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| DOI | 10.1175/JCLI-D-19-0483.1 |
| Dynamical Downscaling of Future Hydrographic Changes over the Northwest Atlantic Ocean | |
| Shin S.-I.; Alexander M.A. | |
| 发表日期 | 2020 |
| ISSN | 0894-8755 |
| 起始页码 | 2871 |
| 结束页码 | 2890 |
| 卷号 | 33期号:7 |
| 英文摘要 | Projected climate changes along the U.S. East and Gulf Coasts were examined using the eddy-resolving Regional Ocean Modeling System (ROMS). First, a control (CTRL) ROMS simulation was performed using boundary conditions derived from observations. Then climate change signals, obtained as mean seasonal cycle differences between the recent past (1976–2005) and future (2070–99) periods in a coupled global climate model under the RCP8.5 greenhouse gas trajectory, were added to the initial and boundary conditions of the CTRL in a second (RCP85) ROMS simulation. The differences between the RCP85 and CTRL simulations were used to investigate the regional effects of climate change. Relative to the coarse-resolution coupled climate model, the downscaled projection shows that SST changes become more pronounced near the U.S. East Coast, and the Gulf Stream is further reduced in speed and shifted southward. Moreover, the downscaled projection shows enhanced warming of ocean bottom temperatures along the U.S. East and Gulf Coasts, particularly in the Gulf of Maine and the Gulf of Saint Lawrence. The enhanced warming was related to an improved representation of the ocean circulation, including topographically trapped coastal ocean currents and slope water intrusion through the Northeast Channel into the Gulf of Maine. In response to increased radiative forcing, much warmer than present-day Labrador Subarctic Slope Waters entered the Gulf of Maine through the Northeast Channel, warming the deeper portions of the gulf by more than 48C. © 2020 American Meteorological Society. |
| 英文关键词 | Atmospheric radiation; Boundary conditions; Climate models; Greenhouse gases; Ocean currents; Bottom temperature; Coupled climate model; Coupled global climate model; Dynamical downscaling; Hydrographic changes; Initial and boundary conditions; Radiative forcings; Regional ocean modeling system; Climate change; boundary condition; climate change; climate modeling; downscaling; eddy; hydrological response; regional climate; sea surface temperature; warming; Atlantic Coast [North America]; Atlantic Coast [United States]; Atlantic Ocean; Atlantic Ocean (Northwest); Gulf of Maine; Gulf Stream; United States |
| 语种 | 英语 |
| 来源期刊 | Journal of Climate
 |
| 文献类型 | 期刊论文 |
| 条目标识符 | http://gcip.llas.ac.cn/handle/2XKMVOVA/171551 |
| 作者单位 | CIRES, University of Colorado Boulder, Physical Science Division, NOAA/Earth System Research Laboratory, Boulder, CO, United States; Physical Science Division, NOAA/Earth System Research Laboratory, Boulder, CO, United States |
| 推荐引用方式 GB/T 7714 | Shin S.-I.,Alexander M.A.. Dynamical Downscaling of Future Hydrographic Changes over the Northwest Atlantic Ocean[J],2020,33(7). |
| APA | Shin S.-I.,&Alexander M.A..(2020).Dynamical Downscaling of Future Hydrographic Changes over the Northwest Atlantic Ocean.Journal of Climate,33(7). |
| MLA | Shin S.-I.,et al."Dynamical Downscaling of Future Hydrographic Changes over the Northwest Atlantic Ocean".Journal of Climate 33.7(2020). |
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