Hurricane simulation using different representations of atmosphere-ocean interaction: The case of Irene (2011)
Mooney, P., Gill, D. O., Mulligan, F. J., & Bruyere, C. L. (2016). Hurricane simulation using different representations of atmosphere-ocean interaction: The case of Irene (2011). Atmospheric Science Letters, 17, 415-421. doi:10.1002/asl.673
Three approaches to represent sea surface temperatures (SSTs) in atmospheric models have been investigated using the Weather Research and Forecasting model: (1) prescribing SSTs every 6 h from reanalysis, (2) a one-dimensional ocean mixed-layer model and (3) a fully coupled regional ocean model. ... Show moreThree approaches to represent sea surface temperatures (SSTs) in atmospheric models have been investigated using the Weather Research and Forecasting model: (1) prescribing SSTs every 6 h from reanalysis, (2) a one-dimensional ocean mixed-layer model and (3) a fully coupled regional ocean model. Hurricane Irene (2011) was chosen as the test case. All three options produced results comparable to observations immediately after storm passage but only options (1) and (3) captured recovery to pre-storm conditions which suggests both are feasible approaches for long-term simulations of tropical cyclones. Option (2) merits further investigation because of its greater computational efficiency and reduced complexity. Show less