fbpx
Wikipedia

The Origin of Birds

March 03, 2023

This article is about the book. For the biological concept, see Origin of birds.

The Origin of Birds is an early synopsis of bird evolution written in 1926 by Gerhard Heilmann, a Danish artist and amateur zoologist. The book was born from a series of articles published between 1913 and 1916 in Danish, and although republished as a book it received mainly criticism from established scientists and got little attention within Denmark. The English edition of 1926, however, became highly influential at the time due to the breadth of evidence synthesized as well as the artwork used to support its arguments.[2] It was considered the last word on the subject of bird evolution for several decades after its publication.[3]

The Origin of Birds
Cover illustration of the 1972 Dover reprint edition of The Origin of Birds, based on a painting by Gerhard Heilmann
AuthorGerhard Heilmann
CountryEngland, United States
LanguageEnglish
SubjectOrnithology
Evolutionary biology
Paleontology
Genrescience, biology
PublisherEngland: H. F. & G. Witherby
U.S.: D. Appleton & Company
Publication date
1926
Media typePrint (hardback)
Pages209
ISBN0-486-22784-7
Followed byUnivers og traditionen (1940)[1] 

Through the course of the research represented in the book, Heilmann considers and eventually rejects the possibility of all living and several extinct groups of reptiles as potential ancestors for modern birds, including crocodilians, pterosaurs and several groups of dinosaurs.[4] Despite his acknowledgment that some of the smaller Jurassic theropods had many similarities to Archaeopteryx and modern birds, he determined that they were unlikely to be direct bird ancestors and that they were instead closely–related offshoots,[5] and concluded that the similarities were a result of convergent evolution rather than direct ancestry.[6] Based essentially on a process of elimination, Heilmann arrives at the conclusion that birds must be descended from thecodonts, a group of archosaurs that lived during the Permian and Triassic periods.[1] Although this conclusion was later shown to be inaccurate, The Origin of Birds was regarded as a masterful piece of scholarship at the time and set the international agenda for research in bird evolution for nearly half a century, and much of its research remains of interest.[5]

Background

 
The first Archaeopteryx specimen

When Heilmann began his research in the early 1900s, the early bird Archaeopteryx was only known from three fossils found in the limestone quarries of Solnhofen near Eichstätt, Germany. The three fossils consisted of two nearly complete skeletons found in 1861 and 1877 and a single feather from 1860. They had been discovered just a few decades after the discovery of the dinosaurs, and as some dinosaurs appeared somewhat birdlike, Archaeopteryx was regarded as a possible "missing link" between reptiles and birds by many paleontologists at the time.[5]

The similarities between Archaeopteryx, known dinosaurs and extant birds were examined and emphasized, with Thomas Huxley championing the idea that Archaeopteryx as well as modern birds had more in common with theropod dinosaurs than any other group of animals. This was at the time in opposition to the view of anatomist Sir Richard Owen of the British Museum, who viewed Archaeopteryx as no different taxonomically from modern birds. Huxley's work was controversial, and this climate of uncertainty and contention about bird origins persisted well into the beginning of the 20th century.[7]

While the dinosaur-bird connection (or lack thereof) was being pursued in paleontology, the problem of the evolution of flight was under scrutiny as well. It was observed that a number of animals with moderate flying or gliding ability, such as bats, flying lizards and flying squirrels have arboreal lifestyles. This led to the idea that the ancestors of birds must have gradually acquired the ability to fly from leaping among branches in the tops of trees. The Hungarian paleontologist Franz Nopcsa proposed an alternate hypothesis in 1907, arguing that the ancestors of birds were fast-running, bipedal animals related to theropod dinosaurs. When Heilmann came onto the paleontology scene, these two sets of conflicting theories provided the framework for his research and eventual conclusions.[5]

Publication

 
Self–portrait of Gerhard Heilmann from 1912

Between 1913 and 1916, Gerhard Heilmann published a series of articles in the journal of the Danish Ornithological Society, all heavily illustrated and dealing with the question of the origin of birds.[5] He first proposed the idea of a popular treatise on bird evolution in 1912 to Otto Helms, the editor of the journal of the Danish Ornithological Society. Helms supported the idea but recommended that Heilmann first seek professional advice on the topic.[8] Despite the lack of formal training in zoology, Heilmann succeeded in amassing his research with the help of several others, including the expert in prehistoric animals at the Zoological Museum in Copenhagen, Adolf Herluf Winge, and the biologist D'Arcy Wentworth Thompson of the University of Dundee. Winge, though initially showing interest in Heilmann's work, later proved to be a source of frustration by refusing to engage Heilmann in depth on various scientific queries. Heilmann eventually broke off contact, expressing some bitterness at the apparent change of heart, which Heilmann later ascribed to Winge's belief in Lamarckism.[5]

Heilmann's original articles were publicly ignored by Danish zoologists, but caused considerable unrest behind the scenes. Danish zoologist R.H. Stamm, for example, mocked Heilmann in private letters to Helms shortly after the publication of his first article. Other Danish zoologists openly expressed their disdain for Heilmann's work as well, including the professors of zoology in Copenhagen University J.E.V. Boas and Hector Jungersen. Despite this, Helms continued to steadfastly support Heilmann and his ideas, which eventually began to gain attention from abroad. In April 1913, the American expert in fossil birds R. W. Shufeldt came across Heilmann's first article by chance. Shufeldt, who was married to a Norwegian, could understand some Danish and was able to interpret Heilmann's work and initiated contact with him shortly thereafter. This opened up the opportunity for international correspondence with distinguished paleontologists for Heilmann, which was instrumental to the recognition of his work outside of Denmark.[5]

Heilmann's articles were later collected and published as a book in Danish in 1916 with the title as in his series, Vor Nuvaerende Viden om Fuglenes Afstamming ("our present knowledge about the origin of birds").[9] This met the same lack of interest and is thought to have been a result of publishing in Danish, as this made it inaccessible to many scientists working in the U.S. and much of Europe.[1] The field of paleontology at the time was dominated by American and English scientists, and the discipline in continental Europe was dominated by Germany and to a lesser degree France.[2]

Consequently, and at the urging of Shufeldt, Heilmann devoted much of the next few years attempting to find an English–language publisher willing to undertake a translation of his work. None of the larger publishers he approached were willing to do so unless Heilmann himself was prepared to finance it, which he was unable to do.[1] In the meantime, Heilmann took the opportunity to revise and improve his manuscript, which included information he acquired from examining the Berlin specimen of Archaeopteryx for the first time in 1923 at the invitation of Josef Felix Pompeckj, a professor at the Natural History Museum in Berlin. Examining this important specimen in person allowed Heilmann to add some additional details and revisions to his understanding of the hip, the skull, and the flight feathers.[5] With the help of the English paleontologist Arthur Smith Woodward of the British Museum, he finally met success in finding a small London publisher willing to produce an English version of his manuscript in 1926.[1]

Editions

While most of the original material was published in the journal of the Danish Ornithological Society between the years of 1913 and 1916, the first English version of the book was published in London in 1926 by H. F. & G. Witherby. It was published in the United States the following year by D. Appleton & Company. The book was reprinted in 1972 by Dover Publications, Inc.,[10] with the only change being the grayscale reproduction of several illustrations originally published in color.[11]

The English and Danish editions differed in several significant ways. The English edition was somewhat shorter and more concise, and included newer information that Heilmann had acquired by studying the actual fossils of Archaeopteryx in Berlin, as well as from foreign scientists who sent him photographs and plaster casts. It also contained considerably less harsh language towards Boas and others with whom he disagreed. Curiously, the English edition did not contain the transformational sequences inspired by D'Arcy Thompson, though Heilmann still briefly acknowledged the use of his methods in reconstructing his Proavis.[8]

Book outline

Heilmann's book was divided into four main parts. The first three draw evidence for bird evolution from the fossil record, from the embryos of birds and other animals, and from living birds, respectively. The fourth and most groundbreaking section examines several groups of extinct animals in order to determine the probable root of modern birds.[1]

Part I: Some Fossil Birds

In the first section, Heilmann examines in exquisite detail the fossil remains of several extinct birds, including Hesperornis, Ichthyornis, Archaeopteryx, and "Archaeornis", the name used commonly at the time for the Berlin specimen, which was then thought to represent a separate genus. Throughout this section are many finely detailed and labeled renderings of different parts of the skeletal anatomy of these birds, as well as other groups of extinct reptiles and some modern birds. Heilmann's attention to detail in his artwork is inspired at least in part by his dissatisfaction with anatomical renderings of these animals in scholarly works of the time, which he deemed as "unsatisfactory" and "containing misleading errors."[12]

 
Heilmann's comparative illustration of the skeletal anatomy of Archaeopteryx and a modern pigeon

Early in this section Heilmann embarks on a thorough description of the Berlin Archaeopteryx specimen, which includes detailed comparisons to specific aspects of modern birds. Following a comparison of its skull to that of Aetosaurus, Euparkeria, and a modern pigeon, Heilmann states that he disagrees with the scientific consensus of the time that the skull of Archaeopteryx is that of a true bird. He writes that the reptilian features of the skull are much more pronounced, citing features of the teeth, fenestrae, and jaw structure as being undeniably un-birdlike.[13] Heilmann found that much of Archaeopteryx's anatomy, in fact, was decidedly reptilian and generally opposed to that of modern birds. This included the pelvis, which lacks a pectineal process and has a very different os sacrum from modern birds,[14] as well as the carpus, which Heilmann wrote exhibited the same phenomena found in the wrists of modern reptiles.[15] Its tail was also noted by Heilmann as being extremely reptilian and resembling nothing known of modern birds.[16]

He goes on to state that other features of Archaeopteryx, however, are remarkably birdlike and bear little resemblance to their reptilian analogues. The hand of Archaeopteryx is observed as being one of its most remarkable features, having what Heilmann calls a "reptilian basis" which has come to support primary feathers. He compares this to a primitive five-digit reptile hand, noting the obvious differences, before outlining the striking similarity of the hand to that of the theropod Ornitholestes.[17] Here Heilmann goes into considerable detail about the wing arrangement of Archaeopteryx, drawing from his observation of the Berlin specimen.[18] The latter part of this section deals with analyzing the skeletal anatomy of the fossil birds Hesperornis and Ichthyornis, but Heilmann ultimately decides that they are of no importance to his investigations.[19] He concludes the section by stating that Archaeopteryx "may be characterized as a reptile in the disguise of a bird", and states that his studies must turn from the skeleton to the soft tissue in order to reach a final conclusion.[20]

Part II: Embryonic Stages of Reptiles and Birds

 
Heilmann's comparative illustrations of the embryos and adults of several extant birds and reptiles

In this section, Heilmann draws evidence from his observations of germ cells, impregnation, cell division, ontogeny and comparative embryology about the probable ancestry of birds. A fair amount of detail is devoted early in the section to comparative studies between the germ cells of many different species of extant bird and reptile (and several mammals), including some comments on the corkscrew locomotion observed in the spermatozoa cells of several bird and reptile species, but no mammals.[21] He then goes on to offer a similar comparison between the egg cells of birds and reptiles, and finds considerably more similarity there than either has to the egg cell of a mammal.[22] Following an analysis of the germ cells, he moves onward through the developmental cycle by next examining the process of fertilization and subsequent cleavage of the zygote. He presents here several figures and illustrations of the cleavage of the blastoderm in reptiles and birds.

He examines in detail the expression of evolutionary stages in the development of embryos, tracing from the process of cell division to the development of specific anatomical features. He finds a striking resemblance between the embryonic development of reptiles and birds, including details of the skeletal anatomy (with special attention to the hands and feet) and various organs. He notes that bird and reptile embryos develop visceral arches, hinting at their aquatic ancestry. Of more interest to his goal, Heilmann writes in a similar vein that the embryos of certain birds clearly show a three-clawed finger structure, at least one of which (the hoatzin) retains actual claws after hatching. He mentions other anatomical features of bird embryos that hint at their reptilian ancestry as well, such as the embryonic splitting of the pygostyle into distinct separate vertebrae.[23]

Part III: Some Anatomical and Biological Data

Part III deals with anatomical comparisons between extant birds and reptiles, wherein Heilmann finds traces of the relationship between them in examples of fenestrae, claws, the brain, sense organs, sexual organs, and other features. He concludes that many of these features are "nearly identical" between reptiles and birds. He cites other features as being clearly derived from one another, such as the avian feather essentially being a cylindrical, fringed scale.[24]

 
Heilmann's comparative illustrations of the feet and scale shields of various extant birds and reptiles

He begins the section with an analysis of the temporal opening found in the skull of many extant birds. After a thorough comparison, he rejects the notion, which was common at the time, that this temporal opening was homologous with the supratemporal fenestra in reptiles. Instead, he concludes that it is a recent feature.[25] Next he makes some observations on the wing structure of modern nestling birds. He finds that some species of extant birds have claws on their first and second fingers when very young, and some, like the hoatzin, will even use these temporary claws to climb about, including in the branches of trees. He also discovers that far more nestlings have a nonfunctional claw on the first digit, and some adult birds do as well.[26]

Organs are next examined in detail, with various comparisons drawn between reptiles and birds. He starts with the brain, analyzing in detail the cerebral and cerebellar structure of several animals including birds, crocodilians, and mammals. Though noticeably more developed, Heilmann finds that the general structure of the brain is very similar in birds and reptiles, and he describes the brain of modern birds as "further evolution of the peculiar characters already found in the reptile."[27] He also finds the eyes of birds and reptiles to be remarkably similar, especially the development of the lens, as well as the ear, which reveals a much wider gap between the Sauropsida and mammals than with birds.[28] He describes the sexual organs of birds and reptiles to likewise be structurally similar, and finds that while most species of male bird have lost the penis to reduce weight, those that retain it bear remarkable similarities to extant reptiles. He writes that secondary sexual characteristics are also similar between birds and reptiles, with both groups frequently utilizing bright colors and structures for display.[29] He concludes the section by offering a few more comparisons of structures and organs, including the lungs, ambiens muscle, and beak and scale sheaths. Taken together, Heilmann interprets these many similarities as further evidence for the close kinship of birds and reptiles.[30]

Part IV: The Proavian

In the final section Heilmann seeks to synthesize the information in the previous three sections to uncover the probable origins in a particular group of ancestors. In doing so he discusses the specific morphology of a hypothetical creature, which he refers to as "the proavian", that must have existed between modern birds and their reptilian ancestors. After making a bold assertion that birds are descended from reptiles, Heilmann cites Dollo's law of irreversibility as the primary reason why he believes birds cannot be descended from theropod dinosaurs, despite their many morphological similarities. Dollo's Law states that a feature or organ once lost by evolution cannot be regained. One consistently confounding issue Heilmann had encountered in his research into the bird-reptile link was that modern birds possess a wishbone and theropod dinosaurs, by his observations, did not. Since ancient reptilian fossils that predated dinosaurs clearly possessed a different sort of wishbone, Heilmann concluded that this feature could not have been lost and regained again over the course of evolution. Based on this law, he therefore rejected the possibility of a direct theropod ancestor of birds, though he acknowledged that theropods and birds must have shared a close relationship.[31]

 
Heilmann's reconstruction of his hypothetical "Proavis"

Throughout this section, Heilmann examines several groups of possible ancestors in addition to coelurosaurs, including pterosaurs, predentates, and pseudosuchians. Based on his rejection of theropods due to the wishbone issue as well as what Heilmann saw as striking morphological similarities between the skull of Archaeopteryx, Aetosaurus and Euparkeria, Heilmann concludes that a pseudosuchian origin of birds is the most probable. The final part of this section addresses the issue of the Proavian, which Heilmann illustrated speculatively both in skeleton in a natural setting. He constructed a hypothetical skull for this animal based on a mathematical combination of the skulls of Archaeopteryx, Euparkeria, Aetosaurus, and Ornithosuchus. He constructed its skeleton in a similar manner. In this section he also compares his own Proavis to a similar sort of Proavis constructed by the American naturalist William Beebe. Heilmann examines and rejects Beebe's own Proavis (named "Tetrapteryx" by Beebe) based on his analysis of Beebe's documentation of pelvic wings in bird embryos, which Heilmann found little evidence for.[32]

He concludes this final section by fleshing out his Proavis and summarizing his view of bird origins, in which birds would have departed from reptiles at the pseudosuchians. From this branching point, birds and dinosaurs would have evolved along parallel evolutionary tracks for millions of years, as cousins rather than ancestors.[33] He imagines that these reptiles would have gradually assumed a bipedal gait, and transformed eventually from terrestrial runners to arboreal climbers, developing leaping capabilities ever increasing in length. Along the way, the ancestral reptilian scales would have become "frayed" and gradually developed into feathers, beginning along the forearm and tail and gradually spreading to the entire body. The need for this animal to be an adept climber would have catalyzed the lengthening of its phalanges, which would eventually become long and strong enough to support a wing. Powerful muscles would have developed to anchor these limbs, which would have reacted upon the breastbone. All of this together would have facilitated the origin of an accelerated metabolic rate, resulting in the warm-blooded state known of modern birds. This development would have occurred alongside of the enlargement of the brain, needed to coordinate and supervise these refined features. It is in this way, Heilmann concludes, the reptile has been changed into a bird.[34]

Legacy

In 1868, Thomas Huxley published On the animals which are most nearly intermediate between birds and reptiles, making a strong case for the bird-dinosaur ancestral link.[35][failed verification] Huxley's proposal that birds arose from dinosaurs – based primarily on his observation of the similarities between Archaeopteryx and Compsognathus – remained respectable and widespread in the paleontological community until the publication of The Origin of Birds.[36] Heilmann more than anyone else was responsible for a widespread rejection of the dinosaur-bird link.[37] His conclusions involved more than the mere rejection of a dinosaurian ancestry for birds, however: for instance, he favored the arboreal origin of avian flight, he allied birds firmly with reptiles instead of mammals, and he was responsible for finally putting an end to the idea that birds descended from pterosaurs.[38] Several aspects of his research have continued to be influential long after its publication.[39]

Wishbones and the dinosaur-bird link

The proposed thecodontian ancestry eventually fell out of favor, in part because the clade "thecodontia" is not monophyletic, meaning that it has no unique, diagnostic characteristics (and is largely considered an obsolete grouping today).[40] But the principal reason why Heilmann's hypothesis was proven incorrect lies in the issue of the clavicle. Heilmann came extremely close to linking theropods and birds to one another, even going so far as to write that "it would seem a rather obvious conclusion that it is amongst the Coelurosaurs that we are to look for the bird ancestor." However, he was prevented from doing so by the apparent lack of the clavicle in the predatory dinosaurs, which reflected his strict adherence to Dollo's Law: reptilian ancestors had possessed a clavicle, but had lost it at some point during their evolution to the dinosaurs. Therefore, in order for Heilmann to believe that bird ancestry lie in the dinosaurs, there would need to be proof of clavicles in dinosaurian clades.[38]

 
Original drawing of the 1924 Oviraptor specimen, including the misidentified wishbone

Most coincidentally, a small theropod dinosaur named Oviraptor philoceratops had been discovered while Heilmann was working on his book, and was described by Henry Fairfield Osborn in 1924. Figure 8 of Osborn's paper, redrawn from the fossil, shows what was later proven to be an oviraptorid wishbone between the animal's arms, interpreted by Osborn as the interclavicle ("Ic." in Figure 8).[41] Unfortunately, this important structure was misidentified.[42] If Heilmann had examined this paper as closely as he had much of his source material – or had travelled to New York to see the specimens in person – he may have reversed his conclusions entirely.[38]

As it was, Heilmann's conclusion was so persuasive that it forestalled further debate on the subject even in the face of additional conflicting evidence. In 1936, paleontologist Charles Lewis Camp described a new theropod from the Jurassic of North America, Segisaurus. Like Oviraptor, Segisaurus had an unmistakable clavicle,[43] but unlike Oviraptor, it was also plainly identified as being such in the paper that described it. Despite this, the implication of a wishbone-bearing dinosaur was blatantly ignored until much later, and for many years the state of dinosaur research stagnated,[38] possibly due to the effects of the Depression and World War II.[44]

The reinvigoration of interest in the dinosaur–bird link was largely due to the discoveries and research of paleontologist John Ostrom in the 1960s. In particular was his discovery and description of the well-preserved dromaeosaur dinosaur Deinonychus. Ostrom described Deinonychus as being extremely bird-like, with avian features such as a furcula, large sternal plates, horizontal posture, a birdlike spine, and ossified sternal ribs and uncinate processes. Ostrom's study of this animal had the effect of revolutionizing the way people thought about dinosaurs: as metabolically energetic, active predators.[45] Some years later, Ostrom also reanalyzed the fossils of Archaeopteryx, concluding that the animal was more reptilian than originally described by Heilmann, noting in particular the similarity of its feet to those of Deinonychus, as well as a host of other features.[46] In fact, so strong were the similarities that the hand of Archaeopteryx was later described as "a miniature version of Deinonychus's." These discoveries provided the basis for the revival of the dinosaur–ancestry hypothesis of bird origins.[33]

Models of flight evolution

Heilmann envisioned that birds evolved from ground–dwelling animals that became arboreal and capable of jumping between branches over time. Their descendants would eventually be able to glide as the length of leaps increased, leading to greater specialization and eventual flapping capabilities. This "from the trees down" hypothesis was originally proposed by Othniel C. Marsh in 1880. This general theory about the mode of the evolution of flight in birds has persisted to modern times, especially (but not exclusively) among opponents of a theropod origin of birds.[47] This includes paleontologists such as Alan Feduccia, who essentially agree with Heilmann's assertion that the ancestors of birds must have been arboreal.[48]

The origin of bird flight itself is still hotly debated. It is clear that feathers must have been a prerequisite for flight in birds (though flight may have not been a prerequisite for feathers). There has yet to be a consensus on whether flight involved from the ground up or the trees down, and Heilmann was largely responsible for popularizing the trees-down idea early on. The modern idea of the arboreal (or trees-down) hypothesis has changed little since Heilmann's time, and it states that bird flight would have originated by climbing birds gliding down from the tops of trees, making gliding a precursor to flapping or powered flight. As these early birds became more efficient gliders, they would have begun to extend their range and capability by developing more powerful flight. In this proposed mode of bird evolution, Heilmann's "Proavis" is strongly implicated, which would have probably been a climbing, perching, early-stage gliding quadruped. This hypothesis for the origin of bird flight has had many adherents, including Walter J. Bock and Alan Feduccia.[40]

Competing with the arboreal hypothesis is the idea that birds evolved from running bird ancestors, known as the cursorial (or ground up) hypothesis. This scenario may have involved ancient birds jumping or running along the ground and briefly becoming airborne, perhaps to avoid obstacles or catch insects. As these animals strove to overcome the force of gravity, powered flight may have appeared early on. They may also have used their ground speed to run up trees or other steep slopes, developing increasingly sophisticated flapping mechanism to assist with this. This model requires a highly cursorial and feathered ancestor. Proponents of the cursorial hypothesis cite the legs, feet and hands of Archaeopteryx as inheritance from a cursorial maniraptoran ancestor. This model has also had many adherents over the years, including John Ostrom and Jacques Gauthier.[40]

The arboreal hypothesis was popular in Heilmann's day, even prior to his research, as it had been advanced by Marsh. It fell out of favor following Ostrom's research in the 1960s and 1970s, which suggested that the ancestors of birds were fast–running bipedal animals, lending credence to the cursorial model. The focus shifted back to the arboreal model when several Chinese non–avian theropods from the Early Cretaceous were found in the early 2000s. These new finds, represented chiefly by Epidendrosaurus and Microraptor, have been described as possessing features that indicate an arboreal lifestyle; Microraptor even has flight feathers on its legs, which suggest it was a glider. While the arboreal hypothesis is still popular in modern times, there are several proponents of the cursorial model and no consensus has been established. Adherence to the arboreal model is shared both by paleontologists who accept the dinosaurian ancestry of birds, and by the minority who still believe birds to have evolved from a non-dinosaurian group of reptiles. Although the arboreal model was somewhat popular before Heilmann's research, his writings helped to advance and popularize it and the idea continues to have a hold.[49]

Beebe's leg-wings

 
Heilmann's illustrations, redrawn from Beebe's work, showing the hindlimbs of various nestlings and one reptile

In the fourth section of The Origin of Birds, Heilmann examines the Tetrapteryx hypothesis proposed by William Beebe in 1915. This hypothesis was based on observations of bird embryos and hatchlings, which Beebe found to possess a presumably atavistic fringe of flight feathers on their hindlimbs. His main evidence came from examination of incipient quill feathers on the thigh of a four-day-old white-winged dove. He theorized based on this embryological fringe and the recapitulation theory that birds had once passed through a "Tetrapteryx" stage in their distant evolution, which he represented as a hypothetical four-winged gliding animal.[50]

Heilmann, though excited about Beebe's idea, found little evidence for these leg-wings when studying the nestlings in the Zoological Museum collection in Copenhagen. He also examined the nestlings of more basal bird species, such as the ostrich and the emu, searching for a trace of leg-wings there, again without success. Even after studying the nestlings of birds closely related to Beebe's doves, including pigeons, he still found no trace of leg-wings. Instead he found on the nestlings' thighs "a series of permanent feathers, and no atavism. If it were a genuine relic from such a very remote past, it would make its appearance, like a glimpse, in the embryo or squab, quickly to vanish again." Heilmann went on to outline the morphological difficulties involved in such a leg-wing, indicating that it could hinder survival. In effect, Beebe's Tetrapteryx theory was completely disregarded by Heilmann, and this remained the consensus in ornithological literature until much later.[51] Despite this, Heilmann's Proavis illustrations sport a short border of feathers behind the thigh, which some authors have suggested was inspired by Beebe's Tetrapteryx idea.[52]

 
The fossil of Microraptor gui, found in 2003, clearly illustrating the existence of the leg–wings that Heilmann denied

Beebe was relatively undeterred by the scientific community's acceptance of Heilmann's rejection of his theory, as is evidenced by the fact that he was still writing about his Tetrapteryx hypothesis well into the 1940s.[53] His adherence to his theory was well-placed, as in 2003 a revolutionary discovery was made in the early Cretaceous Jiufotang Formation of Liaoning, China: Microraptor gui, the small, four-winged dromaeosaur that had led to renewed credence of the arboreal model for the origin of bird flight. This animal's most remarkable feature was the existence of long, pennaceous feathers on both its arms and legs, forming a set of four aerodynamic wings that its discoverers theorized were used for gliding.[54] This discovery had the immediate effect of resurrecting the idea that leg feathers may have had some bearing on the origin of flight in birds, building on the idea originally proposed by Beebe and rejected by Heilmann.[55]

Today, Beebe's 1915 description of his hypothetical four-winged bird ancestor is regarded as prescient, and there is no doubt that Microraptor looks startlingly similar to the almost-century old Tetrapteryx illustrations.[56] After its discovery, Microraptor had the effect of both reinvigorating the arboreal hypothesis as well as finally putting an end to the widespread acceptance of Heilmann's disregard for the Tetrapteryx theory.[57]

Footnotes

  1. ^ a b c d e f Chambers (2002) pp. 154–185.
  2. ^ a b Nieuwland (2004) pp. 1–11.
  3. ^ Shipman (1998) p. 110.
  4. ^ Weishampel, Dodson & Osmólska (2004) p. 220.
  5. ^ a b c d e f g h Ries (2007) pp. 1–19.
  6. ^ Alexander & Vogel (2004) p. 197.
  7. ^ Long (2008) pp. 3–4.
  8. ^ a b Ries (2010) pp. 69–91.
  9. ^ Salomonsen (1946) pp. 146–149.
  10. ^ Worldcat.org
  11. ^ Heilmann (1926)
  12. ^ Heilmann (1926) p. 3.
  13. ^ Heilmann (1926) pp. 5–9.
  14. ^ Heilmann (1926) pp. 15–21.
  15. ^ Heilmann (1926) pp. 22–23.
  16. ^ Heilmann (1926) p. 30.
  17. ^ Heilmann (1926) pp. 23–25.
  18. ^ Heilmann (1926) pp. 26–32.
  19. ^ Heilmann (1926) pp. 38–56.
  20. ^ Heilmann (1926) p. 57.
  21. ^ Heilmann (1926) pp. 61–63.
  22. ^ Heilmann (1926) pp. 64–65.
  23. ^ Heilmann (1926) pp. 61–94.
  24. ^ Heilmann (1926) pp. 97–132.
  25. ^ Heilmann (1926) pp. 97–100.
  26. ^ Heilmann (1926) pp. 100–105.
  27. ^ Heilmann (1926) pp. 105–109.
  28. ^ Heilmann (1926) pp. 110–114.
  29. ^ Heilmann (1926) pp. 115–125.
  30. ^ Heilmann (1926) p. 132.
  31. ^ Heilmann (1926) pp. 139.
  32. ^ Heilmann (1926) pp. 196–199.
  33. ^ a b Bakker (1986) pp. 306–318
  34. ^ Heilmann (1926) p. 202.
  35. ^ Huxley (1868) pp. 66–75
  36. ^ Paul (1988) p. 195.
  37. ^ Wilford (1985) pp. 186–187.
  38. ^ a b c d Paul (2002) pp. 9–10.
  39. ^ Feduccia (1999) p. 55.
  40. ^ a b c Fastovsky & Weishampel (2005) p. 324.
  41. ^ Osborn (1924) pp. 1–12.
  42. ^ Paul (2003) p. 191.
  43. ^ Camp (1936) pp. 39–56.
  44. ^ Paul (2010) p. 10.
  45. ^ Ostrom (1969) pp. 1–165.
  46. ^ Ostrom (1976) pp. 91–182.
  47. ^ Chiappe (2007) pp. 33–34.
  48. ^ Tudge (2010) p. 58.
  49. ^ Martin (2006) p. 470.
  50. ^ Beebe (1915) pp. 38–52.
  51. ^ Welker (1975) pp. 168–169.
  52. ^ Christiansen (2003) pp. 99–118.
  53. ^ Beebe (1942)
  54. ^ Xu et al (2003) pp. 335–340.
  55. ^ Fucheng et al (2006) pp. 395–404.
  56. ^ Prum (2003) pp. 323–324.
  57. ^ Chinsamy-Turan (2005) p. 135.

See also

References

  • Alexander, D.E. & Vogel, S. (2004). Nature's Flyers: Birds, Insects, and the Biomechanics of Flight. The Johns Hopkins University Press. ISBN 0-8018-6756-8.
  • Bakker, Robert T. (1986). The Dinosaur Heresies. William Morrow and Company. ISBN 0-688-04287-2.
  • Beebe, C. W. A. (1942). "Evolution of a Lizard into a Bird". Proceedings of the Eighth American Scientific Congress. 3 (296).
  • Beebe, C. W. A. (1915). "Tetrapteryx stage in the ancestry of birds". Zoologica. 2: 39–52.
  • Camp, C. (1936). "A new type of small bipedal dinosaur from the Navajo sandstone of Arizona" (PDF). Bull. Dept. Geol. Sci. (University of California). 24.
  • Chambers, Paul (2002). Bones of Contention: The Archaeopteryx Scandals. John Murray Ltd. ISBN 0-7195-6054-3.
  • Chiappe, Luis M. (2007). Glorified Dinosaurs: the origin and early evolution of birds. John Wiley. ISBN 978-0-471-24723-4.
  • Chinsamy-Turan, Anusuyu (2005). The Microstructure of Dinosaur Bone: Deciphering Biology with Fine-Scale Techniques. The Johns Hopkins University Press.
  • Christiansen, Per & Bonde, Niels (2003). "Body plumage in Archaeopteryx: a review, and new evidence from the Berlin specimen" (PDF). Comptes Rendus Palevol. 3 (2): 99–118. doi:10.1016/j.crpv.2003.12.001.
  • Fastovsky, David E. & David B. Weishampel (2005). The Evolution and Extinction of the Dinosaurs, 2nd edition. Cambridge University Press.
  • Feduccia, Alan (1999). The Origin and Evolution of Birds. Yale University Press. ISBN 978-0300078619.
  • Fucheng, Zhang, Zhonghe, Z. and Dyke, G. (2006). "Feathers and 'feather-like' integumentary structures in Liaoning birds and dinosaurs". Geological Journal. 41 (3–4): 395–404. doi:10.1002/gj.1057. S2CID 128577038.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  • Heilmann, Gerhard (1926). The Origin of Birds. New York: Dover Publications, Inc. 1972 edition. ISBN 0-486-22784-7.
  • Huxley, T.H. (1868). "On the animals which are most nearly intermediate between birds and reptiles". Annals and Magazine of Natural History. 4th. 2.
  • Long, John (2008). Feathered Dinosaurs: The Origin of Birds. New York: Oxford University Press. ISBN 978-0-19-537266-3.
  • Martin, Anthony J. (2006). Introduction to the Study of Dinosaurs (2 ed.). Blackwell Publishing. ISBN 0-632-04436-5.
  • Nieuwland, I.J.J. (2004). "Gerhard Heilmann and the artist's eye in science, 1912–1927". PalArch's Journal of Vertebrate Paleontology. 3 (2). ISSN 1567-2158.
  • OCLC Online Computer Library Center. WorldCat: all editions for 'The Origin of Birds'. OCLC 702765.
  • Osborn, H.F. (1924). "Three new Theropoda, Protoceratops zone, central Mongolia". American Museum Novitates (144): 1–12.
  • Ostrom, J. H. (1976). "Archaeopteryx and the origin of birds" (PDF). Biological Journal of the Linnean Society. 8 (2): 91–182. doi:10.1111/j.1095-8312.1976.tb00244.x.
  • Ostrom, J. H. (1969). "Osteology of Deinonychus antirrhopus, an unusual theropod from the Lower Cretaceous of Montana". Peabody Museum of Natural History Bulletin. 30.
  • Paul, Gregory S. (2010). The Princeton Field Guide to Dinosaurs. Princeton University Press.
  • Paul, Gregory S. (Editor) (2003). The Scientific American Book of Dinosaurs. Macmillan. ISBN 0-312-26226-4. {{cite book}}: |author= has generic name (help)
  • Paul, Gregory S (2002). Dinosaurs of the Air: the evolution and loss of flight in dinosaurs and birds. CJHU Press. ISBN 0-8018-6763-0.
  • Paul, Gregory S (1988). Predatory Dinosaurs of the World. Simon & Schuster. ISBN 0-671-61946-2.
  • Prum, R. O. (2003). "Dinosaurs Take to the Air". Nature. 421 (6921): 323–324. Bibcode:2003Natur.421..323P. doi:10.1038/421323a. PMID 12540882. S2CID 31214197.
  • Ries, C.J. (2010). "Angels, Demons, Birds and Dinosaurs: Creativity, Meaning and Truth in the Life, Art and Science of Gerhard Heilmann (1859–1946)". Interdisciplinary Science Reviews. 35 (1): 69–91. Bibcode:2010ISRv...35...69R. doi:10.1179/030801810X12628670445509. S2CID 144697123.
  • Ries, C.J. (2007). "Creating the Proavis: bird origins in the art and science of Gerhard Heilmann 1913–1926". Archives of Natural History. 34 (1): 1–19. doi:10.3366/anh.2007.34.1.1.
  • Salomonsen, F. (1946). "Gerhard Heilman, 26 Juni 1859 - 26 Marts 1946". Dansk Ornithologisk Forenings Tidsskrift. 40: 146–149.
  • Shipman, Pat (1998). Taking Wing: Archaeopteryx and the Evolution of Bird Flight. Simon and Schuster. ISBN 0-684-81131-6.
  • Tudge, Colin (2010). The Bird: A Natural History of Who Birds Are, Where They Came From, and How They Live. Reprint edition. Three Rivers Press.
  • Weishampel, David B.; Peter Dodson; Halszka Osmólska (2004). The Dinosauria (2 ed.). University of California Press. ISBN 0-520-06726-6.
  • Welker, R. H. (1975). Natural Man: The Life of William Beebe. Indiana University Press. ISBN 0-253-33975-8.
  • Wilford, John Noble (1985). The Riddle of the Dinosaur. Alfred A. Knopf. ISBN 0-394-74392-X.
  • Xu, X., Zhou, Z., Wang, X., Kuang, X., Zhang, F. and Du, X (2003). "Four-winged dinosaurs from China" (PDF). Nature. 421 (6921): 335–340. Bibcode:2003Natur.421..335X. doi:10.1038/nature01342. PMID 12540892. S2CID 1160118.{{cite journal}}: CS1 maint: multiple names: authors list (link)

External links

  • Full text of The Origin of Birds at HathiTrust Digital Library
  • The original Danish articles in Dansk Ornithologisk Forenings Tidsskrift 1 2 3 4 5

March 03, 2023
origin, birds, this, article, about, book, biological, concept, origin, birds, early, synopsis, bird, evolution, written, 1926, gerhard, heilmann, danish, artist, amateur, zoologist, book, born, from, series, articles, published, between, 1913, 1916, danish, a. This article is about the book For the biological concept see Origin of birds The Origin of Birds is an early synopsis of bird evolution written in 1926 by Gerhard Heilmann a Danish artist and amateur zoologist The book was born from a series of articles published between 1913 and 1916 in Danish and although republished as a book it received mainly criticism from established scientists and got little attention within Denmark The English edition of 1926 however became highly influential at the time due to the breadth of evidence synthesized as well as the artwork used to support its arguments 2 It was considered the last word on the subject of bird evolution for several decades after its publication 3 The Origin of BirdsCover illustration of the 1972 Dover reprint edition of The Origin of Birds based on a painting by Gerhard HeilmannAuthorGerhard HeilmannCountryEngland United StatesLanguageEnglishSubjectOrnithologyEvolutionary biologyPaleontologyGenrescience biologyPublisherEngland H F amp G WitherbyU S D Appleton amp CompanyPublication date1926Media typePrint hardback Pages209ISBN0 486 22784 7Followed byUnivers og traditionen 1940 1 Through the course of the research represented in the book Heilmann considers and eventually rejects the possibility of all living and several extinct groups of reptiles as potential ancestors for modern birds including crocodilians pterosaurs and several groups of dinosaurs 4 Despite his acknowledgment that some of the smaller Jurassic theropods had many similarities to Archaeopteryx and modern birds he determined that they were unlikely to be direct bird ancestors and that they were instead closely related offshoots 5 and concluded that the similarities were a result of convergent evolution rather than direct ancestry 6 Based essentially on a process of elimination Heilmann arrives at the conclusion that birds must be descended from thecodonts a group of archosaurs that lived during the Permian and Triassic periods 1 Although this conclusion was later shown to be inaccurate The Origin of Birds was regarded as a masterful piece of scholarship at the time and set the international agenda for research in bird evolution for nearly half a century and much of its research remains of interest 5 Contents 1 Background 2 Publication 2 1 Editions 3 Book outline 3 1 Part I Some Fossil Birds 3 2 Part II Embryonic Stages of Reptiles and Birds 3 3 Part III Some Anatomical and Biological Data 3 4 Part IV The Proavian 4 Legacy 4 1 Wishbones and the dinosaur bird link 4 2 Models of flight evolution 4 3 Beebe s leg wings 5 Footnotes 6 See also 7 References 8 External linksBackground Edit The first Archaeopteryx specimen When Heilmann began his research in the early 1900s the early bird Archaeopteryx was only known from three fossils found in the limestone quarries of Solnhofen near Eichstatt Germany The three fossils consisted of two nearly complete skeletons found in 1861 and 1877 and a single feather from 1860 They had been discovered just a few decades after the discovery of the dinosaurs and as some dinosaurs appeared somewhat birdlike Archaeopteryx was regarded as a possible missing link between reptiles and birds by many paleontologists at the time 5 The similarities between Archaeopteryx known dinosaurs and extant birds were examined and emphasized with Thomas Huxley championing the idea that Archaeopteryx as well as modern birds had more in common with theropod dinosaurs than any other group of animals This was at the time in opposition to the view of anatomist Sir Richard Owen of the British Museum who viewed Archaeopteryx as no different taxonomically from modern birds Huxley s work was controversial and this climate of uncertainty and contention about bird origins persisted well into the beginning of the 20th century 7 While the dinosaur bird connection or lack thereof was being pursued in paleontology the problem of the evolution of flight was under scrutiny as well It was observed that a number of animals with moderate flying or gliding ability such as bats flying lizards and flying squirrels have arboreal lifestyles This led to the idea that the ancestors of birds must have gradually acquired the ability to fly from leaping among branches in the tops of trees The Hungarian paleontologist Franz Nopcsa proposed an alternate hypothesis in 1907 arguing that the ancestors of birds were fast running bipedal animals related to theropod dinosaurs When Heilmann came onto the paleontology scene these two sets of conflicting theories provided the framework for his research and eventual conclusions 5 Publication Edit Self portrait of Gerhard Heilmann from 1912 Between 1913 and 1916 Gerhard Heilmann published a series of articles in the journal of the Danish Ornithological Society all heavily illustrated and dealing with the question of the origin of birds 5 He first proposed the idea of a popular treatise on bird evolution in 1912 to Otto Helms the editor of the journal of the Danish Ornithological Society Helms supported the idea but recommended that Heilmann first seek professional advice on the topic 8 Despite the lack of formal training in zoology Heilmann succeeded in amassing his research with the help of several others including the expert in prehistoric animals at the Zoological Museum in Copenhagen Adolf Herluf Winge and the biologist D Arcy Wentworth Thompson of the University of Dundee Winge though initially showing interest in Heilmann s work later proved to be a source of frustration by refusing to engage Heilmann in depth on various scientific queries Heilmann eventually broke off contact expressing some bitterness at the apparent change of heart which Heilmann later ascribed to Winge s belief in Lamarckism 5 Heilmann s original articles were publicly ignored by Danish zoologists but caused considerable unrest behind the scenes Danish zoologist R H Stamm for example mocked Heilmann in private letters to Helms shortly after the publication of his first article Other Danish zoologists openly expressed their disdain for Heilmann s work as well including the professors of zoology in Copenhagen University J E V Boas and Hector Jungersen Despite this Helms continued to steadfastly support Heilmann and his ideas which eventually began to gain attention from abroad In April 1913 the American expert in fossil birds R W Shufeldt came across Heilmann s first article by chance Shufeldt who was married to a Norwegian could understand some Danish and was able to interpret Heilmann s work and initiated contact with him shortly thereafter This opened up the opportunity for international correspondence with distinguished paleontologists for Heilmann which was instrumental to the recognition of his work outside of Denmark 5 Heilmann s articles were later collected and published as a book in Danish in 1916 with the title as in his series Vor Nuvaerende Viden om Fuglenes Afstamming our present knowledge about the origin of birds 9 This met the same lack of interest and is thought to have been a result of publishing in Danish as this made it inaccessible to many scientists working in the U S and much of Europe 1 The field of paleontology at the time was dominated by American and English scientists and the discipline in continental Europe was dominated by Germany and to a lesser degree France 2 Consequently and at the urging of Shufeldt Heilmann devoted much of the next few years attempting to find an English language publisher willing to undertake a translation of his work None of the larger publishers he approached were willing to do so unless Heilmann himself was prepared to finance it which he was unable to do 1 In the meantime Heilmann took the opportunity to revise and improve his manuscript which included information he acquired from examining the Berlin specimen of Archaeopteryx for the first time in 1923 at the invitation of Josef Felix Pompeckj a professor at the Natural History Museum in Berlin Examining this important specimen in person allowed Heilmann to add some additional details and revisions to his understanding of the hip the skull and the flight feathers 5 With the help of the English paleontologist Arthur Smith Woodward of the British Museum he finally met success in finding a small London publisher willing to produce an English version of his manuscript in 1926 1 Editions Edit While most of the original material was published in the journal of the Danish Ornithological Society between the years of 1913 and 1916 the first English version of the book was published in London in 1926 by H F amp G Witherby It was published in the United States the following year by D Appleton amp Company The book was reprinted in 1972 by Dover Publications Inc 10 with the only change being the grayscale reproduction of several illustrations originally published in color 11 The English and Danish editions differed in several significant ways The English edition was somewhat shorter and more concise and included newer information that Heilmann had acquired by studying the actual fossils of Archaeopteryx in Berlin as well as from foreign scientists who sent him photographs and plaster casts It also contained considerably less harsh language towards Boas and others with whom he disagreed Curiously the English edition did not contain the transformational sequences inspired by D Arcy Thompson though Heilmann still briefly acknowledged the use of his methods in reconstructing his Proavis 8 Book outline EditHeilmann s book was divided into four main parts The first three draw evidence for bird evolution from the fossil record from the embryos of birds and other animals and from living birds respectively The fourth and most groundbreaking section examines several groups of extinct animals in order to determine the probable root of modern birds 1 Part I Some Fossil Birds Edit In the first section Heilmann examines in exquisite detail the fossil remains of several extinct birds including Hesperornis Ichthyornis Archaeopteryx and Archaeornis the name used commonly at the time for the Berlin specimen which was then thought to represent a separate genus Throughout this section are many finely detailed and labeled renderings of different parts of the skeletal anatomy of these birds as well as other groups of extinct reptiles and some modern birds Heilmann s attention to detail in his artwork is inspired at least in part by his dissatisfaction with anatomical renderings of these animals in scholarly works of the time which he deemed as unsatisfactory and containing misleading errors 12 Heilmann s comparative illustration of the skeletal anatomy of Archaeopteryx and a modern pigeon Early in this section Heilmann embarks on a thorough description of the Berlin Archaeopteryx specimen which includes detailed comparisons to specific aspects of modern birds Following a comparison of its skull to that of Aetosaurus Euparkeria and a modern pigeon Heilmann states that he disagrees with the scientific consensus of the time that the skull of Archaeopteryx is that of a true bird He writes that the reptilian features of the skull are much more pronounced citing features of the teeth fenestrae and jaw structure as being undeniably un birdlike 13 Heilmann found that much of Archaeopteryx s anatomy in fact was decidedly reptilian and generally opposed to that of modern birds This included the pelvis which lacks a pectineal process and has a very different os sacrum from modern birds 14 as well as the carpus which Heilmann wrote exhibited the same phenomena found in the wrists of modern reptiles 15 Its tail was also noted by Heilmann as being extremely reptilian and resembling nothing known of modern birds 16 He goes on to state that other features of Archaeopteryx however are remarkably birdlike and bear little resemblance to their reptilian analogues The hand of Archaeopteryx is observed as being one of its most remarkable features having what Heilmann calls a reptilian basis which has come to support primary feathers He compares this to a primitive five digit reptile hand noting the obvious differences before outlining the striking similarity of the hand to that of the theropod Ornitholestes 17 Here Heilmann goes into considerable detail about the wing arrangement of Archaeopteryx drawing from his observation of the Berlin specimen 18 The latter part of this section deals with analyzing the skeletal anatomy of the fossil birds Hesperornis and Ichthyornis but Heilmann ultimately decides that they are of no importance to his investigations 19 He concludes the section by stating that Archaeopteryx may be characterized as a reptile in the disguise of a bird and states that his studies must turn from the skeleton to the soft tissue in order to reach a final conclusion 20 Part II Embryonic Stages of Reptiles and Birds Edit Heilmann s comparative illustrations of the embryos and adults of several extant birds and reptiles In this section Heilmann draws evidence from his observations of germ cells impregnation cell division ontogeny and comparative embryology about the probable ancestry of birds A fair amount of detail is devoted early in the section to comparative studies between the germ cells of many different species of extant bird and reptile and several mammals including some comments on the corkscrew locomotion observed in the spermatozoa cells of several bird and reptile species but no mammals 21 He then goes on to offer a similar comparison between the egg cells of birds and reptiles and finds considerably more similarity there than either has to the egg cell of a mammal 22 Following an analysis of the germ cells he moves onward through the developmental cycle by next examining the process of fertilization and subsequent cleavage of the zygote He presents here several figures and illustrations of the cleavage of the blastoderm in reptiles and birds He examines in detail the expression of evolutionary stages in the development of embryos tracing from the process of cell division to the development of specific anatomical features He finds a striking resemblance between the embryonic development of reptiles and birds including details of the skeletal anatomy with special attention to the hands and feet and various organs He notes that bird and reptile embryos develop visceral arches hinting at their aquatic ancestry Of more interest to his goal Heilmann writes in a similar vein that the embryos of certain birds clearly show a three clawed finger structure at least one of which the hoatzin retains actual claws after hatching He mentions other anatomical features of bird embryos that hint at their reptilian ancestry as well such as the embryonic splitting of the pygostyle into distinct separate vertebrae 23 Part III Some Anatomical and Biological Data Edit Part III deals with anatomical comparisons between extant birds and reptiles wherein Heilmann finds traces of the relationship between them in examples of fenestrae claws the brain sense organs sexual organs and other features He concludes that many of these features are nearly identical between reptiles and birds He cites other features as being clearly derived from one another such as the avian feather essentially being a cylindrical fringed scale 24 Heilmann s comparative illustrations of the feet and scale shields of various extant birds and reptiles He begins the section with an analysis of the temporal opening found in the skull of many extant birds After a thorough comparison he rejects the notion which was common at the time that this temporal opening was homologous with the supratemporal fenestra in reptiles Instead he concludes that it is a recent feature 25 Next he makes some observations on the wing structure of modern nestling birds He finds that some species of extant birds have claws on their first and second fingers when very young and some like the hoatzin will even use these temporary claws to climb about including in the branches of trees He also discovers that far more nestlings have a nonfunctional claw on the first digit and some adult birds do as well 26 Organs are next examined in detail with various comparisons drawn between reptiles and birds He starts with the brain analyzing in detail the cerebral and cerebellar structure of several animals including birds crocodilians and mammals Though noticeably more developed Heilmann finds that the general structure of the brain is very similar in birds and reptiles and he describes the brain of modern birds as further evolution of the peculiar characters already found in the reptile 27 He also finds the eyes of birds and reptiles to be remarkably similar especially the development of the lens as well as the ear which reveals a much wider gap between the Sauropsida and mammals than with birds 28 He describes the sexual organs of birds and reptiles to likewise be structurally similar and finds that while most species of male bird have lost the penis to reduce weight those that retain it bear remarkable similarities to extant reptiles He writes that secondary sexual characteristics are also similar between birds and reptiles with both groups frequently utilizing bright colors and structures for display 29 He concludes the section by offering a few more comparisons of structures and organs including the lungs ambiens muscle and beak and scale sheaths Taken together Heilmann interprets these many similarities as further evidence for the close kinship of birds and reptiles 30 Part IV The Proavian Edit In the final section Heilmann seeks to synthesize the information in the previous three sections to uncover the probable origins in a particular group of ancestors In doing so he discusses the specific morphology of a hypothetical creature which he refers to as the proavian that must have existed between modern birds and their reptilian ancestors After making a bold assertion that birds are descended from reptiles Heilmann cites Dollo s law of irreversibility as the primary reason why he believes birds cannot be descended from theropod dinosaurs despite their many morphological similarities Dollo s Law states that a feature or organ once lost by evolution cannot be regained One consistently confounding issue Heilmann had encountered in his research into the bird reptile link was that modern birds possess a wishbone and theropod dinosaurs by his observations did not Since ancient reptilian fossils that predated dinosaurs clearly possessed a different sort of wishbone Heilmann concluded that this feature could not have been lost and regained again over the course of evolution Based on this law he therefore rejected the possibility of a direct theropod ancestor of birds though he acknowledged that theropods and birds must have shared a close relationship 31 Heilmann s reconstruction of his hypothetical Proavis Throughout this section Heilmann examines several groups of possible ancestors in addition to coelurosaurs including pterosaurs predentates and pseudosuchians Based on his rejection of theropods due to the wishbone issue as well as what Heilmann saw as striking morphological similarities between the skull of Archaeopteryx Aetosaurus and Euparkeria Heilmann concludes that a pseudosuchian origin of birds is the most probable The final part of this section addresses the issue of the Proavian which Heilmann illustrated speculatively both in skeleton in a natural setting He constructed a hypothetical skull for this animal based on a mathematical combination of the skulls of Archaeopteryx Euparkeria Aetosaurus and Ornithosuchus He constructed its skeleton in a similar manner In this section he also compares his own Proavis to a similar sort of Proavis constructed by the American naturalist William Beebe Heilmann examines and rejects Beebe s own Proavis named Tetrapteryx by Beebe based on his analysis of Beebe s documentation of pelvic wings in bird embryos which Heilmann found little evidence for 32 He concludes this final section by fleshing out his Proavis and summarizing his view of bird origins in which birds would have departed from reptiles at the pseudosuchians From this branching point birds and dinosaurs would have evolved along parallel evolutionary tracks for millions of years as cousins rather than ancestors 33 He imagines that these reptiles would have gradually assumed a bipedal gait and transformed eventually from terrestrial runners to arboreal climbers developing leaping capabilities ever increasing in length Along the way the ancestral reptilian scales would have become frayed and gradually developed into feathers beginning along the forearm and tail and gradually spreading to the entire body The need for this animal to be an adept climber would have catalyzed the lengthening of its phalanges which would eventually become long and strong enough to support a wing Powerful muscles would have developed to anchor these limbs which would have reacted upon the breastbone All of this together would have facilitated the origin of an accelerated metabolic rate resulting in the warm blooded state known of modern birds This development would have occurred alongside of the enlargement of the brain needed to coordinate and supervise these refined features It is in this way Heilmann concludes the reptile has been changed into a bird 34 Legacy EditIn 1868 Thomas Huxley published On the animals which are most nearly intermediate between birds and reptiles making a strong case for the bird dinosaur ancestral link 35 failed verification Huxley s proposal that birds arose from dinosaurs based primarily on his observation of the similarities between Archaeopteryx and Compsognathus remained respectable and widespread in the paleontological community until the publication of The Origin of Birds 36 Heilmann more than anyone else was responsible for a widespread rejection of the dinosaur bird link 37 His conclusions involved more than the mere rejection of a dinosaurian ancestry for birds however for instance he favored the arboreal origin of avian flight he allied birds firmly with reptiles instead of mammals and he was responsible for finally putting an end to the idea that birds descended from pterosaurs 38 Several aspects of his research have continued to be influential long after its publication 39 Wishbones and the dinosaur bird link Edit The proposed thecodontian ancestry eventually fell out of favor in part because the clade thecodontia is not monophyletic meaning that it has no unique diagnostic characteristics and is largely considered an obsolete grouping today 40 But the principal reason why Heilmann s hypothesis was proven incorrect lies in the issue of the clavicle Heilmann came extremely close to linking theropods and birds to one another even going so far as to write that it would seem a rather obvious conclusion that it is amongst the Coelurosaurs that we are to look for the bird ancestor However he was prevented from doing so by the apparent lack of the clavicle in the predatory dinosaurs which reflected his strict adherence to Dollo s Law reptilian ancestors had possessed a clavicle but had lost it at some point during their evolution to the dinosaurs Therefore in order for Heilmann to believe that bird ancestry lie in the dinosaurs there would need to be proof of clavicles in dinosaurian clades 38 Original drawing of the 1924 Oviraptor specimen including the misidentified wishbone Most coincidentally a small theropod dinosaur named Oviraptor philoceratops had been discovered while Heilmann was working on his book and was described by Henry Fairfield Osborn in 1924 Figure 8 of Osborn s paper redrawn from the fossil shows what was later proven to be an oviraptorid wishbone between the animal s arms interpreted by Osborn as the interclavicle Ic in Figure 8 41 Unfortunately this important structure was misidentified 42 If Heilmann had examined this paper as closely as he had much of his source material or had travelled to New York to see the specimens in person he may have reversed his conclusions entirely 38 As it was Heilmann s conclusion was so persuasive that it forestalled further debate on the subject even in the face of additional conflicting evidence In 1936 paleontologist Charles Lewis Camp described a new theropod from the Jurassic of North America Segisaurus Like Oviraptor Segisaurus had an unmistakable clavicle 43 but unlike Oviraptor it was also plainly identified as being such in the paper that described it Despite this the implication of a wishbone bearing dinosaur was blatantly ignored until much later and for many years the state of dinosaur research stagnated 38 possibly due to the effects of the Depression and World War II 44 The reinvigoration of interest in the dinosaur bird link was largely due to the discoveries and research of paleontologist John Ostrom in the 1960s In particular was his discovery and description of the well preserved dromaeosaur dinosaur Deinonychus Ostrom described Deinonychus as being extremely bird like with avian features such as a furcula large sternal plates horizontal posture a birdlike spine and ossified sternal ribs and uncinate processes Ostrom s study of this animal had the effect of revolutionizing the way people thought about dinosaurs as metabolically energetic active predators 45 Some years later Ostrom also reanalyzed the fossils of Archaeopteryx concluding that the animal was more reptilian than originally described by Heilmann noting in particular the similarity of its feet to those of Deinonychus as well as a host of other features 46 In fact so strong were the similarities that the hand of Archaeopteryx was later described as a miniature version of Deinonychus s These discoveries provided the basis for the revival of the dinosaur ancestry hypothesis of bird origins 33 Models of flight evolution Edit Heilmann envisioned that birds evolved from ground dwelling animals that became arboreal and capable of jumping between branches over time Their descendants would eventually be able to glide as the length of leaps increased leading to greater specialization and eventual flapping capabilities This from the trees down hypothesis was originally proposed by Othniel C Marsh in 1880 This general theory about the mode of the evolution of flight in birds has persisted to modern times especially but not exclusively among opponents of a theropod origin of birds 47 This includes paleontologists such as Alan Feduccia who essentially agree with Heilmann s assertion that the ancestors of birds must have been arboreal 48 The origin of bird flight itself is still hotly debated It is clear that feathers must have been a prerequisite for flight in birds though flight may have not been a prerequisite for feathers There has yet to be a consensus on whether flight involved from the ground up or the trees down and Heilmann was largely responsible for popularizing the trees down idea early on The modern idea of the arboreal or trees down hypothesis has changed little since Heilmann s time and it states that bird flight would have originated by climbing birds gliding down from the tops of trees making gliding a precursor to flapping or powered flight As these early birds became more efficient gliders they would have begun to extend their range and capability by developing more powerful flight In this proposed mode of bird evolution Heilmann s Proavis is strongly implicated which would have probably been a climbing perching early stage gliding quadruped This hypothesis for the origin of bird flight has had many adherents including Walter J Bock and Alan Feduccia 40 Competing with the arboreal hypothesis is the idea that birds evolved from running bird ancestors known as the cursorial or ground up hypothesis This scenario may have involved ancient birds jumping or running along the ground and briefly becoming airborne perhaps to avoid obstacles or catch insects As these animals strove to overcome the force of gravity powered flight may have appeared early on They may also have used their ground speed to run up trees or other steep slopes developing increasingly sophisticated flapping mechanism to assist with this This model requires a highly cursorial and feathered ancestor Proponents of the cursorial hypothesis cite the legs feet and hands of Archaeopteryx as inheritance from a cursorial maniraptoran ancestor This model has also had many adherents over the years including John Ostrom and Jacques Gauthier 40 The arboreal hypothesis was popular in Heilmann s day even prior to his research as it had been advanced by Marsh It fell out of favor following Ostrom s research in the 1960s and 1970s which suggested that the ancestors of birds were fast running bipedal animals lending credence to the cursorial model The focus shifted back to the arboreal model when several Chinese non avian theropods from the Early Cretaceous were found in the early 2000s These new finds represented chiefly by Epidendrosaurus and Microraptor have been described as possessing features that indicate an arboreal lifestyle Microraptor even has flight feathers on its legs which suggest it was a glider While the arboreal hypothesis is still popular in modern times there are several proponents of the cursorial model and no consensus has been established Adherence to the arboreal model is shared both by paleontologists who accept the dinosaurian ancestry of birds and by the minority who still believe birds to have evolved from a non dinosaurian group of reptiles Although the arboreal model was somewhat popular before Heilmann s research his writings helped to advance and popularize it and the idea continues to have a hold 49 Beebe s leg wings Edit Heilmann s illustrations redrawn from Beebe s work showing the hindlimbs of various nestlings and one reptile In the fourth section of The Origin of Birds Heilmann examines the Tetrapteryx hypothesis proposed by William Beebe in 1915 This hypothesis was based on observations of bird embryos and hatchlings which Beebe found to possess a presumably atavistic fringe of flight feathers on their hindlimbs His main evidence came from examination of incipient quill feathers on the thigh of a four day old white winged dove He theorized based on this embryological fringe and the recapitulation theory that birds had once passed through a Tetrapteryx stage in their distant evolution which he represented as a hypothetical four winged gliding animal 50 Heilmann though excited about Beebe s idea found little evidence for these leg wings when studying the nestlings in the Zoological Museum collection in Copenhagen He also examined the nestlings of more basal bird species such as the ostrich and the emu searching for a trace of leg wings there again without success Even after studying the nestlings of birds closely related to Beebe s doves including pigeons he still found no trace of leg wings Instead he found on the nestlings thighs a series of permanent feathers and no atavism If it were a genuine relic from such a very remote past it would make its appearance like a glimpse in the embryo or squab quickly to vanish again Heilmann went on to outline the morphological difficulties involved in such a leg wing indicating that it could hinder survival In effect Beebe s Tetrapteryx theory was completely disregarded by Heilmann and this remained the consensus in ornithological literature until much later 51 Despite this Heilmann s Proavis illustrations sport a short border of feathers behind the thigh which some authors have suggested was inspired by Beebe s Tetrapteryx idea 52 The fossil of Microraptor gui found in 2003 clearly illustrating the existence of the leg wings that Heilmann denied Beebe was relatively undeterred by the scientific community s acceptance of Heilmann s rejection of his theory as is evidenced by the fact that he was still writing about his Tetrapteryx hypothesis well into the 1940s 53 His adherence to his theory was well placed as in 2003 a revolutionary discovery was made in the early Cretaceous Jiufotang Formation of Liaoning China Microraptor gui the small four winged dromaeosaur that had led to renewed credence of the arboreal model for the origin of bird flight This animal s most remarkable feature was the existence of long pennaceous feathers on both its arms and legs forming a set of four aerodynamic wings that its discoverers theorized were used for gliding 54 This discovery had the immediate effect of resurrecting the idea that leg feathers may have had some bearing on the origin of flight in birds building on the idea originally proposed by Beebe and rejected by Heilmann 55 Today Beebe s 1915 description of his hypothetical four winged bird ancestor is regarded as prescient and there is no doubt that Microraptor looks startlingly similar to the almost century old Tetrapteryx illustrations 56 After its discovery Microraptor had the effect of both reinvigorating the arboreal hypothesis as well as finally putting an end to the widespread acceptance of Heilmann s disregard for the Tetrapteryx theory 57 Footnotes Edit a b c d e f Chambers 2002 pp 154 185 a b Nieuwland 2004 pp 1 11 Shipman 1998 p 110 Weishampel Dodson amp Osmolska 2004 p 220 a b c d e f g h Ries 2007 pp 1 19 Alexander amp Vogel 2004 p 197 Long 2008 pp 3 4 a b Ries 2010 pp 69 91 Salomonsen 1946 pp 146 149 Worldcat org Heilmann 1926 Heilmann 1926 p 3 Heilmann 1926 pp 5 9 Heilmann 1926 pp 15 21 Heilmann 1926 pp 22 23 Heilmann 1926 p 30 Heilmann 1926 pp 23 25 Heilmann 1926 pp 26 32 Heilmann 1926 pp 38 56 Heilmann 1926 p 57 Heilmann 1926 pp 61 63 Heilmann 1926 pp 64 65 Heilmann 1926 pp 61 94 Heilmann 1926 pp 97 132 Heilmann 1926 pp 97 100 Heilmann 1926 pp 100 105 Heilmann 1926 pp 105 109 Heilmann 1926 pp 110 114 Heilmann 1926 pp 115 125 Heilmann 1926 p 132 Heilmann 1926 pp 139 Heilmann 1926 pp 196 199 a b Bakker 1986 pp 306 318 Heilmann 1926 p 202 Huxley 1868 pp 66 75 Paul 1988 p 195 Wilford 1985 pp 186 187 a b c d Paul 2002 pp 9 10 Feduccia 1999 p 55 a b c Fastovsky amp Weishampel 2005 p 324 Osborn 1924 pp 1 12 Paul 2003 p 191 Camp 1936 pp 39 56 Paul 2010 p 10 Ostrom 1969 pp 1 165 Ostrom 1976 pp 91 182 Chiappe 2007 pp 33 34 Tudge 2010 p 58 Martin 2006 p 470 Beebe 1915 pp 38 52 Welker 1975 pp 168 169 Christiansen 2003 pp 99 118 Beebe 1942 Xu et al 2003 pp 335 340 Fucheng et al 2006 pp 395 404 Prum 2003 pp 323 324 Chinsamy Turan 2005 p 135 See also EditProavisReferences EditAlexander D E amp Vogel S 2004 Nature s Flyers Birds Insects and the Biomechanics of Flight The Johns Hopkins University Press ISBN 0 8018 6756 8 Bakker Robert T 1986 The Dinosaur Heresies William Morrow and Company ISBN 0 688 04287 2 Beebe C W A 1942 Evolution of a Lizard into a Bird Proceedings of the Eighth American Scientific Congress 3 296 Beebe C W A 1915 Tetrapteryx stage in the ancestry of birds Zoologica 2 39 52 Camp C 1936 A new type of small bipedal dinosaur from the Navajo sandstone of Arizona PDF Bull Dept Geol Sci University of California 24 Chambers Paul 2002 Bones of Contention The Archaeopteryx Scandals John Murray Ltd ISBN 0 7195 6054 3 Chiappe Luis M 2007 Glorified Dinosaurs the origin and early evolution of birds John Wiley ISBN 978 0 471 24723 4 Chinsamy Turan Anusuyu 2005 The Microstructure of Dinosaur Bone Deciphering Biology with Fine Scale Techniques The Johns Hopkins University Press Christiansen Per amp Bonde Niels 2003 Body plumage in Archaeopteryx a review and new evidence from the Berlin specimen PDF Comptes Rendus Palevol 3 2 99 118 doi 10 1016 j crpv 2003 12 001 Fastovsky David E amp David B Weishampel 2005 The Evolution and Extinction of the Dinosaurs 2nd edition Cambridge University Press Feduccia Alan 1999 The Origin and Evolution of Birds Yale University Press ISBN 978 0300078619 Fucheng Zhang Zhonghe Z and Dyke G 2006 Feathers and feather like integumentary structures in Liaoning birds and dinosaurs Geological Journal 41 3 4 395 404 doi 10 1002 gj 1057 S2CID 128577038 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Heilmann Gerhard 1926 The Origin of Birds New York Dover Publications Inc 1972 edition ISBN 0 486 22784 7 Huxley T H 1868 On the animals which are most nearly intermediate between birds and reptiles Annals and Magazine of Natural History 4th 2 Long John 2008 Feathered Dinosaurs The Origin of Birds New York Oxford University Press ISBN 978 0 19 537266 3 Martin Anthony J 2006 Introduction to the Study of Dinosaurs 2 ed Blackwell Publishing ISBN 0 632 04436 5 Nieuwland I J J 2004 Gerhard Heilmann and the artist s eye in science 1912 1927 PalArch s Journal of Vertebrate Paleontology 3 2 ISSN 1567 2158 OCLC Online Computer Library Center WorldCat all editions for The Origin of Birds OCLC 702765 Osborn H F 1924 Three new Theropoda Protoceratops zone central Mongolia American Museum Novitates 144 1 12 Ostrom J H 1976 Archaeopteryx and the origin of birds PDF Biological Journal of the Linnean Society 8 2 91 182 doi 10 1111 j 1095 8312 1976 tb00244 x Ostrom J H 1969 Osteology of Deinonychus antirrhopus an unusual theropod from the Lower Cretaceous of Montana Peabody Museum of Natural History Bulletin 30 Paul Gregory S 2010 The Princeton Field Guide to Dinosaurs Princeton University Press Paul Gregory S Editor 2003 The Scientific American Book of Dinosaurs Macmillan ISBN 0 312 26226 4 a href Template Cite book html title Template Cite book cite book a author has generic name help Paul Gregory S 2002 Dinosaurs of the Air the evolution and loss of flight in dinosaurs and birds CJHU Press ISBN 0 8018 6763 0 Paul Gregory S 1988 Predatory Dinosaurs of the World Simon amp Schuster ISBN 0 671 61946 2 Prum R O 2003 Dinosaurs Take to the Air Nature 421 6921 323 324 Bibcode 2003Natur 421 323P doi 10 1038 421323a PMID 12540882 S2CID 31214197 Ries C J 2010 Angels Demons Birds and Dinosaurs Creativity Meaning and Truth in the Life Art and Science of Gerhard Heilmann 1859 1946 Interdisciplinary Science Reviews 35 1 69 91 Bibcode 2010ISRv 35 69R doi 10 1179 030801810X12628670445509 S2CID 144697123 Ries C J 2007 Creating the Proavis bird origins in the art and science of Gerhard Heilmann 1913 1926 Archives of Natural History 34 1 1 19 doi 10 3366 anh 2007 34 1 1 Salomonsen F 1946 Gerhard Heilman 26 Juni 1859 26 Marts 1946 Dansk Ornithologisk Forenings Tidsskrift 40 146 149 Shipman Pat 1998 Taking Wing Archaeopteryx and the Evolution of Bird Flight Simon and Schuster ISBN 0 684 81131 6 Tudge Colin 2010 The Bird A Natural History of Who Birds Are Where They Came From and How They Live Reprint edition Three Rivers Press Weishampel David B Peter Dodson Halszka Osmolska 2004 The Dinosauria 2 ed University of California Press ISBN 0 520 06726 6 Welker R H 1975 Natural Man The Life of William Beebe Indiana University Press ISBN 0 253 33975 8 Wilford John Noble 1985 The Riddle of the Dinosaur Alfred A Knopf ISBN 0 394 74392 X Xu X Zhou Z Wang X Kuang X Zhang F and Du X 2003 Four winged dinosaurs from China PDF Nature 421 6921 335 340 Bibcode 2003Natur 421 335X doi 10 1038 nature01342 PMID 12540892 S2CID 1160118 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link External links EditFull text of The Origin of Birds at HathiTrust Digital Library The original Danish articles in Dansk Ornithologisk Forenings Tidsskrift 1 2 3 4 5 Retrieved from https en wikipedia org w index php title The Origin of Birds amp oldid 1134341768, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.