Insights into the early evolution of modern avian physiology from fossilized soft tissues from the Mesozoic.

Abstract

Modern birds (Neornithes) are the mostly highly modified group of amniotes, bearing little resemblance to other extant sauropsids. Archaeopteryx, with its nearly modern wings but plesiomorphic skeleton, demonstrated more than 160 years ago that soft tissue specializations preceded skeletal modifications for flight. Soft tissues are thus of great importance for understanding the early evolution of modern avian physiology. Most commonly, traces of the integumentary system are preserved; exceptional discoveries include remnants of organs. Together, these have helped to elucidate the evolution of the lungs, ovaries, plumage and beak in early diverging birds. These fossils reveal that many important adaptations for efficient digestion, high oxygen intake, reduced body mass and improved wing structure, all of which serve to improve aerial capabilities and/or meet the energetic demands of this costly form of locomotion, evolved within the first 20-30 Myr of avian evolution. Soft tissue preservation also provides important clues for understanding the ecology of early diverging birds and may even elucidate the extinction of certain groups. However, the current fossil record of Mesozoic avian soft tissues is almost entirely limited to the Early Cretaceous and thus, discoveries from the Late Cretaceous have the potential to drastically transform our interpretation of the available data.This article is part of the theme issue 'The biology of the avian respiratory system'.