The parrotbills are a family of small birds primarily found in East and Southeast Asia, with one species in North America, known for their long tails and seed-eating habits facilitated by their well-adapted bills. Often residing in reedbeds, parrotbills are typically non-migratory and live in tropical to southern temperate climates. Unlike their relatives, the insectivorous bearded reedling or "bearded tit," has unique morphology, warranting its placement in a separate family (Panuridae). The evolutionary history and taxonomic classification of parrotbills have been perplexing, historically leading them to be grouped with various families like tits and babblers due to superficial similarities.
Molecular analyses since the 1990s have clarified these relationships, indicating that parrotbills are more closely related to typical warblers and some "Old World babblers" rather than tits. It is suggested that the modern family Sylviidae accommodate parrotbills, although taxonomists are equivocal on whether to maintain them as a separate family or merge them. The varied morphological adaptations among their relatives indicate a significant evolutionary divergence within the Sylviidae. Notably, the wrentit, found in America, somewhat resembles parrotbills but differs in dietary habits and coloration.
An interesting aspect of parrotbill biology is their ability to recognize their own eggs and discern those of brood parasites such as the common cuckoo, which co-evolved with them. The cognitive mechanisms behind this, whether learned or innate, include recognition by discordance and template-based recognition. Studies show that male parrotbills also participate in egg incubation and may use different recognition strategies due to encountering eggs of various colors in their lifetime. The evolution of egg color polymorphisms in parrotbills has likely been influenced by their co-evolution with brood parasites like the cuckoo. The Paradoxornithidae family, now determined through molecular studies to contain 37 species across 16 genera, showcases an array of evolved traits, egg recognition capabilities, and diverse evolutionary relationships.