Export 405 results:
[ Type(Desc)] Year
S. M. Manson, Big Data and Human-Environment Systems. Cambridge University Press, 2023.
Book Chapter
R. Marsh and van Sebille, E., Chapter 12 Ocean currents, heat transport, and climate, in Ocean Currents, 2021, pp. 497-520.
B. Rudels, Chapter 9 Variability and change, in The Physical Oceanography of the Arctic Mediterranean Sea, 2022, pp. 433-477.
Z. Sun, Data Foundation for Actionable Science, in Actionable Science of Global Environment Change: From Big Data to Practical Research, Z. Sun, Ed. Cham: Springer International Publishing, 2023, pp. 31–54.
N. L. Bangs, Johnson, J. E., Tréhu, A. M., and Arsenault, M. A., Hydrate Ridge—A Gas Hydrate System in a Subduction Zone Setting, in World Atlas of Submarine Gas Hydrates in Continental Margins, 2022, pp. 89-107.
C. Aiken, Listening for Diverse Signals From Emergent and Submarine Volcanoes, in Noisy Oceans, American Geophysical Union (AGU), 2024, pp. 43–58.
V. de Rijke, Scribble on Screens and by Machines, in The Untimely Art of Scribble, Singapore: Springer Nature, 2023, pp. 163–194.
J. Lubchenco and Haugan, P. M., Technology, Data and New Models for Sustainably Managing Ocean Resources, in The Blue Compendium: From Knowledge to Action for a Sustainable Ocean Economy, J. Lubchenco and Haugan, P. M., Eds. Cham: Springer International Publishing, 2023, pp. 185–211.
Journal Article
H. G. Arango, Levin, J., Wilkin, J., and Moore, A. M., 4D-Var data assimilation in a nested model of the Mid-Atlantic Bight, Ocean Modelling, vol. 184, p. 102201, 2023.
G. Xu, Bemis, K., Jackson, D., and Ivakin, A., Acoustic and In-Situ Observations of Deep Seafloor Hydrothermal Discharge: An OOI Cabled Array ASHES Vent Field Case Study, Earth and Space Science, vol. 8, p. e2020EA001269, 2021.
G. Xu, Bemis, K., Jackson, D., and Ivakin, A., Acoustic and In‐situ Observations of Deep Seafloor Hydrothermal Discharge: an OOI Cabled Array ASHES Vent Field Case Study, Earth and Space Science, 2020.
E. L. Ferguson, Clayton, H. M., and Sakai, T., Acoustic indices respond to specific marine mammal vocalizations and sources of anthropogenic noise, Frontiers in Marine Science, vol. 10, 2023.
J. Wang, Kong, D., Chen, W., and Zhang, S., Advances in Software-Defined Technologies for Underwater Acoustic Sensor Networks: A Survey, Journal of Sensors, vol. 2019, pp. 1-13, 2019.
M. R. Terwilliger, Rasmuson, L. K., and Stern, R. A., Age validation of Black Rockfish, Copper Rockfish, and Cabezon using secondary ion mass spectrometry (SIMS) to elucidate seasonal patterns in otolith stable oxygen isotopes, Environmental Biology of Fishes, vol. 106, pp. 553–573, 2023.
R. Arruda, Calil, P. H. R., Bianchi, A. A., Doney, S. C., Gruber, N., Lima, I., and Turi, G., Air-sea CO2 fluxes and the controls on ocean surface pCO(2) seasonal variability in the coastal and open-ocean southwestern Atlantic Ocean: a modeling study, Biogeosciences, vol. 12, pp. 5793-5809, 2015.
M. F. Cronin, Gentemann, C. L., Edson, J., Ueki, I., Bourassa, M., Brown, S., Clayson, C. Anne, Fairall, C. W., J. Farrar, T., Gille, S. T., Gulev, S., Josey, S. A., Kato, S., Katsumata, M., Kent, E., Krug, M., Minnett, P. J., Parfitt, R., Pinker, R. T., Stackhouse, P. W., Swart, S., Tomita, H., Vandemark, D., A. Weller, R., Yoneyama, K., Yu, L., and Zhang, D., Air-Sea Fluxes With a Focus on Heat and Momentum, Frontiers in Marine Science, vol. 6, p. 430, 2019.
O. Gutjahr, Jungclaus, J. H., Brüggemann, N., Haak, H., and Marotzke, J., Air-Sea Interactions and Water Mass Transformation During a Katabatic Storm in the Irminger Sea, Journal of Geophysical Research: Oceans, vol. 127, no. 5, p. e2021JC018075, 2022.
D. Swingedouw, Houssais, M. - N., Herbaut, C., Blaizot, A. - C., Devilliers, M., and Deshayes, J., AMOC Recent and Future Trends: A Crucial Role for Oceanic Resolution and Greenland Melting?, Frontiers in Climate, vol. 4, 2022.
Y. Kostov, Johnson, H. L., and Marshall, D. P., AMOC sensitivity to surface buoyancy fluxes: the role of air-sea feedback mechanisms, Climate Dynamics, vol. 53, pp. 4521-4537, 2019.
P. L. Mazzini, Risien, C. M., Barth, J. A., Pierce, S. D., Erofeev, A., Dever, E. P., Kosro, P. M., Levine, M. D., Shearman, R. K., and Vardaro, M. F., Anomalous Near-Surface Low-Salinity Pulses off the Central Oregon Coast, Sci Rep, vol. 5, p. 17145, 2015.
T. C. Biló, Straneo, F., Holte, J., and Le Bras, I. A. - A., Arrival of New Great Salinity Anomaly Weakens Convection in the Irminger Sea, Geophysical Research Letters, vol. 49, no. 11, p. e2022GL098857, 2022.
S. A. Grodsky, Vandemark, D., and Feng, H., Assessing Coastal SMAP Surface Salinity Accuracy and Its Application to Monitoring Gulf of Maine Circulation Dynamics, Remote Sensing, vol. 10, 2018.
A. M. Moore, Levin, J., Arango, H. G., and Wilkin, J., Assessing the performance of an ocean observing, analysis and forecast System for the Mid-Atlantic Bight using array modes, Ocean Modelling, vol. 164, 2021.
A. Chava, Oceanology, P. P. Shirsho, Gebruk, A., Kolbasova, G., Krylov, A., Tanurkov, A., Gorbuskin, A., Konovalova, O., Migali, D., Ermilova, Y., Shabalin, N., Chava, V., Semiletov, I., and Mokievsky, V., At the Interface of Marine Disciplines: Use of Autonomous Seafloor Equipment for Studies of Biofouling Below the Shallow-Water Zone, Oceanography, vol. 34, 2021.
T. Petit, M. Lozier, S., Josey, S. A., and Cunningham, S. A., Atlantic Deep Water Formation Occurs Primarily in the Iceland Basin and Irminger Sea by Local Buoyancy Forcing, Geophysical Research Letters, vol. 47, 2020.