Understanding how bird species from white sand ecosystems (WSEs) have managed to inhabit and specialize in insular environment in the middle of the Amazon Rainforest is fundamental to understand the evolutionary processes in birds restricted to one type of habitat. We sought to evaluate the diversification processes of the specialist bird species of the white sand ecosystems of the Rio Negro basin by comparing them with the pool of bird species of riparian environments. Many WSEs may be ancient riverbeds, which may favor current riparian species to be potential colonizers and settle within the WSEs. For this, we used an extension of biogeographic evolutionary models to verify state-dependent speciation and extinction models that specifically explain the presence of unmeasured factors that can affect the estimated diversification rates for the states of any observed trait. Thus, it was possible to evaluate the evolutionary processes that most acted in the formation of bird communities of WSEs. The results showed that WSEs specialist bird species have different functional diversity to what was expected on a random basis and evolutionary models have higher extinction and speciation rates in WSEs specialist bird communities. This evidences that source-sink processes maintain WSEs over time, and that they receive generalist and specialist species from riparian ecosystems. According to the models analyzed, once the species have the high degree of adaptation required by an ecosystem with severe conditions, they cannot colonize other ecosystems. Extinction is an important process for the dynamics of biodiversity in the Amazon since, as many species are lost, there is also speciation and high adaptation. This work is one of the first to use local evolutionary analyses in Amazonian ecosystems and was effective in showing that extinction is recurrent, which is a cause for concern due to the severe and rapid ecological changes currently occurring.