• Images
• Videos
• Documents
• Books
• Articles

Description

Macroolithus eggs are characterized by large size, measuring 16 to 21 cm (6.3 to 8.3 in) long, and by their particularly coarse ornamentation.¹² Their microstructure is not well defined in the literature,³ but generally follows the typical elongatoolithid pattern:⁴ The eggshell is arranged into two structural layers (the mammillary layer and the continuous layer). The continuous layer forms the outer part of the eggshell; its eggshell units are fused together so that the layer appears to be a continuum. The inner layer, known as the mammillary, or cone, layer is made up of cone-shaped structures that form the base of the eggshell units.⁵ In Macroolithus, the continuous layer is two to three times thicker than the mammillary layer.⁶⁷ The eggs have great diversity of pore structure. Since gas conductance is related to the pore size and density this could imply that the eggs were laid in variable environments.⁸

Oospecies

Four oospecies of Macroolithus are currently recognized:

• M. rugustus – the type oospecies, these eggs are found in Nanxiong and Jiangxi in south China; it is also common in the Nemegt Formation of Mongolia and the Manrakskaya Svita in Kazakhstan.⁹¹⁰ It ranges in size from 16.5 to 18 cm (6.5 to 7.1 in) long by 7.5 to 8.5 cm (3.0 to 3.3 in) across. Its eggshell is 0.8 to 1.7 mm (0.031 to 0.067 in) thick, about 1/4 of which is the mammillary layer.¹¹ The outer surface is covered with irregular chains of nodes (ramotuberculate ornamentation) around the outer center of the egg, transitioning to a more pitted, netlike pattern (sagenotuberculate) at the ends.¹²¹³
• M. yaotunensis is native to Henan and to Nanxiong.¹⁴¹⁵ It has similar microstructure and ornamentation to M. rugustus, but can be distinguished by being slightly larger (17.5 to 21 cm (6.9 to 8.3 in) long) and having a thicker shell (1.4 to 1.9 mm (0.055 to 0.075 in)).¹⁶¹⁷ Also unlike M. rugustus, M. yaotunensis shows a wavy boundary between its mammillary layer and its continuous layer.¹⁸

• M. mutabilis – this Mongolian oospecies is known from several eggshell fragments. The fragments range from 1.3 to 2.0 mm (0.051 to 0.079 in) thick, slightly thicker than M. rugustus. When complete, the egg probably measured over 17 cm (6.7 in). It is unique for what Mikhailov called "aberrational" features: several fragments have slitlike pore canals and lack ornamentation.¹⁹
• M. lashuyuanensis – this oospecies is based on an eggshell fragment found in the Nanxiong Basin of Guangdong. With a thickness of 2.3 to 2.7 mm (0.091 to 0.106 in), its eggshell is the thickest among Macroolithus oospecies. It is furthermore distinguished by having a dark, dense band near the top of its continuous layer and a gradual transition between the continuous and mammilary layers.²⁰

Coloration

Some specimens of M. yaotunensis preserve traces of the reddish brown pigment protoporphyrin and the blue-green pigment biliverdin, the same pigments used in the eggs of many modern birds. The eggs were most likely an intense blue-green color, as shown by the predominance of biliverdin in the shell. The purpose of the coloration is uncertain, but in modern birds it can serve as coloration or as a post-mating sexual signal. Colored eggs are also correlated with active paternal care in modern birds, lending further support to the hypothesis that oviraptorid males cared for their eggs.²¹

Names and etymology

The name Macroolithus is derived from the Greek roots macro- (meaning "large")²² and oolithus (meaning "stone egg"), the conventional suffix for oogenus names.²³ Its Chinese name (巨形蛋 Jùxíng dàn) similarly translates to "giant egg".²⁴ The oospecific epiphets yaotunensis (Chinese: 窑屯 yáotún) and lashuyuanensis (Chinese: 腊树园 Làshùyuán) honor the localities where those oospecies were originally discovered (the Yaotun²⁵ and Lashuyuan²⁶ districts of Guangdong, respectively), affixing the Latin suffix -ensis to denote the place of origin;²⁷ the name mutabilis is Latin for changeable.²⁸ When he named "Oolithes" rugustus, Yang (1965) did not give the etymology of rugustus, but the Chinese form (粗皮 cūpí) translates to "rough skin".²⁹

Paleobiology and parenting

Many associations between adult oviraptorosaur skeletons or embryos with elongatoolithid eggs (including Macroolithus) demonstrate that Macroolithus and other elongatoolithids were laid by oviraptorosaurs.³⁰³¹ One oviraptorosaur skeleton from the Upper Cretaceous of China was described in 2005; two shelled elongatoolithid eggs were preserved inside of its pelvis. This suggests that oviraptorosaurs had two functional oviducts where both would produce eggs simultaneously. While Sato et al. did not refer the eggs specifically to Macroolithus, they noted that the eggs closely resemble M. yaotunensis, though with a thinner eggshell. The thin eggshell, however, could simply be because the shell had not finished forming when the mother died, or because of biochemical dissolution of the shell before fossilization.³²

Multiple different genera of oviraptorids have been found on or near elongatoolithid nests indicating that oviraptorid parents would brood on their eggs, most likely for extended periods of time.³³ There is some evidence to suggest that oviraptorid and troodontid eggs were cared for by the father, perhaps in a polygamous system.³⁴³⁵ Given the large size of eggs relative to the parent, a mother would only lay two eggs at a time, so the eggs of a single nest may have been contributed by multiple females.³⁶³⁷

Nests

Multiple well preserved Macroolithus nests are known, representing M. rugustus and M. yaotunensis.³⁸³⁹ A very well preserved clutch of M. yaotunensis contains 20 eggs arrayed in two, possibly three, circular layers. When complete this nest may have contained 40 or more eggs.⁴⁰

Tanaka et al. (2015) found that among modern archosaurs (the group including birds, crocodilians, and dinosaurs), the porosity of eggshells can be used to accurately predict whether the eggs are buried or laid in open nests. They concluded that Macroolithus nests were either open or only partially covered with vegetation.⁴¹ The eggs' blue-green coloration could have acted as a camouflage to hide the nest from predators.⁴²

M. rugustus eggs at Tsagan Khushu in Mongolia represent a coastal colonial nesting site.⁴³

Embryos

A few Macroolithus eggs preserve embryonic remains of oviraptorids inside.⁴⁴ Two eggs containing embryos found in the Upper Cretaceous Nanxiong Formation near Ganzhou, Jiangxi were referred to M. yaotunensis in 2008. One of these embryos shows a much greater degree of bone development (ossification) than the other; it preserves ossified hind limbs and several vertebrae. The fact that the cervical vertebrae not only have ossified centra and neural arches, but also have ossified zygapophyses, led Cheng et al. to conclude that this embryo may in fact represent a hatchling, since in modern chickens and skuas these zygaphyses are cartilaginous until hatching. Also, the embryo's foot anatomy (specifically, the proportions of its metatarsals) resembles that of the oviraptorid Heyuannia huangi, indicating that these eggs belong to H. huangi or a similar species. The other egg has a much less developed embryo, with only the hind limbs preserved. While this does not permit comparison on the species level, the tibia (shinbone) confirms that it is an oviraptorosaur.⁴⁵

Three more eggs containing embryos from the same formation were described in 2016 by Wang et al. Though they noted that these eggs strongly resemble M. yaotunensis, they declined to refer them to any ootaxon lower than Elongatoolithidae because Macroolithus is not clearly defined and is in need of revision. The embryos within these eggs are some of the most well-preserved of any oviraptorids, providing new information on oviraptorid ontogeny. The specimens show a relatively shallow head which indicates that as oviraptorids matured, their skulls grew dorsoventrally (top-to-bottom) faster than anteroposteriorly (front-to-back). This growth pattern is unusual among theropods, but is also seen in derived ("advanced") tyrannosaurids. Also unusual is that, even at this early stage of development, the nasal bones are fused. Coincidentally, tyrannosaurids also show fusion of the nasals early in development.⁴⁶

Pathology and extinction

Many Macroolithus specimens in South China have double- or multiple-layering of cones on the inner surface of the eggshell, a pathological condition known as ovum in ovo.⁴⁷ It is especially prevalent among eggs nearest to the Cretaceous-Tertiary (K-T) boundary, which represents the end of the Mesozoic Era. This pathology is correlated with a higher concentration of trace elements like Co, Cr, Cu, Mn, Ni, Pb, Sr, V, and Zn.⁴⁸ Experiments on modern birds have demonstrated that exposure to high levels of these elements will cause them to be incorporated into the eggshell, but the precise mechanism behind the pathological multi-layering is unknown. These abnormalities presumably affected hatchability of the eggs and may have played a role in the extinction of the dinosaurs.⁴⁹⁵⁰ However, the embryonic remains inside three multilayered Macroolithus-like eggs from Ganzhou appear unaffected.⁵¹

The K-T boundary is associated with abnormally high amounts of iridium, an element which is rare in Earth's crust, but relatively common in asteroids and in Earth's core. This has been used as evidence that a meteorite impact caused the extinction of the dinosaurs (the Alvarez hypothesis). However, some paleontologists attribute the extinction event and the iridium anomaly to more gradual climatic change caused by the volcanic activity of the Deccan Traps. The Nanxiong Basin has special relevance to this discussion because it contains the K-T boundary. However, the position of boundary, as well as the duration of the extinction have been subject to debate. Zhao et al. (2002 and 2009) have postulated that there were at least two iridium-delivering events over a time period consistent with the Deccan Traps volcanism, correlated with a gradual decline in diversity and eventual disappearance of fossil eggs from the Nanxiong Basin. According to their interpretation, Macroolithus survived 250,000 years into the early Paleocene.⁵²⁵³⁵⁴ However, Buck et al. (2004) disputed these claims, arguing that debris flows mixed and reworked the sediments near the boundary, causing a blurring of the iridium anomaly and the appearance of eggshell fragments on both sides.⁵⁵

Classification

See also: Egg fossil § Classification

Fossilized eggs are classified in their own, parataxonomic system parallel to Linnaean taxonomy. Macroolithus, Elongatoolithus, and Nanhsiungoolithus were the first oogenera ever named in this system; they were classified in the oofamily Elongatoolithidae.⁵⁶ Cladistic analysis also supports the placement of Macroolithus close to Elongatoolithus, together with other elongatoolithids in a clade.⁵⁷⁵⁸ Four oospecies are known: M. rugustus, M. yaotunensis, M. mutabilis, and M. lashuyuanensis.⁵⁹⁶⁰ The oogenus's microstructures are poorly-defined⁶¹ and therefore may be in need of revision.⁶² When Mikhailov described M. mutabilis, he found no microstructural difference in Zhao's original illustrations of M. rugustus and M. yaotunensis, but did not synonymize the oospecies because Chinese paleontologists considered them distinct.⁶³

History

See also: Timeline of egg fossil research

Discoveries

Macroolithus eggs were first discovered in Southern China by the pioneering Chinese paleontologist Yang Zhongjian. He described the remains of several fossil eggs from that region in 1965. Working prior to the advent of modern fossil egg parataxonomy, he gave them names as species of Oolithes,⁶⁴ a now-defunct name that was formerly used for various types of fossil eggs.⁶⁵⁶⁶ In 1975, Chinese paleontologist Zhao Zikui prototyped the modern parataxonomic system, creating a hierarchical system of oofamilies, oogenera, and oospecies. Zhao placed Yang's O. rugustus into the new oogenus, Macroolithus, splitting it into two oospecies, M. yaotunensis and M. rugustus. He also suggested that the American oospecies "Oolithes" carlylensis (which is now classified in a different elongatoolithid oogenus, Macroelongatoolithus⁶⁷) be recombined as Macroolithus carlylensis.⁶⁸

In 1991, the Russian paleontologist Konstantin Mikhailov introduced the modern classification of fossil eggs based on Zhao's parataxonomic naming system. He classified "O." carlylensis in the oofamily Spheroolithidae, but otherwise followed Zhao's 1975 classification of Macroolithus.⁶⁹ In 1994 he named M. mutabilis, a new oospecies of Macroolithus, based on remains discovered in Mongolia.⁷⁰

In 2000, a fourth oospecies, "M." turolensis, was described by Spanish paleontologists Olga Amo-Sanjuán, José Ignacio Canudo, and Gloria Cuenca-Bescós based on material from Spain. However, when new material of this oospecies was uncovered in 2014, it was moved into its own oogenus, Guegoolithus, which was furthermore moved to Spheroolithidae.⁷¹

In 2005, eggs possibly attributable to M. yaotunensis were discovered paired inside the pelvis of a fossil oviraptorid skeleton.⁷² In 2008, Chinese paleontologists Cheng Yen-nien, Ji Qiang, Wu Xiao-chun and Shan Hsi-yin discovered a pair of eggs representing the first in China to contain embryonic remains of oviraptorosaurs. Both eggs were referred to M. yaotunensis.⁷³ The fourth oospecies, M. lashuyuanensis, was described in 2009 by the Chinese paleontologists Fang Xiao-si, Li Pei-xian, Zhang Zhi-jun, Zhang Xian-qiu, Lin You-li, Guo Sheng-bin, Cheng Ye-ming, Li Zhen-yu, Zhang Xiao-jun and Cheng Zheng-wu.⁷⁴

Paleobiological interpretations

In 1994, Mikhailov suggested that Macroolithus represented the eggs of a large theropod, specifically Tarbosaurus, based on the large size of the eggs and the largely overlapping distribution.⁷⁵ However, the discovery of an oviraptorid embryo inside an elongatoolithid egg cast doubt on this hypothesis.⁷⁶ With the discovery of multiple oviraptorosaur-elongatoolithid associations in the late 1990s,⁷⁷ the eggs of elongatoolithids came to be accepted as belonging to oviraptorosaurian dinosaurs.⁷⁸ Oviraptorid parentage was confirmed for Macroolithus when, in 2008, oviraptorid embryos resembling Heyuannia were discovered inside a pair of M. yaotunensis eggs in Jiangxi.⁷⁹

Early on, paleontologists considered Macroolithus nests to have been buried. Mou 1992 noted the high gas conductance values in Macroolithus eggs and therefore concluded that they were laid in a very humid environment, buried underground or inside a mound.⁸⁰ Deeming (2006) found a similar result. This seems to contradict evidence that oviraptorosaurids brooded bird-like on their eggs, but Deeming suggested that Oviraptor buried its eggs in a mound and then Oviraptor and its relatives sat atop a nest mound to incubate, rather than directly contacting the eggs.⁸¹ However, Tanaka et al. (2015) criticized these results for lack of statistical rigor. They found, based on comparisons to modern eggs, that Macroolithus was predicted to be laid in open or partially covered nests.⁸² Wiemann et al. (2017) also criticized Mou and Deeming because they had only measured eggshell porosity at the middle section of the eggs and did not take into account the fact that the pore density is much lower near the poles. This would lead to an overestimate of the total eggshell porosity and therefore an overstimate of the gas conductance value.⁸³

The extinctions of Macroolithus and other eggs from Southern China have also had a history of different interpretations. In the 1990s, Chinese paleontologists, including the prominent egg specialist Zhao Zikui, observed a gradual reduction in dinosaur egg diversity during the final 200,000 to 300,000 years of the Cretaceous, with only Macroolithus ranging up to the boundary.⁸⁴⁸⁵ They postulated, contrary to the impact hypothesis, that the extinction was the result of a prolonged drought that increased the concentration of trace heavy metals, which adversely affected eggshell and embryo development of the dinosaurs causing the population to gradually decline and collapse.⁸⁶ Zhao et al. revised this hypothesis in 2002, postulating a gradual extinction of Macroolithus caused by the volcanism of the Deccan Traps.⁸⁷ In 2004, Buck et al. disputed this interpretation, arguing that the apparent gradual extinction was an illusion caused by reworking of sediments.⁸⁸ Zhao et al. (2009) maintained that the extinction event was gradual.⁸⁹

Distribution and paleoecology

Macroolithus is known from myriad Late Cretaceous locations in China, Mongolia, and Kazakhstan.⁹⁰

Henan

In Henan, Macroolithus yaotunensis coexists with the other elongatoolithids Elongatoolithus andrewsi and E. elongatus, as well as Ovaloolithus and Paraspheroolithus of the Hugang, the Luyemiao, and the Sigou Formations. These formations were formed during the Late Cretaceous in a lacustrine or palustrine environment. Dinosaur body fossils are rarely found in the same units, but troodontids, tyrannosaurs, and hadrosaurs are known from the same area.⁹¹

Shandong

Some eggs tentatively assigned to Macroolithus are known from the Wangshi Group in Laiyang, Shandong.⁹² The formations of the Wangshi Group were deposited in alluvial fans, braided channels and shallow lakes. Common fossils include hadrosaurids and dinosaur eggs.⁹³

Southern China

M. rugustus, M. yaotunensis, and M. lashuyuanensis are all known from the Nanxiong Basin in Guangdong.⁹⁴⁹⁵ This formation was deposited primary from streams, rivers, and lakes in that region.⁹⁶⁹⁷ It spans across the K/T boundary, at which point most of the dinosaur eggs disappear, but Macroolithus apparently exists on both sides of the boundary (which would imply that some species of dinosaurs survived into the early Tertiary).⁹⁸⁹⁹ However, sedimentological evidence suggests that these fossils were actually reworked by debris flows into the Tertiary rocks.¹⁰⁰

The Nanxiong Basin is known for its abundance of fossil eggs, predominantly the oviraptorisaurian¹⁰¹ eggs Elongatoolithus and Macroolithus.¹⁰² Other types of eggs include other elongatoolithids, as well as prismatoolithids, megaloolithids, and ovaloolithids.¹⁰³ Footprints show that Nanxiong Basin was populated by ornithopods, theropods, and possibly sauropods.¹⁰⁴

Southern China, particularly the Nanxiong Formation in Jiangxi Province, possibly has the greatest oviraptorosaur diversity in the world,¹⁰⁵ and also includes several associations of oviraptorosaurs with Macroolithus or similar eggs.^106107108 Titanosaurs and tyrannosaurids are also known from this area.¹⁰⁹ Non-dinosaur fauna includes lizards and the terrestrial nanhsiungchelyid turtles.¹¹⁰

Mongolia

Macroolithus rugustus is abundant in the Nemegt Formation, which dates to the late Campanian to early Maastrichtian.¹¹¹¹¹² This formation represents depositions of a meandering river.¹¹³ Well-preserved dinosaur remains are common in the Nemegt Formation,¹¹⁴ including oviraptorosaurs,¹¹⁵ titanosaurs,¹¹⁶ troodontids, tyrannosaurs, ankylosaurs,¹¹⁷ pachycephalosaurs,¹¹⁸ hadrosaurs,¹¹⁹ ornithomimosaurs, alvarezsaurs,¹²⁰ and therizinosaurs.¹²¹ Remains of small animals are relatively rare, but several types of birds are known from Nemegt,¹²² as well as several types of multituberculate mammals.¹²³ Other fossil eggs from the Nemegt Formation include Ovaloolithus, Spheroolithus, Elongatoolithus, and Laevisoolithus.¹²⁴

M. mutabilis is known solely at the Ikh-Shunkht locality from the Barun Goyot Formation, dating from the Santonian to Campanian.¹²⁵¹²⁶ M. rugustus is also known from the Barun Goyot Formation, which represents a sand-dune filled eolian environment. Compared to the Nemegt Formation, large dinosaurs are rare at Barun Goyot, where the fauna is dominated by protoceratopsids, oviraptorids, and ankylosaurids.¹²⁷ Other types of fossil eggs from the Barun Goyot Formation include Protoceratopsidovum, Gobioolithus, Faveoloolithus, Dendroolithus, Spheroolithus, and Subtiliolithus.¹²⁸

Kazakhstan

M. rugustus has also been found in the Manrak Formation (also called Manrakskaya Svita) of the Zaisan Basin in the East Kazakhstan Region. This formation is near to the Tayzhuzgen River, and dates to some time in the late Cretaceous, probably the Maastrictian.^129130131132

See also

• Dinosaurs portal
• Paleontology portal

• List of dinosaur oogenera
• Paleontology in China
• Dinosaur reproduction

References

1. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

2. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

3. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

4. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

5. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

6. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

7. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

8. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

9. Young, Chung-chien (1965). "Fossil eggs from Nanhsiung, Kwangtun and Kanchou, Kiangsi" (PDF). Vertebrata PalAsiatica. 9 (2): 141–170. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200912/P020091223559165777170.pdf ↩

10. Mikhailov, Konstantin (2000). "Eggs and eggshells of dinosaurs and birds from the Cretaceous of Mongolia". In Benton, M.J.; Shishkin, M.A.; Unwin, D.M.; Kurochkin, E.N. (eds.). The Age of Dinosaurs in Russia and Mongolia. Cambridge University Press. pp. 560–572. ↩

11. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

12. Carpenter, K. (1999). Eggs, Nests, and Baby Dinosaurs: A Look at Dinosaur Reproduction. Indiana University Press. pp. 294–295. ISBN 9780253334978. 9780253334978 ↩

13. Carpenter, Kenneth (1999). "How to Study a Fossil Egg". Eggs, Nests, and Baby Dinosaurs: A Look at Dinosaur Reproduction (Life of the Past). Bloomington, Indiana: Indiana University Press. pp. 122–144. ISBN 978-0-253-33497-8. 978-0-253-33497-8 ↩

14. Liang, Xinquan; Wan, Shunü; Yang, Dongsheng; Zhou, Shiquan; Wu, Shichong (2009). "Dinosaur eggs and dinosaur egg-bearing deposits (Upper Cretaceous) of Henan Province, China: Occurrences, palaeoenvironments, taphonomy and preservation". Progress in Natural Science. 19 (11): 1587–1601. doi:10.1016/j.pnsc.2009.06.012. https://doi.org/10.1016%2Fj.pnsc.2009.06.012 ↩

15. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

16. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

17. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

18. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

19. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

20. Fang, Xiaosi; Li, Peixian; Zhang, Zhijun; Lin, Youli; Guo, Shengbin; Cheng, Yeming; Li, Zhenyu; Zhang, Xiaojun; Cheng, Zhengwu (2009). "广东南雄白垩系及恐龙蛋到鸟蛋演化研究" [Cretaceous Strata in Nanxiong Basin of Guangdong and the Evolution from the Dinosaur Egg to the Bird Egg]. Acta Geoscientia Sinica (in Chinese). 30 (2): 167–186. ↩

21. Wiemann, Jasmina; Yang, Tzu-Ruei; Sander, Philipp N.; Schneider, Marion; Engeser, Marianne; Kath-Schorr, Stephanie; Müller, Christa E.; Sander, Martin P. (2017). "Dinosaur origin of egg color: oviraptors laid blue-green eggs". PeerJ. 5 (e3706): e3706. doi:10.7717/peerj.3706. PMC 5580385. PMID 28875070. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5580385 ↩

22. Banay, G.L. (1948). "An introduction to medical terminology i. Greek and Latin derivations". Bulletin of the Medical Library Association. 36 (1): 763–769. PMC 194697. PMID 16016791. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC194697 ↩

23. Mikhailov, Konstantin E.; Bray, Emily S.; Hirsch, Karl F. (1996). "Parataxonomy of fossil eggs remains (Veterovata): Principles and applications". Journal of Vertebrate Paleontology. 16 (4): 763–769. doi:10.1080/02724634.1996.10011364. /wiki/Doi_(identifier) ↩

24. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

25. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

26. Fang, Xiaosi; Li, Peixian; Zhang, Zhijun; Lin, Youli; Guo, Shengbin; Cheng, Yeming; Li, Zhenyu; Zhang, Xiaojun; Cheng, Zhengwu (2009). "广东南雄白垩系及恐龙蛋到鸟蛋演化研究" [Cretaceous Strata in Nanxiong Basin of Guangdong and the Evolution from the Dinosaur Egg to the Bird Egg]. Acta Geoscientia Sinica (in Chinese). 30 (2): 167–186. ↩

27. White, John Tahourdin (1858). Latin suffixes. London: Spottiswoode and Co. p. 80. ensis latin root. https://archive.org/details/latinsuffixes01whitgoog ↩

28. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

29. Young, Chung-chien (1965). "Fossil eggs from Nanhsiung, Kwangtun and Kanchou, Kiangsi" (PDF). Vertebrata PalAsiatica. 9 (2): 141–170. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200912/P020091223559165777170.pdf ↩

30. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

31. Wang, Shuo; Zhang, Shukang; Sullivan, Corwin; Xu, Xing (2016). "Elongatoolithid eggs containing oviraptorid (Theropoda, Oviraptorosauria) embryos from the Upper Cretaceous of Southern China". BMC Evolutionary Biology. 16 (67): 67. doi:10.1186/s12862-016-0633-0. PMC 4807547. PMID 27012653. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4807547 ↩

32. Sato, Tamaki; Cheng, Yen-nien; Wu, Xiao-chun; Zelenitsky, Darla; Hsiao, Yu-fu (2005). "A Pair of Shelled Eggs Inside A Female Dinosaur" (PDF). Science. 308 (5720): 375. doi:10.1126/science.1110578. PMID 15831749. S2CID 19470371. http://doc.rero.ch/record/14893/files/PAL_E2034.pdf ↩

33. Fanti, F; Currie, PJ; Badamgarav, D (2012). "New Specimens of Nemegtomaia from the Baruungoyot and Nemegt Formations (Late Cretaceous) of Mongolia". PLOS ONE. 7 (2): e31330. Bibcode:2012PLoSO...731330F. doi:10.1371/journal.pone.0031330. PMC 3275628. PMID 22347465. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3275628 ↩

34. Varricchio, David J.; Moore, Jason R.; Erickson, Gregory M.; Norell, Mark A.; Jackson, Frankie D.; Borkowski, John J. (2008). "Avian Paternal Care Had Dinosaur Origin". Science. 322 (5909): 1826–1827. Bibcode:2008Sci...322.1826V. doi:10.1126/science.1163245. PMID 19095938. /wiki/Bibcode_(identifier) ↩

35. Wiemann, Jasmina; Yang, Tzu-Ruei; Sander, Philipp N.; Schneider, Marion; Engeser, Marianne; Kath-Schorr, Stephanie; Müller, Christa E.; Sander, Martin P. (2017). "Dinosaur origin of egg color: oviraptors laid blue-green eggs". PeerJ. 5 (e3706): e3706. doi:10.7717/peerj.3706. PMC 5580385. PMID 28875070. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5580385 ↩

36. Sato, Tamaki; Cheng, Yen-nien; Wu, Xiao-chun; Zelenitsky, Darla; Hsiao, Yu-fu (2005). "A Pair of Shelled Eggs Inside A Female Dinosaur" (PDF). Science. 308 (5720): 375. doi:10.1126/science.1110578. PMID 15831749. S2CID 19470371. http://doc.rero.ch/record/14893/files/PAL_E2034.pdf ↩

37. Varricchio, David J.; Moore, Jason R.; Erickson, Gregory M.; Norell, Mark A.; Jackson, Frankie D.; Borkowski, John J. (2008). "Avian Paternal Care Had Dinosaur Origin". Science. 322 (5909): 1826–1827. Bibcode:2008Sci...322.1826V. doi:10.1126/science.1163245. PMID 19095938. /wiki/Bibcode_(identifier) ↩

38. Young, Chung-chien (1965). "Fossil eggs from Nanhsiung, Kwangtun and Kanchou, Kiangsi" (PDF). Vertebrata PalAsiatica. 9 (2): 141–170. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200912/P020091223559165777170.pdf ↩

39. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

40. Young, Chung-chien (1965). "Fossil eggs from Nanhsiung, Kwangtun and Kanchou, Kiangsi" (PDF). Vertebrata PalAsiatica. 9 (2): 141–170. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200912/P020091223559165777170.pdf ↩

41. Tanaka, Kohei; Zelenitsky, Darla K.; Therrien, François (2015). "Eggshell Porosity Provides Insight on Evolution of Nesting in Dinosaurs". PLOS ONE. 10 (11): e0142829. Bibcode:2015PLoSO..1042829T. doi:10.1371/journal.pone.0142829. PMC 4659668. PMID 26605799. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4659668 ↩

42. Wiemann, Jasmina; Yang, Tzu-Ruei; Sander, Philipp N.; Schneider, Marion; Engeser, Marianne; Kath-Schorr, Stephanie; Müller, Christa E.; Sander, Martin P. (2017). "Dinosaur origin of egg color: oviraptors laid blue-green eggs". PeerJ. 5 (e3706): e3706. doi:10.7717/peerj.3706. PMC 5580385. PMID 28875070. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5580385 ↩

43. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

44. Cheng, Yen-nien; Ji, Qiang; Wu, Xiao-chun; Shan, Hsi-y (2008). "Oviraptorosaurian Eggs (Dinosauria) with Embryonic Skeletons Discovered for the First Time in China". Acta Geologica Sinica. 82 (6): 1089–1094. doi:10.1111/j.1755-6724.2008.tb00708.x. S2CID 140202077. /wiki/Doi_(identifier) ↩

45. Cheng, Yen-nien; Ji, Qiang; Wu, Xiao-chun; Shan, Hsi-y (2008). "Oviraptorosaurian Eggs (Dinosauria) with Embryonic Skeletons Discovered for the First Time in China". Acta Geologica Sinica. 82 (6): 1089–1094. doi:10.1111/j.1755-6724.2008.tb00708.x. S2CID 140202077. /wiki/Doi_(identifier) ↩

46. Wang, Shuo; Zhang, Shukang; Sullivan, Corwin; Xu, Xing (2016). "Elongatoolithid eggs containing oviraptorid (Theropoda, Oviraptorosauria) embryos from the Upper Cretaceous of Southern China". BMC Evolutionary Biology. 16 (67): 67. doi:10.1186/s12862-016-0633-0. PMC 4807547. PMID 27012653. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4807547 ↩

47. Zhao, Zi-kui (1994). "Dinosaur eggs in China: On the structure and evolution of eggshells". In Carpenter, Kenneth; Hirsch, Karl F.; Horner, John R. (eds.). Dinosaur Eggs and Babies. Cambridge University Press. pp. 184–203. ISBN 978-0-521-44342-5. 978-0-521-44342-5 ↩

48. Zhao, Zi-kui (1994). "Dinosaur eggs in China: On the structure and evolution of eggshells". In Carpenter, Kenneth; Hirsch, Karl F.; Horner, John R. (eds.). Dinosaur Eggs and Babies. Cambridge University Press. pp. 184–203. ISBN 978-0-521-44342-5. 978-0-521-44342-5 ↩

49. Wang, Shuo; Zhang, Shukang; Sullivan, Corwin; Xu, Xing (2016). "Elongatoolithid eggs containing oviraptorid (Theropoda, Oviraptorosauria) embryos from the Upper Cretaceous of Southern China". BMC Evolutionary Biology. 16 (67): 67. doi:10.1186/s12862-016-0633-0. PMC 4807547. PMID 27012653. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4807547 ↩

50. Zhao, Zi-kui (1994). "Dinosaur eggs in China: On the structure and evolution of eggshells". In Carpenter, Kenneth; Hirsch, Karl F.; Horner, John R. (eds.). Dinosaur Eggs and Babies. Cambridge University Press. pp. 184–203. ISBN 978-0-521-44342-5. 978-0-521-44342-5 ↩

51. Wang, Shuo; Zhang, Shukang; Sullivan, Corwin; Xu, Xing (2016). "Elongatoolithid eggs containing oviraptorid (Theropoda, Oviraptorosauria) embryos from the Upper Cretaceous of Southern China". BMC Evolutionary Biology. 16 (67): 67. doi:10.1186/s12862-016-0633-0. PMC 4807547. PMID 27012653. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4807547 ↩

52. Zhao, Zikui; Mao, Xueming; Chai, Zhifang; Yang, Gaochuang; Kong, Ping; Ebihara, Mitsuru; Zhao, Zhenhua (2002). "A possible causal relationship between extinction of dinosaurs and K/T iridium enrichment in the Nanxiong Basin, South China: evidence from dinosaur eggshells". Palaeogeography, Palaeoclimatology, Palaeoecology. 178 (1–2): 1–17. Bibcode:2002PPP...178....1Z. doi:10.1016/S0031-0182(01)00361-3. /wiki/Bibcode_(identifier) ↩

53. Zhao, Zikui; Mao, Xueying; Chai, Zhifang; Yang, Gaochuang; Zhang, Fucheng; Yan, Zheng (2009). "Geochemical environmental changes and dinosaur extinction during the Cretaceous-Paleogene (K/T) transition in the Nanxiong Basin, South China: Evidence from dinosaur eggshells". Chinese Science Bulletin. 54 (5): 806. Bibcode:2009SciBu..54..806Z. doi:10.1007/s11434-008-0565-1. /wiki/Bibcode_(identifier) ↩

54. Wang, Qiang; Wang, Xiaolin; Zhao, Zikui (2010). "Recent Progress in the Study of Dinosaur Eggs in China" (PDF). Bulletin of the Chinese Academy of Sciences. 24 (2): 95–97. Archived from the original (PDF) on 2017-01-09. Retrieved 2017-01-08. https://web.archive.org/web/20170109113726/http://english.cas.cn/bcas/2010_2/201411/P020141121535002835194.pdf ↩

55. Buck, Brenda J.; Hanson, Andrew D.; Hengst, Richard A.; Hu, Shu-sheng (2004). ""Tertiary Dinosaurs" in the Nanxiong Basin, Southern China, Are Reworked from the Cretaceous". Journal of Geology. 112 (1): 111–118. Bibcode:2004JG....112..111B. doi:10.1086/379695. S2CID 12866840. /wiki/Bibcode_(identifier) ↩

56. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

57. Varricctio, David J.; Barta, Daniel E. (2015). "Revistiting Sabath's "Larger Avian Eggs" from the Gobi Cretaceous". Acta Palaeontologica Polonica. 60 (1): 11–25. doi:10.4202/app.00085.2014. https://doi.org/10.4202%2Fapp.00085.2014 ↩

58. Garcia, Geraldine; Marivaux, Laurent; Pélissié, Thierry; Vianey-Liaud, Monique (2006). "Earliest Laurisian sauropod eggshell" (PDF). Acta Palaeontologica Polonica. 51 (1): 99–104. https://www.app.pan.pl/archive/published/app51/app51-099.pdf ↩

59. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

60. Moreno-Azanza, M.; Canudo, J.I.; Gasca, J.M. (2014). "Spheroolithid eggshells in the Lower Cretaceous of Europe. Implications for eggshell evolution in ornithischian dinosaurs" (PDF). Cretaceous Research. 51: 75–87. doi:10.1016/j.cretres.2014.05.017. https://www.researchgate.net/publication/263507846 ↩

61. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

62. Wang, Shuo; Zhang, Shukang; Sullivan, Corwin; Xu, Xing (2016). "Elongatoolithid eggs containing oviraptorid (Theropoda, Oviraptorosauria) embryos from the Upper Cretaceous of Southern China". BMC Evolutionary Biology. 16 (67): 67. doi:10.1186/s12862-016-0633-0. PMC 4807547. PMID 27012653. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4807547 ↩

63. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

64. Young, Chung-chien (1965). "Fossil eggs from Nanhsiung, Kwangtun and Kanchou, Kiangsi" (PDF). Vertebrata PalAsiatica. 9 (2): 141–170. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200912/P020091223559165777170.pdf ↩

65. Lawver, Daniel R.; Jackson, Frankie D. (2015). "A Review of the Fossil Record of Turtle Reproduction: Eggs, Embryos, Nests and Copulating Pairs" (PDF). Bulletin of the Peabody Museum of Natural History. 55 (2): 215–236. doi:10.3374/014.055.0210. S2CID 86502368. http://scholarworks.montana.edu/xmlui/bitstream/handle/1/9308/Lawver_Jackson_BPMNH_10_2014_A1b.pdf?sequence=1 ↩

66. Vianey-Liaud, Monique; Zelenitsky, Darla (2003). "Historical and new perspectives on the parataxonomy of fossil eggs". Paleovertebrata. 32 (2–4): 189–195. ↩

67. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

68. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

69. Mikhailov, Konstantin E. (1991). "Classification of Fossil Eggshells of Amniotic Vertebrates" (PDF). Acta Palaeontologica Polonica. 36 (2): 193–238. https://www.app.pan.pl/archive/published/app36/app36-193.pdf ↩

70. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

71. Moreno-Azanza, M.; Canudo, J.I.; Gasca, J.M. (2014). "Spheroolithid eggshells in the Lower Cretaceous of Europe. Implications for eggshell evolution in ornithischian dinosaurs" (PDF). Cretaceous Research. 51: 75–87. doi:10.1016/j.cretres.2014.05.017. https://www.researchgate.net/publication/263507846 ↩

72. Sato, Tamaki; Cheng, Yen-nien; Wu, Xiao-chun; Zelenitsky, Darla; Hsiao, Yu-fu (2005). "A Pair of Shelled Eggs Inside A Female Dinosaur" (PDF). Science. 308 (5720): 375. doi:10.1126/science.1110578. PMID 15831749. S2CID 19470371. http://doc.rero.ch/record/14893/files/PAL_E2034.pdf ↩

73. Cheng, Yen-nien; Ji, Qiang; Wu, Xiao-chun; Shan, Hsi-y (2008). "Oviraptorosaurian Eggs (Dinosauria) with Embryonic Skeletons Discovered for the First Time in China". Acta Geologica Sinica. 82 (6): 1089–1094. doi:10.1111/j.1755-6724.2008.tb00708.x. S2CID 140202077. /wiki/Doi_(identifier) ↩

74. Fang, Xiaosi; Li, Peixian; Zhang, Zhijun; Lin, Youli; Guo, Shengbin; Cheng, Yeming; Li, Zhenyu; Zhang, Xiaojun; Cheng, Zhengwu (2009). "广东南雄白垩系及恐龙蛋到鸟蛋演化研究" [Cretaceous Strata in Nanxiong Basin of Guangdong and the Evolution from the Dinosaur Egg to the Bird Egg]. Acta Geoscientia Sinica (in Chinese). 30 (2): 167–186. ↩

75. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

76. Mikhailov, K.E. (1997). "Fossil and Recent Eggshell in Amniotic Vertebrates: Fine Structure, Comparative Morphology and Classification". Special Papers in Palaeontology. 56: 64. https://www.researchgate.net/publication/287876162 ↩

77. Zelenitsky, Darla K.; Carpenter, Kenneth; Currie, Philip J. (2000). "First Record of Elongatoolithus Theropod Eggshell from North America: The Asian oogenus Macroelongatoolithus from the lower Cretaceous of Utah". Journal of Vertebrate Paleontology. 20 (1): 130–138. doi:10.1671/0272-4634(2000)020[0130:FROETE]2.0.CO;2. S2CID 86090590. /wiki/Doi_(identifier) ↩

78. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

79. Cheng, Yen-nien; Ji, Qiang; Wu, Xiao-chun; Shan, Hsi-y (2008). "Oviraptorosaurian Eggs (Dinosauria) with Embryonic Skeletons Discovered for the First Time in China". Acta Geologica Sinica. 82 (6): 1089–1094. doi:10.1111/j.1755-6724.2008.tb00708.x. S2CID 140202077. /wiki/Doi_(identifier) ↩

80. Mou, Yun (1992). "Nest Environments of the Late Cretaceous Dinosaur eggs from Nanxiong Basin, Guangdong Province" (PDF). Vertebrata PalAsiatica. 30 (2): 120–134. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200812/W020090813371003110009.pdf ↩

81. Deeming, D.C. (2006). "Ultrastructural and Functional Morphology of Eggshells Supports the Idea that Dinosaur Eggs were Incubated Buried in a Substrate". Palaeontology. 49 (1): 171–185. doi:10.1111/j.1475-4983.2005.00536.x. https://doi.org/10.1111%2Fj.1475-4983.2005.00536.x ↩

82. Tanaka, Kohei; Zelenitsky, Darla K.; Therrien, François (2015). "Eggshell Porosity Provides Insight on Evolution of Nesting in Dinosaurs". PLOS ONE. 10 (11): e0142829. Bibcode:2015PLoSO..1042829T. doi:10.1371/journal.pone.0142829. PMC 4659668. PMID 26605799. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4659668 ↩

83. Wiemann, Jasmina; Yang, Tzu-Ruei; Sander, Philipp N.; Schneider, Marion; Engeser, Marianne; Kath-Schorr, Stephanie; Müller, Christa E.; Sander, Martin P. (2017). "Dinosaur origin of egg color: oviraptors laid blue-green eggs". PeerJ. 5 (e3706): e3706. doi:10.7717/peerj.3706. PMC 5580385. PMID 28875070. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5580385 ↩

84. Zhao, Zi-kui (1994). "Dinosaur eggs in China: On the structure and evolution of eggshells". In Carpenter, Kenneth; Hirsch, Karl F.; Horner, John R. (eds.). Dinosaur Eggs and Babies. Cambridge University Press. pp. 184–203. ISBN 978-0-521-44342-5. 978-0-521-44342-5 ↩

85. Zhao, Zikui; Ye, Jie; Li, Huamei; Zhao, Zhenhua; Yan, Zheng (1991). "Extinction of the dinosaurs across the Cretaceous-Tertiary Boundary in Nanxiong Basin, Guangdong Province" (PDF). Acta Paleontologica Sinica. 29 (1): 1–20. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200812/W020090813371326742778.pdf ↩

86. Zhao, Zikui; Ye, Jie; Li, Huamei; Zhao, Zhenhua; Yan, Zheng (1991). "Extinction of the dinosaurs across the Cretaceous-Tertiary Boundary in Nanxiong Basin, Guangdong Province" (PDF). Acta Paleontologica Sinica. 29 (1): 1–20. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200812/W020090813371326742778.pdf ↩

87. Zhao, Zikui; Mao, Xueming; Chai, Zhifang; Yang, Gaochuang; Kong, Ping; Ebihara, Mitsuru; Zhao, Zhenhua (2002). "A possible causal relationship between extinction of dinosaurs and K/T iridium enrichment in the Nanxiong Basin, South China: evidence from dinosaur eggshells". Palaeogeography, Palaeoclimatology, Palaeoecology. 178 (1–2): 1–17. Bibcode:2002PPP...178....1Z. doi:10.1016/S0031-0182(01)00361-3. /wiki/Bibcode_(identifier) ↩

88. Buck, Brenda J.; Hanson, Andrew D.; Hengst, Richard A.; Hu, Shu-sheng (2004). ""Tertiary Dinosaurs" in the Nanxiong Basin, Southern China, Are Reworked from the Cretaceous". Journal of Geology. 112 (1): 111–118. Bibcode:2004JG....112..111B. doi:10.1086/379695. S2CID 12866840. /wiki/Bibcode_(identifier) ↩

89. Zhao, Zikui; Mao, Xueying; Chai, Zhifang; Yang, Gaochuang; Zhang, Fucheng; Yan, Zheng (2009). "Geochemical environmental changes and dinosaur extinction during the Cretaceous-Paleogene (K/T) transition in the Nanxiong Basin, South China: Evidence from dinosaur eggshells". Chinese Science Bulletin. 54 (5): 806. Bibcode:2009SciBu..54..806Z. doi:10.1007/s11434-008-0565-1. /wiki/Bibcode_(identifier) ↩

90. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

91. Liang, Xinquan; Wan, Shunü; Yang, Dongsheng; Zhou, Shiquan; Wu, Shichong (2009). "Dinosaur eggs and dinosaur egg-bearing deposits (Upper Cretaceous) of Henan Province, China: Occurrences, palaeoenvironments, taphonomy and preservation". Progress in Natural Science. 19 (11): 1587–1601. doi:10.1016/j.pnsc.2009.06.012. https://doi.org/10.1016%2Fj.pnsc.2009.06.012 ↩

92. Zhao, Zikui (1979). "Progress in the Research of Dinosaur Eggs" (PDF). Mesozoic and Cenozoic Red Beds of South China. Selected Papers from the "Cretaceous-Tertiary Workshop," Nanxiong, Guangdong Province: 330–340. http://paleoglot.org/files/zhao_79.pdf ↩

93. Wang, Qiang; Wang, Xiaolin; Zhao, Zikui; Zhang, Jialiang; Jiang, Shunxing (2013). "New turtle egg fossil from the Upper Cretaceous of the Laiyang Basin, Shandong Province, China". Anais da Academia Brasileira de Ciências. 85 (1): 103–111. doi:10.1590/S0001-37652013000100008. PMID 23538955. https://doi.org/10.1590%2FS0001-37652013000100008 ↩

94. Zhao, Zikui (1975). "The microstructure of the dinosaurian eggshells of Nanxiong, Guangdong Province—on the classification of dinosaur eggs" (PDF). Vertebrata PalAsiatica. 13 (2): 105–117. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200905/W020090813377364004471.pdf ↩

95. Fang, Xiaosi; Li, Peixian; Zhang, Zhijun; Lin, Youli; Guo, Shengbin; Cheng, Yeming; Li, Zhenyu; Zhang, Xiaojun; Cheng, Zhengwu (2009). "广东南雄白垩系及恐龙蛋到鸟蛋演化研究" [Cretaceous Strata in Nanxiong Basin of Guangdong and the Evolution from the Dinosaur Egg to the Bird Egg]. Acta Geoscientia Sinica (in Chinese). 30 (2): 167–186. ↩

96. Zhao, Zikui; Mao, Xueming; Chai, Zhifang; Yang, Gaochuang; Kong, Ping; Ebihara, Mitsuru; Zhao, Zhenhua (2002). "A possible causal relationship between extinction of dinosaurs and K/T iridium enrichment in the Nanxiong Basin, South China: evidence from dinosaur eggshells". Palaeogeography, Palaeoclimatology, Palaeoecology. 178 (1–2): 1–17. Bibcode:2002PPP...178....1Z. doi:10.1016/S0031-0182(01)00361-3. /wiki/Bibcode_(identifier) ↩

97. Zhao, Zikui; Ye, Jie; Li, Huamei; Zhao, Zhenhua; Yan, Zheng (1991). "Extinction of the dinosaurs across the Cretaceous-Tertiary Boundary in Nanxiong Basin, Guangdong Province" (PDF). Acta Paleontologica Sinica. 29 (1): 1–20. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/200812/W020090813371326742778.pdf ↩

98. Zhao, Zikui; Mao, Xueming; Chai, Zhifang; Yang, Gaochuang; Kong, Ping; Ebihara, Mitsuru; Zhao, Zhenhua (2002). "A possible causal relationship between extinction of dinosaurs and K/T iridium enrichment in the Nanxiong Basin, South China: evidence from dinosaur eggshells". Palaeogeography, Palaeoclimatology, Palaeoecology. 178 (1–2): 1–17. Bibcode:2002PPP...178....1Z. doi:10.1016/S0031-0182(01)00361-3. /wiki/Bibcode_(identifier) ↩

99. Zhao, Zikui; Mao, Xueying; Chai, Zhifang; Yang, Gaochuang; Zhang, Fucheng; Yan, Zheng (2009). "Geochemical environmental changes and dinosaur extinction during the Cretaceous-Paleogene (K/T) transition in the Nanxiong Basin, South China: Evidence from dinosaur eggshells". Chinese Science Bulletin. 54 (5): 806. Bibcode:2009SciBu..54..806Z. doi:10.1007/s11434-008-0565-1. /wiki/Bibcode_(identifier) ↩

100. Buck, Brenda J.; Hanson, Andrew D.; Hengst, Richard A.; Hu, Shu-sheng (2004). ""Tertiary Dinosaurs" in the Nanxiong Basin, Southern China, Are Reworked from the Cretaceous". Journal of Geology. 112 (1): 111–118. Bibcode:2004JG....112..111B. doi:10.1086/379695. S2CID 12866840. /wiki/Bibcode_(identifier) ↩

101. Simon, D. J. (2014). "Giant Dinosaur (theropod) Eggs of the Oogenus Macroelongatoolithus (Elongatoolithidae) from Southeastern Idaho: Taxonomic, Paleobiogeographic, and Reproductive Implications. Archived 2016-03-04 at the Wayback Machine" (Doctoral dissertation, Montana State University, Bozeman). http://scholarworks.montana.edu/xmlui/bitstream/handle/1/8693/SimonD0814.pdf?sequence=1 ↩

102. Zhao, Zikui; Mao, Xueming; Chai, Zhifang; Yang, Gaochuang; Kong, Ping; Ebihara, Mitsuru; Zhao, Zhenhua (2002). "A possible causal relationship between extinction of dinosaurs and K/T iridium enrichment in the Nanxiong Basin, South China: evidence from dinosaur eggshells". Palaeogeography, Palaeoclimatology, Palaeoecology. 178 (1–2): 1–17. Bibcode:2002PPP...178....1Z. doi:10.1016/S0031-0182(01)00361-3. /wiki/Bibcode_(identifier) ↩

103. Zhao, Zikui; Mao, Xueying; Chai, Zhifang; Yang, Gaochuang; Zhang, Fucheng; Yan, Zheng (2009). "Geochemical environmental changes and dinosaur extinction during the Cretaceous-Paleogene (K/T) transition in the Nanxiong Basin, South China: Evidence from dinosaur eggshells". Chinese Science Bulletin. 54 (5): 806. Bibcode:2009SciBu..54..806Z. doi:10.1007/s11434-008-0565-1. /wiki/Bibcode_(identifier) ↩

104. Xing, Lida; Harris, Jerald D; Dong, Zhiming; Lin, Youli; Chen, Wei; Guo, Shengbin; Ji, Qiang (2009). "Ornithopod (Dinosauria: Ornithischia) tracks from the Upper Cretaceous Zhutian Formation in the Nanxiong basin, Guangdong, China and general observations on large Chinese ornithopd footprints" (PDF). Geological Bulletin of China. 28 (7): 829–843. http://www.xinglida.net/pdf/Xing%20et%20al%202009-Hadrosauropodus%20nanxiongensis%20from%20Nanxiong%20Basin.pdf ↩

105. Lü, Junchang; Pu, Hanyong; Kobayashi, Yoshitsugu; Xu, Li; Chang, Huali; Shang, Yuhua; Liu, Di; Lee, Yuong-Nam; Kundrát, Martin; Shen, Caizhi (2015). "A New Oviraptorid Dinosaur (Dinosauria: Oviraptorosauria) from the Late Cretaceous of Southern China and Its Paleobiogeographical Implications". Scientific Reports. 5: 11490. Bibcode:2015NatSR...511490L. doi:10.1038/srep11490. PMC 4489096. PMID 26133245. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4489096 ↩

106. Cheng, Yen-nien; Ji, Qiang; Wu, Xiao-chun; Shan, Hsi-y (2008). "Oviraptorosaurian Eggs (Dinosauria) with Embryonic Skeletons Discovered for the First Time in China". Acta Geologica Sinica. 82 (6): 1089–1094. doi:10.1111/j.1755-6724.2008.tb00708.x. S2CID 140202077. /wiki/Doi_(identifier) ↩

107. Sato, Tamaki; Cheng, Yen-nien; Wu, Xiao-chun; Zelenitsky, Darla; Hsiao, Yu-fu (2005). "A Pair of Shelled Eggs Inside A Female Dinosaur" (PDF). Science. 308 (5720): 375. doi:10.1126/science.1110578. PMID 15831749. S2CID 19470371. http://doc.rero.ch/record/14893/files/PAL_E2034.pdf ↩

108. Wang, Shuo; Zhang, Shukang; Sullivan, Corwin; Xu, Xing (2016). "Elongatoolithid eggs containing oviraptorid (Theropoda, Oviraptorosauria) embryos from the Upper Cretaceous of Southern China". BMC Evolutionary Biology. 16 (67): 67. doi:10.1186/s12862-016-0633-0. PMC 4807547. PMID 27012653. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4807547 ↩

109. Wang, Shuo; Zhang, Shukang; Sullivan, Corwin; Xu, Xing (2016). "Elongatoolithid eggs containing oviraptorid (Theropoda, Oviraptorosauria) embryos from the Upper Cretaceous of Southern China". BMC Evolutionary Biology. 16 (67): 67. doi:10.1186/s12862-016-0633-0. PMC 4807547. PMID 27012653. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4807547 ↩

110. Tong, Haiyan; Mo, Jinyou (2010). "Jiangxichelys, a new nanhsiungchelyid turtle from the Late Cretaceous of Ganzhou, Jiangxi Province, China". Geological Magazine. 147 (6): 981–986. Bibcode:2010GeoM..147..981T. doi:10.1017/S0016756810000671. S2CID 131484464. /wiki/Bibcode_(identifier) ↩

111. Mikhailov, Konstantin (1995). "Systematic, Faunistic and Stratigraphical Diversity of Cretaceous Eggs in Mongolia: Comparison with China". Sixth Symposium on Mesozoic Terrestrial Ecosystems and Biota, Short Papers: 165–168. https://www.researchgate.net/publication/281406429 ↩

112. Weishampel, David B.; Fastovsky, David E.; Watabe, Mahito; Varricchio, David; Jackson, Frankie; Tsogtbaatar, Khishigjav; Barsbold, Rinchen (2008). "New Oviraptorid Embryoes from Bugin Tsav, Nemegt Formation (Upper Cretaceous), Mongolia, with Insights into Their Habitat and Crowth". Journal of Vertebrate Paleontology. 28 (4): 1110–1119. doi:10.1671/0272-4634-28.4.1110. S2CID 84712926. /wiki/Doi_(identifier) ↩

113. Weishampel, David B.; Fastovsky, David E.; Watabe, Mahito; Varricchio, David; Jackson, Frankie; Tsogtbaatar, Khishigjav; Barsbold, Rinchen (2008). "New Oviraptorid Embryoes from Bugin Tsav, Nemegt Formation (Upper Cretaceous), Mongolia, with Insights into Their Habitat and Crowth". Journal of Vertebrate Paleontology. 28 (4): 1110–1119. doi:10.1671/0272-4634-28.4.1110. S2CID 84712926. /wiki/Doi_(identifier) ↩

114. Clarke, Julia A.; Norell, Mark A. (2004). "New Avialan Remains and a Review of the Known Avifauna from the Late Cretaceous Nemegt Formation of Mongolia". American Museum Novitates (3447): 1–12. doi:10.1206/0003-0082(2004)447<0001:NARAAR>2.0.CO;2. hdl:2246/2812. S2CID 55687019. https://zenodo.org/record/4735079 ↩

115. Weishampel, David B.; Fastovsky, David E.; Watabe, Mahito; Varricchio, David; Jackson, Frankie; Tsogtbaatar, Khishigjav; Barsbold, Rinchen (2008). "New Oviraptorid Embryoes from Bugin Tsav, Nemegt Formation (Upper Cretaceous), Mongolia, with Insights into Their Habitat and Crowth". Journal of Vertebrate Paleontology. 28 (4): 1110–1119. doi:10.1671/0272-4634-28.4.1110. S2CID 84712926. /wiki/Doi_(identifier) ↩

116. Wilson, Jeffrey A. (2005). "Redescription of the Mongolian Sauropod Nemegrosaurus mongoliensis Nowinski (Dinosauria: Saurischia) and comments on Late Cretaceous Sauropod diversity". Journal of Systematic Palaeontology. 3 (3): 283–318. doi:10.1017/S1477201905001628. S2CID 54070651. /wiki/Doi_(identifier) ↩

117. Arbour, Victoria M.; Currie, Philip J.; Badamgarav, Demchig (2014). "The ankylosaurid dinosaurs of the Upper Cretaceous Baruungoyot and Nemegt formations of Mongolia". Zoological Journal of the Linnean Society. 172 (3): 631–652. doi:10.1111/zoj.12185. /wiki/Doi_(identifier) ↩

118. Evans, David C.; Brown, Caled Marshall; Ryan, Michael J.; Tsogtbaatar, Khishigjav (2011). "Cranial Ornamentation and Ontogenetic Status of Homalocephale calathocercos (Ornithischia: Pachycephalosauria) from the Nemegt Formation, Mongolia". Journal of Vertebrate Paleontology. 31 (1): 84–92. doi:10.1080/02724634.2011.546287. S2CID 84908604. /wiki/Doi_(identifier) ↩

119. Maryanska, Teresa; Osmolska, Halszka (1982). "Firth Lambeosaurine Dinosaur from the Nemegt Formation, Upper Cretaceous, Mongolia". Acta Palaeontologica Polonica. 26 (3/4): 243–255. /wiki/Teresa_Marya%C5%84ska ↩

120. Clarke, Julia A.; Norrell, Mark A. (2004). "New Avialan Remains and a Review of the Known Avifauna from the Late Cretaceous Nemegt Formation of Mongolia" (PDF). American Museum Novitates (3447): 1–12. doi:10.1206/0003-0082(2004)447<0001:NARAAR>2.0.CO;2. hdl:2246/2812. S2CID 55687019. http://digitallibrary.amnh.org/bitstream/2246/2812/1//v2/dspace/ingest/pdfSource/nov/N3447.pdf ↩

121. Bell, Phil R.; Currie, Philip J.; Lee, Yuong-Nam (2012). "Tyrannosaur feeding traces on Deinocheirus (Theropod:?Ornithomimosauria) remains from the Nemegt Formation (Late Cretaceous), Mongolia". Cretaceous Research. 37: 186–190. doi:10.1016/j.cretres.2012.03.018. https://www.researchgate.net/publication/257047934 ↩

122. Clarke, Julia A.; Norrell, Mark A. (2004). "New Avialan Remains and a Review of the Known Avifauna from the Late Cretaceous Nemegt Formation of Mongolia" (PDF). American Museum Novitates (3447): 1–12. doi:10.1206/0003-0082(2004)447<0001:NARAAR>2.0.CO;2. hdl:2246/2812. S2CID 55687019. http://digitallibrary.amnh.org/bitstream/2246/2812/1//v2/dspace/ingest/pdfSource/nov/N3447.pdf ↩

123. Wible, John R.; Rougier, Guillermo W. (2000). "Cranial Anatomy of Kryptobaatar dashzevegi (Mammalia, Multituberculara) and its bearing on the evolution of mammalian characters" (PDF). Bulletin of the American Museum of Natural History. 247: 6. doi:10.1206/0003-0090(2000)247<0001:CAOKDM>2.0.CO;2. S2CID 82849991. http://digitallibrary.amnh.org/bitstream/handle/2246/1594/B247.pdf?sequence=1 ↩

124. Mikhailov, Konstantin (1995). "Systematic, Faunistic and Stratigraphical Diversity of Cretaceous Eggs in Mongolia: Comparison with China". Sixth Symposium on Mesozoic Terrestrial Ecosystems and Biota, Short Papers: 165–168. https://www.researchgate.net/publication/281406429 ↩

125. Mikhailov, Konstantin (1995). "Systematic, Faunistic and Stratigraphical Diversity of Cretaceous Eggs in Mongolia: Comparison with China". Sixth Symposium on Mesozoic Terrestrial Ecosystems and Biota, Short Papers: 165–168. https://www.researchgate.net/publication/281406429 ↩

126. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

127. Longrich, Nicholas R.; Currie, Philip J.; Dong, Zhi-Ming (2010). "A new oviraptorid (Dinosauria: Theropoda) from the Upper Cretaceous of Bayan Mandahu, Inner Mongolia Authors". Palaeontology. 53 (5): 945–960. doi:10.1111/j.1475-4983.2010.00968.x. https://doi.org/10.1111%2Fj.1475-4983.2010.00968.x ↩

128. Mikhailov, Konstantin (1995). "Systematic, Faunistic and Stratigraphical Diversity of Cretaceous Eggs in Mongolia: Comparison with China". Sixth Symposium on Mesozoic Terrestrial Ecosystems and Biota, Short Papers: 165–168. https://www.researchgate.net/publication/281406429 ↩

129. Mikhailov, Konstantin K.E. (1994). "Theropod and protoceratopsian dinosaur eggs from the Cretaceous of Mongolia and Kazakhstan". Paleontological Journal. 28 (2): 101–120. ↩

130. Mikhailov, Konstantin (2000). "Eggs and eggshells of dinosaurs and birds from the Cretaceous of Mongolia". In Benton, M.J.; Shishkin, M.A.; Unwin, D.M.; Kurochkin, E.N. (eds.). The Age of Dinosaurs in Russia and Mongolia. Cambridge University Press. pp. 560–572. ↩

131. Mikhailov, K.E. (1997). "Fossil and Recent Eggshell in Amniotic Vertebrates: Fine Structure, Comparative Morphology and Classification". Special Papers in Palaeontology. 56: 64. https://www.researchgate.net/publication/287876162 ↩

132. Averianov, Alexander O. (2007). "Theropod dinosaurs from Late Cretacoues depositys in the northeastern Aral Sea region, Kazakhstan" (PDF). Cretaceous Research. 28 (3): 532–544. doi:10.1016/j.cretres.2006.08.008. http://doc.rero.ch/record/16144/files/PAL_E3057.pdf ↩