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The two-parameter Poisson-Dirichlet distribution, denoted \PD$(\alpha,\theta)$, is a distribution on the set of decreasing positive sequences with sum 1. The usual Poisson-Dirichlet distribution with a single parameter $\theta$, introduced by Kingman, is \PD$(0,\theta)$. Known properties of \PD$(0,\theta)$, including the Markov chain description due to Vershik-Shmidt-Ignatov, are generalized to the two-parameter case. The size-biased random permutation of \PD$(\alpha,\theta)$ is a simple residual allocation model proposed by Engen in the context of species diversity, and rediscovered by Perman and the authors in the study of excursions of Brownian motion and Bessel processes. For $0 < \alpha < 1$, \PD$(\alpha,0)$ is the asymptotic distribution of ranked lengths of excursions of a Markov chain away from a state whose recurrence time distribution is in the domain of attraction of a stable law of index $\alpha$. Formulae in this case trace back to work of Darling, Lamperti and Wendel in the 1950's and 60's. The distribution of ranked lengths of excursions of a one-dimensional Brownian motion is \PD$(1/2,0)$, and the corresponding distribution for Brownian bridge is \PD$(1/2,1/2)$. The \PD$(\alpha,0)$ and \PD$(\alpha,\alpha)$ distributions admit a similar interpretation in terms of the ranked lengths of excursions of a semi-stable Markov process whose zero set is the range of a stable subordinator of index $\alpha$.

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