Your search keyword '"O'Kane, T. J."' showing total 17 results

1. Low-frequency regime transitions and predictability of regimes in a barotropic model

Author

Nadiga, B. T. and O'Kane, T. J.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Physics - Fluid Dynamics

Abstract

Predictability of flow is examined in a barotropic vorticity model that admits low frequency regime transitions between zonal and dipolar states. Such transitions in the model were first studied by Bouchet and Simonnet (2009) and are reminiscent of regime change phenomena in the weather and climate systems wherein extreme and abrupt qualitative changes occur, seemingly randomly, after long periods of apparent stability. Mechanisms underlying regime transitions in the model are not well understood yet. From the point of view of atmospheric and oceanic dynamics, a novel aspect of the model is the lack of any source of background gradient of potential-vorticity such as topography or planetary gradient of rotation rate (e.g., as in Charney & DeVore '79). We consider perturbations that are embedded onto the system's chaotic attractor under the full nonlinear dynamics as bred vectors---nonlinear generalizations of the leading (backward) Lyapunov vector. We find that ensemble predictions that use bred vector perturbations are more robust in terms of error-spread relationship than those that use Lyapunov vector perturbations. In particular, when bred vector perturbations are used in conjunction with a simple data assimilation scheme (nudging to truth), we find that at least some of the evolved perturbations align to identify low-dimensional subspaces associated with regions of large forecast error in the control (unperturbed, data-assimilating) run; this happens less often in ensemble predictions that use Lyapunov vector perturbations. Nevertheless, in the inertial regime we consider, we find that (a) the system is more predictable when it is in the zonal regime, and that (b) the horizon of predictability is far too short compared to characteristic time scales associated with processes that lead to regime transitions, thus precluding the possibility of predicting such transitions.

Published

2016

2. Tree-ring reconstructions of cool season temperature for far southeastern Australia, 1731–2007

Author

Allen, K. J., Anchukaitis, K. J., Grose, M. G., Lee, G., Cook, E. R., Risbey, J. S., O’Kane, T. J., Monselesan, D., O’Grady, A., Larsen, S., and Baker, P. J.

Published

2019

3. Subgrid Parameterization of Eddy, Meanfield and Topographic Interactions in Simulations of an Idealized Antarctic Circumpolar Current

Author

Kitsios, V., primary, Frederiksen, J. S., additional, and O’Kane, T. J., additional

Published

2023

4. Australian rainfall anomalies and Indo-Pacific driver indices: links and skill in 2-year-long forecasts

Author

Watterson, I. G., primary, O’Kane, T. J., additional, Kitsios, V., additional, and Chamberlain, M. A., additional

Published

2021

5. Ensemble Kalman Filter Parameter Estimation of Ocean Optical Properties for Reduced Biases in a Coupled General Circulation Model

Author

Kitsios, V., primary, Sandery, P., additional, O’Kane, T. J., additional, and Fiedler, R., additional

Published

2021

6. Systematic attribution of observed Southern Hemisphere circulation trends to external forcing and internal variability

Author

Franzke, C. L. E., primary, O'Kane, T. J., additional, Monselesan, D. P., additional, Risbey, J. S., additional, and Horenko, I., additional

Published

2015

7. Storm tracks in the Southern Hemisphere subtropical oceans

Author

O'Kane, T. J., primary, Matear, R. J., additional, Chamberlain, M. A., additional, Oliver, E. C. J., additional, and Holbrook, N. J., additional

Published

2014

8. Statistical dynamical subgrid-scale parameterizations for geophysical flows

Author

O'Kane, T J, primary and Frederiksen, J S, additional

Published

2008

9. Systematic attribution of observed Southern Hemisphere circulation trends to external forcing and internal variability.

Author

Franzke, C. L. E., O'Kane, T. J., Monselesan, D. P., Risbey, J. S., and Horenko, I.

Abstract

A critical question in the global warming debate concerns the causes of the observed trends of the Southern Hemisphere (SH) atmospheric circulation over recent decades. Secular trends have been identified in the frequency of occurrence of circulation regimes, namely the positive phase of the Southern Annular Mode (SAM) and the hemispheric wave-3 pattern which is associated with blocking. Previous studies into the causes of these secular trends have either been purely model based, have not included observational forcing data or have mixed external forcing with indices of internal climate variability impeding a systematic and unbiased attribution of the causes of the secular trends. Most model studies also focused mainly on the austral summer season. However, the changes to the storm tracks have occurred in all seasons and particularly in the austral winter and early spring when midlatitude blocking is most active and stratospheric ozone should not play a role. Here we systematically attribute the secular trends over the recent decades using a non-stationary clustering method applied to both reanalysis and observational forcing data from all seasons. While most previous studies emphasized the importance of stratospheric ozone depletion in causing austral sum-mer SH circulation trends, we show observational evidence that anthropogenic greenhouse gas concentrations have been the major driver of these secular trends in the SAM and blocking when all seasons are considered. Our results suggest that the recovery of the ozone hole might delay the signal of global warming less strongly than previously thought and that effects from all seasons are likely crucial in understanding the causes of the secular trends. [ABSTRACT FROM AUTHOR]

Published

2015

10. The statistical dynamics of turbulent Rossby wave flow over topography

Author

O'Kane, T. J., primary and Frederiksen, J. S., additional

Published

2005

11. A tractable inhomogeneous closure theory for flow over mean topography

Author

O'Kane, T. J., primary and Frederiksen, J. S., additional

Published

2004

12. Integro-differential closure equations for inhomogeneous turbulence

Author

O'Kane, T. J., primary and Frederiksen, J. S., additional

Published

2003

13. Nonlinear interactions of multilevel atoms with a near-resonant standing wave

Author

O’Kane, T. J., primary, Scholten, R. E., additional, Farrell, P. M., additional, and Walkiewicz, M. R., additional

Published

1999

14. Calculating Trajectories for Atoms in Near-resonant Lightfields

Author

Scholten, R. E., primary, O'Kane, T. J., additional, Mackin, T. R., additional, Hunt, T. A., additional, and Farrell, P. M., additional

Published

1999

15. Decadal-Scale Forecasting of Climate Drivers for Marine Applications.

Author

Salinger J, Hobday AJ, Matear RJ, O'Kane TJ, Risbey JS, Dunstan P, Eveson JP, Fulton EA, Feng M, Plagányi ÉE, Poloczanska ES, Marshall AG, and Thompson PA

Subjects

Australia, Coral Reefs, Decision Support Techniques, El Nino-Southern Oscillation, Fisheries trends, Floods, Hot Temperature, Indian Ocean, Models, Biological, Pacific Ocean, Seasons, Climate, Climate Change, Forecasting, Oceans and Seas

Abstract

Climate influences marine ecosystems on a range of time scales, from weather-scale (days) through to climate-scale (hundreds of years). Understanding of interannual to decadal climate variability and impacts on marine industries has received less attention. Predictability up to 10 years ahead may come from large-scale climate modes in the ocean that can persist over these time scales. In Australia the key drivers of climate variability affecting the marine environment are the Southern Annular Mode, the Indian Ocean Dipole, the El Niño/Southern Oscillation, and the Interdecadal Pacific Oscillation, each has phases that are associated with different ocean circulation patterns and regional environmental variables. The roles of these drivers are illustrated with three case studies of extreme events-a marine heatwave in Western Australia, a coral bleaching of the Great Barrier Reef, and flooding in Queensland. Statistical and dynamical approaches are described to generate forecasts of climate drivers that can subsequently be translated to useful information for marine end users making decisions at these time scales. Considerable investment is still needed to support decadal forecasting including improvement of ocean-atmosphere models, enhancement of observing systems on all scales to support initiation of forecasting models, collection of important biological data, and integration of forecasts into decision support tools. Collaboration between forecast developers and marine resource sectors-fisheries, aquaculture, tourism, biodiversity management, infrastructure-is needed to support forecast-based tactical and strategic decisions that reduce environmental risk over annual to decadal time scales., (© 2016 Elsevier Ltd. All rights reserved.)

Published

2016

16. A simplified technic and guide for the internal fixation of fractures about the neck of the femur.

Author

O'KANE TJ

Subjects

Humans, Femur, Fracture Fixation, Internal, Fractures, Bone

Published

1951

17. Surgical lesions of the lower extremities in diabetics: a classification of lesions arrived at clinically, applicable as a guide to surgical procedure.

Author

WILLIAMS FW and O'KANE TJ

Subjects

Humans, Diabetes Complications, Diabetes Mellitus, Lower Extremity, Peripheral Vascular Diseases etiology, Vascular Diseases

Published

1958