Reference:Reference-033365: Difference between revisions
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Created page with "{{CSDMS reference template cargo |DOIentry=10.1002/esp.70135 }} {{RefsInt1 |GroupSitesHighlight=Yes |CSDMSGroups=Coastal Working Group |FeatureRef=No |PublicationClusterID=0 |MS_PublicationClusterID=0 |Semantic_ID=0 |PublicationWhatKindOf=none of the above |PublicationHPCCYesno=No |PublicationNrofModels=none of the above }} {{RefsInt3}}" Tag: Recreated |
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| | |Firstname=Best, Üwe S. N.; Legay, Alexandre; Reyns, Johan; van der Wegen, Mick; | ||
|BibType=journalArticle | |||
|Title=Morphodynamic adaptation timescales of the Guyana mangrove‐mudflat system: Are coastlines shaped by migrating mudbanks more resilient against sea level rise? | |||
|Year=2025-08 | |||
|Journal=Earth Surface Processes and Landforms | |||
|Volume=50 | |||
|URL=https://onlinelibrary.wiley.com/doi/10.1002/esp.70135 | |||
|DOI=10.1002/esp.70135 | |||
|Note=Auto downloaded ref at: 2025-10-30 | |||
}} | }} | ||
{{RefsInt1 | {{RefsInt1 | ||
|GroupSitesHighlight=Yes | |GroupSitesHighlight=Yes | ||
|HighLightText=This study introduces the first process-based 1D bio-geomorphological model reproducing cyclic erosion–accretion of a mangrove–mudflat system under migrating mudbanks. It shows that mudbank cycles (≈30 yrs) are shorter than morphodynamic adaptation times, explaining system resilience to sea-level rise. | |||
|CSDMSGroups=Coastal Working Group | |CSDMSGroups=Coastal Working Group | ||
|FeatureRef=No | |FeatureRef=No | ||
|PublicationClusterID=0 | |PublicationClusterID=0 | ||
|MS_PublicationClusterID=0 | |MS_PublicationClusterID=0 | ||
|Semantic_ID= | |Semantic_ID=049066768d2c26dd6cb5477640ab68691931c9d8 | ||
|PublicationWhatKindOf=none of the above | |PublicationWhatKindOf=none of the above | ||
|PublicationHPCCYesno=No | |PublicationHPCCYesno=No | ||
Latest revision as of 10:30, 5 November 2025
| Author(s) | Best, Üwe S. N.; Legay, Alexandre; Reyns, Johan; van der Wegen, Mick; | |
| BibType | journalArticle | |
| Title | Morphodynamic adaptation timescales of the Guyana mangrove‐mudflat system: Are coastlines shaped by migrating mudbanks more resilient against sea level rise? | |
| Editors | ||
| Year | 2025-08 | |
| Journal | Earth Surface Processes and Landforms | |
| Booktitle | ||
| Volume | 50 | |
| Pages | ||
| URL | https://onlinelibrary.wiley.com/doi/10.1002/esp.70135 | |
| DOI | 10.1002/esp.70135 | |
| ISBN | ||
| Note | Auto downloaded ref at: 2025-10-30
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| Highlighted paper on group site | Yes | |
| Highlight text | This study introduces the first process-based 1D bio-geomorphological model reproducing cyclic erosion–accretion of a mangrove–mudflat system under migrating mudbanks. It shows that mudbank cycles (≈30 yrs) are shorter than morphodynamic adaptation times, explaining system resilience to sea-level rise. | |
| Highlight image | ||
| Which groups | Coastal Working Group | |
| Feature reference | No | |
| PublicationClusterID | 0 | |
| MS_PublicationClusterID | 0 | |
| Semantic_ID | 049066768d2c26dd6cb5477640ab68691931c9d8 | |
| Nr of citations | 0 | |
| Sort of publication | none of the above | |
| Sort of model publication | none of the above | |
| Is the CSDMS HPC used | No | |
| If HPC is used, for what project was it?: | ||
| Associated simulation movie if any: |
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