Tim Poate
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View article: Spatial and Temporal Variation in Wave Overtopping Across a Coastal Structure Based on One Year of Field Observations
Spatial and Temporal Variation in Wave Overtopping Across a Coastal Structure Based on One Year of Field Observations Open
Coastal managers worldwide must prepare for changes in annual wave overtopping events due to climate change and sea-level rise. Research often assesses overtopping discharges by extreme events at a sea wall crest, typically using data from…
View article: Numerical modelling of the 1 July 2022 flooding event, Southwest Huvadhoo Atoll, Maldives: Implications for the future
Numerical modelling of the 1 July 2022 flooding event, Southwest Huvadhoo Atoll, Maldives: Implications for the future Open
Low-lying atoll islands are among the world’s most vulnerable coastal environments to sea-level rise (SLR). Global application of coastal flooding models suggests that centennial flood events may become annual events by 2050 in tropical re…
View article: COASTAL WAVE OVERTOPPING: NEW NOWCAST AND MONITORING TECHNOLOGIES
COASTAL WAVE OVERTOPPING: NEW NOWCAST AND MONITORING TECHNOLOGIES Open
It is projected that global mean sea level could rise up to 1 m this century with a strong regional pattern. It is estimated that 20percent of England’s coastal defenses could fail under just half this rise. Ambitious climate mitigation an…
View article: Coastal dune dynamics in embayed settings with sea-level rise – Examples from the exposed and macrotidal north coast of SW England
Coastal dune dynamics in embayed settings with sea-level rise – Examples from the exposed and macrotidal north coast of SW England Open
Coastal dune systems are natural forms of coastal defence, but are expected to exhibit increased erosion rates due to climate change impacts, notably sea-level rise and, potentially, increased storminess. This is especially the case in emb…
View article: Coastal adaptation to climate change through zonation: A review of coastal change management areas (CCMAs) in England
Coastal adaptation to climate change through zonation: A review of coastal change management areas (CCMAs) in England Open
Climate change and accelerated rates in sea-level rise are expected to increase flooding and erosion on the world's coastlines. Coastal managers and planners face the challenge of helping communities to adapt to the changing coast. Traditi…
View article: Forecasting coastal overtopping at engineered and naturally defended coastlines
Forecasting coastal overtopping at engineered and naturally defended coastlines Open
As sea level rises and development of the coastal zone continues, coastal flooding poses an increasing risk to coastal communities. Wave runup can contribute many meters to the vertical reach of the sea, especially on steep gravel beaches,…
View article: The Role of Bed Roughness in Wave Transformation Across Sloping Rock Shore Platforms
The Role of Bed Roughness in Wave Transformation Across Sloping Rock Shore Platforms Open
We present for the first time observations and model simulations of wave transformation across sloping (Type A) rock shore platforms. Pressure measurements of the water surface elevation using up to 15 sensors across five rock platforms wi…
View article: The extreme 2013/2014 winter storms: Beach recovery along the southwest coast of England
The extreme 2013/2014 winter storms: Beach recovery along the southwest coast of England Open
publisher: Elsevier\narticletitle: The extreme 2013/2014 winter storms: Beach recovery along the southwest coast of England\njournaltitle: Marine Geology\narticlelink: http://dx.doi.org/10.1016/j.margeo.2016.10.011\ncontent_type: article\n…
View article: The extreme 2013/2014 winter storms: hydrodynamic forcing and coastal response along the southwest coast of England
The extreme 2013/2014 winter storms: hydrodynamic forcing and coastal response along the southwest coast of England Open
The southwest coast of England was subjected to an unusually energetic sequence of Atlantic storms during the 2013/2014 winter, with the 8‐week period from mid‐December to mid‐February representing the most energetic period since at least …
View article: Modelling the morphodynamics of gravel beaches during storms with XBeach-G
Modelling the morphodynamics of gravel beaches during storms with XBeach-G Open
Funded by EPSRC Grant: New Understanding and Prediction of Storm Impacts on Gravel beaches and Adaptation and Resilience of Coastal Energy Supply. \nGrant number: EP/H040056/1 and ARCEoS; EP/IO35390/1 \nPrimary Investigator: Gerd Masselink…