[D] Protarchaeopteryx robusta [~/~]
Describer
Ji Q. and Ji Shuan, 1997
Time
Cretaceous Early Barremian Aptian
Classification
Saurischia Theropoda Tetanurae Coelurosauria Maniraptora Avialae Incertae Sedis
[Archaeopterygiformes Archaeopterygidae]
Fossilsite
Yixian Formation; Chaomidianzi Formation, Liaoning, China
Info
\\\\\\\"Primitive Archaeopteryx\\\\\\\" found in China on Dec.1996. It Compared with Archaeopteryx it became clear that the basic structure of the bone was the same. Length of foot reaches 40 cm, and is bigger. Fundamental characteristic such as sharp dens, long tail, structure of wing bone is concordant. Dens is more firm and a foot is big, so it\\\\\\\'s a little primitive.
The fossil has feather imprints on its tail. Ji believes that Protarchaeopteryx falls evolutionarily between the small dinosaur called Sinosauropteryx found in Liaoning last year and Archaeopteryx. It apparently is a little more \\\\\\\"primitive\\\\\\\" in the sense that it looks like a possible ancestral form, although the experts believe it is slightly younger than Archaeopteryx.
One important question surrounding the fossil is whether the tail feathers actually belong to Protarchaeopteryx. They are in the right position, but not in the right direction to be attached to the tail. The tail feathers may have been displaced after death, but it is possible that they came from another animal.
Qiang Ji and Shu’an Ji (1997) A Chinese archaeopterygian, Protarchaeopteryx gen. nov. by Geological Science and Technology (Di Zhi Ke Ji) Volume 238 pp. 38-41 Translated By Will Downs Bilby Research Center Northern Arizona University January, 2001
Introduction
The discoveries of Confuciusornis (Hou and Zhou, 1995; Hou et al, 1995) and Sinornis (Ji and Ji, 1996) have profoundly stimulated ornithologists’ interest globally in the Beipiao region of western Liaoning Province. They have also regenerated optimism toward solving questions of avian origins. In December 1996, the Chinese Geological Museum collected a primitive bird specimen at Beipiao that is comparable to Archaeopteryx (Wellnhofer, 1992). The specimen was excavated from a marl 5.5 m above the sediments that produce Sinornithosaurus and 8-9 m below the sediments that produce Confuciusornis. This is the first documentation of an archaeopterygian outside Germany. As a result, this discovery not only establishes western Liaoning Province as a center of avian origins and evolution, it provides conclusive evidence for the theory that avian evolution occurred in four phases.
Specimen description Class Aves Linnaeus, 1758 Subclass Sauriurae Haeckel, 1866 Order Archaeopterygiformes Furbringer, 1888 Family Archaeopterygidae Huxley, 1872 Genus Protarchaeopteryx gen. nov. Genus etymology: Acknowledges that the specimen possesses characters more primitive than those of Archaeopteryx .
Diagnosis
A primitive archaeopterygian with claviform and unserrated dentition. Sternum is thin and flat, tail is long, and forelimb resembles Archaeopteryx in morphology with three talons, the second of which is enlarged. Ilium is large and elongated, pubes are robust and distally fused, hind limb is long and robust with digit I reduced and dorsally migrated to lie in opposition to digit III and forming a grasping apparatus. Forelimb/hind limb index is 0.7 and proximal metatarsals are fused. Torso feathers are 50 mm in length with short and robust shafts. Tail fan is extremely well developed. Feathers are as long as 150 mm with a slender and elongated shaft and slender and gracile barbs.
Protarchaeopteryx robusta gen. et sp. nov.
Species etymology
Robusta - Latin for strong and vigorous, in reference to the long and powerful hind limb on the specimen.
Type
An incomplete skeleton, Chinese Geological Museum specimen #GMV2125.
Locality and stratigraphic position
The first marl in the Upper Jurassic lower Yixian Fm. west of the village of Sihetun, Shangyuanxian, in the municipality of Beipiaoshi, Liaoning Province.
Species diagnosis
As for genus.
Funding provided by the “9-5” Focus on Science and Technology Fund from the Department of Geology and Minerals, grant No. 9501122 and the National Outstanding Scientific Youth Foundation grant No. 49625202.
Description
Skull is poorly preserved and fragmentary, prohibiting an adequate description. Only two teeth are distinctly preserved, one of which is relatively complete, slightly claviform in morphology with a smooth and glossy surface, posterior margin lacks serrations, its diameter is 2.5 mm, and length is 12 mm.
Cervical series is also poorly preserved and thus morphology and count are undetermined. There are four to five vertebrae in the midsection that are ill-defined in outline but indicate a length of 16 mm. Most dorsals are lost and only several vertebrae in the posterior region are preserved, among which are two that are distinct, with lengths of 13 mm and heights of 11 mm. Ribs are not preserved. Sacral vertebrae display a slight degree of fusion. Intermittent sequences of caudals are preserved for a total of 23 vertebrae, although it is estimated the total count would approach 30. Diapophyses are well developed on the anterior and mid-caudals with lengths of 12 mm and breadths of approximately 4 mm.
Only a portion of the sternum is distinct, consisting of a thin and flat margin. The forelimb, hind limb, and pelvic girdle are completely preserved and quite distinct. A vast majority of the skeleton is pneumaticized and because the specimen has been subjected to compressional distortion, several of the skeletal elements have become flattened and fractured. Thus, the breadths of these elements are probably slightly exaggerated.
The forelimb is extremely similar, both in size and morphology, to those of the Solnhofen specimen of Archaeopteryx lithographica (Wellnhofer, 1992), only slightly broader. The right forelimb is completely preserved with a length of 31.0 cm. The right humerus is nearly complete with a length of 8.8 cm. The proximal one-third of the shaft is expanded with a simple convex articular surface, and the distal two-thirds of the shaft is relatively slender. The left radius and ulna are exceptionally complete; both are shorter than the humerus and nearly equivalent in length at 7.2 and 7.4 cm. The radius is relatively straight but the ulna is slightly broader, particularly at its proximal end which is twice the breadth of the radius, and its shaft is posteriorly projected or convex. Faint impressions of three carpals lie on the right side. The ulnare and radiale are small but there is a broad distolateral carpal.
Manus digits on both sides are relatively well preserved but are particularly distinct on the left side. Manus length is 13.5 cm; digit II is the longest and broadest in the series, and digit III is relatively slender. Metacarpal I is short (17 mm), and metacarpals II and III are 44 and 45 mm long respectively, 2.5 times the length of McI. Digit length indices are extremely close to those of Archaeopteryx, but they are slightly broader. Talons are recurved, acute, and have an inflated base. The talon on digit II is the largest with a length of 36 mm and basal breadth of approximately 10.5 mm. There is a distinct lateral groove on the talons which is broad at the proximal end but narrows and attenuates at the distal end.
The pelvic girdle is robust and forms a fixed yoke with the sacral vertebrae, indicating the ability for vigorous saltation. The ilium is broad and robust; its length slightly exceeds 9.5 cm and its dorsal margin is dorsally convex to form a distinct arc, a morphology extremely close to that of Sinosauropteryx prima. The pubes are robust, 8.0 cm in length, with fused termini that do not expand to more than 9 mm anteroposteriorly.
On the hind limb, only the proximal left femur is damaged; the remaining elements are extremely distinct. The right hind limb is 44.0 cm in length, 1.4 times the length of the forelimb. The femur is extremely long, approximately 12.0 cm, with a slight curvature and an expanded medial side. The distal end is 21 mm in breadth with a pair of articular condyles, and in the midsection the shaft becomes slightly constricted. The tibia is 15.5 cm in length with a nearly planar proximal facet for a tight contact with the proximal fibula. The breadth of both the tibia and fibula is 25 mm. These elements are relatively straight with breadths generally equivalent to the femur and distal breadths of approximately 19 mm. Tibia is 1.3 times the length of the femur and its walls are approximately 2 mm thick. The fibula is in tight contact with the lateral tibia; distally it gradually becomes extremely slender, and at the midpoint of the tibia it is only 2.5 mm broad. Finally it becomes fused with its lateral counterpart.
Two tarsals are extremely flattened and are not fused to the tibia. The complete length of the pes is 15.5 cm. Metatarsals II-IV are extremely elongated with respective lengths of 7.7, 8.6, and 8.1 cm. They are unfused and their breadths are equivalent. MtI is only 13 mm in length and is situated posteromedial to MtII, lying in opposition to the other three metatarsals. Pes phalangeal formula is 2-3-4-5-0. Digits I and IV have relatively short phalanges but those of digits II and II are relatively elongated. The lengths of the pes talons do not differ greatly from those of the phalanges.
Feathers are relatively well preserved on the lateral right tibia and proximolateral left femur. Feather lengths generally do not exceed 5.0 cm, the shafts are relatively short and thick, and barbs are slender, as in a typically avian feather. At the end of the tail there is a series of four extremely long feathers 1.5 cm in breadth and preserved lengths of 10.0 cm, although it is estimated these feathers exceeded 15.0 cm in length. The shafts are slender, elongated, and extend directly to the feather termini. Barbs are slender and gracile. Each quill length is 16-18 mm and a sequence of approximately 20 barbs begins to diverge from the shaft 20 mm from the base.
Comparison
Comparison to Sinosauropteryx prima: In October, 1996, the authors of this text described a primitive bird that was .65 m in length, excavated from the Shangyuan quarries at Beipiao, Liaoning Province, which they named Sinosauropteryx prima (Ji and Ji, 1996). In December of that same year, the Beipiao municipal authorities donated another specimen of this species to the Chinese Geological Museum which represented an adult 1.06 m in length. Protarchaeopteryx approaches the size of Sinosauropteryx (hind limb lengths are nearly equivalent) and its pelvic girdles and hind limbs are extremely robust. However, they are clearly distinct in the following characters: (1) Protarchaeopteryx dentition is claviform with a smooth and glossy surface, whereas the dentition of Sinosauropteryx is acutely triangular with very weak serrations on its margins. (2) The Protarchaeopteryx caudal series is approximately 30 in count but on Sinosauropteryx the tail is extremely long with a count exceeding 50 centra. (3) The Protarchaeopteryx forelimb has been modified into a large and elongated limb, while on the latter the forelimb is still relatively short and small. (4) The Protarchaeopteryx tail fan is extremely well developed with exceptionally long feathers approximately 15.0 cm in length that have conspicuous shafts. Feathers on Sinosauropteryx are more foliate with lengths of 2.3 cm and breadths of 1.1 cm, and they have extremely weak shafts. These two genera are considered to be related; Sinosauropteryx represents the more primitive of the two and is ancestral to Protarchaeopteryx.Other characters also support Sinosauropteryx as a member of the class Aves.
Comparison to Archaeopteryx lithographica: To date there have been six complete or partial skeletons of Archaeopteryx described. The largest is twice the size of the smallest but is nevertheless retained in the same species. Protarchaeopteryx forelimb length and morphology are basically consistent with those of the largest specimen of Archaeopteryx from Solnhofen (Wellnhofer, 1992). Also, the claviform premaxillary dentition of Archaeopteryx resembles that of Protarchaeopteryx, as do other skeletal morphology and tail feather morphology. However there are noticeable distinctions between the two: Protarchaeopteryx teeth are distinctly more robust than those of Archaeopteryx, as are the pelvic girdle and hind limb.
The former’s hind limb/forelimb index is approximately 0.7 but in Archaeopteryx the index is generally at parity. Protarchaeopteryx metatarsals are unfused but on the latter there is proximal fusion. Protarchaeopteryx has approximately 30 centra in its caudal series but in Archaeopteryx there are approximately 23 caudals. Both genera are regarded as at approximately the same evolutionary level due to their similarities in dental morphology, forelimb morphology, extremely well developed tail fan, and feather morphology. These synapomorphies also justify the inclusion of Protarchaeopteryx in the family Archaeopterygidae, although it is regarded as more primitive because it has a more elongated tail, more robust pelvic girdle, longer and larger hind limb, and unfused proximal metatarsals.
Comparison to Confuciusornis sanctus: Because Confuciusornis also possesses three distinct manus talons (Hou et al., 1995), it was initially regarded as the most primitive bird approaching Archaeopteryx. The authors of this text have reevaluated several tens of specimens of Confuciusornis in detail and believe that the original description of Hou et al. (1995) requires important revisions and supplementary description. Confuciusornis is more derived than Protarchaeopteryx; it has distinct apomorphies including its modification to a small, gracile, and lightly constructed skeleton, reduced dentition, extremely short caudal series with terminal centra fused into a pygostyle, an oval pneumatocoel on the proximal humerus, and extremely well developed flight feathers.
Discussion
Specimens of primitive birds continue to be discovered in western Liaoning Province, supporting the conclusion that the origin of the class Aves occurred in the Jurassic. The genera Archaeopteryx, Protarchaeopteryx, and Sinosauropteryx should be included in the class based upon characters including the presence of feathers and endothermy. Phylogenetic relationship of primitive avian taxa. Character states: 1. Pneumaticized skeleton, 2. Feathers present, 3. Sternum present, 4. Well developed tail fan, 5. Retrograde pubis, 6. Elongated forelimb or primitive wing with three talons, 7. Claviform dentition, 8. Lightened and gracile skeleton, 9. Fused proximal metatarsals, 10. Shortened tail, pygostyle present, 11. Flight feathers well developed, 12. Dentition reduced, 13. Manus reduced, 14. Carina present, 15. Tibiotarsus present.
The authors of this text earlier advocated four stages of avian evolution as represented by the Sinosauropteryx, Archaeopteryx, Confuciusornis, and enantiornithine stages (Ji and Ji, 1996). Sinosauropteryx, Protarchaeopteryx, and Confuciusornis were excavated from the same regional stratigraphic section and their stratigraphic relationships are quite distinct. Protarchaeopteryx is regarded as a member of the Archaeopterygidae at the same evolutionary stage as Archaeopteryx. Its documentation fills a vacancy between Sinosauropteryx and Confuciusornis and strongly supports the phylogenetic relationships proposed. Protarchaeopteryx is the first member of the family documented outside Germany and further indicates that China was an evolutionary center for early avian evolution. To date, Archaeopteryx is only documented from the Solnhofen limestones. of Bavaria, Germany. The lithology there represents a lagoon limestone that has produced several hundred paleontological specimens with an age assigned to the Jurassic Tithonian Stage (Barthel and Jablonski, 1989). Therefore, the presence of Protarchaeopteryx confirms a Late Jurassic age for the Yixian Fm.
Acknowledgements
The authors hereby express their deep appreciation to research personnel of the Chinese Geological Museum. Extensive assistance was provided by Ziguang Guo, Dong Ren, Liwu Lu, Xiaosi Fang, and Fengfu Tang. Additional assistance was provided by Mr. Yuegao Jin and Mr. Zhi Chen. Plates were photographed by Mr. Jianjun Li, and figures were clearly drafted by Madam Ling Zong.
Source: Polyglot Paleontologist
Qiang, J., Currie, P.J., Norell, M.A. and Ji, S.-A. (1998) Two feathered dinosaurs from northeastern China. Nature 393: 753-761
Abstract
Current controversy over the origin and early evolution of birds centres on whether or not they are derived from coelurosaurian theropod dinosaurs. Here we describe two theropods from the Upper Jurassic/Lower Cretaceous Chaomidianzi Formation of Liaoning province, China. Although both theropods have feathers, it is likely that neither was able to fly. Phylogenetic analysis indicates that they are both more primitive than the earliest knownavialan (bird), Archaeopteryx. These new fossils represent stages in the evolution of birds from feathered, ground-living, bipedal dinosaurs.
Holotype
National Geological Museum of China, NGMC 2125 (Figs 1, 2 and 3).
Locality and horizon
Sihetun area near Beipiao City, Liaoning, China. Jiulongsong Member of Chaomidianzi Formation, Jehol Group1. This underlies the Yixian Formation, the age of which has been determined to be Late Jurassic to Early Cretaceous.
Diagnosis
Large straight premaxillary teeth, and short, bulbous maxillary and dentary teeth, all of which are primitively serrated. Rectrices form a fan at the end of the tail.
Description
The skull of Protarchaeopteryx is shorter than the femur. There are four serrated premaxillary teeth, with crown heights of up to 12 mm. Premaxillary teeth of coelophysids, compsognathids and early birds lack serrations, but premaxillary denticles are present in most other theropods. Six maxillary and seven dentary teeth are preserved, all of which are less than a quarter the height of the premaxillary teeth. They most closely resemble those of Archaeopteryx in shape, but have anterior and posterior serrations (7–10 serrations per mm). The amphicoelous posterior cervicals are the same length as the posterior dorsals, which have large pleurocoels. If the lengths of missing segments of the tail are accounted for, there were fewer than 28 caudals. Vertebrae increase in length from proximal to midcaudals, as in most non-avian coelurosaurs.
There are two thin, flat, featureless sternal plates. The clavicles are fused into a broad, U-shaped furcula (interclavicular angle is about 608) as in Archaeopteryx, Confuciusornis and many non-avian theropods. The forelimb is shorter than the hindlimb. The arm is shorter (compared to the femur) than it is in birds, but is longer than those of long-armed non-avian coelurosaurs such as dromaeosaurids and oviraptorids.
The better preserved right wrist of NGMC 2125 has a single semilunate carpal capping the first two metacarpals. The hand has the normal theropod phalangeal formula of 2-3-4-x-x. The manus is longer than either the humerus or radius. Compared to femur length, the hand is more elongate than those of any theropods other than Archaeopteryx9 and Confuciusornis. More advanced birds such as Cathayornis have shorter hands.
Phalanges III-1 and III-2 in the hand of Protarchaeopteryx are almost the same size, and are about half the length of III-3. The unguals are long and sharp, and keratinous sheaths are preserved on two of them. The preacetabular blade of the ilium is about the same length as the postacetabular blade. The pubic boot expands posteriorly.
Anteriorly, the pubis is not exposed. The tibia is longer than the femur, as it is in most advanced theropods and early birds. It is not known if the fibula extended to the tarsus. The metatarsals are separate from each other and the distal tarsals. Metatarsal I is centred halfway up the posteromedial edge of the second metatarsal. In perching birds such as Sinornis, metatarsal I is positioned near the end of metatarsal II and is retroverted.
Its condition in Archaeopteryx is intermediate. Pedal unguals are smaller than manual unguals. Aclump of at least six plumulaceous feathers is preserved anterioto the chest, with some showing well-developed vanes. Evenly distributed plumulaceous feathers up to 27mm long are associated with ten proximal caudal vertebrae. Twenty-millimetre plumulaceous feathers are preserved along the lateral side of the right femur and the proximal end of the left femur. Parts of more than twelve rectrices are preserved11 attached to the distal caudals. One of the symmetrical tail feathers extends 132mmfrom the closest tail vertebra, and has a long tapering rachis with a basal diameter of 1.5 mm. The well-formed pennaceous vanes of Protarchaeopteryx show that barbules were present. The vane is 5.3mmwide on either side of the rachis. At midshaft, five barbs come off the rachis every 5mm (compared with six in Archaeopteryx), and individual barbs are 15mm long. As in modern rectrices, the barbs at the base of the feather are plumulaceous.
Ji Q. and Ji Shuan, 1997
Time
Cretaceous Early Barremian Aptian
Classification
Saurischia Theropoda Tetanurae Coelurosauria Maniraptora Avialae Incertae Sedis
[Archaeopterygiformes Archaeopterygidae]
Fossilsite
Yixian Formation; Chaomidianzi Formation, Liaoning, China
Info
\\\\\\\"Primitive Archaeopteryx\\\\\\\" found in China on Dec.1996. It Compared with Archaeopteryx it became clear that the basic structure of the bone was the same. Length of foot reaches 40 cm, and is bigger. Fundamental characteristic such as sharp dens, long tail, structure of wing bone is concordant. Dens is more firm and a foot is big, so it\\\\\\\'s a little primitive.
The fossil has feather imprints on its tail. Ji believes that Protarchaeopteryx falls evolutionarily between the small dinosaur called Sinosauropteryx found in Liaoning last year and Archaeopteryx. It apparently is a little more \\\\\\\"primitive\\\\\\\" in the sense that it looks like a possible ancestral form, although the experts believe it is slightly younger than Archaeopteryx.
One important question surrounding the fossil is whether the tail feathers actually belong to Protarchaeopteryx. They are in the right position, but not in the right direction to be attached to the tail. The tail feathers may have been displaced after death, but it is possible that they came from another animal.
Qiang Ji and Shu’an Ji (1997) A Chinese archaeopterygian, Protarchaeopteryx gen. nov. by Geological Science and Technology (Di Zhi Ke Ji) Volume 238 pp. 38-41 Translated By Will Downs Bilby Research Center Northern Arizona University January, 2001
Introduction
The discoveries of Confuciusornis (Hou and Zhou, 1995; Hou et al, 1995) and Sinornis (Ji and Ji, 1996) have profoundly stimulated ornithologists’ interest globally in the Beipiao region of western Liaoning Province. They have also regenerated optimism toward solving questions of avian origins. In December 1996, the Chinese Geological Museum collected a primitive bird specimen at Beipiao that is comparable to Archaeopteryx (Wellnhofer, 1992). The specimen was excavated from a marl 5.5 m above the sediments that produce Sinornithosaurus and 8-9 m below the sediments that produce Confuciusornis. This is the first documentation of an archaeopterygian outside Germany. As a result, this discovery not only establishes western Liaoning Province as a center of avian origins and evolution, it provides conclusive evidence for the theory that avian evolution occurred in four phases.
Specimen description Class Aves Linnaeus, 1758 Subclass Sauriurae Haeckel, 1866 Order Archaeopterygiformes Furbringer, 1888 Family Archaeopterygidae Huxley, 1872 Genus Protarchaeopteryx gen. nov. Genus etymology: Acknowledges that the specimen possesses characters more primitive than those of Archaeopteryx .
Diagnosis
A primitive archaeopterygian with claviform and unserrated dentition. Sternum is thin and flat, tail is long, and forelimb resembles Archaeopteryx in morphology with three talons, the second of which is enlarged. Ilium is large and elongated, pubes are robust and distally fused, hind limb is long and robust with digit I reduced and dorsally migrated to lie in opposition to digit III and forming a grasping apparatus. Forelimb/hind limb index is 0.7 and proximal metatarsals are fused. Torso feathers are 50 mm in length with short and robust shafts. Tail fan is extremely well developed. Feathers are as long as 150 mm with a slender and elongated shaft and slender and gracile barbs.
Protarchaeopteryx robusta gen. et sp. nov.
Species etymology
Robusta - Latin for strong and vigorous, in reference to the long and powerful hind limb on the specimen.
Type
An incomplete skeleton, Chinese Geological Museum specimen #GMV2125.
Locality and stratigraphic position
The first marl in the Upper Jurassic lower Yixian Fm. west of the village of Sihetun, Shangyuanxian, in the municipality of Beipiaoshi, Liaoning Province.
Species diagnosis
As for genus.
Funding provided by the “9-5” Focus on Science and Technology Fund from the Department of Geology and Minerals, grant No. 9501122 and the National Outstanding Scientific Youth Foundation grant No. 49625202.
Description
Skull is poorly preserved and fragmentary, prohibiting an adequate description. Only two teeth are distinctly preserved, one of which is relatively complete, slightly claviform in morphology with a smooth and glossy surface, posterior margin lacks serrations, its diameter is 2.5 mm, and length is 12 mm.
Cervical series is also poorly preserved and thus morphology and count are undetermined. There are four to five vertebrae in the midsection that are ill-defined in outline but indicate a length of 16 mm. Most dorsals are lost and only several vertebrae in the posterior region are preserved, among which are two that are distinct, with lengths of 13 mm and heights of 11 mm. Ribs are not preserved. Sacral vertebrae display a slight degree of fusion. Intermittent sequences of caudals are preserved for a total of 23 vertebrae, although it is estimated the total count would approach 30. Diapophyses are well developed on the anterior and mid-caudals with lengths of 12 mm and breadths of approximately 4 mm.
Only a portion of the sternum is distinct, consisting of a thin and flat margin. The forelimb, hind limb, and pelvic girdle are completely preserved and quite distinct. A vast majority of the skeleton is pneumaticized and because the specimen has been subjected to compressional distortion, several of the skeletal elements have become flattened and fractured. Thus, the breadths of these elements are probably slightly exaggerated.
The forelimb is extremely similar, both in size and morphology, to those of the Solnhofen specimen of Archaeopteryx lithographica (Wellnhofer, 1992), only slightly broader. The right forelimb is completely preserved with a length of 31.0 cm. The right humerus is nearly complete with a length of 8.8 cm. The proximal one-third of the shaft is expanded with a simple convex articular surface, and the distal two-thirds of the shaft is relatively slender. The left radius and ulna are exceptionally complete; both are shorter than the humerus and nearly equivalent in length at 7.2 and 7.4 cm. The radius is relatively straight but the ulna is slightly broader, particularly at its proximal end which is twice the breadth of the radius, and its shaft is posteriorly projected or convex. Faint impressions of three carpals lie on the right side. The ulnare and radiale are small but there is a broad distolateral carpal.
Manus digits on both sides are relatively well preserved but are particularly distinct on the left side. Manus length is 13.5 cm; digit II is the longest and broadest in the series, and digit III is relatively slender. Metacarpal I is short (17 mm), and metacarpals II and III are 44 and 45 mm long respectively, 2.5 times the length of McI. Digit length indices are extremely close to those of Archaeopteryx, but they are slightly broader. Talons are recurved, acute, and have an inflated base. The talon on digit II is the largest with a length of 36 mm and basal breadth of approximately 10.5 mm. There is a distinct lateral groove on the talons which is broad at the proximal end but narrows and attenuates at the distal end.
The pelvic girdle is robust and forms a fixed yoke with the sacral vertebrae, indicating the ability for vigorous saltation. The ilium is broad and robust; its length slightly exceeds 9.5 cm and its dorsal margin is dorsally convex to form a distinct arc, a morphology extremely close to that of Sinosauropteryx prima. The pubes are robust, 8.0 cm in length, with fused termini that do not expand to more than 9 mm anteroposteriorly.
On the hind limb, only the proximal left femur is damaged; the remaining elements are extremely distinct. The right hind limb is 44.0 cm in length, 1.4 times the length of the forelimb. The femur is extremely long, approximately 12.0 cm, with a slight curvature and an expanded medial side. The distal end is 21 mm in breadth with a pair of articular condyles, and in the midsection the shaft becomes slightly constricted. The tibia is 15.5 cm in length with a nearly planar proximal facet for a tight contact with the proximal fibula. The breadth of both the tibia and fibula is 25 mm. These elements are relatively straight with breadths generally equivalent to the femur and distal breadths of approximately 19 mm. Tibia is 1.3 times the length of the femur and its walls are approximately 2 mm thick. The fibula is in tight contact with the lateral tibia; distally it gradually becomes extremely slender, and at the midpoint of the tibia it is only 2.5 mm broad. Finally it becomes fused with its lateral counterpart.
Two tarsals are extremely flattened and are not fused to the tibia. The complete length of the pes is 15.5 cm. Metatarsals II-IV are extremely elongated with respective lengths of 7.7, 8.6, and 8.1 cm. They are unfused and their breadths are equivalent. MtI is only 13 mm in length and is situated posteromedial to MtII, lying in opposition to the other three metatarsals. Pes phalangeal formula is 2-3-4-5-0. Digits I and IV have relatively short phalanges but those of digits II and II are relatively elongated. The lengths of the pes talons do not differ greatly from those of the phalanges.
Feathers are relatively well preserved on the lateral right tibia and proximolateral left femur. Feather lengths generally do not exceed 5.0 cm, the shafts are relatively short and thick, and barbs are slender, as in a typically avian feather. At the end of the tail there is a series of four extremely long feathers 1.5 cm in breadth and preserved lengths of 10.0 cm, although it is estimated these feathers exceeded 15.0 cm in length. The shafts are slender, elongated, and extend directly to the feather termini. Barbs are slender and gracile. Each quill length is 16-18 mm and a sequence of approximately 20 barbs begins to diverge from the shaft 20 mm from the base.
Comparison
Comparison to Sinosauropteryx prima: In October, 1996, the authors of this text described a primitive bird that was .65 m in length, excavated from the Shangyuan quarries at Beipiao, Liaoning Province, which they named Sinosauropteryx prima (Ji and Ji, 1996). In December of that same year, the Beipiao municipal authorities donated another specimen of this species to the Chinese Geological Museum which represented an adult 1.06 m in length. Protarchaeopteryx approaches the size of Sinosauropteryx (hind limb lengths are nearly equivalent) and its pelvic girdles and hind limbs are extremely robust. However, they are clearly distinct in the following characters: (1) Protarchaeopteryx dentition is claviform with a smooth and glossy surface, whereas the dentition of Sinosauropteryx is acutely triangular with very weak serrations on its margins. (2) The Protarchaeopteryx caudal series is approximately 30 in count but on Sinosauropteryx the tail is extremely long with a count exceeding 50 centra. (3) The Protarchaeopteryx forelimb has been modified into a large and elongated limb, while on the latter the forelimb is still relatively short and small. (4) The Protarchaeopteryx tail fan is extremely well developed with exceptionally long feathers approximately 15.0 cm in length that have conspicuous shafts. Feathers on Sinosauropteryx are more foliate with lengths of 2.3 cm and breadths of 1.1 cm, and they have extremely weak shafts. These two genera are considered to be related; Sinosauropteryx represents the more primitive of the two and is ancestral to Protarchaeopteryx.Other characters also support Sinosauropteryx as a member of the class Aves.
Comparison to Archaeopteryx lithographica: To date there have been six complete or partial skeletons of Archaeopteryx described. The largest is twice the size of the smallest but is nevertheless retained in the same species. Protarchaeopteryx forelimb length and morphology are basically consistent with those of the largest specimen of Archaeopteryx from Solnhofen (Wellnhofer, 1992). Also, the claviform premaxillary dentition of Archaeopteryx resembles that of Protarchaeopteryx, as do other skeletal morphology and tail feather morphology. However there are noticeable distinctions between the two: Protarchaeopteryx teeth are distinctly more robust than those of Archaeopteryx, as are the pelvic girdle and hind limb.
The former’s hind limb/forelimb index is approximately 0.7 but in Archaeopteryx the index is generally at parity. Protarchaeopteryx metatarsals are unfused but on the latter there is proximal fusion. Protarchaeopteryx has approximately 30 centra in its caudal series but in Archaeopteryx there are approximately 23 caudals. Both genera are regarded as at approximately the same evolutionary level due to their similarities in dental morphology, forelimb morphology, extremely well developed tail fan, and feather morphology. These synapomorphies also justify the inclusion of Protarchaeopteryx in the family Archaeopterygidae, although it is regarded as more primitive because it has a more elongated tail, more robust pelvic girdle, longer and larger hind limb, and unfused proximal metatarsals.
Comparison to Confuciusornis sanctus: Because Confuciusornis also possesses three distinct manus talons (Hou et al., 1995), it was initially regarded as the most primitive bird approaching Archaeopteryx. The authors of this text have reevaluated several tens of specimens of Confuciusornis in detail and believe that the original description of Hou et al. (1995) requires important revisions and supplementary description. Confuciusornis is more derived than Protarchaeopteryx; it has distinct apomorphies including its modification to a small, gracile, and lightly constructed skeleton, reduced dentition, extremely short caudal series with terminal centra fused into a pygostyle, an oval pneumatocoel on the proximal humerus, and extremely well developed flight feathers.
Discussion
Specimens of primitive birds continue to be discovered in western Liaoning Province, supporting the conclusion that the origin of the class Aves occurred in the Jurassic. The genera Archaeopteryx, Protarchaeopteryx, and Sinosauropteryx should be included in the class based upon characters including the presence of feathers and endothermy. Phylogenetic relationship of primitive avian taxa. Character states: 1. Pneumaticized skeleton, 2. Feathers present, 3. Sternum present, 4. Well developed tail fan, 5. Retrograde pubis, 6. Elongated forelimb or primitive wing with three talons, 7. Claviform dentition, 8. Lightened and gracile skeleton, 9. Fused proximal metatarsals, 10. Shortened tail, pygostyle present, 11. Flight feathers well developed, 12. Dentition reduced, 13. Manus reduced, 14. Carina present, 15. Tibiotarsus present.
The authors of this text earlier advocated four stages of avian evolution as represented by the Sinosauropteryx, Archaeopteryx, Confuciusornis, and enantiornithine stages (Ji and Ji, 1996). Sinosauropteryx, Protarchaeopteryx, and Confuciusornis were excavated from the same regional stratigraphic section and their stratigraphic relationships are quite distinct. Protarchaeopteryx is regarded as a member of the Archaeopterygidae at the same evolutionary stage as Archaeopteryx. Its documentation fills a vacancy between Sinosauropteryx and Confuciusornis and strongly supports the phylogenetic relationships proposed. Protarchaeopteryx is the first member of the family documented outside Germany and further indicates that China was an evolutionary center for early avian evolution. To date, Archaeopteryx is only documented from the Solnhofen limestones. of Bavaria, Germany. The lithology there represents a lagoon limestone that has produced several hundred paleontological specimens with an age assigned to the Jurassic Tithonian Stage (Barthel and Jablonski, 1989). Therefore, the presence of Protarchaeopteryx confirms a Late Jurassic age for the Yixian Fm.
Acknowledgements
The authors hereby express their deep appreciation to research personnel of the Chinese Geological Museum. Extensive assistance was provided by Ziguang Guo, Dong Ren, Liwu Lu, Xiaosi Fang, and Fengfu Tang. Additional assistance was provided by Mr. Yuegao Jin and Mr. Zhi Chen. Plates were photographed by Mr. Jianjun Li, and figures were clearly drafted by Madam Ling Zong.
Source: Polyglot Paleontologist
Qiang, J., Currie, P.J., Norell, M.A. and Ji, S.-A. (1998) Two feathered dinosaurs from northeastern China. Nature 393: 753-761
Abstract
Current controversy over the origin and early evolution of birds centres on whether or not they are derived from coelurosaurian theropod dinosaurs. Here we describe two theropods from the Upper Jurassic/Lower Cretaceous Chaomidianzi Formation of Liaoning province, China. Although both theropods have feathers, it is likely that neither was able to fly. Phylogenetic analysis indicates that they are both more primitive than the earliest knownavialan (bird), Archaeopteryx. These new fossils represent stages in the evolution of birds from feathered, ground-living, bipedal dinosaurs.
Holotype
National Geological Museum of China, NGMC 2125 (Figs 1, 2 and 3).
Locality and horizon
Sihetun area near Beipiao City, Liaoning, China. Jiulongsong Member of Chaomidianzi Formation, Jehol Group1. This underlies the Yixian Formation, the age of which has been determined to be Late Jurassic to Early Cretaceous.
Diagnosis
Large straight premaxillary teeth, and short, bulbous maxillary and dentary teeth, all of which are primitively serrated. Rectrices form a fan at the end of the tail.
Description
The skull of Protarchaeopteryx is shorter than the femur. There are four serrated premaxillary teeth, with crown heights of up to 12 mm. Premaxillary teeth of coelophysids, compsognathids and early birds lack serrations, but premaxillary denticles are present in most other theropods. Six maxillary and seven dentary teeth are preserved, all of which are less than a quarter the height of the premaxillary teeth. They most closely resemble those of Archaeopteryx in shape, but have anterior and posterior serrations (7–10 serrations per mm). The amphicoelous posterior cervicals are the same length as the posterior dorsals, which have large pleurocoels. If the lengths of missing segments of the tail are accounted for, there were fewer than 28 caudals. Vertebrae increase in length from proximal to midcaudals, as in most non-avian coelurosaurs.
There are two thin, flat, featureless sternal plates. The clavicles are fused into a broad, U-shaped furcula (interclavicular angle is about 608) as in Archaeopteryx, Confuciusornis and many non-avian theropods. The forelimb is shorter than the hindlimb. The arm is shorter (compared to the femur) than it is in birds, but is longer than those of long-armed non-avian coelurosaurs such as dromaeosaurids and oviraptorids.
The better preserved right wrist of NGMC 2125 has a single semilunate carpal capping the first two metacarpals. The hand has the normal theropod phalangeal formula of 2-3-4-x-x. The manus is longer than either the humerus or radius. Compared to femur length, the hand is more elongate than those of any theropods other than Archaeopteryx9 and Confuciusornis. More advanced birds such as Cathayornis have shorter hands.
Phalanges III-1 and III-2 in the hand of Protarchaeopteryx are almost the same size, and are about half the length of III-3. The unguals are long and sharp, and keratinous sheaths are preserved on two of them. The preacetabular blade of the ilium is about the same length as the postacetabular blade. The pubic boot expands posteriorly.
Anteriorly, the pubis is not exposed. The tibia is longer than the femur, as it is in most advanced theropods and early birds. It is not known if the fibula extended to the tarsus. The metatarsals are separate from each other and the distal tarsals. Metatarsal I is centred halfway up the posteromedial edge of the second metatarsal. In perching birds such as Sinornis, metatarsal I is positioned near the end of metatarsal II and is retroverted.
Its condition in Archaeopteryx is intermediate. Pedal unguals are smaller than manual unguals. Aclump of at least six plumulaceous feathers is preserved anterioto the chest, with some showing well-developed vanes. Evenly distributed plumulaceous feathers up to 27mm long are associated with ten proximal caudal vertebrae. Twenty-millimetre plumulaceous feathers are preserved along the lateral side of the right femur and the proximal end of the left femur. Parts of more than twelve rectrices are preserved11 attached to the distal caudals. One of the symmetrical tail feathers extends 132mmfrom the closest tail vertebra, and has a long tapering rachis with a basal diameter of 1.5 mm. The well-formed pennaceous vanes of Protarchaeopteryx show that barbules were present. The vane is 5.3mmwide on either side of the rachis. At midshaft, five barbs come off the rachis every 5mm (compared with six in Archaeopteryx), and individual barbs are 15mm long. As in modern rectrices, the barbs at the base of the feather are plumulaceous.