[1]
story by Helen Hill [2]
The Estimating the Circulation and Climate of the Ocean (ECCO) consortium, a joint venture led by MIT, NASA’s Jet Propulsion Laboratory, and Scripps Oceanographic Institution combines observations and the MITgcm to obtain a more realistic understanding of ocean circulation, how it evolves over time, and its impact on global climate.
Between May 16-18 members of the extended ECCO family met at MIT to share news of what science is being done using ECCO and to discuss “needs, synergies, challenges, and a roadmap” going forward.
The meeting kicked off with a general overview of the global decadel ECCO effort with Gael Forget [3] (MIT) giving a product overview of ECCO v4, Ichiro Fukumori [4] (JPL) and Ian Fenty [5] (JPL) providing an overview of the main updates in forthcoming release 3, Detlef Stammer [6] (U. Hamburg) appraising attendees about GECCO2 and related activities, and Dimitris Menemenlis [7] (JPL) wrapping up with an overview of ECCO-IcES.
There were science sessions on Sea Level (chaired by Dimitris Menemenlis [7]), two for Ocean Circulation Variability and Change (one chaired by Gael Forget [3] (MIT), the other by Christopher Hill [8], MIT), Coupling ECCO to the Cryosphere (chaired by Ichiro Fukumori [4]), Emerging Applications (chaired by Matt Mazloff [9], Scripps), Ocean Acoustic Tomography (chaired by Patrick Heimbach [10], MIT/ U. Texas Austin), and Ocean Biogeochemistry and Ecology (chaired by Dimitris Menemenlis [7].)
Presentations
Sea level science
Rui Ponte [11] (AER): Accelerations in global and regional sea level and the recent surface warming slowdown
Chris Piecuch [12] (URI/AER): Forcing of decadal variability in subsurface temperature and sea surface height north of 5S in the Indian Ocean
Xinfeng Liang [13] USF): Change of the global oceanic vertical heat transport after 2000
Maike Sonnewald [14] (MIT): (Linear predictability of regional sea level) tentative
Steven Nerem [15] (CCAR): An Overview of the Objectives of the NASA Sea Level Change Team
Ocean circulation variability & change
Nadya Vinogradova [16](AER): Recent changes in the ocean water cycle and surface salinity
Martha Buckley [17] (GMU): The deep North Atlantic circulation in ECCO v4
Christopher Wolfe [18] (Stony Brook): Intrinsic mode of interannual variability identified in an ECCOv4-like model
Katherine Quinn [19] (AER): Ocean angular momentum from ECCO version 4, release 1
Ryan Abernathey [20] (LDEO): Online Diagnostics of Water Mass Transformation in MITgcm
Raffaele Ferrari [21] (MIT): Abyssal circulation
Ali Mashayek [22] (MIT): Topographic Enhancement of Turbulent Mixing in the Southern Ocean
Armin Koehl [23] (U. Hamburg): Parameter estimation in the ocean; coupled estimation with PLASIM
Gael Forget [3] (MIT): ECCO v4: parameterized and resolved processes
Coupling ECCO to the cryosphere
An Nguyen [24] (U. Texas, Austin): ASTE – status and updates
Cilan Cai [25] (UCI): Modeling of subaqueous melting in Petermann Fjord, Northwestern Greenland using IceBridge data and a numerical ocean circulation model
Alan Condron [26] (UMass Amherst): Simulating icebergs in MITgcm & results from Greenland meltwater experiments
Yoshihiro Nakayama [27] (JPL) (presented by D. Menemenlis): Amundsen Sea ocean, sea ice, and thermodynamic ice shelf simulation with optimized model parameters
Helene Seroussi [28] (JPL) and Eric Larour [29] (JPL) (presented by D. Menemenlis): MISOMIP experiments
Emerging applications
Lee-Lueng Fu [30] (JPL):Internal wave signatures in sea surface height: A challenge for the SWOT Mission
Carl Wunsch [31] (MIT): Inertial-internal wave problems in ECCO’s LLC4320
Ibrahim Hoteit [32] (KAUST): Red Sea Modeling
Dan Amrhein [33] (MIT): Towards an LGM state estimate
Ocean acoustic tomography
Brian Dushaw [34] (UW): Ocean Acoustic Tomography: A Missing Element of the Ocean Observing System
Bruce Cornuelle [35] (Scripps): Assimilation of tomographic data
Brian Dushaw [34] (UW): Time series of temperature in Fram Strait determined from DAMOCLES and ACOBAR tomography
Hanne Sagen [36] (NERSC): Acoustic Tomography in the Arctic: The UNDER-ICE and Arctic Watch Projects
Ocean biogeochemistry & ecology
Gael Forget [3] (MIT): ECCO v4: water mass and tracer applications
Matt Mazloff [9] (Scripps): B-SOSE: A biogeochemical Southern Ocean State Estimate & SOCCOM
Stephanie Dutkiewicz [37] (MIT): Ecological and biogeochemical modeling using ECCO state estimates
Monica Martinez [38] (Caltech): Understanding carbonate dissolution in ocean sediments
Dale Kiefer [39](USC): Fishscape: Application of ECCO to the tuna fishery of the Eastern Tropical Pacific
Other speakers included: Jean-Michel Campin [40] (MIT)
Other Links
ECCO [41]
GECCO2 [42]
ECCO-IcES [43]
New Publications this Month
L-A. Couston, Y. Liang, & M-R. Alam (2016), Oblique Chain Resonance of Internal Waves by Three-Dimensional Seabed Corrugations, arXiv: http://arxiv.org/pdf/1604.07308.pdf [44]
Forget, Gael; Campin, Jean-Michel; Heimbach, Patrick; Hill, Christopher N.; Ponte, Rui M.; Wunsch, Carl (2016), ECCO Version 4: Second Release, http://hdl.handle.net/1721.1/102062 [45]
Juan Manuel González-Caballín, Eduardo Álvarez, Antonio José Guttiérrez-Trashorras, Antonio Navarro-Manso, Joaquín Fernández, Eduardo Blanco (2016), Tidal current energy potential assessment by a two dimensional computational fluid dynamics model: The case of Avilés port (Spain), Energy Conversion and Management, Volume 119, 1 July 2016, Pages 239–245, doi: 10.1016/j.enconman.2016.04.060 [46]
Malte F. Jansen (2016), Full Access The Turbulent Circulation of a Snowball Earth Ocean, Journal of Physical Oceanography, published online: 7 April, 2016, doi: 10.1175/JPO-D-15-0224.1 [47]
G. Jordà , A. Sánchez-Román, D. Gomis (2016), Reconstruction of transports through the Strait of Gibraltar from limited observations, Climate Dynamics, published online: 05 April 2016, doi: 10.1007/s00382-016-3113-8 [48]
J-A Mensa and M-L Timmermans (2016), Submesoscale dynamics under sea ice, International Liege Colloquium, Submesoscale Processes: Mechanisms, Implications And New Frontiers (23-27th May 2016), http://modb.oce.ulg.ac.be/colloquium, abstract [49]
Francesco Muschitiello (2016), Deglacial impact of the Scandinavian Ice Sheet on the North Atlantic climate system, PhD Thesis University of Stockholm, ISBN 978-91-7649-368-7, pdf [50]
Angelica R. Rodriguez, Matthew R. Mazloff, Sarah T. Gille (2016), An oceanic heat transport pathway to the Amundsen Sea Embayment, online in Journal of Geophysical Research – Oceans, doi: 10.1002/2015JC011402 [51]
Callum J. Shakespeare and John R. Taylor (2016), Full Access Spontaneous wave generation at strongly strained density fronts, Journal of Physical Oceanography, published online: 19 April 2016, doi: 10.1175/JPO-D-15-0043.1 [52]
Atul Srivastava, Suneet Dwivedi & Alok Kumar Mishra (2016), Intercomparison of High-Resolution Bay of Bengal Circulation Models Forced with Different Winds, Marine Geodesy, published online: 05 Apr 2016, doi: 10.1080/01490419.2016.1173606 [53]
Andrew Thompson, James Kinsey, Steve Chien, Yi Chao (2016), Science-driven Autonomous and Heterogeneous Robotic Networks: A Vision for Future Ocean Observations, 2016 Progress Update, Keck Institute for Space Science URL: http://kiss.caltech.edu/new_website/techdev/seafloor/seafloor.html [54]
Qinghua Yang, Martin Losch, Svetlana N. Losa, Thomas Jung, Lars Nerger, and Thomas Lavergne (2016), Brief communication: The challenge and benefit of using sea ice concentration satellite data products with uncertainty estimates in summer sea ice data assimilation, The Cryosphere, 10, 761-774, 2016, doi: 10.5194/tc-10-761-2016 [55]
Sarah E. Zedler, Charles S. Jackson, Fengchao Yao, Patrick Heimbach, Armin K ̈ohl, Rob B. Scott, Ibrahim Hoteit (2016), Calibration of the K-Profile Parameterization of ocean boundary layer mixing. Part I: Development of an inquiry dependent test statistic, submitted to Ocean Modelling, arXiv: http://arxiv.org/pdf/1604.05802.pdf [56]
Hai Zhu, Lingling Wang, E.J. Avital, Hongwu Tang, J.J.R. Williams (2016), Numerical simulation of interaction between internal solitary waves and submerged ridges, Applied Ocean Research, Volume 58, June 2016, Pages 118–134, doi: 10.1016/j.apor.2016.03.017 [57]
Do you have news about research using MITgcm? We are looking for contributions to these pages. If you have an interesting MITgcm project (ocean, atmosphere, sea-ice, physics, biology or otherwise) that you want to tell people about, get in touch. To make a post, contact Helen [58]