Compilation of Summaries
24
System Nordsee
probability of death or survival of a weather-type episode is independent of its current
age. The GD turns out an adequate model for lifetimes as long as a week. The poor
est agreement arises for longlived A types representing persistent blocking situations,
which can bring to a stand the erratic course of weather evolution for time spans up
to several weeks. The anonymized episode or, more colloquial, the weather type as
the >thing-in-itself< was found to have a mean lifetime of 2 days. Hence, having equal
death and survival probabilities of 0.5, the corresponding GD conforms to the run
length distribution some weather goddess could have produced by constantly flipping
a true coin. The fact that some weather types show greater »talent« than others, when
it comes to survival, instead hints to 6 cheats playing the game.
At 32 episodes, amongst them the Methuselah, who attained the great age of 18 days,
weather type A dominated the age group > 9 days during 1971 - 2000. Otherwise this
range was occupied only by 15 SW, 5 NW and 3 SE episodes. In 2006 and 2007 the
same range was exclusively inhabited by 2 and 1 A episodes, of which 1 reached 11
days in each year. The frequent occurrence of northerly (NE & NW) weather types in
2007 also showed in long episodes within the age band 5-8 days, the frequency of
which increased from 1 to 6 vis-à-vis 2006, while at the same time southerly episodes
dropped from 7 to 1. Episodes attaining ages > 5 days total up to 14 for either year
and, thus, match the climatological mean (13,6). All of these counts slightly exceed the
expected amount of 11.4 (= 182.5x0.5 4 ) due to a GD at death probability 0.5. The cor
responding cumulative lifetimes amount to 95 (2006), 90 (2007), 90,7 (cm), and 68,4
days (GD). Moreover, the overall number of episodes (186, 183, and 181,1/yr), and,
hence, the mean lifetimes of « 2 days have been conspicuously stable.
A third way of counting applied to the 30-year time series of weather types consists
in tallying the 6 2 distinguishable transitions from day to day. This mode of counting no
only entails information on frequency and lifetime of weather types, but also sheds
light on typical and untypical patterns in their sequential evolution. Within the analogue
of a ball-game analysis these elements correspond to each players total time of ball
possession, which is comprised of times of holding on to the ball and points in time
of passing it. The resulting quadratic matrix of transition counts is highly asymmetric
and most heavily occupied in the main diagonal, representing self-transitions. The first
feature signifies that mutual passing among any 2 players is unbalanced, while the
latter stands for each players self-regarding attitude of rather sticking to the ball than
cooperatively passing it. Specifically, the narcissistic behavior implies high serial auto
correlation, which together with geometrically distributed sojourn times in unchanged
states ranks among the inherent properties of 1 st order Markov chains.
Fitting this stochastic process to the data consists in transforming the row entries of
the count matrix into relative frequencies with respect to each row’s sum, i. e. the in
dividual total frequency of the weather type associated with each row. Any row vector
of this transition matrix represents a conditional 1-step probability distribution for the
conjoint event that any of the 6 weather types occurs tomorrow provided that today’s
weather is of the type the row applies to. The memorylessness of the MC consists in
the fact that the transition probabilities exclusively depend on its current state and,
in particular, not on whatever intricate path the current state was reached. It is also
worth noting, that the MC at hand - regardless of its initial state - converges towards
a unique stationary distribution for stochastic forecasting periods of 1 week. Actu
ally, this limit distribution is the climatological probability distribution of the 6 weather
types. The rapid leveling off of the forecasting potential towards the climatological skill
and the Markovian property of memorylessness - tantamount to the exclusive de