Let ¿={d1,d2,...,dm} be a finite set of 2-connected patterns, i.e. graphs up to vertex relabelling. We study the generating function D¿(z,u1,u2,...,um), which counts polygon dissections and marks subgraph copies of di with the variable ui. We prove that this is always algebraic, through an explicit combinatorial decomposition depending on ¿. The decomposition also gives a defining system for D¿(z,0), which encodes polygon dissections that restrict these patterns as subgraphs. In this way, we are able to extract normal limit laws for the patterns when they are encoded, and perform asymptotic enumeration of the resulting classes when they are avoided. The results can be directly transferred in the case of labelled outerplanar graphs. We give examples and compute the relevant constants when the patterns are small cycles or dissections.

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