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Avian Evolution
The Fossil Record of Birds and its Paleobiological Significance
Gerald Mayr
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eBook - ePub
Avian Evolution
The Fossil Record of Birds and its Paleobiological Significance
Gerald Mayr
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Knowledge of the evolutionary history of birds has much improved in recent decades. Fossils from critical time periods are being described at unprecedented rates and modern phylogenetic analyses have provided a framework for the interrelationships of the extant groups. This book gives an overview of the avian fossil record and its paleobiological significance, and it is the only up-to-date textbook that covers both Mesozoic and more modern-type Cenozoic birds in some detail. The reader is introduced to key features of basal avians and the morphological transformations that have occurred in the evolution towards modern birds. An account of the Cenozoic fossil record sheds light on the biogeographic history of the extant avian groups and discusses fossils in the context of current phylogenetic hypotheses. This review of the evolutionary history of birds not only addresses students and established researchers, but it may also be a useful source of information for anyone else with an interest in the evolution of birds and a moderate background in biology and geology.
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Chapter 1
An Introduction to Birds, the Geological Settings of Their Evolution, and the Avian Skeleton
What is a bird? Just by looking at the extant world, this question is easily answered: a bird is a bipedal, feathered animal without teeth, which, with very few exceptions, is capable of flight. These and numerous other avian characteristics were, however, sequentially acquired in the more than 160 million years of avian evolution. As a result, the distinction between birds and their closest relatives becomes more blurred the further one goes back in time.
With about 10,000 living species, birds are the second most species-rich group of extant vertebrates, outnumbered only by teleost fishes. Owing to the constraints of their aerial way of life, most extant birds have quite a uniform appearance. Whereas the morphological diversity of mammals spans extremes like bats and whales, all present-day birds have two wings, two legs, and an edentulous beak, with most major external differences concerning plumage traits, neck and limb proportions, as well as beak shapes. This alikeness of bird shapes notwithstanding, their skeletons show a high diversity of morphological details. In this chapter, the reader is introduced to some of the main features of the avian skeleton. In addition, general terms and the geological setting of avian evolution are briefly outlined to aid understanding of the subsequent accounts.
Birds are Evolutionarily Nested within Theropod Dinosaurs
An understanding of avian evolution hinges on a robust phylogenetic framework, with a knowledge of the interrelationships of the studied groups being central to many evolutionary and paleobiological questions arising from the fossil record. The most rigorous method of reconstructing evolutionary trees is called phylogenetic systematics, or cladistics, and aims at identification of monophyletic groups or clades (readers who are not acquainted with phylogenetic terminology are referred to Figure 1.1 and the glossary at the end of this book, which explains words highlighted in the text). Organisms can be remarkably different from their closest relatives and the results of phylogenetic reconstructions are sometimes counterintuitive. Overall similarities may be misleading, because they are often based on the retention of primitive features (plesiomorphies) that were inherited from a common ancestor. Closely related organisms, on the other hand, can become profoundly different if they are on disparate evolutionary trajectories.
Figure 1.1 Illustration of some general phylogenetic terms used in this book. Phylogenetic systematics aims at identification of monophyletic groups (clades), which include an ancestral species and all of its descendants and are characterized by shared derived characters (apomorphies). Depicted is a hypothetical clade A with extant and extinct species, the latter being denoted by daggers. Character X is an apomorphy of this clade, whereas character Y represents an apomorphy of the subclade B. Groups are polyphyletic if they consist of only distantly related taxa, and paraphyletic if they do not include all of the taxa that descended from their last common ancestor. The white field marks the crown group of clade A, whereas all taxa in the dark and light gray areas are stem group representatives of this clade.
Birds are one of those animal groups that underwent particularly pronounced morphological transformations in their evolutionary history, and as a result their anatomy strongly departs from that of their closest living relatives. Even so, unanimous consensus exists that birds belong to the Archosauria. This clade also includes crocodilians and all non-avian dinosaurs and is characterized by a number of derived characters (apomorphies), such as teeth sitting in sockets of the jaw bones, a skull with an opening (antorbital fenestra) between the orbits and the nostrils, and a four-chambered heart.
In the 19th century some scientists already assumed that the closest archosaurian relatives of birds are to be found among bipedal theropod dinosaurs. In its modern form, this hypothesis goes back to Ostrom (1976), who proposed an avian origin from one particular theropod clade, the Coelurosauria. At one time vigorously contested, a theropod ancestry for birds is now widely accepted. For space constraints and because an extensive literature already exists, these largely settled debates are not reviewed here (see, e.g., Prum 2002; Chiappe 2007; Makovicky and Zanno 2011; Xu et al. 2014).
Likewise, it is now generally appreciated that, within coelurosaurs, birds belong to the Maniraptora, which also include dromaeosaurs, troodontids, oviraptorosaurs, and a few other coelurosaurian theropods, such as ornithomimosaurs and therizinosaurs (Figure 1.2). Aside from features also present in some more distantly related dinosaurs (e.g., bipedal locomotion and a highly pneumatized skeleton), maniraptoran theropods are characterized by greatly elongated hands with only three fingers, a semilunate carpal bone, a bowed ulna, and thin radius, as well as an avian-like eggshell structure (Gauthier 1986; Makovicky and Zanno 2011). Most current phylogenetic analyses recognize oviraptorosaurs, dromaeosaurs, and troodontids as the closest avian relatives. Oviraptorosaurs are placed outside a clade formed by dromaeosaurs, troodontids, and birds for which the term Paraves was introduced (e.g., Makovicky and Zanno 2011; Turner et al. 2012).
Figure 1.2 Phylogenetic interrelationships of birds and their closest theropod relatives, with some key apomorphies characterizing major groups (after Makovicky and Zanno 2011; Turner et al. 2012). The asterisked characters are absent in Archaeopteryx and the Troodontidae.
A clade including oviraptorosaurs, dromaeosaurs, troodontids, and birds is robustly supported in most analyses, but, as will be detailed later, the jury may still be out on the exact interrelationships between these groups. Not only do various analyses show conflicting results, but some new findings from the Early Cretaceous of China exhibit unexpected character mosaics, which challenge current phylogenetic hypotheses.
Aves, Avialae, or what constitutes a “bird”
Extant birds are classified in the taxon Aves, which is one of the traditional higher categories of vertebrates. If fossils are also considered, the content of Aves is a matter of considerable debate and depends on the underlying definition, which varies among current authors.
In phylogenetic discussions of groups, which include both fossil and extant species, it is import to distinguish between the crown group of a certain taxon and its stem group (Figure 1.1). At times when only a few Mesozoic birds were known, Aves was defined as the least inclusive clade comprising the earliest known bird, Archaeopteryx, as well as all extant species (i.e., the crown group), which were designated Neornithes. This terminology is still used by many authors and is also employed here. Following Gauthier (1986), who restricted the use of Aves to the crown group, the clade including Archaeopteryx and crown group birds is nowadays often termed “Avialae.” This renders the well-established term Neornithes redundant and conflicts with common practice in paleontology, where crown group taxa are expanded to encompass fossil stem group representatives (e.g., in the case of Equidae, the clade including fossil and extant horses, or Homo, the taxonomic category for archaic and modern humans).
Restriction of the term Aves to the crown group would furthermore lead to the awkward classification of all Mesozoic birds outside the crown group as “non-avian avialans,” no matter how similar to modern birds these may be, and would result in a discrepancy between the contents of the terms “avian” and “bird-like.” As this is more counterintuitive than recognizing the avian affinities of aberrant fossil stem group taxa, Aves is used for the clade including Archaeopteryx and extant birds throughout this book.
The Geological Settings of Avian Evolution in a Nutshell
The known history of birds spans more than 160 million years, from the Late Jurassic until now. Avian evolution therefore extended over two geological eras, the Mesozoic and the Cenozoic, which showed profound differences in their paleogeographic, paleoenvironmental, and climatic regimes. Most readers of this book will probably have a basic acquaintance with these facts, so only some of the major geological settings are briefly summarized in the following (Figure 1.3).
Figure 1.3 Time chart showing geological periods relevant for avian evolution and the stratigraphic position of some important fossil localities.
Geological eras are subdivided into periods, epochs, and stages. The Mesozoic era includes three periods, of which only the last two, the Jurassic and the Cretaceous, yielded avian fossils, with controversial reports of a Triassic “Protoavis” (Chatterjee 2015) being dismissed by most current researchers. All of the few Jurassic avian or avian-like fossils stem from the latest epoch of this period; that is, the Late Jurassic. Until recently, Jurassic birds were solely represented by the Archaeopteryx specimens from the Solnhofen limestone in southern Germany, which was deposited in t...