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  • Arctic Ocean
  • American Geophysical Union  (20)
  • MDPI - Multidisciplinary Digital Publishing Institute  (5)
  • American Chemical Society
  • American Chemical Society (ACS)
  • Public Library of Science
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  • 1
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    Preserving Community Interests in Ocean Governance towards Sustainability (2022)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2024-03-23
    Description: This Special Issue is designed to discuss and examine relevant legal issues concerning ocean governance in the context of the United Nations Sustainable Development Goals (SDGs) for the long-lasting benefits of the international community. It will cover, inter alia, the safety of navigation and maritime security, the sustainable use of marine resources (living and non-living), marine environmental protection, climate change, and marine scientific research.
    Keywords: transfer of mining technology ; commercial condition ; protection of intellectual property ; direct technology purchasing ; investment cooperation ; universal jurisdiction ; maritime piracy ; piracy trials ; Somali piracy ; maritime crime ; sustainability ; community interests ; marine genetic resources ; common heritage of mankind ; BBNJ ; integrated coastal management ; land and sea coordination ; ecological environment ; ocean law ; sustainable development ; fishery resources ; community interest ; international cooperation ; climate change ; fishery management ; legal principles ; LOSC ; precautionary approach ; ecosystem ; seasonal closure ; CCAMLR ; MPAs ; RFMOs ; conservation measures ; China ; ocean governance ; sustainable development goals (SDGs) ; SDG 14 ; marine environment ; international environmental law ; Law of the Sea ; ocean acidification ; rising-sea-levels ; meta-governance ; ocean action ; global environment ; regulatory governance ; IMO ; China’s role ; submissions’ adoption ; law of the sea ; deep seabed mining ; national legislation ; sponsoring state ; marine ecological environment ; multiple subjects ; co-management ; ocean community with a shared future ; cruise ships ; public health emergency of international concern (PHEIC) ; international obligations ; rule of law ; COVID-19 ; China’s white paper for Arctic policy ; fisheries resources ; Arctic Ocean ; Chinese legal rights ; Guangdong-Hong Kong-Macao Greater Bay Area (GBA) ; regional integration and cooperation ; SDGs ; Sanchi ship ; oil spill accident ; marine ecology ; ecological damage compensation ; the precautionary principle ; nuclear safety regulation ; UNCLOS ; international law ; thema EDItEUR::A The Arts
    Language: English
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  • 2
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    Sea Surface Salinity Remote Sensing (2021)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2023-12-20
    Description: This Special Issue gathers papers reporting research on various aspects of remote sensing of Sea Surface Salinity (SSS) and the use of satellite SSS in oceanography. It includes contributions presenting improvements in empirical or theoretical radiative transfer models; mitigation techniques of external interference such as RFI and land contamination; comparisons and validation of remote sensing products with in situ observations; retrieval techniques for improved coastal SSS monitoring, high latitude SSS and the assessment of ocean interactions with the cryosphere; and data fusion techniques combining SSS with sea surface temperature (SST). New instrument technology for the future of SSS remote sensing is also presented.
    Keywords: Q1-390 ; n/a ; satellite salinity ; one-dimensional (1D) aperture synthesis radiometer ; smos ; Gulf of Maine ; retrieval errors ; Aquarius ; combined active/passive SSS retrieval algorithm ; ocean surface roughness ; upwelling ; salt transport ; quality assessment ; sea ice ; SMOS ; microwave radiometry ; Arctic Gateways ; Aquarius satellite ; validation ; sea surface temperature ; water transport ; forward model ; river discharge ; sea surface salinity ; remote sensing ; retrieval algorithm ; Water Cycle Observation Mission (WCOM) ; SMAP ; microwave remote sensing ; alboran sea ; surface velocity ; Arctic Ocean ; sea surface salinity (SSS) ; coastal ; brightness temperature (TB) ; interferometric microwave imager (IMI) ; Scotian Shelf ; MICAP ; different instrument configurations ; bias characteristics ; mediterranean sea ; Gulf of Mexico ; calibration ; retroflections ; Arctic ocean ; salinity ; Sea Surface Salinity ; Arctic rivers ; Argo ; data processing ; aquarius ; ocean salinity ; Aquarius Validation Data System (AVDS) ; bic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general
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  • 3
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    Earth Observation (EO), Remote Sensing (RS), and Geoinformation (GI) Applications in Svalbard (2023)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2024-03-28
    Description: Earth observation (EO), remote sensing (RS), and geoinformation (GI) technologies play a critical role in the study of Svalbard's environment, providing insights into the region's changes and supporting decision-making processes. This reprint presents a comprehensive overview of the applications of EO and RS technologies in Svalbard, covering a wide range of topics related to the environment. It includes contributions from leading experts in the field, providing insights into the current state of the art and future directions for research. The reprint starts by introducing the status of EO and RS in Svalbard, providing a solid foundation for readers new to the field. It then delves into specific applications of these technologies, including the monitoring of glaciers, snow cover, and permafrost using ground-, space-, and air-based RS platforms. Overall, this book aims to provide a comprehensive overview of the applications of EO and RS technologies in Svalbard, highlighting their importance in understanding and addressing the challenges faced by the region. It will be a valuable resource for researchers, students, policymakers, and practitioners in the fields of environmental science, geography, and remote sensing.
    Keywords: snow cover ; remote sensing ; sea ice variability ; vegetation growth ; arctic climate change ; Arctic aerosol ; aerosol transport ; aged aerosol ; aerosol modification ; aerosol optical properties ; aerosol microphysical properties ; aerosol remote sensing ; microphysical inversion ; aerosol radiative effect ; Arctic radiative budget ; earth observation ; COVID-19 ; Svalbard ; earth system science ; SIOS ; polar regions ; snow modelling ; MODIS ; Sentinel-2 ; permafrost ; active layer ; InSAR ; time series ; ground displacement ; ground temperature ; displacement progression ; thaw progression ; Arctic ; NDVI ; time-series ; onset of growth ; classifier ; disturbance ; drone ; ecological monitoring ; GLCM ; herbivore ; random forest ; winter climate effect ; grubbing ; Arctic clouds ; cirrus clouds ; ice clouds ; lidar ; ocean eddies ; marginal ice zone ; sea ice ; SAR imaging ; Fram Strait ; Greenland Sea ; Hopen Island ; Arctic Ocean ; tidewater glaciers ; surface elevation changes ; glacier geometry ; structure-from-motion ; terrestrial laser scanning ; digital elevation model ; ICESat-2 ; laser altimetry ; kinematic GPS experiments ; glaciology ; surge glaciers ; svalbard ; density dimension algorithm for ice surfaces ; airborne validation of satellite data ; lake ice ; Sentinel-1 ; water temperature ; glacier facies ; atmospheric correction ; pansharpening ; WorldView-2 ; Ny-Ålesund ; Chandra–Bhaga basin ; target detection ; supervised classification ; Sentinel-1 and Sentinel-2 ; time series analysis ; snow melt ; tundra ; plant phenology ; ice cover ; Antarctic ; spectral reflectance ; hyperspectral data ; ocean colour ; coastal darkening ; SPM ; sediment plumes ; Arctic coast ; regional tuning ; coastal ecosystems ; land-ocean-interaction ; riverine inputs ; geographic object-based image analysis ; glacier surface facies ; surface facies of glaciers ; pixel-based image analysis ; atmospheric corrections ; image processing routines ; n/a ; thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general ; thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RG Geography
    Language: English
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  • 4
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    Coastal Waters Monitoring Using Remote Sensing Technology (2022)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2024-03-27
    Description: Around 10% of the global population lives in the world’s coastal zones, mostly concentrated in the world’s largest megacities. In many regions, the population is exposed to a variety of natural hazards and space-based observations. This Special Issue will focus on the usage of remote sensing alone or in synergy with in situ measurments and modeling tools to provide precise and systematic information about processes acting in the world’s coastal zones.
    Keywords: ACOLITE ; coastal waters ; atmospheric correction ; time-series ; management ; Sentinel-2 ; radon transform ; remote sensing ; bathymetry inversion ; multi-scale monitoring ; image augmentation ; phytoplankton remote sensing ; coastal ocean ; red tides ; black pixel assumption ; satellite ; sediment transport ; coastal geomorphology ; ocean color ; GOCI ; VIIRS ; turbid waters ; satellite-derived bathymetry ; Copernicus programme ; multi-temporal approach ; lidar ; turbidity ; coastal upwelling ; wind forcing ; river plume ; MODIS ; Arctic Ocean ; hurricanes ; water quality ; Puerto Rico ; harmful algal blooms ; Chattonella spp. ; Skeletonema spp. ; backscattering ; Ariake Sea ; chlorophyll-a variability ; spring–neap tides ; MODIS-Aqua ; total suspended sediment ; river discharge ; band registration ; morphological registration ; multispectral camera ; Micasense Rededge-M ; Pearl River estuary ; diffuse attenuation coefficient ; S-EOF ; land subsidence ; multi-temporal SAR interferometry ; sea-surface height ; relative sea level change ; satellite altimetry data ; GNSS ; coastal urban centers ; natural protected areas ; climate change impact ; physics-based inversion method ; ocean surface circulation ; high frequency radar ; self-organizing map ; empirical orthogonal function ; neural networks ; synoptic characteristics ; wave radar ; sea waves ; model data ; Mediterranean sea ; small river plume ; aerial drone ; coastal processes ; frontal zones ; internal waves ; along-track interferometric synthetic aperture radar (ATI-SAR) ; current line-of-sight (LOS) velocity ; azimuth ambiguity ; baseline-to-platform speed ratio estimation ; storm surge ; coastal flooding ; marine storms ; natural hazards ; steric-effect ; satellite altimetry ; ADG/CDOM colored dissolved organic matter ; Sentinel 3 ; southwestern Puerto Rico ; ocean tidal backwater ; stage–discharge relation ; ocean tide model ; Mekong Delta ; suspended particulate matter ; ocean color data ; satellite remote sensing ; in situ measurements ; C2RCC ; Landsat-8 OLI ; Sentinel-2 MSI ; Mzymta River ; Black Sea ; MUR SST ; SST fronts ; Inner Sea of Chiloé ; northern Patagonia ; suspended sediment ; Typhoon Soudelor ; spatial–temporal distribution ; HF marine radars ; wave energy ; thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
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  • 5
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    Marine Nitrogen Fixation and Phytoplankton Ecology (2022)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2022-08-12
    Description: Many oceans are currently undergoing rapid changes in environmental conditions such as warming temperature, acidic water condition, coastal hypoxia, etc. These changes could lead to dramatic changes in the biology and ecology of phytoplankton and consequently impact the entire marine ecosystems and global biogeochemical cycles. Marine phytoplankton can be an important indicator for the changes in marine environments and ecosystems since they are major primary producers that consolidate solar energy into various organic matter transferred to marine ecosystems throughout the food-webs. Similarly, the N2 fixers (diazotrophs) are also vulnerable to changing environmental conditions. It has been found that the polar regions can be introduced to diazotrophic activity under warming conditions and the increased N availability can lead to elevated primary productivity. Considering the fundamental roles of phytoplankton in marine ecosystems and global biogeochemical cycles, it is important to understand phytoplankton ecology and N2 fixation as a potential N source in various oceans. This Special Issue provides ecological and biogeochemical baselines in a wide range of geographic study regions for the changes in marine environments and ecosystems driven by global climate changes.
    Keywords: TEP ; TEP-C ; phytoplankton ; chlorophyll a ; POC ; primary production ; Jaran Bay ; particulate organic matter ; biochemical composition ; Chukchi Sea ; Arctic Ocean ; East China Sea ; HPLC ; diatoms ; cyanobacteria ; phytoplankton productivity ; carbon and nitrogen ; stable isotopes ; Kongsfjorden ; Svalbard ; biochemical compositions ; carbohydrates ; proteins ; lipids ; Scrippsiella trochoidea ; Heterosigma akashiwo ; biovolume ; chlorophyll-a ; particulate organic nitrogen ; particulate organic carbon ; South China Sea ; upwelling ; eddy ; diatom ; Trichodesmium ; Rhizosolenia–Richelia ; Prochlorococcus ; Synechococcus ; northwestern Pacific Ocean ; macromolecular composition ; transparent exopolymer particles ; Ross Sea ; polar night ; macromolecules ; Chukchi Shelf ; Canada Basin ; food material ; Bering Sea ; small phytoplankton ; primary productivity ; n/a ; bic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general ; bic Book Industry Communication::K Economics, finance, business & management::KC Economics::KCN Environmental economics
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  • 6
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    Storm-driven mixing and potential impact on the Arctic Ocean (2010)
    American Geophysical Union
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 109 (2004): C04008, doi:10.1029/2001JC001248.
    Description: Observations of the ocean, atmosphere, and ice made by Ice-Ocean Environmental Buoys indicate that mixing events reaching the depth of the halocline have occurred in various regions in the Arctic Ocean. Our analysis suggests that these mixing events were mechanically forced by intense storms moving across the buoy sites. In this study, we analyzed these mixing events in the context of storm developments that occurred in the Beaufort Sea and in the general area just north of Fram Strait, two areas with quite different hydrographic structures. The Beaufort Sea is strongly influenced by inflow of Pacific water through Bering Strait, while the area north of Fram Strait is directly affected by the inflow of warm and salty North Atlantic water. Our analyses of the basin-wide evolution of the surface pressure and geostrophic wind fields indicate that the characteristics of the storms could be very different. The buoy-observed mixing occurred only in the spring and winter seasons when the stratification was relatively weak. This indicates the importance of stratification, although the mixing itself was mechanically driven. We also analyze the distribution of storms, both the long-term climatology and the patterns for each year in the past 2 decades. The frequency of storms is also shown to be correlated (but not strongly) to Arctic Oscillation indices. This study indicates that the formation of new ice that leads to brine rejection is unlikely the mechanism that results in the type of mixing that could overturn the halocline. On the other hand, synoptic-scale storms can force mixing deep enough to the halocline and thermocline layer. Despite a very stable stratification associated with the Arctic halocline, the warm subsurface thermocline water is not always insulated from the mixed layer.
    Description: This study has been supported by the NASA Cryospheric Science Program and the International Arctic Reseach Center. We benefited from discussion with Dr. A. Proshutinsky. D. Walsh wishes to thank the Frontier Research System for Global Change for their support. The IOEB program was supported by ONR High-Latitude Dynamics Program and Japan Marine Science and Technology Center (JAMSTEC).
    Keywords: Arctic Ocean ; Mixing ; Storm ; Upper ocean
    Repository Name: Woods Hole Open Access Server
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  • 7
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    Surface freshening in the Arctic Ocean's Eurasian Basin : an apparent consequence of recent change in the wind-driven circulation (2011)
    American Geophysical Union
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © American Geophysical Union, 2011. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 116 (2011): C00D03, doi:10.1029/2011JC006975.
    Description: Data collected by an autonomous ice-based observatory that drifted into the Eurasian Basin between April and November 2010 indicate that the upper ocean was appreciably fresher than in 2007 and 2008. Sea ice and snowmelt over the course of the 2010 drift amounted to an input of less than 0.5 m of liquid freshwater to the ocean (comparable to the freshening by melting estimated for those previous years), while the observed change in upper-ocean salinity over the melt period implies a freshwater gain of about 0.7 m. Results of a wind-driven ocean model corroborate the observations of freshening and suggest that unusually fresh surface waters observed in parts of the Eurasian Basin in 2010 may have been due to the spreading of anomalously fresh water previously residing in the Beaufort Gyre. This flux is likely associated with a 2009 shift in the large-scale atmospheric circulation to a significant reduction in strength of the anticyclonic Beaufort Gyre and the Transpolar Drift Stream.
    Description: This work was funded by the National Science Foundation Office of Polar Programs Arctic Sciences Section under awards ARC‐0519899, ARC‐0856479, and ARC‐ 0806306.
    Keywords: Arctic Ocean ; Circulation ; Fresh water
    Repository Name: Woods Hole Open Access Server
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  • 8
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    Pathways of Pacific water across the Chukchi Sea : a numerical model study (2010)
    American Geophysical Union
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 109 (2004): C03002, doi:10.1029/2003JC001962.
    Description: Pathways of Pacific Water flowing from the North Pacific Ocean through Bering Strait and across the Chukchi Sea are investigated using a two-dimensional barotropic model. In the no-wind case, the flow is driven only by a prescribed steady northward flow of 0.8 Sv through Bering Strait. The resulting steady state circulation consists of a broad northeasterly flow, basically following the topography, with a few areas of intensified currents. About half of the inflow travels northwest through Hope Valley, while the other half turns somewhat toward the northeast along the Alaskan coast. The flow through Hope Valley is intensified as it passes through Herald Canyon, but much of this flow escapes the canyon to move eastward, joining the flow in the broad valley between Herald and Hanna Shoals, another area of slightly intensified currents. There is a confluence of nearly all of the flow along the Alaskan coast west of Pt. Barrow to create a very strong and narrow coastal jet that follows the shelf topography eastward onto the Beaufort shelf. Thus in this no-wind case, nearly all of the Pacific Water entering the Chukchi Sea eventually ends up flowing eastward along the narrow Beaufort shelf, with no discernable flow across the shelf edge toward the interior Canada Basin. Travel times for water parcels to move from Bering Strait to Pt. Barrow vary tremendously according to the path taken; e.g., less than 6 months along the Alaskan coast, but about 30 months along the westernmost path through Herald Canyon. This flow field is relatively insensitive to idealized wind-forcing when the winds are from the south, west or north, in which cases the shelf transports tend to be intensified. However, strong northeasterly to easterly winds are able to completely reverse the flows along the Beaufort shelf and the Alaskan coast, and force most of the throughflow in a more northerly direction across the Chukchi Sea shelf edge, potentially supplying the surface waters of the interior Canada Basin with Pacific Water. The entire shelf circulation reacts promptly to changing wind conditions, with a response time of ~2–3 days. The intense coastal jet between Icy Cape and Pt. Barrow implies that dense water formed here from winter coastal polynyas may be quickly swept away along the coast. In contrast, there is a relatively quiet nearshore region to the west, between Cape Lisburne and Icy Cape, where dense water may accumulate much longer and continue to become denser before it is carried across the shelf.
    Description: Financial support was provided to PW by the Postdoctoral Scholar Program at the Woods Hole Oceanographic Institution (WHOI), the Swedish Foundation for International Cooperation in Research and Higher Education (STINT), and the J. Seward Johnson Fund. Funding for DCC came through a grant from the Coastal Ocean Institute at WHOI.
    Keywords: Arctic Ocean ; Pacific Water ; Chukchi Sea
    Repository Name: Woods Hole Open Access Server
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  • 9
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    Preface to special section on Arctic Ocean Model Intercomparison Project (AOMIP) Studies and Results (2010)
    American Geophysical Union
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © American Geophysical Union, 2007. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 112 (2007): C04S01, doi:10.1029/2006JC004017.
    Description: This research is supported by the National Science Foundation Office of Polar Programs under cooperative agreements (OPP-0002239 and OPP-0327664) with the International Arctic Research Center, University of Alaska Fairbanks.
    Keywords: Modeling ; Arctic Ocean ; Dynamics
    Repository Name: Woods Hole Open Access Server
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  • 10
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    An unstructured-grid, finite-volume sea ice model : development, validation, and application (2011)
    American Geophysical Union
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © American Geophysical Union, 2011. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 116 (2011): C00D04, doi:10.1029/2010JC006688.
    Description: A sea ice model was developed by converting the Community Ice Code (CICE) into an unstructured-grid, finite-volume version (named UG-CICE). The governing equations were discretized with flux forms over control volumes in the computational domain configured with nonoverlapped triangular meshes in the horizontal and solved using a second-order accurate finite-volume solver. Implementing UG-CICE into the Arctic Ocean finite-volume community ocean model provides a new unstructured-grid, MPI-parallelized model system to resolve the ice-ocean interaction dynamics that frequently occur over complex irregular coastal geometries and steep bottom slopes. UG-CICE was first validated for three benchmark test problems to ensure its capability of repeating the ice dynamics features found in CICE and then for sea ice simulation in the Arctic Ocean under climatologic forcing conditions. The model-data comparison results demonstrate that UG-CICE is robust enough to simulate the seasonal variability of the sea ice concentration, ice coverage, and ice drifting in the Arctic Ocean and adjacent coastal regions.
    Description: This work was supported by the NSF Arctic Program for projects with grant numbers of ARC0712903, ARC0732084, and ARC0804029. The Arctic Ocean Model Intercomparison Project (AOMIP) has provided an important guidance for model improvements and ocean studies under coordinated experiments activities. We would like to thank AOMIP PI Proshutinsky for his valuable suggestions and comments on the ice dynamics. His contribution is supported by ARC0800400 and ARC0712848. The development of FVCOM was supported by the Massachusetts Marine Fisheries Institute NOAA grants DOC/NOAA/ NA04NMF4720332 and DOC/NOAA/NA05NMF4721131; the NSF Ocean Science Program for projects of OCE‐0234545, OCE‐0227679, OCE‐ 0606928, OCE‐0712903, OCE‐0726851, and OCE‐0814505; MIT Sea Grant funds (2006‐RC‐103 and 2010‐R/RC‐116); and NOAA NERACOOS Program for the UMASS team. G. Gao was also supported by the Chinese NSF Arctic Ocean grant under contract 40476007. C. Chen’s contribution was also supported by Shanghai Ocean University International Cooperation Program (A‐2302‐10‐0003), the Program of Science and Technology Commission of Shanghai Municipality (09320503700), the Leading Academic Discipline Project of Shanghai Municipal Education Commission (J50702), and Zhi jiang Scholar and 111 project funds of the State Key Laboratory for Estuarine and Coastal Research, East China Normal University (ECNU).
    Keywords: Arctic Ocean ; Finite-volume ; Sea ice modeling ; Unstructured-grid
    Repository Name: Woods Hole Open Access Server
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