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Abstract. A hierarchy of E1 Nifio-Southern Oscillation (ENSO) prediction schemes has been developed during the Tropical Ocean-Global Atmosphere (TOGA) program which includes statistical schemes and physical models. The statistical models are, in general, based on linear statistical techniques and can be classified into models which use atmospheric (sea level pressure or surface wind) or oceanic (sea surface temperature or a measure of upper ocean heat content) quantities or a combination of oceanic and atmospheric quantities as predictors. The physical models consist of coupled oceanatmosphere models of varying degrees of complexity, ranging from simplified coupled models of the "shallow water" type to coupled general circulation models. All models, statistical and physical, perform considerably better than the persistence forecast in predicting typical indices of ENSO on lead times of 6 to 12 months. The TOGA program can be regarded as a success from this perspective. However, despite the demonstrated predictability, little is known about ENSO predictability limits and the predictability of phenomena outside the tropical Pacific. Furthermore, the predictability of anomalous features known to be associated with ENSO (e.g., Indian monsoon and Sahel rainfall, southern African drought, and off-equatorial sea surface temperature) needs to be addressed in more detail. As well, the relative importance of different physical mechanisms (in the ocean or atmosphere) has yet to be established. A seasonal dependence in predictability is seen in many models, but the processes responsible for it are not fully understood, and its meaning is still a matter of scientific discussion. Likewise, a marked decadal variation in skill is observed, and the reasons for this are still under investigation. Finally, the different prediction models yield similar skills, although they are initialized quite differently. The reasons for these differences are also unclear.

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The Mussel Watch

Goldberg

et al. 1978

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The levels of four sets of pollutants (heavy-metals, artificial radionuclides, petroleum components, and halogenated hydrocarbons), have been measured in U.S. coastal waters, using bivalves as sentinel organisms. The strategies of carrying out this programme are outlined and the results from the first year's work are given. Varying degrees of pollution in U.S. coastal waters have been indicated by elevated levels of pollutants in the bivalves, which comprised certain species of mussels and oysters and were collected at over one hundred localities.

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Complexity and thermodynamics

Schneider

Kay

1994

Futures

209

112

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Embracing Complexity the Challenge of the Ecosystem Approach

Kay

Schneider

1995

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Order from disorder: the thermodynamics of complexity in biology

Schneider

Kay

1995

100

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The Simulated Indian Monsoon: A GCM Sensitivity Study

Fennessy¹,

Kinter²,

Kirtman³

et al. 1994

J. Climate

114

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The thermodynamics and evolution of complexity in biological systems

Toussaint

Schneider²

1998

Comparative Biochemistry and Physiology Part A: Molecular &

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Eric D. Schneider

Life as a manifestation of the second law of thermodynamics

A review of the predictability and prediction of ENSO

The Mussel Watch

Complexity and thermodynamics

Embracing Complexity the Challenge of the Ecosystem Approach

Order from disorder: the thermodynamics of complexity in biology

The Simulated Indian Monsoon: A GCM Sensitivity Study

The thermodynamics and evolution of complexity in biological systems

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