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If you haven’t read my previous post, I would suggest doing so before this. We denote by \mathcal{P}_\infty the partitions of \mathbb{N}. The thing to keep in mind here is that we want to think of a coalescent process as a history of lineage. Suppose we start with the trivial partition (\{1\},\{2\},\dots) and think of each block \{i\} as a member of some population. A coalescent process \Pi=(\Pi(t) :t \geq 0) on \mathcal{P}_\infty is essentially defines ancestries, in the sense that if i and j belong to the same block of \Pi(t) for some t\geq 0, then we think of that block as the common ancestor of i and j.

With this in mind, define the operator Coag:\mathcal{P}_\infty \times \mathcal{P}_\infty \rightarrow \mathcal{P}_\infty by

Coag(\pi,\pi')_i=\bigcup_{j \in \pi'}\pi_j.

With some conditions, we can define the same operator on \mathcal{P}_{[n]}, the partitions of [n]:=\{1,\dots,n\}. So for example if \pi=(\{1,3,5\},\{2\},\{4\}) and \pi'=(\{1,3\},\{2\}), then Coag(\pi,\pi')=(\{1,3,4,5\},\{2\}). The partition \pi' tells us in this case to merge the first and third block and leave the second block alone.

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