Globalization and international trade have impacted organisms around the world leading to a considerable number of species establishing in new geographic areas. Many organisms have taken advantage of human-made environments, including buildings. One such species is the dry rot fungus Serpula lacrymans, which is the most aggressive wood-decay fungus in indoor environments in temperate regions. By using population genomic analyses of 36 full genome sequenced isolates, we revealed that isolates from Europe and Japan are highly divergent and that these populations split 3,000 - 19,000 generations ago, probably predating human influence. Approximately 250 generations ago, the European population went through a tight bottleneck, likely corresponding to the time it colonized the built environment. Moreover, evidence of admixture between European and Japanese populations was shown in an isolate from New Zealand. Genomic analyses revealed that low differentiation appeared in genes with functions related to of growth and intracellular transport, possibly important to its ability to effectively decay large substrates. These functions may have enabled both populations to independently establish in the human-made environment. Further, selective sweep analyses identified rapid changes in genes possibly related to decay of various substrates in Japan and in genes involved DNA replication and protein modification in Europe. These two fungal populations were preadapted to the built environment, but have more recently and independently adapted to their local environment.