Impact of high‐resolution ocean–atmosphere coupling on fog formation over the North Sea

Fallmann, Joachim; Lewis, Huw; Sanchez, Juan Castillo; Lock, A. P.

doi:10.1002/qj.3488

Cited by 14 publications

(16 citation statements)

References 70 publications

(118 reference statements)

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“…For instance, a better forecast of the near-surface temperature and dew-point can improve the forecast of clouds and fog formation and dissipation at sea and near the coasts (e.g. Fallmann et al, 2019). Assessing the possible impact of the Ushant SST front either on the local weather or on the climate was not the subject of the present high-resolution study, but it is certainly a matter of interest and dedicated studies should address this point in the near future.…”

Section: Resultsmentioning

confidence: 99%

Impact of a sharp, small‐scale SST front on the marine atmospheric boundary layer on the Iroise Sea: Analysis from a hectometric simulation

Redelsperger

Bouin

Pianezze

et al. 2019

Quart J Royal Meteoro Soc

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The impact of a sharp, small‐scale sea‐surface temperature (SST) front located in the Iroise Sea off the northwestern coast of France on the marine atmospheric boundary layer (MABL) is investigated using a realistic very high‐resolution numerical simulation. The modelling configuration is based on a two‐way nesting of the atmospheric model Meso‐NH over three embedded domains, with horizontal resolution of 100 m in the central domain. The outer mesoscale domain is initialized and forced on its lateral boundaries with the operational analyses of Météo‐France. A high‐resolution, realistic SST field from the Model for Application at Regional Scale (MARS) 3D is used as surface forcing. This configuration has been carefully designed to accurately represent this weak‐wind situation highly inhomogeneous in space and time, with wind flowing from the warm to the cold side of the front. The impacts include a slight modification of the thermal structure of the MABL, and a strong and rapid decrease of the wind speed, wind stress and turbulent heat fluxes. Conversely to previously published work, the coupling of the wind stress with the SST is largely related to atmospheric stability effects rather than to the change of the surface wind speed. This is attributed to the conjunction of the weak wind speed around 3 m s−1 and of the narrowness of the front resulting in relatively strong advection. These characteristics explain the momentum budget with strong change of the turbulent mixing over a shorter length‐scale than the pressure adjustment mechanism and the Coriolis term. The deceleration and counter‐clockwise veering of the near‐surface wind over colder water is consistent with previous work. Its attribution to turbulent mixing via a thermal stratification change in the context of a realistic study of a sharp front is a novel result.

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Section: Resultsmentioning

confidence: 99%

Impact of a sharp, small‐scale SST front on the marine atmospheric boundary layer on the Iroise Sea: Analysis from a hectometric simulation

Redelsperger

Bouin

Pianezze

et al. 2019

Quart J Royal Meteoro Soc

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“…The impact of coupling on the atmospheric boundary layer and associated features such as cloud development and near surface visibility are the subject of ongoing research, focussing on more specific case studies periods and regions of interest (e.g. Fallmann et al, 2018). Table 11 summarises the typical computational resource usage and run times for a day of simulation on the Met Office Cray 25 XC40 for each configuration used.…”

Section: Atmosphere Component Resultsmentioning

confidence: 99%

“…The four monthly experiments presented here also represent the first runs conducted of the UKC3 (or UKC2) system of extended duration beyond the 5-day case study duration simulations described by Lewis et al (2018), or used in the studies of Fallmann et al, (2017) and Fallmann et al, (2018). That the results continue to show robust and representative predictions 5 across atmosphere, ocean and surface wave components in coupled mode throughout these periods provides confidence in the scientific integrity of these tools, and of their suitability for application over longer-timescales in future.…”

Section: Discussion and Ongoing Developmentmentioning

confidence: 99%

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The UKC3 regional coupled environmental prediction system

Lewis¹,

Sanchez²,

Fallmann³

et al. 2018

Preprint

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Abstract. This paper describes an updated configuration of the regional coupled research system, termed UKC3, developed and evaluated under the UK Environmental Prediction collaboration. This represents a further step towards a vision of simulating the numerous interactions and feedbacks between different physical and biogeochemical components of the environment across sky, sea and land using more integrated regional coupled prediction systems at km-scale resolution. The UKC3 coupled system incorporates models of the atmosphere (Met Office Unified Model), land surface with river routing (JULES), shelf-sea ocean (NEMO) and ocean surface waves (WAVEWATCH III), coupled together using OASIS3-MCT libraries. The major update introduced since the UKC2 configuration is an explicit representation of wave processes in the ocean and their feedbacks through wave-to-ocean coupling. Ocean model results demonstrate that wave coupling, in particular representing the wave modified surface drag, has a small but positive improvement on the agreement between simulated sea surface temperatures and in situ observations, relative to simulations without wave feedbacks. Other incremental developments to the coupled modelling capability introduced since the UKC2 configuration are also detailed. Coupled regional prediction systems are of interest for applications across a range of timescales, from hours to decades ahead. The first results of simulations run over extended periods, covering four experiments each of order one month in duration are therefore analysed and discussed in the context of further characterising the potential benefits of coupled prediction on forecast skill, and on the stability of such systems over longer time periods. Results across atmosphere, ocean and wave components are shown to be of at least comparable skill to the equivalent uncoupled control simulations, with notable improvements demonstrated in surface temperature and wave state predictions in some near-coastal regions, and in wind speeds over the sea.

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“…One specific case is that of the presence of fog at airports can which lead to delays and cancellations and in turn economic penalties and reputational damage to airlines (Roquelaure and Bergot, 2009). Fog has been shown to be particularly sensitive to air-sea interactions (Fallmann et al, 2019) and as such forecasts of fog can only be improved by ocean observations and derived models. San Francisco International Airport (SFO) provides a real case of where an improved knowledge of fog and low cloud would be advantageous.…”

Section: Other Stakeholder Groups -A Case Study In Aviationmentioning

confidence: 99%

The Role of Stakeholders in Creating Societal Value From Coastal and Ocean Observations

et al. 2019

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The importance of stakeholder engagement in ocean observation and in particular the realization of economic and societal benefits is discussed, introducing a number of overarching principles such as the convergence on common goals, effective communication, co-production of information and knowledge and the need for innovation. A series of case studies examine the role of coordinating frameworks such as the United States' Interagency Ocean Observing System (IOOS R), and the European Ocean Observing System (EOOS), public-private partnerships such as Project Azul and the Coastal Data Information Program (CDIP) and finally the role of the "third" or voluntary sector. The paper explores the value that stakeholder engagement can bring as well as making recommendations for the future.

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Impact of high‐resolution ocean–atmosphere coupling on fog formation over the North Sea

Cited by 14 publications

References 70 publications

Impact of a sharp, small‐scale SST front on the marine atmospheric boundary layer on the Iroise Sea: Analysis from a hectometric simulation

Impact of a sharp, small‐scale SST front on the marine atmospheric boundary layer on the Iroise Sea: Analysis from a hectometric simulation

The UKC3 regional coupled environmental prediction system

The Role of Stakeholders in Creating Societal Value From Coastal and Ocean Observations

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