981), Automated Nutrient Analyses in Seawater, National Technical Information Service, Upton, New York, 164 p.
  • Whitney, F. A., W. R. Crawford, and P. J. Harrison (2005), Physical processes that enhance nutrient transport and primary productivity in the coastal and open ocean of the subartic NE Pacific, Deep-Sea Res. II, 52, 681706.
  • Willcox, S., C. Meinig, C. L. Sabine, N. Lawrence-Slavas, T. Richardson, R. Hine, and J. Manley (2009), An autonomous mobile platform for underway surface carbon measurements in open-ocean and coastal waters, paper presented at OCEANS 2009, MTS/IEEE Biloxi-Marine Technology for Our Future: Global and Local Challenges, Biloxi.
  • Wong, C. S., J. R. Christian, S.-K. E. Wong, J. Page, L. Xie, and S. Johannessen (2010), Carbon dioxide in surface seawater of the eastern North Pacific Ocean (Line P), 1973–2005, Deep-Sea Res. I, 57, 687695, doi:10.1016/j.dsr.2010.02.003.