Reference:Reference-014856: Difference between revisions
From CSDMS
Bot: Automated import of articles *** existing text overwritten *** |
m Text replacement - "|MS_PublicationClusterID=3159409654" to "|MS_PublicationClusterID=3159409654 |Semantic_ID=20257309588682066721a343a740fde001ccf963
" |
||
| Line 15: | Line 15: | ||
|FeatureRef=No | |FeatureRef=No | ||
|PublicationClusterID=0 | |PublicationClusterID=0 | ||
|MS_PublicationClusterID=3159409654 | |MS_PublicationClusterID=3159409654 |Semantic_ID=20257309588682066721a343a740fde001ccf963 | ||
|PublicationWhatKindOf=a module application description | |PublicationWhatKindOf=a module application description | ||
|PublicationNrofModels=a single module | |PublicationNrofModels=a single module | ||
Revision as of 14:10, 9 January 2022
| Author(s) | Chang, Luyu; He, Fangfang; Tie, Xuexi; Xu, Jianming; Gao, Wei; |
| BibType | journalArticle |
| Title | Meteorology driving the highest ozone level occurred during mid-spring to early summer in Shanghai, China |
| Editors | |
| Year | 2021-09 |
| Journal | Science of The Total Environment |
| Booktitle | |
| Volume | 785 |
| Pages | 147253 |
| URL | https://linkinghub.elsevier.com/retrieve/pii/S004896972102324X |
| DOI | 10.1016/j.scitotenv.2021.147253 |
| ISBN | |
| Note | Auto downloaded ref at: 2021-07-03
|
| |
|
| Feature reference | No |
| PublicationClusterID | 0 |
| MS_PublicationClusterID | 3159409654 |
| Semantic_ID | 20257309588682066721a343a740fde001ccf963 |
| Nr of citations | 10 |
| Sort of publication | a module application description |
| Sort of model publication | a single module |
| Is the CSDMS HPC used | No |
| If HPC is used, for what project was it?: | |
| Associated simulation movie if any: |
|
| Model(s) discussed: | WRF |
