{"id":404,"date":"2019-11-26T15:18:09","date_gmt":"2019-11-26T23:18:09","guid":{"rendered":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/?page_id=404"},"modified":"2025-09-04T14:11:32","modified_gmt":"2025-09-04T21:11:32","slug":"publications","status":"publish","type":"page","link":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"
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Publications are available upon request<\/span><\/p>\n

Wood, M., Carroll, D., Fenty, I., Bertin, C., Darby, B., Dutkiewicz, S., Hopwood, M., Khazendar, A., Meire, L., Oliver, H., Parker, T., and J. Willis, 2025, Increased melt from Greenland\u2019s most active glacier fuels enhanced coastal productivity. Nature Communications: Earth & Environment<\/em>, 6, 626.<\/p>\n

Hayward, A., Wright, S. W., Carroll, D., Law, C. S., Wongpan, P., Guti\u00e9rrez-Rodriguez, A., and M.H Pinkerton, 2025, Antarctic phytoplankton communities restructure under shifting sea-ice regimes. Nature Climate Change<\/em>, 1\u20138.<\/p>\n

Suselj, K., Carroll, D., Whitt, D., Samuels, B., Menemenlis, D., Zhang, H., Beatty, N., and A. Savage, 2025, Quantifying marine carbon dioxide removal via alkalinity enhancement across circulation regimes using ECCO-Darwin and 1D models. Journal of Advances in Modeling Earth Systems<\/em>, 17, e2024MS004847.<\/p>\n

Dong, S., Berelson, W.M., Forin, P., Gutierrez, M., Carroll, D., Menemenlis, D., Kyi, A.Y., J.F. Adkins, 2025, Potential of CO2 sequestration through accelerated weathering of limestone on ships. Science Advances<\/i> 11, 25: eadr7250.<\/p>\n

Bertin, C., Carroll, D., Menemenlis, D., Dutkiewicz, S., Zhang, H., Schwab, M., Savelli, R., Matsuoka, A., Manizza, M., Miller, C., Bowring, S., Guenet, B. and V. Le Fouest, 2025, Paving the Way for Improved Representation of Coupled Physical and Biogeochemical Processes in Arctic River Plumes \u2014 A Case Study of the Mackenzie Shelf. Permafrost and Periglacial Processes<\/em>, 0, 1\u201315.<\/p>\n

Gu, Y., Hopwood, M. J., Carroll, D., Liu, T., and S. Krisch, 2025, Tracking the dispersal of river water, atmospheric deposition, and shallow sedimentary trace metal inputs from the Congo region into the South Atlantic. Journal of Geophysical Research: Oceans<\/em>, 130, e2024JC021417.<\/p>\n

Hopwood, M. J., Carroll, D., Gu, Y., Huang, X., Krause, J., Cozzi, S., et al, 2025, A close look at dissolved silica dynamics in Disko Bay, west Greenland. Global Biogeochemical Cycles<\/em>, 39, e2023GB008080<\/p>\n

Krause, J., Carroll, D., H\u00f6fer, J., Donaire, J., Achterberg, E.P., Alarc\u00f3n, E., Liu, T., Meire, L., Zhu, K., and M.J. Hopwood, 2024, The macronutrient and micronutrient (iron and manganese) signature of icebergs, The Cryosphere, <\/em>18(12), 5735\u20135752.<\/p>\n

Madani, N., Parazoo, N.C., Manizza, M., Chatterjee, A., Carroll, D., Menemenlis, D., Le Fouest, V., Matsuoka, A., Luis, K.M., Serra Pompei, C., and C.E. Miller, 2024, A machine learning approach to produce a continuous solar-induced chlorophyll fluorescence over the Arctic Ocean, JGR: Machine Learning and Computation, <\/em>1, e2024JH000215.<\/p>\n

Fay A., Caroll, D., McKinley, G.A., Menemenlis, D., and H. Zhang, 2024, Scale-dependent Drivers of Air-sea CO2<\/sub> Flux Variability. Geophysical Research Letters<\/em>, 51, e2024GL111911<\/p>\n

Choi, J., Matsuoka, A., Manizza, M., Carroll, D., Dutkiewicz, S., and Lippmann, T., 2024, A new ecosystem model for Arctic phytoplankton phenology from ice covered to open water periods: implications for future sea ice retreat scenarios. Geophysical Research Letters<\/em>, 51, e2024GL110155<\/p>\n

Cavanaugh, K.C., Carroll, D., Bardou, R. and Van der Stocken, T., 2024, Dispersal limits poleward expansion of mangroves on the west coast of North America. Ecography, e07288, https:\/\/doi.org\/10.1111\/ecog.07288<\/p>\n

Krause, J., Carroll, D., H\u00f6fer, J., Donaire, J., Achterberg, E.P., Alarc\u00f3n, E., Liu, T., Meire, L., Zhu, K., and M.J. Hopwood, 2024, The macronutrient and micronutrient (iron and manganese) signature of icebergs. EGUsphere<\/em>, https:\/\/doi.org\/10.5194\/egusphere-2023-2991<\/p>\n

Schimel, D.S., and D. Carroll, 2024, Carbon Cycle\u2013Climate Feedbacks in the Post-Paris World.
\nAnnual Review of Earth and Planetary Sciences<\/em>, 52:1<\/p>\n

Yasunaka, S., Manizza, M., Terhaar, J., Olsen, A., Yamaguchi, R., Landsch\u00fctzer, P., Watanabe, E., Carroll, D., Adiwira, H., M\u00fcller, J.D., and J. Hauck, 2023, An assessment of CO2 uptake in the Arctic Ocean from 1985 to 2018. Global Biogeochemical Cycles<\/em>, 37, e2023GB007806<\/p>\n

Carroll, D., Menemenlis, D., Zhang, H., Mazloff, M., McKinley, G., Fay, A., Dutkiewicz, S., Lauderdale, J., and I. Fenty, 2024, Evaluation of the ECCO-Darwin Ocean Biogeochemistry State Estimate vs. In-situ Observations (ver 1.0), Zenodo<\/em>, https:\/\/doi.org\/10.5281\/zenodo.10627664<\/p>\n

DeVries, T., Yamamoto, K., Wanninkhof, R., Gruber, N., Hauck, J., M\u00fcller, J.D., Bopp, L., Carroll, D., Carter, B., Chau, T.T., Doney, S., Gehlen, M., Gloege, L., Gregor, L., Henson, S., Kim, J.H., Iida, Y., Ilyina, T., Landsch\u00fctzer, P., Le Qu\u00e9r\u00e9, C., Munro, D., Nissen, C., Patara, L., Perez, F.F., Resplandy, L., Rodgers, K., Schwinger, J., S\u00e9f\u00e9rian, R., Sicardi, V., Terhaar, J., Tri\u00f1anes, J., Tsujino, H., Watson, A., Yasunaka, S., and, J. Zeng, 2023, Magnitude, trends, and variability of the global ocean carbon sink from 1985\u20132018. Global Biogeochemical Cycles<\/em>, e2023GB007780<\/p>\n

Manizza, M., Carroll, D., Menemenlis, D., Zhang, H., and C.E Miller, 2023, Modeling the recent changes of phytoplankton blooms dynamics in the Arctic Ocean. Journal of Geophysical Research: Oceans<\/em>, 128, e2022JC019152<\/p>\n

Oliver, H., Slater, D., Carroll, D., Wood, M., Morlighem, M., and M.J Hopwood, 2023, Greenland subglacial discharge as a driver of hotspots of increasing coastal chlorophyll since the early 2000s, Geophysical Research Letters<\/em>, 50(10), e2022GL102689<\/p>\n

Bertin, C., Carroll, D., Menemenlis, D., Dutkiewicz, S., Zhang, H., Matsuoka, A., Tank, S., Manizza, M., Miller, C.E., Babin, M., Mangin, A., and V. Le Fouest, 2023, Biogeochemical river runoff drives intense coastal Arctic Ocean CO2<\/sub> outgassing. Geophysical Research Letters<\/em>, 50, e2022GL102377<\/p>\n

Brewin, R.J.W., Sathyendranath, S., Kulk, G., Rio, M., Concha, J.A., Bell, T.G., Bracher, A., Fichot, C., Fr\u00f6licher, T.L., Gal\u00ed, M., Hansell, D.A., Kostadinov, T.S., Mitchell, C., Neeley, A.R., Organelli, E., Richardson, K., Rousseaux, C., Shen, F., Stramski, D., Tzortziou, M., Watson, A.J., Addey, C.I., Bellacicco, M., Bouman, H., Carroll, D., Cetini\u0107, I., Dall\u2019Olmo, G., Frouin, R., Hauck, J., Hieronymi, M., Hu, C., Ibello, V., J\u00f6nsson, B., Kong, C.E., Kova\u010d, Z., Laine, M., Lauderdale, J., Lavender, S., Livanou, E., Llort, J., Lorinczi, L., Nowicki, M., Pradisty, N.A., Psarra, S., Raitsos, D.E., Ruescas, A.B., Russell, J.L., Salisbury, J., Sanders, R., Shutler, J.D., Sun, X., Taboada, F.G., Tilstone, G.H., Wei, X., and D.K Woolf, 2023, Ocean carbon from space: Current status and priorities for the next decade, Earth-Science Reviews<\/em>, 240, 104386<\/p>\n

Raw, J. L., Van der Stocken, T., Carroll, D., Harris, L. R., Rajkaran, A., Van Niekerk, L., and J.B. Adams, 2022, Dispersal and coastal geomorphology limit potential for mangrove range expansion under climate change. Journal of Ecology<\/em>, 00, 1\u201317<\/p>\n

Byrne, B., Baker, D. F., Basu, S., Bertolacci, M., Bowman, K. W., Carroll, D., Chatterjee, A., Chevallier, F., Ciais, P., Cressie, N., Crisp, D., Crowell, S., Deng, F., Deng, Z., Deutscher, N. M., Dubey, M., Feng, S., Garc\u00eda, O., Griffith, D. W. T., Herkommer, B., Hu, L., Jacobson, A. R., Janardanan, R., Jeong, S., Johnson, M. S., Jones, D. B. A., Kivi, R., Liu, J., Liu, Z., Maksyutov, S., Miller, J. B., Miller, S. M., Morino, I., Notholt, J., Oda, T., O\u2019Dell, C. W., Oh, Y.-S., Ohyama, H., Patra, P. K., Peiro, H., Petri, C., Philip, S., Pollard, D. F., Poulter, B., Remaud, M., Schuh, A., Sha, M. K., Shiomi, K., Strong, K., Sweeney, C., T\u00e9, Y., Tian, H., Velazco, V. A., Vrekoussis, M., Warneke, T., Worden, J. R., Wunch, D., Yao, Y., Yun, J., Zammit-Mangion, A., and Zeng, N, 2022, National CO2 budgets (2015\u20132020) inferred from atmospheric CO2<\/sub> observations in support of the Global Stocktake, Earth System Science Data<\/em>, 15, 963\u20131004<\/p>\n

Van der Stocken, T., Vanschoenwinkel, B., Carroll, D., Cavanaugh, K., and N. Koedam, 2022,
\nMangrove dispersal disrupted by projected changes in global seawater density, Nature Climate Change<\/em>, 12, 685\u2013691<\/p>\n

Slater D., Carroll, D., Oliver, H., Hopwood., M., Straneo, F., Wood, M., and J. Willis, 2022, Characteristic depths, fluxes and timescales for Greenland's tidewater glacier fjords from subglacial discharge-driven upwelling during summer, Geophysical Research Letters<\/em>, 49, e2021GL097081<\/p>\n

Carroll, D., Menemenlis, D., Dutkiewicz, S., Lauderdale, J. M., Adkins, J. F., Bowman, K. W., et al., 2022, Attribution of space-time variability in global-ocean dissolved inorganic carbon, Global Biogeochemical Cycles<\/em>, 36, e2021GB007162<\/p>\n

Sulpis, O., Humphreys, M., Wilhelmus, M., Carroll, D., Berelson, W., Menemenlis, D., Middelburg, J., and J. Adkins, 2022, RADIv1: a non-steady-state early diagenetic model for ocean sediments in Julia and MATLAB\/GNU Octave, Geoscientific Model Development<\/em>, 15, 2105\u20132131<\/p>\n

Krause, J., Hopwood, M.J., H\u00f6fer, J., Krisch, S., Achterberg, E.P., Alarc\u00f3n, E., Carroll, D., Gonz\u00e1lez, H.E., Juul-Pedersen, Liu, T., Lodeiro, P., Lorenz, M.,and M.T. Rosing, 2021, Trace element (Fe, Co, Ni, Cu and Pb) dynamics across the salinity gradient in Arctic and Antarctic glacier fjords, Frontiers of Marine Science<\/em>, 9, 878<\/p>\n

Leonid, Y., Carroll, D., Pnyushkov, A., Polyakov, I., and H. Zhang, 2021, Ocean stratification and sea-ice cover in Barents and Kara seas modulate sea-air methane flux, Advances in Polar Science<\/em>, 32(2), 118\u2013140<\/p>\n

Z\u00fa\u00f1iga, D., Sanchez-Vidal, A., Flexas, M. M., Carroll, D., Rufino, M.M., Spreen, G., Calafat, A., and F. Abrantes, 2021, Sinking diatom assemblages as a key driver for deep carbon and silicon export in the Scotia Sea (Southern Ocean), Frontiers in Marine Science<\/em>, 9, 463<\/p>\n

Feng, Y., Menemenlis, D., Xue, H., Zhang, H., Carroll, D., Du, Y., and H. Wu, 2021, Improved representation of river runoff in Estimating the Circulation and Climate of the Ocean Version 4 (ECCOv4) simulations: implementation, evaluation and impacts to coastal plume regions, Geoscientific Model Development<\/em>, 14, 1801\u20131819<\/p>\n

Breaker, L., and D. Carroll, 2021, A closer look at power law scaling applied to sea surface temperature from Scripps Pier using Empirical Mode Decomposition, Journal of Atmospheric and Oceanic Technology<\/em>, 38(4), 777\u2013787<\/p>\n

Vazquez-Cuervo, J., Gentemann, C., Tang, W., Carroll, D., Zhang, H., Menemenlis, D., Gomez-Valdes, J., Bouali, M., and M. Steele, 2020, Using Saildrones to Validate Arctic Sea-Surface Salinity from Satellites and Ocean Models, Remote Sensing<\/em>, 13(5), 831<\/p>\n

Liu, J., Baskarran, L., Bowman, K., Schimel, D., Bloom, A. A., Parazoo, N. C., Oda, T., Carroll, D., Menemenlis, D., Joiner, J., Commane, R., Daube, B., Gatii, L. V., McKain, K., Miller, J., Stephens, B. B., Sweeney, C., and S. Wofsy, 2020, Carbon Monitoring System Flux Net Biosphere Exchange 2020 (CMS-Flux NBE 2020), Earth System Science Data<\/em>, 13, 299\u2013330<\/p>\n

Carroll, D.,<\/em> Menemenlis, Adkins, J.F., Bowman, K.W., Brix, H., Dutkiewicz, S., Fenty, I., Gierach, M. M., Hill, C., Jahn, O., Landsch\u00fctzer, P., Lauderdale, J. Liu, J.M., Naviaux, J.D., Manizza, M., R\u00f6denbeck, C.,\u00a0 Schimel, D. S., Van der Stocken, T., Zhang, H, Seasonal to Multi-decadal Air-sea CO2<\/sub> Fluxes from the Data-constrained ECCO-Darwin Global Ocean Biogeochemistry Model, Journal of Advances in Modeling Earth Systems<\/em>, 12, e2019MS001888<\/p>\n

Hopwood, M., Carroll, D., Dunse, T., Hodson, A., Holding, J., Iriarte, J., Ribeiro, S., Achterberg, S., Cantoni, S., Carlson, D., Chierici, M., Clarke, J., Cozzi, S., Fransson, A., Juul-Pedersen, T., Winding, M., and L. Meire, 2019, How does glacier discharge affect marine biogeochemistry and primary production in the Arctic?, The Cryosphere<\/em>, 14, 1347\u20131383<\/p>\n

Hopwood, M.J., Carroll, D., H\u00f6fer, J., Meire, L., Le Moigne, F.A.C., Bach, L., Eich, C., Sutherland, D.A., Gonz\u00e1lez Estay, H., and E.P. Achterberg, 2019, Highly variable iron content limits iceberg-ocean fertilization and carbon export, Nature Communications<\/em>, 10(1), 1\u201310<\/p>\n

Fried, M.J., Carroll, D., Catania, G.A., Sutherland, D.A., Stearns, L.A., Shroyer, E.L., and J.D. Nash, 2019, Distinct frontal ablation processes drive heterogenous submarine terminus morphology, Geophysical Research Letters<\/em>, 46 (21), 12083\u201312091<\/p>\n

Breaker, L., and D. Carroll, 2019, The impact of regime shifts on long-range persistence and the scaling of sea surface temperature off the coast of California, Journal of Geophysical Research: Oceans<\/em>, 24, 3206\u20133227<\/p>\n

Khazendar, A., Fenty, I., Carroll, D., Gardner, A., Fukumori, I., Wang, O., Seroussi, H., Moller, D., No\u00ebl, B.Y.P., van den Broeke., M.R., Dinardo, S., and J. Willis, 2019, Interruption of two decades of Jakobshavn Isbrae acceleration and thinning as regional ocean cools, Nature Geoscience<\/em>, 12, 277\u2013283<\/p>\n

Van der Stocken, T.*, Carroll, D.*, Menemenlis, D., Simard, M., and N. Koedam (* co-first author), 2019, Mangrove dispersal and connectivity across the world\u2019s oceans, Proceedings of the National Academy of Sciences<\/em>, 116(3), 915\u2013922<\/p>\n

Carroll, D., Sutherland, D.A., Curry, B., Shroyer, E.L., Nash, J.D., Catania, G.A., Stearns., L.A., Grist, J.P., Lee, C.M., and L. de Steur, 2018, Sub-annual and seasonal variability of Atlantic-origin waters in two adjacent west Greenland fjords, Journal of Geophysical Research: Oceans<\/em>, 123 (9), 6670\u20136687<\/p>\n

Hopwood, M., Carroll, D., Browning, T., Meire, L., Yool, A., Mortensen, J., and E. Achterberg, 2018, Non-linear response of summertime marine productivity to increased meltwater discharge around Greenland, Nature Communications<\/em>, 9 (1), 3256<\/p>\n

Willis, J., Carroll, D., Kohli, G., Khazendar, A., Fenty, I., Rutherford, M., Trenholm, N., and M. Morlighem, 2018, Ocean-ice interactions in Inglefield Gulf: Early results from NASA\u2019s Oceans Melting Greenland mission, Oceanography<\/em>, 31(2)<\/p>\n

Amundson, J.M. and D. Carroll, 2018, Effect of topography on subglacial discharge and submarine melting during tidewater glacier retreat. Journal of Geophysical Research: Earth Surface<\/em>, 123, 66\u201379<\/p>\n

Moon, T., Sutherland, D.A., Carroll, D., Felikson, D., Kehrl, L.M., and F. Straneo, 2017, Subsurface iceberg melt key to Greenland fjord freshwater budget, Nature Geoscience<\/em>, 11, 49\u201354<\/p>\n

Carroll, D., Sutherland, D.A., Shroyer, E.L., Nash, J.D., Catania, G.A., and L.A. Stearns, 2017, Subglacial discharge-driven renewal of tidewater glacier fjords. Journal of Geophysical Research: Oceans<\/em>, 122, 6611\u20136629<\/p>\n

Jackson, R.H., Shroyer, E.L., Nash, J.D., Sutherland, D.A., Carroll, D., Fried, M.J., Catania G.A., Bartholomaus, T.C., and L.A. Stearns, 2017, Near-glacier surveying of a subglacial discharge plume: implications for plume parameterizations, Geophysical Research Letters<\/em>, 44, 6886\u20136894<\/p>\n

Carroll, D., Sutherland, D.A., Hudson, B., Moon T., Catania, G.A., Shroyer, E.L., Nash, J.D., Bartholomaus, T.C., Felikson D., Stearns, L.A., No\u00ebl, B.Y.P., and M.R. van den Broeke, 2016, The impact of glacier geometry on meltwater plume structure and submarine melt in Greenland fjords, Geophysical Research Letters<\/em>, 43(18), 9739\u20139748<\/p>\n

Breaker, L.C., Loor, H.R., and D. Carroll, 2016, Trends in sea surface temperature off the coast of Ecuador and the major processes that contribute to them, Journal of Marine Systems<\/em>, 164, 151\u2013164<\/p>\n

Bartholomaus, T.C., Stearns, L.A., Sutherland, D.A., Shroyer, E.L., Nash, J.D., Walker, R., Catania, G.A., Felikson, D., Carroll, D., Fried, M.J., No\u00ebl, B.Y.P., and M.R. van den Broeke, 2016, Contrasts in the response of adjacent fjords and glaciers to ice-sheet surface melt in West Greenland, Annals of Glaciology<\/em>, 57(73), 25\u201338<\/p>\n

Carroll, D. , Sutherland, D.A., Shroyer, E.L., Nash, J.D., Catania, G.A., and L.A. Stearns, 2015, Modeling turbulent subglacial meltwater plumes: implications for fjord-scale buoyancy-driven circulation, Journal of Physical Oceanography<\/em>, 45(8), 2169\u20132185<\/p>\n

Breaker, L.C., Murty, T.S., and D. Carroll, 2013, A frequency domain approach for predicting the signal strength of tsunamis at coastal tide gauges, Journal of Coastal Research<\/em>, 30(3), 562\u2013574<\/p>\n

Breaker, L.C., Murty T.S., Carroll, D., and W.J Teague, 2011, The response of the Monterey Bay to the Great Tohoku Earthquake of 2011, Science of Tsunami Hazards<\/em>, 30(3), 153\u2013163<\/p>\n

Cazenave, F., Zook, R., Carroll, D., Flagg, M., and S. Kim, 2011, Development of the ROV SCINI (Submersible Capable of under Ice Navigation and Imaging) and deployment in McMurdo Sound, Antarctica, Journal of Ocean Technology<\/em>, 6(3), 39\u201357<\/p>\n

Breaker, L.C., Murty T.S., Norton J. G., and D. Carroll, 2009, Comparing sea level response at Monterey, California from the 1989 Loma Prieta earthquake and the 1964 Great Alaskan Earthquake, Science of Tsunami Hazards<\/em>, 28(5), 255\u2013271<\/p>\n

Carroll, D., Broadus, R., Hanson, J., Conant, T., and A.M Nishimura, 2005, Study of the phosphorescent triplet state of 2-Indanone: Use of a microcontroller-based photon counter and pulse train generator, Journal of Undergraduate Chemistry Research<\/em>, 1, 85\u201389<\/p>\n<\/div>\n<\/div><\/div><\/div><\/div><\/div>","protected":false},"excerpt":{"rendered":"

Publications are available upon request Wood, M., Carroll, D., Fenty, I., Bertin, C., Darby, B., Dutkiewicz, S., Hopwood, M., Khazendar, A., Meire, L., Oliver, H., Parker, T., and J. Willis, 2025, Increased melt from Greenland\u2019s most active glacier fuels enhanced coastal productivity. Nature Communications: Earth & Environment, 6, 626. Hayward, A., Wright, S. W., Carroll, […]<\/p>\n","protected":false},"author":119,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"categories":[],"tags":[],"class_list":["post-404","page","type-page","status-publish","hentry"],"distributor_meta":false,"distributor_terms":false,"distributor_media":false,"distributor_original_site_name":"MLML Ocean Modeling Lab","distributor_original_site_url":"https:\/\/mlml.sjsu.edu\/ocean-modeling","push-errors":false,"_links":{"self":[{"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/pages\/404","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/users\/119"}],"replies":[{"embeddable":true,"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/comments?post=404"}],"version-history":[{"count":20,"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/pages\/404\/revisions"}],"predecessor-version":[{"id":792,"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/pages\/404\/revisions\/792"}],"wp:attachment":[{"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/media?parent=404"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/categories?post=404"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/mlml.sjsu.edu\/ocean-modeling\/wp-json\/wp\/v2\/tags?post=404"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}