J
Julie L. McClean
Researcher at University of California, San Diego
Publications - 78
Citations - 3443
Julie L. McClean is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Parallel Ocean Program & Ocean current. The author has an hindex of 27, co-authored 75 publications receiving 2879 citations. Previous affiliations of Julie L. McClean include Scripps Health & Scripps Institution of Oceanography.
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Journal ArticleDOI
Impact of partial steps and momentum advection schemes in a global ocean circulation model at eddy-permitting resolution
Bernard Barnier,Gurvan Madec,Thierry Penduff,Jean-Marc Molines,Anne-Marie Tréguier,Julien Le Sommer,Aike Beckmann,Arne Biastoch,Claus W. Böning,Joachim Dengg,Corine Derval,Edmée Durand,Sergei K. Gulev,Elisabeth Rémy,Claude Talandier,Sébastien Theetten,Mathew Maltrud,Julie L. McClean,Beverly A. de Cuevas +18 more
TL;DR: In this article, a series of sensitivity tests were performed with a z-coordinate, global eddy-permitting (1/4°) ocean/sea-ice model (the ORCA-R025 model configuration developed for the DRAKKAR project) to evaluate the impact of recent state-of-the-art numerical schemes on model solutions.
Journal ArticleDOI
The DOE E3SM Coupled Model Version 1: Overview and Evaluation at Standard Resolution
Jean-Christophe Golaz,Peter M. Caldwell,Luke Van Roekel,Mark R. Petersen,Qi Tang,Jonathan Wolfe,G. W. Abeshu,Valentine G. Anantharaj,Xylar Asay-Davis,David C. Bader,Sterling Baldwin,Gautam Bisht,Peter A. Bogenschutz,Marcia L. Branstetter,Michael A. Brunke,Steven R. Brus,Susannah M. Burrows,Philip Cameron-Smith,Aaron S. Donahue,Michael Deakin,Michael Deakin,Richard C. Easter,Katherine J. Evans,Yan Feng,Mark Flanner,James G. Foucar,Jeremy Fyke,Brian M. Griffin,Cecile Hannay,Bryce E. Harrop,Mattthew J. Hoffman,Elizabeth Hunke,Robert Jacob,Douglas W. Jacobsen,Nicole Jeffery,Philip W. Jones,Noel Keen,Stephen A. Klein,Vincent E. Larson,L. Ruby Leung,Hongyi Li,Wuyin Lin,William H. Lipscomb,William H. Lipscomb,Po-Lun Ma,Salil Mahajan,Mathew Maltrud,Azamat Mametjanov,Julie L. McClean,Renata B. McCoy,Richard Neale,Stephen Price,Yun Qian,Philip J. Rasch,J. E. Jack Reeves Eyre,William J. Riley,Todd D. Ringler,Todd D. Ringler,Andrew Roberts,Erika Louise Roesler,Andrew G. Salinger,Zeshawn Shaheen,Xiaoying Shi,Balwinder Singh,Jinyun Tang,Mark A. Taylor,Peter E. Thornton,Adrian K. Turner,Milena Veneziani,Hui Wan,Hailong Wang,Shanlin Wang,Dean N. Williams,Phillip J. Wolfram,Patrick H. Worley,Shaocheng Xie,Yang Yang,Jin-Ho Yoon,Mark D. Zelinka,Charles S. Zender,Xubin Zeng,Chengzhu Zhang,Kai Zhang,Yuying Zhang,X. Zheng,Tian Zhou,Qing Zhu +86 more
TL;DR: Energy Exascale Earth System Model (E3SM) project as mentioned in this paper is a project of the U.S. Department of Energy that aims to develop and validate the E3SM model.
Journal ArticleDOI
An eddy resolving global 1/10° ocean simulation
Mathew Maltrud,Julie L. McClean +1 more
TL;DR: In this paper, a global eddy resolving simulation using the Parallel Ocean Program (POP) general circulation model is presented, and the simulation represents a major step forward in high resolution ocean modeling, with applications to prediction, climate, and general ocean science.
Journal ArticleDOI
Frontal scale air-sea interaction in high-resolution coupled climate models
Frank O. Bryan,Robert A. Tomas,John M. Dennis,Dudley B. Chelton,Norman G. Loeb,Julie L. McClean +5 more
TL;DR: In this paper, the authors used a suite of Community Climate System Model (CCSM) experiments to test the fidelity of high-resolution coupled climate simulations and found that the strength of the coupling between SST and surface stress is weaker than observed, as has been found previously for numerical weather prediction models and other coupled climate models.
Journal ArticleDOI
A prototype two-decade fully-coupled fine-resolution CCSM simulation
Julie L. McClean,Julie L. McClean,David C. Bader,David C. Bader,Frank O. Bryan,Mathew Maltrud,John M. Dennis,Arthur A. Mirin,Philip W. Jones,Yoo Yin Kim,Detelina Ivanova,Mariana Vertenstein,James S. Boyle,Robert Jacob,Nancy J. Norton,Anthony Craig,Patrick H. Worley +16 more
TL;DR: A fully coupled global simulation using the Community Climate System Model (CCSM) was configured using grid resolutions of 0.1° for the ocean and sea-ice, and 0.25° for atmosphere and land, and was run under present-day greenhouse gas conditions for 20 years as discussed by the authors.