A new raptorial dinosaur with exceptionally long feathering provides insights into dromaeosaurid flight performance

Hou, Gang; Chiappe, Luis M.; Shu'an, JI; Habib, Michael B.; Turner, Alan H.; Chinsamy, Anusuya; Li, Xueling; Han, Lizhuo

doi:10.1038/ncomms5382

Cited by 61 publications

(78 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Some theropods might have engaged their limbs simultaneously to flap‐run up slopes and/or jump and flap up to elevated surfaces (Earls ; Dial ), like extant developing birds. Other theropods—the “four‐winged dinosaurs”—might have used both sets of limbs to generate aerodynamic forces (Xu et al ; Alexander et al ; Han et al ). Either way, cooperative use of wings and legs may have been crucial to the early phases of flight evolution, with hindlimb support (1) compensating for incipient wings that produced only small amounts of aerodynamic force, (2) compensating for small pectoral muscles with limited power output, and/or (3) maintaining balance if the center of mass was posterior to the center of lift (due to longer tails and smaller flight apparatuses; Heers and Dial ).…”

Section: Discussionmentioning

confidence: 99%

Wings versus legs in the avianbauplan: Development and evolution of alternative locomotor strategies

Heers

Dial

2015

Evolution

View full text Add to dashboard Cite

Wings have long been regarded as a hallmark of evolutionary innovation, allowing insects, birds, and bats to radiate into aerial environments. For many groups, our intuitive and colloquial perspective is that wings function for aerial activities, and legs for terrestrial, in a relatively independent manner. However, insects and birds often engage their wings and legs cooperatively. In addition, the degree of autonomy between wings and legs may be constrained by tradeoffs, between allocating resources to wings versus legs during development, or between wing versus leg investment and performance (because legs must be carried as baggage by wings during flight and vice versa). Such tradeoffs would profoundly affect the development and evolution of locomotor strategies, and many related aspects of animal ecology. Here, we provide the first evaluation of wing versus leg investment, performance and relative use, in birds-both across species, and during ontogeny in three precocial species with different ecologies. Our results suggest that tradeoffs between wing and leg modules help shape ontogenetic and evolutionary trajectories, but can be offset by recruiting modules cooperatively. These findings offer a new paradigm for exploring locomotor strategies of flying organisms and their extinct precursors, and thereby elucidating some of the most spectacular diversity in animal history.

show abstract

Section: Discussionmentioning

confidence: 99%

Wings versus legs in the avianbauplan: Development and evolution of alternative locomotor strategies

Heers

Dial

2015

Evolution

View full text Add to dashboard Cite

show abstract

“…There is little data on how extinct theropods may have used their tails and such an analysis is beyond the scope of the current study. Without the caudal fan found in Microraptor , isolated tail feathers could not assist with flight in the ways currently modeled for that taxon or for Changyuraptor (Han et al,), but this does not rule out other functions for the rectrices in Wulong .…”

Section: Discussionmentioning

confidence: 99%

“…For the purposes of this description we accept a maximum age of 124.1 AE 0.3 Ma for the main fossil bed of the lower Yixian at Sihetun (Chang et al, 2009). The younger Jiufotang Formation was dated at the same site from which D2933 was recovered, the Shangheshou locality, which dates to 120.3 AE 0.7 Ma (He et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

A new microraptorine theropod from the Jehol Biota and growth in early dromaeosaurids

Poust

Chunling²,

Varricchio

et al. 2020

The Anatomical Record

View full text Add to dashboard Cite

Fossils from the Jehol Group (Early Cretaceous, Liaoning Province, China) are integral to our understanding of Paraves, the clade of dinosaurs grouping dromaeosaurids, troodontids, and avialians, including living birds. However, many taxa are represented by specimens of unclear ontogenetic age. Without a more thorough understanding of ontogeny, evolutionary relationships and significance of character states within paravian dinosaurs may be obscured and our ability to infer their biology restricted. We describe a complete specimen of a new microraptorine dromaeosaur, Wulong bohaiensis gen. et sp. nov., from the geologically young Jiufotang Formation (Aptian) that helps solve this problem. Phylogenetic analysis recovers the specimen within a monophyletic Microraptorinae. Preserved in articulation on a single slab, the type specimen is small and exhibits osteological markers of immaturity identified in other archosaurs, such as bone texture and lack of fusion. To contextualize this signal, we histologically sampled the tibia, fibula, and humerus and compared them with new samples from the closely related and osteologically mature Sinornithosaurus. Histology shows both specimens to be young and still growing at death, indicating an age for the new dinosaur of about 1 year. The holotype possesses several feather types, including filamentous feathers, pennaceous primaries, and long rectrices, establishing that their growth preceded skeletal maturity and full adult size in some dromaeosaurids. Comparison of histology in the new taxon and Sinornithosaurus indicates that macroscopic signs of maturity developed after the first year, but before cessation of growth, demonstrating that nonhistological indicators of adulthood may be misleading when applied to dromaeosaurids. Anat Rec, 303:963–987, 2020. © 2020 American Association for Anatomy

show abstract

“…Far from inaccessible, China is a cosmopolitan hub for biological research across a broad swath of scientific disciplines, and the discovery of China's diverse Mesozoic vertebrate faunas have drawn researchers from around the world to China at a much greater pace than at any time in its history. Consequently, we would suggest that these Chinese fossils actually are among the most intensely studied examples today, with many international teams having traveled to China to examine them first hand, to conduct field work in order to collect additional specimens, and to collaborate with Chinese institutions on the description of those fossils in international peer-reviewed journals (e.g., Zhou et al 2002, Clarke et al 2006, Lamanna et al 2006, Xu et al 2009a, 2014b, Zhang et al 2010, O'Connor et al 2013, Han et al 2014 Hou et al 1995, Lingham-Soliar et al 2007, and a previously unpublished photograph of a Chinese specimen is included in his recent opinion paper (provided to him by Zhonghe Zhou, Director of the Institute of Vertebrate Paleontology and Paleoanthropology; Feduccia 2013, figure 5). Thus, Chinese fossils can hardly be characterized as ''inaccessible'' and the individual fossils that convincingly support the dinosaurian ancestry of birds have received a great deal of international scrutiny over a relatively short period of time (i.e.…”

Section: Theoretical and Methodological Misunderstandingsmentioning

confidence: 99%

“…Feduccia (2013) contradicts himself by suggesting that dromaeosaurine dinosaurs that have been systematically placed as dinosaurs based on boney evidence for nearly 80 years, suddenly become birds with the discovery of their feathers. Every time microraptorine dromaeosaurs have been analyzed using all available character data (hundreds of scored characters) phylogenetic analysis yields a placement close to birds, within Paraves, but not as ''birds'' (e.g., Turner et al 2012, Xu et al 2012, Han et al 2014, Brusatte et al 2014. When only unfeathered raptors such as Velociraptor or Troodon were known, Feduccia denied any relevance of those fossils to bird origins (Feduccia 1999), but now that microraptorines are known to share derived characters with this taxon, those characters are ignored and the feathers present in the specimens are interpreted as evidence that they are birds.…”

Section: Anatomical and Evolutionary Misinterpretationsmentioning

confidence: 99%

Rhetoric vs. reality: A commentary on “Bird Origins Anew” by A. Feduccia

Smith

Chiappe

Clarke

et al. 2015

The Auk

Self Cite

View full text Add to dashboard Cite

Birds are maniraptoran theropod dinosaurs. The evidence supporting the systematic position of Avialae as a derived clade within Dinosauria is voluminous and derived from multiple independent lines of evidence. In contrast, a paucity of selectively chosen data weakly support, at best, alternative proposals regarding the origin of birds and feathers. Opponents of the theory that birds are dinosaurs have frequently based their criticisms on unorthodox interpretations of paleontological data and misrepresentation of phylogenetic systematic methods. Moreover, arguments against the nested position of Avialae in Dinosauria have often conflated the logically distinct questions of avian origins, the evolution of flight, and the phylogenetic distribution of feathers. Motivated by a Perspectives article with numerous factual inaccuracies that recently appeared in The Auk, we provide a review of the full complement of facts pertaining to the avian origins debate and address the misplaced criticisms raised in that opinion paper. Keywords: evolution of flight, evolution of feathers, evolution of birds, Avialae, maniraptoran theropod dinosaurs, phylogenetic systematics Retórica vs. Realidad: Un comentario sobre ''Bird Origins Anew'' por A. Feduccia, Auk 130:1-12 RESUMEN Las aves son dinosaurios terópodos maniraptores. La evidencia que sustenta la posición sistemática de Avialae como un clado derivado dentro de Dinosauria es voluminosa y se deriva de múltiples líneas independientes de evidencia. En contraste, sólo escasos datos elegidos selectivamente sustentan débilmente propuestas alternativas sobre el origen de las aves y las plumas. Los opositores de la teoría de que las aves son dinosaurios frecuentemente han basado sus críticas en interpretaciones no ortodoxas de los datos paleontológicos y en la tergiversación de los métodos de la sistemática filogenética. Además, los argumentos en contra de la posición anidada de Avialae dentro de Dinosauria han confundido la distinción lógica de las preguntas sobre los orígenes de las aves, la evolución del vuelo y la distribución filogenética de las plumas. Motivados por un artículo de Perspectivas que apareció recientemente en The Auk con numerosas imprecisiones fácticas, presentamos una revisión del conjunto completo de hechos relacionados con el debate sobre el origen de la aves y abordamos las críticas equivocadas que se presentan en dicho artículo de opinión. Palabras clave: Avialae, dinosaurios terópodos maniraptores, evolución de las aves, evolución de las plumas, evolución del vuelo, sistemática filogenética Q 2015 American Ornithologists' Union.

show abstract

A new raptorial dinosaur with exceptionally long feathering provides insights into dromaeosaurid flight performance

Cited by 61 publications

References 33 publications

Wings versus legs in the avianbauplan: Development and evolution of alternative locomotor strategies

Wings versus legs in the avianbauplan: Development and evolution of alternative locomotor strategies

A new microraptorine theropod from the Jehol Biota and growth in early dromaeosaurids

Rhetoric vs. reality: A commentary on “Bird Origins Anew” by A. Feduccia

Contact Info

Product

Resources

About