Changes
On January 21, 2022 at 1:16:24 PM UTC,
Yubao Qiu:
-
Changed title to 海冰汽交流报告_第一期 (previously 中芬合作交流会_第一期)
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| 13 | "name": "zhongfen", | 13 | "name": "zhongfen", | ||
| 14 | "title": "\u4e2d\u82ac\u5408\u4f5c\u4ea4\u6d41" | 14 | "title": "\u4e2d\u82ac\u5408\u4f5c\u4ea4\u6d41" | ||
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| 23 | "metadata_created": "2022-01-20T03:26:28.420492", | 23 | "metadata_created": "2022-01-20T03:26:28.420492", | ||
| n | 24 | "metadata_modified": "2022-01-20T03:30:23.656139", | n | 24 | "metadata_modified": "2022-01-21T13:16:24.737412", |
| 25 | "name": "zhongfen_1th", | 25 | "name": "zhongfen_1th", | ||
| 26 | "notes": "Abstract\uff1a\r\nIn this study, sea ice concentration | 26 | "notes": "Abstract\uff1a\r\nIn this study, sea ice concentration | ||
| 27 | (SIC) budgets were calculated for five ocean-sea ice reanalyses (CFSR, | 27 | (SIC) budgets were calculated for five ocean-sea ice reanalyses (CFSR, | ||
| 28 | C-GLORSv7, GLORYS12v1, NEMO-EnKF and ORAS5), in the Southern Ocean and | 28 | C-GLORSv7, GLORYS12v1, NEMO-EnKF and ORAS5), in the Southern Ocean and | ||
| 29 | compared with observations. When applying the SIC budget diagnostics | 29 | compared with observations. When applying the SIC budget diagnostics | ||
| 30 | to decompose the changes in SIC into contributions from advection, | 30 | to decompose the changes in SIC into contributions from advection, | ||
| 31 | divergence, thermodynamics, deformation and data assimilation, we find | 31 | divergence, thermodynamics, deformation and data assimilation, we find | ||
| 32 | that the driving atmospheric and oceanic forcings are the most | 32 | that the driving atmospheric and oceanic forcings are the most | ||
| 33 | significant contributors on the budget differences. For the CFSR, the | 33 | significant contributors on the budget differences. For the CFSR, the | ||
| 34 | primary source of deviation compared to other reanalyses is the | 34 | primary source of deviation compared to other reanalyses is the | ||
| 35 | stronger northward component of surface-ocean current, which results | 35 | stronger northward component of surface-ocean current, which results | ||
| 36 | in stronger sea ice advection and divergence. These deviations are | 36 | in stronger sea ice advection and divergence. These deviations are | ||
| 37 | related to excessive freezing that results in an average CFSR sea ice | 37 | related to excessive freezing that results in an average CFSR sea ice | ||
| 38 | thickness being twice that of other reanalyses. The secondary source, | 38 | thickness being twice that of other reanalyses. The secondary source, | ||
| 39 | because Coriolis force is proportional to sea ice thickness, is the | 39 | because Coriolis force is proportional to sea ice thickness, is the | ||
| 40 | more northward velocity of free-drifting sea ice from the | 40 | more northward velocity of free-drifting sea ice from the | ||
| 41 | predominantly westerly winds and currents in the Antarctic Circumpolar | 41 | predominantly westerly winds and currents in the Antarctic Circumpolar | ||
| 42 | Current. In summary, this could be interpreted as a positive feedback | 42 | Current. In summary, this could be interpreted as a positive feedback | ||
| 43 | between sea ice thickness and northward sea ice transport. The other | 43 | between sea ice thickness and northward sea ice transport. The other | ||
| 44 | three reanalyses, C-GLORSv7, GLORYS12V1 and ORAS5, in contrast to the | 44 | three reanalyses, C-GLORSv7, GLORYS12V1 and ORAS5, in contrast to the | ||
| 45 | CFSR, underestimate the contribution of dynamics to changes in SIC | 45 | CFSR, underestimate the contribution of dynamics to changes in SIC | ||
| 46 | with respect to observations. The NEMO-EnKF, using NCEP as an | 46 | with respect to observations. The NEMO-EnKF, using NCEP as an | ||
| 47 | atmospheric forcing, has the largest zonal sea ice velocity among all | 47 | atmospheric forcing, has the largest zonal sea ice velocity among all | ||
| 48 | reanalyses, but compared to observations, the effect of the dynamics | 48 | reanalyses, but compared to observations, the effect of the dynamics | ||
| 49 | on sea ice change is also underestimated because the northward | 49 | on sea ice change is also underestimated because the northward | ||
| 50 | velocity and north-south velocity gradient are not large enough. | 50 | velocity and north-south velocity gradient are not large enough. | ||
| 51 | Another effect of excessively large wind speeds on the NEMO-EnKF is | 51 | Another effect of excessively large wind speeds on the NEMO-EnKF is | ||
| 52 | that they produce more sea ice convergence than other | 52 | that they produce more sea ice convergence than other | ||
| 53 | systems.\r\nshort-bio\uff1a\r\nYafei Nie is a PhD student from the | 53 | systems.\r\nshort-bio\uff1a\r\nYafei Nie is a PhD student from the | ||
| 54 | Ocean University of China (supervisor: Xianqing Lv), now visiting in | 54 | Ocean University of China (supervisor: Xianqing Lv), now visiting in | ||
| 55 | University of Helsinki (supervisor: Petteri Uotila). His research | 55 | University of Helsinki (supervisor: Petteri Uotila). His research | ||
| 56 | topics include ocean dynamics, sea-ice geophysics, data assimilation | 56 | topics include ocean dynamics, sea-ice geophysics, data assimilation | ||
| 57 | and ocean reanalysis.", | 57 | and ocean reanalysis.", | ||
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| 59 | "num_tags": 0, | 59 | "num_tags": 0, | ||
| 60 | "organization": { | 60 | "organization": { | ||
| 61 | "approval_status": "approved", | 61 | "approval_status": "approved", | ||
| 62 | "created": "2020-04-30T11:11:08.802657", | 62 | "created": "2020-04-30T11:11:08.802657", | ||
| 63 | "description": "Aerospace Information Research Institute (AIR) | 63 | "description": "Aerospace Information Research Institute (AIR) | ||
| 64 | under the Chinese Academy of Sciences (CAS) was established in July | 64 | under the Chinese Academy of Sciences (CAS) was established in July | ||
| 65 | 2017, following the approval for consolidation of three CAS | 65 | 2017, following the approval for consolidation of three CAS | ||
| 66 | institutes: the Institute of Electronics (IECAS), the Institute of | 66 | institutes: the Institute of Electronics (IECAS), the Institute of | ||
| 67 | Remote Sensing and Digital Earth (RADI), and the Academy of | 67 | Remote Sensing and Digital Earth (RADI), and the Academy of | ||
| 68 | Opto-Electronics (AOE) at CAS President Board Meeting. The merger is | 68 | Opto-Electronics (AOE) at CAS President Board Meeting. The merger is | ||
| 69 | the outcome of CAS efforts towards reformation of its R&D system to | 69 | the outcome of CAS efforts towards reformation of its R&D system to | ||
| 70 | meet future R&D challenges and to better meet the national demands.", | 70 | meet future R&D challenges and to better meet the national demands.", | ||
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| 72 | "image_url": "2021-05-18-080509.992585AIRlogo.png", | 72 | "image_url": "2021-05-18-080509.992585AIRlogo.png", | ||
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| 74 | "name": "air", | 74 | "name": "air", | ||
| 75 | "state": "active", | 75 | "state": "active", | ||
| 76 | "title": "Aerospace Information Research Institute, CAS", | 76 | "title": "Aerospace Information Research Institute, CAS", | ||
| 77 | "type": "organization" | 77 | "type": "organization" | ||
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