Modeling the Morphodynamics of Coastal Responses to Extreme Events: What Shape Are We In?

Christopher R Sherwood, Ap van Dongeren, James Doyle, Christie A Hegermiller, Tian-Jian Hsu, Tarandeep S Kalra, Maitane Olabarrieta, Allison M Penko, Yashar Rafati, Dano Roelvink, Marlies van der Lugt, Jay Veeramony, John C Warner

January 2022 Ann Rev Mar Sci

Synopsis of Social media discussions

Discussions highlight the paper's focus on advancements in physical modeling, with posts referencing specific developments like better sediment transport algorithms and open-source tools, using terms like 'game-changer' and 'crucial for future resilience.' The tone emphasizes both technical excitement and ecological importance, reflecting high engagement and interest.

A
Agreement
 Moderate agreement

Most discussions acknowledge the importance of the publication in advancing coastal modeling techniques, with some expressing support for its findings.

I
Interest
 High level of interest

The posts show a high level of curiosity about how models improve storm impact predictions, indicating strong interest in the subject.

E
Engagement
 High engagement

Users actively discuss specific improvements in algorithms, community-driven projects, and implications for coastal management, demonstrating deep engagement.

I
Impact
 Moderate level of impact

While many believe the research could influence policy and future studies, some posts suggest a cautious optimism rather than full certainty of immediate impact.

Social Mentions

YouTube

3 Videos

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1 Posts

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2 Articles

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Video Views

581

Extended Reach

1,748

Social Features

6

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

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    @geomatlab (Twitter)

    #Oceanography ARMS: Modeling the Morphodynamics of Coastal Responses to Extreme Events: What Shape Are We In? https://t.co/JupsiJAo7n
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    January 3, 2022

Abstract Synopsis

  • The review discusses advancements in numerical models that simulate the effects of extreme storms on sandy coastlines, utilizing larger-scale meteorological and hydrodynamic data.
  • Recent developments include improved algorithms for wave-induced flows and sediment transport, as models are becoming more comprehensive and physically detailed.
  • There's a trend towards community-driven, open-source models with enhanced observational data and more accurate storm force modeling, leading to better predictions of storm impacts on coastal systems.