Mycomorphoolithus
Temporal range:
Egg fossil classification Edit this classification
Basic shell type: Crocodiloid
Oogenus: Mycomorphoolithus
Moreno-Azanza et al., 2015
Oospecies
  • M. kohringi Moreno-Azanza et al., 2015 (type)

Mycomorphoolithus (meaning "fungus-shaped stone egg") is an oogenus of fossil eggs found in Spain and England. They possibly represent eggshells of non-eusuchian crocodylomorphs, and are similar to, but not part of, the Krokolithidae.[1]

Distribution

M. kohringi is known from three formations in the Maestrazgo Basin in Spain: the El Castellar Formation, the Mirambel Formation, and the Blesa Formation, plus La Huergina and El Collado Formations in Spain,[2] all of which are Barremian age. Also, eggshell fragments referred to Mycomorphoolithus sp. are known from the Purbeck Group in England, which is dated to the Berriasian.[1]

History

Mycomorphoolithus were first discovered (though not yet named) in 1990 by German paleontologist Rolph Köhring, who believed them to be the eggs of batagurine turtles.[3] In 2015, the oogenus and oospecies Mycomorphoolithus kohringi was named by Moreno-Azanza et al. in honor of Köhring, based on the discovery of several fossil eggshell fragments in the Maestrazgo Basin of Spain.[1]

From their discovery in 1990 until the description of the oospecies in 2015, paleontologists have conjectured many possible identities for the parent of Mycomorphoolithus eggs. Köhring originally conjectured that they were the eggs of batagurine turtles, but later he believed them to be dinosaurian. Eggshell fragments discovered in England were described by Ensom in 2002, which are now referred to Mycomorphoolithus sp., were classified in the dinosauroid-spherulitic morphotype, and tentatively assigned to Faveoloolithidae (probably the eggs of sauropods[4]). However, the 2015 description by Moreno-Azanza et al. shows that they are neither turtle nor dinosaur eggs, and suggests they were laid by a non-eusuchian crocodylomorph.[1]

Description

Mycomorphoolithus is most notable for the mushroom-like shape of its eggshell units: They are very thin at the base, but suddenly increase dramatically in width about halfway through the eggshell. The eggshell is on average 524 micrometers thick. The pores have highly variable shape and size, and are densely distributed across the eggshell, ranging from 4 to 10 pores per square millimeter.[1]

Similar to krokolithids, and unlike dinosaur eggs, Mycomorphoolithus's eggshell units are isolated, have a blocky extinction pattern, and lack organic cores. It furthermore shares a single layered eggshell with Bauruoolithus, an oogenus of South American krokolithid. However, Krokolithes and modern crocodylians have multi-layered eggshells and a different ultrastructure from Mycomorphoolithus.[1]

Classification

Bernissartia, a non-eusuchian crocodylomorph that could be the parent of Mycomorphoolithus eggs.[1]

Due to their unique microstructure, classifying Mycomorphoolithus has been difficult. It has many similarities to the oofamily Krokolithidae, but the differences were significant enough for Moreno-Azanza et al. (2015) to classify it outside, but closely related to, that oofamily. Because of its resemblance to krokolithids and to modern crocodylian eggs, as well as the presence of non-eusuchian crocodilomorphs at the same sites as Mycomorphoolithus, it is conjectured to be the fossil eggs laid by a non-eusuchian crocodylomorph.[1]

References

  1. 1 2 3 4 5 6 7 8 Miguel Moreno-Azanza, Jose Ignacio Canudo, and Jose Manuel Gasca. (2015) "Enigmatic Early Cretaceous ootaxa from Western Europe with signals of extrinsic eggshell degradation" Cretaceous Research 56: 617–627.
  2. Bravo, Ana; Sevilla, Paloma; Barraso-Barcenilla, Fernando (May 2018). "Avian and crocodilian eggshells from the upper Barremian site of Vadillos-1 (Lower Cretaceous, Cuenca province, Spain)" (PDF). Cretaceous Research. 85: 28.
  3. Köhring, R. (1990) "Fossile Reptil-Eierschalen (Chelonia, Crocodilia, Dinosauria) aus dem unteren Barremium von Galve (provinz Teruel, SE Spanien)." Paläontologische Zeitschrift 64(3):329–344.
  4. Barta, D. (2013). A Cladistic Approach to Understanding Dinosaur Egg Diversity and the Evolution of Reproductive Traits Within Dinosauria: Preliminary Results. In MSU Student Research Celebration 2012.
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