Egg fossil - Knowledge

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conventionally contain the root "oolithus" meaning "stone egg", but this rule is not always followed. They are divided up into several basic types: Testudoid, Geckoid, Crocodiloid, Dinosauroid-spherulitic, Dinosauroid-prismatic, and Ornithoid. Veterovata does not always mirror the taxonomy of the animals which laid the eggs.

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Fossil eggs are classified according to the parataxonomic system called Veterovata. There are three broad categories in the scheme, on the pattern of organismal phylogenetic classification, called oofamilies, oogenera and oospecies (collectively known as ootaxa). The names of oogenera and oofamilies

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Olga Amo, Gloria Cuenca–Bescós & José Ignacio Canudo (1999). José Ignacio Canudo & Gloria Cuenca-Bescós, ed. "Vertebrate eggshell fragments from the Lower Cretaceous (Lower Barremian) of Camino Canales (Galve Bassin, Province of Teruel, NE Spain)" (PDF). IV European Workshop on Vertebrate

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system to classify eggs based on their physical qualities rather than their hypothesized mothers. Zhao's new method of egg classification was hindered from adoption by Western scientists due to language barriers. However, in the early 1990s Russian paleontologist

154:. However, modern scientists no longer think it is possible to determine what kind of reptile laid these eggs. In 1859, the first scientifically documented dinosaur egg fossils were discovered in southern France by a Catholic 1637:

Capasso, L.L.; Pallizzi, A.; Milia, L.; D'Anastasio, R. (2013). "Archaeoovulus palenae, n. gn., n. sp. (Icnofossilia): a fossil amphibious ootheca from the pre-evaporitic Messinian site of Capo di Fiume, Palena (Abruzzo)".

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Mikhailov, K.E. (1997). Fossil and recent eggshell in amniotic vertebrates: Fine structure, comparative morphology and classification. Special Papers in Palaeontology 56. The Palaeontological Association. London. (page

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Garcia, G., T. Rodolphe, H. Cappetta, B. Marandat, I. Bentaleb, A. Benabdallah and M. Vianey-Liaud. (2003). "First Record of Dinosaur Eggshels and Teeth from The North-West African Maastrichtian (Morocco)."

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E. S. Bray. 1999. Eggs and eggshell from the Upper Cretaceous North Horn Formation, central Utah. In D. D. Gillette (ed.), Vertebrate Paleontology in Utah, Utah Geological Survey Miscellaneous Publication

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D. K. Zelenitsky and W. J. Sloboda. 2005. Eggshells. In P. J. Currie and E. B. Koppelhus (eds.), Dinosaur Provincial Park: A Spectacular Ancient Ecosystem Revealed. Indiana University Press, Bloomington

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Agnolin, Federico L.; Powell, Jaime E.; Novas, Fernando E.; Kundrát, Martin (2012). "New alvarezsaurid (Dinosauria, Theropoda) from uppermost Cretaceous of north-western Patagonia with associated eggs".

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Zelenitsky, D. K.; Hills, L. V.; Currie, P. J. (1996). "Parataxonomic classification of ornithoid eggshell fragments from the Oldman Formation (Judith River Group; Upper Cretaceous), southern Alberta".

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The oogenus level parataxonomy of Veterovata, following Lawver and Jackson (2014) for Testudoid, Hirsch (1996) for Geckonoid eggs, and Mikhailov et al. (1996) for the rest unless otherwise noted:

242:, have no documented eggs in the fossil record whatsoever, although this may be because scientists have not properly searched for them rather than an actual absence from the fossil record. 2341:"A new peculiar dinosaur egg, Sankofa pyrenaica oogen. nov. oosp. nov. from the Upper Cretaceous coastal deposits of the Aren Formation, South-Central Pyrenees, Lleida, Catalonia, Spin" 117:. Since the organism responsible for laying any given egg fossil is frequently unknown, scientists classify eggs using a parallel system of taxonomy separate from but modeled after the 2892:

Lawver, Daniel R.; Jin, Xingsheng; Jackson, Frankie D.; Wang, Qiongying (2016). "An Avian Egg from the Lower Cretaceous (Albian) Liangtoutang Formation of Zhejiang Province, China".

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Tanaka, K.; Zelenitsky, D. K.; Saegusa, H.; Ikeda, T.; DeBuhr, C. L.; Therrien, F. (2016). "Dinosaur eggshell assemblage from Japan reveals unknown diversity of small theropods".

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Moreno-Azanza, Miguel; Ignacio Canudo, Jose; Manuel Gasca, Jose (2015). "Enigmatic Early Cretaceous ootaxa from Western Europe with signals of extrinsic eggshell degradation".

352:, and turtles. Some ancient reptiles, like ichthyosaurs and plesiosaurs are known to have given live birth and are therefore not anticipated to have left behind egg fossils. 181:

in Mongolia. Egg discoveries continued to mount all over the world, leading to the development of multiple competing classification schemes. In 1975 Chinese paleontologist

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Jackson, F. D.; Jin, X.; Varricchio, D. J.; Azuma, Y.; Jiang, Y. (2008). "The first in situ turtle clutch from the Cretaceous Tiantai Basin, Zhejiang Province, China".

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Qiang, Wang; Zi-kui, Zhao; Xiao-lin, Wang; Yan-gen, Jiang (2011). "New ootypes of dinosaur eggs from the Late Cretaceous in Tiantai Basin, Zhejiang Province, China".

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of cephalopod eggs is scant since their soft, gelatinous eggs decompose quickly and have little chance to fossilize. Another major group of Mesozoic cephalopods, the

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Sellés, A. G., & Galobart, À. (2015). Reassessing the endemic European Upper Cretaceous dinosaur egg Cairanoolithus. Historical Biology, (ahead-of-print), 1-14.

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Jackson, Frankie D.; Varricchio, David J.; Corsini, Joseph A. (2013). "Avian Eggs from the Eocene Willwood and Chadron Formations of Wyoming and Nebraska".

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Jackson, F. D.; Varricchio, D. J. (2010). "Fossil eggs and eggshell from the lowermost Two Medicine Formation of western Montana, Sevenmile Hill locality".

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Konstantin E. Mikhailov, Emily S. Bray & Karl E. Hirsch (1996). "Parataxonomy of fossil egg remains (Veterovata): basic principles and applications".

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Zhang, S.; Jin, X.; O'Conner, J.K.; Wang, M.; Xie, J. (2015). "A new egg with avian egg shape from the Upper Cretaceous of Zhejiang Province, China".

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Etches, S.; Clarke, J.; Callomon, J. (2009). "Ammonite eggs and ammonitellae from the Kimmeridge Clay Formation (Upper Jurassic) of Dorset, England".

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Legendre, Lucas J.; Rubilar Rogers, David; Musser, Grace M.; Davis, Sarah N.; Otero, Rodrigo A.; Vargas, Alexander O.; Clarke, Julia A. (2020),

344:, reptilian eggs may go back significantly farther than their fossil record. Many ancient reptile groups are known from egg fossils including 1678:

O'Keefe, F.R.; Chiappe, L.M. (2011). "Viviparity and K-selected life history in a Mesozoic marine plesiosaur (Reptilia, Sauropterygia)".

2018:"A new oofamily of dinosaur egg from the Upper Cretaceous of Tiantai Basin, Zhejiang Province, and its mechanism of eggshell formation" 2507:

Jin, X.; Azuma, Y.; Jackson, F. D.; Varricchio, D. J. (2007). "Giant dinosaur eggs from the Tiantai basin, Zhejiang province, China".

1780: 1463: 174: 1665: 1519: 35: 2653:"Unique maniraptoran egg clutch from the Upper Cretaceous Two Medicine Formation of Montana reveals theropod nesting behaviour" 138: 2969: 2061:"Spheroolithid eggshells in the Lower Cretaceous of Europe. Implications for eggshell evolution in ornithischian dinosaurs" 195: 2483:"A new oogenus of Elongatoolithidae from the Upper Cretaceous Chichengshan Formation of Tiantai Basin, Zhejiang Province" 3421: 78:. A wide variety of different animal groups laid eggs that are now preserved in the fossil record beginning in the 2222: 3338: 3223: 2022: 2482: 2189: 1831: 1567:

Cloutier, R (2010). "The fossil record of fish ontogenies: insights to developmental patterns and processes".

150:, a name given provisionally by Professor J. Buckman to a group of eggs which Buckman believed were laid by a 2544:"A new form of Elongatoolithidae, Undulatoolithus pengi oogen. et oosp. nov. from Pingxiang, Jiangxi, China" 1899:"Crocodylomorph eggs and eggshells from the Adamantina Formation (Bauru Group), Upper Cretaceous of Brazil" 946: 3416: 2703:

Varricchio, D.J.; Barta, D.E. (2015). "Revisiting Sabath's 'Larger Avian Eggs' from the Gobi Cretaceous".

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are the best known cephalopod egg fossils. The best preserved fossil ammonite eggs were preserved in the

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Eggs laid by invertebrate animals are known from the fossil record. Among these are eggs laid by ancient

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Oliveira, C.E.M.; Santucci, R.M.; Andrade, M.B.; Fulfaro, V.J.; Basílo, J.A.F.; Benton, M.J. (2011).

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Buckman, J. (1860). "On some fossil reptilian eggs from the Great Oolite of Cirencester".

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Hirsch, K.F. (1996). "Parataxonomic Classification of Fossil Chelonian and Gecko Eggs".

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Eggs, Nests, and Baby Dinosaurs: A Look at Dinosaur Reproduction (Life of the Past)

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Atti della Societa Toscana di Scienze Naturali Residente in Pisa Memorie Serie A

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started a revolution in fossil egg classification by developing a system of "

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Godfrey, S.J. (1995). "Fossilized Eggs from the Pennsylvanian of Illinois".

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A new type of dinosaur eggs from Early Cretaceous of Gansu Province, China.

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Xie, J.-F., Zhang, S.-K., Jin, X.-S., Li, D.-Q., and Zhou, L.-Q. (2016) "

2190:"A parataxonomic revision of the Cretaceous faveoloolithid eggs of China" 1756: 1279: 644: 349: 294: 261: 224: 146: 111: 68: 3431: 3411: 3328: 3175: 3105: 3095: 2845:

Imai, Takuya; Azuma, Yoichi (2015). "The oldest known avian eggshells,

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The fossil record of reptile eggs goes back at least as far as the

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processes of an animal, egg fossils are considered a type of

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Wang, Q.; Wang, X.; Zhao, Z.; Zhang, J.; Jiang, S. (2013).

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are among the most well known kind of fossil reptile eggs.

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Palaeontology. Albarracín, Spain: Universidad de Zaragoza.

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Wang, Q.; Wang, X.-L.; Zhao, Z.-K.; Jiang, Y.-G. (2010).

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10.1671/0272-4634(2008)28[319:tfistc]2.0.co;2

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brought attention to Zhao's work in the English language

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Wang, Q.; Zhao, Z.; Wang, X.; Li, N.; Zou, S. (2013).

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Moreno-Azanza, M.; Canudo, J.I.; Gasca, J.M. (2014).

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Moreno-Azanza, M.; Canudo, J.I.; Gasca, J.M. (2014).

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Quarterly Journal of the Geological Society of London

162:, however he thought they were laid by giant birds. 3337: 3184: 3149: 3058: 3020: 2994: 2011: 2009: 2007: 2005: 2600: 2598: 2596: 2164: 2162: 2160: 2158: 2156: 2016:Wang, Q; Wang, X L; Zhao, Z K; Jiang, Y G (2012). 27:Fossilized remains of eggs laid by ancient animals 2433: 2431: 2429: 2427: 1745:Bulletin of the Peabody Museum of Natural History 1658:Sea Dragons - Predators of the Prehistoric Oceans 2105: 2103: 2101: 2099: 2963: 2110:Vianey-Liaud, M.; López-Martínez, N. (1997). 8: 2476: 2474: 2472: 2470: 2291: 2289: 1506: 1504: 1502: 1500: 1498: 1496: 1494: 1456: 1454: 1452: 1450: 272:have contributed to this record, including 2970: 2956: 2948: 2646: 2644: 1813: 1811: 2676: 2364: 2043: 1922: 1873: 2698: 2696: 2651:Zelenitsky, D. K.; Therrien, F. (2008). 1862:Anais da Academia Brasileira de Ciências 29: 2380: 2378: 2376: 2339:López-Martínez, N.; Vicens, E. (2012). 1411: 74:inside, in which case it also contains 34:Fossilized dinosaur eggs displayed at 169:dinosaur egg fossils were discovered 106:. The latter group includes the many 7: 3479: 1739:Lawver, D.R.; Jackson, F.D. (2014). 158:and amateur naturalist named Father 256:Fossil fish eggs have an extensive 177:crew while looking for evidence of 2894:Journal of Vertebrate Paleontology 2607:Journal of Vertebrate Paleontology 2509:Canadian Journal of Earth Sciences 2441:Canadian Journal of Earth Sciences 2298:Journal of Vertebrate Paleontology 1820:Journal of Vertebrate Paleontology 1781:Journal of Vertebrate Paleontology 1464:Journal of Vertebrate Paleontology 268:. The eggs of many different fish 260:going at least as far back as the 175:American Museum of Natural History 25: 1433:10.1144/gsl.jgs.1860.016.01-02.11 3478: 3467: 3466: 2938:UCMP's online fossil egg exhibit 2678:10.1111/j.1475-4983.2008.00815.x 2366:10.1111/j.1475-4983.2011.01114.x 1924:10.1111/j.1475-4983.2010.01028.x 1554:10.1111/j.1502-3931.2008.00133.x 1380: 1366: 36:Indroda Dinosaur and Fossil Park 2590:, Montpellier, 32 (2-4): 59-69, 1875:10.1590/s0001-37652013000100008 139:Timeline of egg fossil research 137:For a chronological guide, see 1802:10.1080/02724634.1996.10011363 1660:. University Press of Kansas. 1477:10.1080/02724634.1996.10011364 1236:Ornithoid-prismatic Morphotype 144:The first named oospecies was 110:that have been recovered from 1: 2914:10.1080/02724634.2016.1100631 2779:10.1016/j.cretres.2015.06.002 2744:10.1016/j.cretres.2015.06.019 2705:Acta Palaeontologica Polonica 2404:Acta Palaeontologica Polonica 2272:10.1016/j.cretres.2011.11.014 2090:10.1016/j.cretres.2014.05.017 2871:10.1080/08912963.2014.934232 2814:10.1080/08912963.2014.902451 2627:10.1080/02724634.2013.769445 2318:10.1080/02724634.2010.483537 1581:10.1016/j.semcdb.2009.11.004 1514:, Indiana University Press; 1510:Carpenter, Kenneth (1999). 969:Ornithoid-ratite Morphotype 189:" based on the traditional 3523: 329: 249: 136: 3462: 2985: 2565:10.11646/zootaxa.3746.1.9 2139:10.1017/s002233600003609x 2045:10.1007/s11434-012-5353-2 1974:10.1038/s41586-020-2377-7 1624:10.1080/10420949509380115 165:The first scientifically 2847:Plagioolithus fukuiensis 2023:Chinese Science Bulletin 2119:Journal of Paleontology 1700:10.1126/science.1205689 1656:Ellis, Richard, (2003) 557:Dinosauroid-spherulitic 2490:Vertebrata PalAsiatica 2234:Vertebrata PalAsiatica 2197:Vertebrata PalAsiatica 2171:Vertebrata PalAsiatica 1569:Semin Cell Dev Biology 1061: 744:Similifaveoloolithidae 648: 342:preservation potential 264:and spanning into the 38: 2188:Zhang, S. K. (2010). 1242:Dispersituberoolithus 1053: 947:Spheruprismatoolithus 873:Dinosauroid-prismatic 642: 393:Testudoflexoolithidae 246:Fishes and amphibians 200:scientific literature 59:. As evidence of the 33: 3372:Egg drop competition 2030:(28–29): 3740–3747. 1757:10.3374/014.055.0210 1074:Macroelongatoolithus 751:Similifaveoloolithus 465:Geckonoid morphotype 234:. Nevertheless, the 196:Konstantin Mikhailov 2906:2016JVPal..36E0631L 2863:2015HBio...27.1090I 2806:2015HBio...27..595Z 2771:2016CrRes..57..350T 2759:Cretaceous Research 2736:2015CrRes..56..617M 2724:Cretaceous Research 2669:2008Palgy..51.1253Z 2619:2013JVPal..33.1190J 2521:2007CaJES..44...81J 2453:1996CaJES..33.1655Z 2357:2012Palgy..55..325L 2310:2010JVPal..30.1142J 2264:2012CrRes..35...33A 2252:Cretaceous Research 2131:1997JPal...71.1157V 2082:2014CrRes..51...75M 2069:Cretaceous Research 2036:2012ChSBu..57.3740W 1966:2020Natur.583..411L 1915:2011Palgy..54..309O 1794:1996JVPal..16..752H 1692:2011Sci...333..870O 1616:1995Ichno...4...71G 1546:2009Letha..42..204E 1374:Paleontology portal 1344:Pachycorioolithidae 1095:Paraelongatoolithus 933:Protoceratopsidovum 734:Pseudomegaloolithus 645:Oolithes spheroides 400:Testudoflexoolithus 147:Oolithes bathonicae 82:. Examples include 3367:Egg-and-spoon race 3194:List of egg dishes 3007:Fish and amphibian 2988:List of egg topics 2851:Historical Biology 2794:Historical Biology 2228:2016-01-29 at the 1315:Parvoblongoolithus 1062: 1010:Tristraguloolithus 919:Preprismatoolithus 902:Triprismatoolithus 888:Arriagadoolithidae 880:Pseudogeckoolithus 857:Polyclonoolithidae 847:Protodictyoolithus 782:Parafaveoloolithus 775:Hemifaveoloolithus 649: 332:Reptile egg fossil 160:Jean-Jacques Poech 39: 3494: 3493: 3427:Ovo vegetarianism 2447:(12): 1655–1667. 1960:(7816): 411–414, 1686:(6044): 870–873. 1351:Pachycorioolithus 1301:Mycomorphoolithus 1102:Porituberoolithus 1088:Nanhsiungoolithus 1025:Elongatoolithidae 912:Prismatoolithidae 840:Paradictyoolithus 676:Paraspheroolithus 617:Coralloidoolithus 550:Antarcticoolithus 505:Mycomorphoolithus 16:(Redirected from 3514: 3482: 3481: 3470: 3469: 3224:Custard desserts 2972: 2965: 2958: 2949: 2926: 2925: 2889: 2883: 2882: 2857:(8): 1090–1097. 2842: 2836: 2832: 2826: 2825: 2789: 2783: 2782: 2754: 2748: 2747: 2719: 2713: 2712: 2700: 2691: 2690: 2680: 2663:(6): 1253–1259. 2648: 2639: 2638: 2613:(5): 1190–1201. 2602: 2591: 2588:Palaeovertebrata 2583: 2577: 2576: 2548: 2539: 2533: 2532: 2504: 2498: 2497: 2487: 2478: 2465: 2464: 2435: 2422: 2418: 2412: 2411: 2401: 2392: 2386: 2382: 2371: 2370: 2368: 2336: 2330: 2329: 2304:(4): 1142–1156. 2293: 2284: 2283: 2246: 2237: 2219: 2213: 2212: 2210: 2208: 2194: 2185: 2179: 2178: 2166: 2151: 2150: 2125:(6): 1157–1171. 2116: 2107: 2094: 2093: 2065: 2056: 2050: 2049: 2047: 2013: 2000: 1997: 1991: 1990: 1989: 1988: 1943: 1937: 1936: 1926: 1894: 1888: 1887: 1877: 1859: 1850: 1844: 1843: 1815: 1806: 1805: 1775: 1769: 1768: 1736: 1730: 1726: 1720: 1719: 1675: 1669: 1654: 1648: 1647: 1634: 1628: 1627: 1599: 1593: 1592: 1564: 1558: 1557: 1529: 1523: 1508: 1489: 1488: 1458: 1445: 1444: 1427:(1–2): 107–110. 1416: 1396:Fossil footprint 1390: 1388:Dinosaurs portal 1385: 1384: 1383: 1376: 1371: 1370: 1369: 1219:Oblongoolithidae 1202:Montanoolithidae 1178:Incognitoolithus 1140:Laevisoolithidae 895:Arriagadoolithus 864:Polyclonoolithus 761:Faveoloolithidae 686:Phaceloolithidae 610:Stalicoolithidae 593:Cairanoolithidae 420:Testudoolithidae 384:Spheruflexibilis 274:lobe-finned fish 21: 3522: 3521: 3517: 3516: 3515: 3513: 3512: 3511: 3497: 3496: 3495: 3490: 3458: 3333: 3180: 3145: 3081:Ichthyoplankton 3054: 3016: 2990: 2981: 2976: 2934: 2929: 2900:(3): e1100631. 2891: 2890: 2886: 2844: 2843: 2839: 2833: 2829: 2791: 2790: 2786: 2756: 2755: 2751: 2721: 2720: 2716: 2702: 2701: 2694: 2650: 2649: 2642: 2604: 2603: 2594: 2584: 2580: 2546: 2541: 2540: 2536: 2529:10.1139/e06-077 2506: 2505: 2501: 2485: 2480: 2479: 2468: 2461:10.1139/e96-126 2437: 2436: 2425: 2419: 2415: 2399: 2394: 2393: 2389: 2383: 2374: 2338: 2337: 2333: 2295: 2294: 2287: 2248: 2247: 2240: 2230:Wayback Machine 2220: 2216: 2206: 2204: 2192: 2187: 2186: 2182: 2168: 2167: 2154: 2114: 2109: 2108: 2097: 2063: 2058: 2057: 2053: 2015: 2014: 2003: 1998: 1994: 1986: 1984: 1945: 1944: 1940: 1896: 1895: 1891: 1857: 1852: 1851: 1847: 1817: 1816: 1809: 1777: 1776: 1772: 1738: 1737: 1733: 1727: 1723: 1677: 1676: 1672: 1655: 1651: 1636: 1635: 1631: 1601: 1600: 1596: 1566: 1565: 1561: 1531: 1530: 1526: 1509: 1492: 1460: 1459: 1448: 1418: 1417: 1413: 1409: 1386: 1381: 1379: 1372: 1367: 1365: 1362: 1130:Undulatoolithus 1109:Rodolphoolithus 1067:Heishanoolithus 1046:Elongatoolithus 1032:Continuoolithus 1017:Tubercuoolithus 996:Reticuloolithus 926:Prismatoolithus 826:Dictyoolithidae 809:Dendroolithidae 792:Youngoolithidae 720:Megaloolithidae 655:Spheroolithidae 624:Shixingoolithus 578:Stromatoolithus 371: 362: 334: 328: 254: 252:Fish egg fossil 248: 228:Kimmeridge Clay 219:. Eggs laid by 213: 208: 171:serendipitously 142: 135: 119:Linnaean system 28: 23: 22: 15: 12: 11: 5: 3520: 3518: 3510: 3509: 3499: 3498: 3492: 3491: 3489: 3488: 3476: 3463: 3460: 3459: 3457: 3456: 3451: 3446: 3441: 3440: 3439: 3437:Vegreville egg 3429: 3424: 3419: 3414: 3409: 3404: 3399: 3394: 3389: 3384: 3379: 3374: 3369: 3364: 3359: 3354: 3349: 3343: 3341: 3335: 3334: 3332: 3331: 3326: 3321: 3316: 3311: 3306: 3301: 3296: 3291: 3286: 3281: 3276: 3271: 3266: 3261: 3256: 3251: 3246: 3241: 3236: 3231: 3226: 3221: 3216: 3211: 3206: 3201: 3196: 3190: 3188: 3182: 3181: 3179: 3178: 3173: 3164: 3159: 3153: 3151: 3147: 3146: 3144: 3143: 3138: 3133: 3128: 3123: 3118: 3113: 3108: 3103: 3098: 3093: 3088: 3083: 3078: 3073: 3068: 3062: 3060: 3056: 3055: 3053: 3052: 3047: 3037: 3032: 3026: 3024: 3018: 3017: 3015: 3014: 3009: 3004: 2998: 2996: 2992: 2991: 2986: 2983: 2982: 2977: 2975: 2974: 2967: 2960: 2952: 2946: 2945: 2940: 2933: 2932:External links 2930: 2928: 2927: 2884: 2837: 2827: 2800:(5): 595–602. 2784: 2749: 2714: 2692: 2640: 2592: 2578: 2559:(1): 194–200. 2534: 2499: 2466: 2423: 2413: 2387: 2372: 2351:(2): 325–339. 2331: 2285: 2238: 2214: 2180: 2152: 2095: 2051: 2001: 1992: 1938: 1909:(2): 309–321. 1889: 1868:(1): 103–111. 1845: 1826:(2): 319–325. 1807: 1788:(4): 752–762. 1770: 1751:(2): 215–236. 1731: 1721: 1670: 1649: 1629: 1594: 1575:(4): 400–413. 1559: 1540:(2): 204–217. 1524: 1490: 1471:(4): 763–769. 1446: 1410: 1408: 1405: 1404: 1403: 1398: 1392: 1391: 1377: 1361: 1358: 1357: 1356: 1355: 1354: 1339: 1332: 1325: 1318: 1311: 1308:Nipponoolithus 1304: 1297: 1294:Mosaicoolithus 1290: 1283: 1270:Incertae sedis 1265: 1264: 1263: 1262: 1261: 1260: 1250:Gobioolithidae 1245: 1233: 1232: 1231: 1230: 1229: 1226:Oblongoolithus 1214: 1213: 1212: 1209:Montanoolithus 1197: 1196: 1195: 1188: 1181: 1171:Medioolithidae 1166: 1165: 1164: 1157: 1154:Subtiliolithus 1150: 1147:Laevisoolithus 1135: 1134: 1133: 1126: 1119: 1116:Spongioolithus 1112: 1105: 1098: 1091: 1084: 1077: 1070: 1063: 1042: 1039:Ellipsoolithus 1035: 1020: 1013: 1006: 1003:Struthiolithus 999: 992: 985: 978: 960: 959: 958: 957: 954:Trigonoolithus 950: 943: 936: 929: 922: 907: 906: 905: 898: 883: 870: 869: 868: 867: 852: 851: 850: 843: 836: 821: 820: 819: 804: 803: 802: 787: 786: 785: 778: 771: 768:Faveoloolithus 756: 755: 754: 739: 738: 737: 730: 715: 714: 713: 703:Ovaloolithidae 698: 697: 696: 693:Phaceloolithus 681: 680: 679: 672: 665: 637: 636: 635: 634: 631:Stalicoolithus 627: 620: 605: 604: 603: 600:Cairanoolithus 588: 581: 574: 567: 554: 553: 540: 539: 538: 537: 530: 523: 508: 494: 493: 492: 491: 490: 489: 482: 472:Gekkoolithidae 456: 455: 454: 453: 452: 451: 448:Chelonoolithus 444: 437: 430: 427:Testudoolithus 407: 406: 405: 404: 403: 370: 367: 361: 360:Classification 358: 330:Main article: 327: 324: 250:Main article: 247: 244: 212: 209: 207: 204: 173:in 1923 by an 134: 131: 26: 24: 14: 13: 10: 9: 6: 4: 3: 2: 3519: 3508: 3505: 3504: 3502: 3487: 3486: 3477: 3475: 3474: 3465: 3464: 3461: 3455: 3452: 3450: 3447: 3445: 3442: 3438: 3435: 3434: 3433: 3430: 3428: 3425: 3423: 3422:Organizations 3420: 3418: 3415: 3413: 3410: 3408: 3405: 3403: 3400: 3398: 3397:Humpty Dumpty 3395: 3393: 3390: 3388: 3385: 3383: 3380: 3378: 3375: 3373: 3370: 3368: 3365: 3363: 3360: 3358: 3355: 3353: 3350: 3348: 3345: 3344: 3342: 3340: 3336: 3330: 3327: 3325: 3322: 3320: 3317: 3315: 3312: 3310: 3307: 3305: 3302: 3300: 3297: 3295: 3292: 3290: 3287: 3285: 3282: 3280: 3277: 3275: 3272: 3270: 3267: 3265: 3262: 3260: 3257: 3255: 3252: 3250: 3247: 3245: 3242: 3240: 3237: 3235: 3232: 3230: 3227: 3225: 3222: 3220: 3217: 3215: 3212: 3210: 3207: 3205: 3202: 3200: 3197: 3195: 3192: 3191: 3189: 3187: 3183: 3177: 3174: 3172: 3168: 3165: 3163: 3160: 3158: 3155: 3154: 3152: 3148: 3142: 3139: 3137: 3134: 3132: 3129: 3127: 3124: 3122: 3119: 3117: 3116:Ovoviviparity 3114: 3112: 3109: 3107: 3104: 3102: 3099: 3097: 3094: 3092: 3089: 3087: 3084: 3082: 3079: 3077: 3074: 3072: 3069: 3067: 3064: 3063: 3061: 3057: 3051: 3048: 3045: 3041: 3038: 3036: 3033: 3031: 3028: 3027: 3025: 3023: 3022:Fossil record 3019: 3013: 3010: 3008: 3005: 3003: 3000: 2999: 2997: 2993: 2989: 2984: 2980: 2973: 2968: 2966: 2961: 2959: 2954: 2953: 2950: 2944: 2941: 2939: 2936: 2935: 2931: 2923: 2919: 2915: 2911: 2907: 2903: 2899: 2895: 2888: 2885: 2880: 2876: 2872: 2868: 2864: 2860: 2856: 2852: 2848: 2841: 2838: 2831: 2828: 2823: 2819: 2815: 2811: 2807: 2803: 2799: 2795: 2788: 2785: 2780: 2776: 2772: 2768: 2764: 2760: 2753: 2750: 2745: 2741: 2737: 2733: 2729: 2725: 2718: 2715: 2710: 2706: 2699: 2697: 2693: 2688: 2684: 2679: 2674: 2670: 2666: 2662: 2658: 2657:Palaeontology 2654: 2647: 2645: 2641: 2636: 2632: 2628: 2624: 2620: 2616: 2612: 2608: 2601: 2599: 2597: 2593: 2589: 2582: 2579: 2574: 2570: 2566: 2562: 2558: 2554: 2553: 2545: 2538: 2535: 2530: 2526: 2522: 2518: 2514: 2510: 2503: 2500: 2496:(2): 111–118. 2495: 2491: 2484: 2477: 2475: 2473: 2471: 2467: 2462: 2458: 2454: 2450: 2446: 2442: 2434: 2432: 2430: 2428: 2424: 2417: 2414: 2410:(4): 843–854. 2409: 2405: 2398: 2391: 2388: 2381: 2379: 2377: 2373: 2367: 2362: 2358: 2354: 2350: 2346: 2345:Palaeontology 2342: 2335: 2332: 2327: 2323: 2319: 2315: 2311: 2307: 2303: 2299: 2292: 2290: 2286: 2281: 2277: 2273: 2269: 2265: 2261: 2257: 2253: 2245: 2243: 2239: 2236:, 54(1):1-10. 2235: 2231: 2227: 2224: 2218: 2215: 2202: 2198: 2191: 2184: 2181: 2177:(4): 446–449. 2176: 2172: 2165: 2163: 2161: 2159: 2157: 2153: 2148: 2144: 2140: 2136: 2132: 2128: 2124: 2120: 2113: 2106: 2104: 2102: 2100: 2096: 2091: 2087: 2083: 2079: 2075: 2071: 2070: 2062: 2055: 2052: 2046: 2041: 2037: 2033: 2029: 2025: 2024: 2019: 2012: 2010: 2008: 2006: 2002: 1996: 1993: 1983: 1979: 1975: 1971: 1967: 1963: 1959: 1955: 1954: 1949: 1942: 1939: 1934: 1930: 1925: 1920: 1916: 1912: 1908: 1904: 1903:Palaeontology 1900: 1893: 1890: 1885: 1881: 1876: 1871: 1867: 1863: 1856: 1849: 1846: 1841: 1837: 1833: 1829: 1825: 1821: 1814: 1812: 1808: 1803: 1799: 1795: 1791: 1787: 1783: 1782: 1774: 1771: 1766: 1762: 1758: 1754: 1750: 1746: 1742: 1735: 1732: 1725: 1722: 1717: 1713: 1709: 1705: 1701: 1697: 1693: 1689: 1685: 1681: 1674: 1671: 1667: 1666:0-7006-1269-6 1663: 1659: 1653: 1650: 1645: 1641: 1633: 1630: 1625: 1621: 1617: 1613: 1609: 1605: 1598: 1595: 1590: 1586: 1582: 1578: 1574: 1570: 1563: 1560: 1555: 1551: 1547: 1543: 1539: 1535: 1528: 1525: 1521: 1520:0-253-33497-7 1517: 1513: 1507: 1505: 1503: 1501: 1499: 1497: 1495: 1491: 1486: 1482: 1478: 1474: 1470: 1466: 1465: 1457: 1455: 1453: 1451: 1447: 1442: 1438: 1434: 1430: 1426: 1422: 1415: 1412: 1406: 1402: 1399: 1397: 1394: 1393: 1389: 1378: 1375: 1364: 1359: 1353: 1352: 1348: 1347: 1346: 1345: 1340: 1338: 1337: 1333: 1331: 1330: 1329:Plagioolithus 1326: 1324: 1323: 1319: 1317: 1316: 1312: 1310: 1309: 1305: 1303: 1302: 1298: 1296: 1295: 1291: 1289: 1288: 1284: 1282: 1281: 1277: 1276: 1275: 1274: 1273:/Unclassified 1272: 1271: 1259: 1258: 1254: 1253: 1252: 1251: 1246: 1244: 1243: 1239: 1238: 1237: 1234: 1228: 1227: 1223: 1222: 1221: 1220: 1215: 1211: 1210: 1206: 1205: 1204: 1203: 1198: 1194: 1193: 1189: 1187: 1186: 1182: 1180: 1179: 1175: 1174: 1173: 1172: 1167: 1163: 1162: 1158: 1156: 1155: 1151: 1149: 1148: 1144: 1143: 1142: 1141: 1136: 1132: 1131: 1127: 1125: 1124: 1123:Trachoolithus 1120: 1118: 1117: 1113: 1111: 1110: 1106: 1104: 1103: 1099: 1097: 1096: 1092: 1090: 1089: 1085: 1083: 1082: 1078: 1076: 1075: 1071: 1069: 1068: 1064: 1059: 1058: 1057:Dendroolithus 1052: 1048: 1047: 1043: 1041: 1040: 1036: 1034: 1033: 1029: 1028: 1027: 1026: 1021: 1019: 1018: 1014: 1012: 1011: 1007: 1005: 1004: 1000: 998: 997: 993: 991: 990: 989:Ornitholithus 986: 984: 983: 979: 977: 976: 972: 971: 970: 967: 966: 965: 964: 956: 955: 951: 949: 948: 944: 942: 941: 937: 935: 934: 930: 928: 927: 923: 921: 920: 916: 915: 914: 913: 908: 904: 903: 899: 897: 896: 892: 891: 890: 889: 884: 882: 881: 877: 876: 875: 874: 866: 865: 861: 860: 859: 858: 853: 849: 848: 844: 842: 841: 837: 835: 834: 833:Dictyoolithus 830: 829: 828: 827: 822: 818: 817: 816:Dendroolithus 813: 812: 811: 810: 805: 801: 800: 799:Youngoolithus 796: 795: 794: 793: 788: 784: 783: 779: 777: 776: 772: 770: 769: 765: 764: 763: 762: 757: 753: 752: 748: 747: 746: 745: 740: 736: 735: 731: 729: 728: 727:Megaloolithus 724: 723: 722: 721: 716: 712: 711: 707: 706: 705: 704: 699: 695: 694: 690: 689: 688: 687: 682: 678: 677: 673: 671: 670: 669:Spheroolithus 666: 664: 663: 659: 658: 657: 656: 651: 650: 647: 646: 641: 633: 632: 628: 626: 625: 621: 619: 618: 614: 613: 612: 611: 606: 602: 601: 597: 596: 595: 594: 589: 587: 586: 585:Tacuarembovum 582: 580: 579: 575: 573: 572: 568: 566: 565: 561: 560: 559: 558: 552: 551: 547: 546: 545: 544: 536: 535: 531: 529: 528: 524: 522: 521: 520:Bauruoolithus 517: 516: 515: 514: 513:Krokolithidae 509: 507: 506: 501: 500: 499: 498: 488: 487: 483: 481: 480: 476: 475: 474: 473: 468: 467: 466: 463: 462: 461: 460: 450: 449: 445: 443: 442: 438: 436: 435: 431: 429: 428: 424: 423: 422: 421: 416: 415: 414: 412: 411:Spherurigidis 408: 402: 401: 397: 396: 395: 394: 389: 388: 387: 385: 381: 380: 379: 378: 374: 368: 366: 359: 357: 355: 354:Dinosaur eggs 351: 347: 343: 339: 338:Early Permian 333: 325: 323: 321: 320: 315: 314: 309: 308: 307:Chimaerotheca 303: 302: 301:Archaeoovulus 297: 296: 291: 287: 283: 279: 275: 271: 267: 263: 259: 253: 245: 243: 241: 237: 236:fossil record 233: 229: 226: 222: 218: 211:Invertebrates 210: 205: 203: 201: 197: 192: 188: 184: 180: 176: 172: 168: 163: 161: 157: 153: 149: 148: 140: 132: 130: 128: 124: 120: 116: 113: 109: 108:dinosaur eggs 105: 101: 97: 93: 89: 85: 84:invertebrates 81: 77: 73: 70: 66: 62: 61:physiological 58: 55: 51: 47: 43: 37: 32: 19: 3483: 3471: 3264:Onsen tamago 3021: 2897: 2893: 2887: 2854: 2850: 2846: 2840: 2830: 2797: 2793: 2787: 2762: 2758: 2752: 2727: 2723: 2717: 2708: 2704: 2660: 2656: 2610: 2606: 2587: 2581: 2556: 2550: 2537: 2515:(1): 81–88. 2512: 2508: 2502: 2493: 2489: 2444: 2440: 2416: 2407: 2403: 2390: 2385:99-1:361-375 2348: 2344: 2334: 2301: 2297: 2255: 2251: 2233: 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