Your search keyword '"Bastin, S."' showing total 8 results

1. Using NIW Observations to Assess Mixed Layer Parameterizations: A Case Study in the Tropical Atlantic

Author

Mrozowska, M. A., Jochum, M., Bastin, S., Hummels, Rebecca, Koldunov, A., Dengler, Marcus, Fischer, Tim, Nuterman, R., Hansen, R. R., Mrozowska, M. A., Jochum, M., Bastin, S., Hummels, Rebecca, Koldunov, A., Dengler, Marcus, Fischer, Tim, Nuterman, R., and Hansen, R. R.

Abstract

Tropical sea surface temperature (SST) biases can cause atmospheric biases on global scales, hence SST needs to be represented well in climate models. A major source of uncertainties is the representation of turbulent mixing in the oceanic boundary layer, or mixed layer (ML). In the present study we focus on near-inertial wave (NIW) induced mixing. The performance of two mixing schemes, Turbulent Kinetic Energy and K-profile parameterization (KPP), is assessed at two sites (11.5°N, 23°W and 15°N, 38°W) in the tropical Atlantic. At 11.5°N, turbulence observations (eddy diffusivities, shear and stratification) are available for comparison. We find that the schemes differ in their representation of NIWs, but both under-represent the observed enhanced diffusivities below the observed ML. However, we find that the models do mix below the ML at 15°N when a storm passes nearby. The near-inertial oscillations remain below the ML for the following 10 days. Near-inertial kinetic energy (NIKE) biases in the models are not directly correlated with the wind speed, the MLD biases, or the stratification at the ML base. Instead, NIKE biases are sensitive to the vertical mixing scheme parameterization. NIKE biases are lowest when the KPP scheme is used. Key Points: - Observations of inertial oscillations are used to evaluate the performance of two vertical mixing schemes in two high-resolution models - Both the K-profile parameterization and the Turbulent Kinetic Energy closure underestimate the NIW-induced mixing - Near-inertial kinetic energy biases are sensitive to the vertical mixing parameterization

Published

2024

2. Anti‐fracture efficacy of zoledronate in subgroups of osteopenic postmenopausal women: secondary analysis of a randomized controlled trial

Author

Reid, I. R., primary, Horne, A. M., additional, Mihov, B., additional, Stewart, A., additional, Garratt, E., additional, Wiessing, K. R., additional, Bolland, M. J., additional, Bastin, S., additional, and Gamble, G. D., additional

Published

2019

3. Remote sensing ice supersaturation inside and near cirrus clouds: a case study in the subtropics

Author

Hoareau, C., primary, Noel, V., additional, Chepfer, H., additional, Vidot, J., additional, Chiriaco, M., additional, Bastin, S., additional, Reverdy, M., additional, and Cesana, G., additional

Published

2016

4. Sensitivity testing of WRF parameterizations on air–sea interaction and its impact on water cycle in the Gulf of Guinea

Author

Meynadier, Rémi, primary, de Coëtlogon, G., additional, Bastin, S., additional, Eymard, L., additional, and Janicot, S., additional

Published

2014

5. Regional transport and dilution during high pollution episodes in southeastern France: Summary of findings from the ESCOMPTE experiment

Author

Drobinski, Ph., Said, F., Ancellet, G., Arteta, J., Augustin, P., Bastin, S., Brut, A., Caccia, J. L., Campistron, B., Cautenet, S., Colette, A., Coll, I., Corsmeier, U., Cros, B., Dabas, A., Delbarre, H., Dufour, A., Durand, P., Guénard, V., Hasel, M., Kalthoff, N., Kottmeier, Ch., Lasry, F., Lemonsu, A., Lohou, F., Masson, V., Menut, L., Moppert, C., Peuch, V.H., Puygrenier, V., Reitebuch, Oliver, and Vautard, R.

Subjects

Lidar, French Mediterranean basin, air pollution, coastal atmospheric circulation, mesoscale meteorology

Abstract

In the French Mediterranean basin the large city of Marseille and its industrialized suburbs (oil plants in the Fos-Berre area) are major pollutant sources that cause frequent and hazardous pollution episodes, especially in summer when intense solar heating enhances the photochemical activity and when the sea breeze circulation redistributes pollutants farther north in the countryside. This paper summarizes the findings of 5 years of research on the sea breeze in southern France and related mesoscale transport and dilution of pollutants within the Field Experiment to Constraint Models of Atmospheric Pollution and Emissions Transport (ESCOMPTE) program held in June and July 2001. This paper provides an overview of the experimental and numerical challenges identified before the ESCOMPTE field experiment and summarizes the key findings made in observation, simulation, and theory. We specifically address the role of large-scale atmospheric circulation to local ozone vertical distribution and the mesoscale processes driving horizontal advection of pollutants and vertical transport and mixing via entrainment at the top of the sea breeze or at the front and venting along the sloped terrain. The crucial importance of the interactions between processes of various spatial and temporal scales is thus highlighted. The advances in numerical modeling and forecasting of sea breeze events and ozone pollution episodes in southern France are also underlined. Finally, we conclude and point out some open research questions needing further investigation.

Published

2007

6. Role of ultrasound in the assessment of nodular thyroid disease

Author

Bastin, S, primary, Bolland, MJ, additional, and Croxson, MS, additional

Published

2009

7. Sea-breeze-induced mass transport over complex terrain in south-eastern France: A case-study

Author

Bastin, S., primary and Drobinski, P., additional

Published

2006

8. Summer mistral at the exit of the Rhône valley

Author

Drobinski, P., primary, Bastin, S., additional, Guenard, V., additional, Caccia, J.-L., additional, Dabas, A.M., additional, Delville, P., additional, Protat, A., additional, Reitebuch, O., additional, and Werner, C., additional

Published

2005