Embryology in Deep Time
For anyone who has cared for animal embryos, it beggars belief that these squishy cellular aggregates could be fossilised. Hence, with hindsight, it is possible to empathise with palaeontologists who found such fossils and, in their naming of Olivooides,
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Embryology in Deep Time Philip C.J. Donoghue, John A. Cunningham, Xi-Ping Dong, and Stefan Bengtson
Chapter vignette artwork by Brigitte Baldrian. © Brigitte Baldrian and Andreas Wanninger. P.C.J. Donoghue (*) • J.A. Cunningham School of Earth Sciences, Life Sciences Building, University of Bristol, Bristol BS8 1TQ, UK e-mail: [email protected] X.-P. Dong School of Earth and Space Sciences, Peking University, Beijing, China S. Bengtson Department of Palaeobiology, Nordic Center for Earth Evolution, Swedish Museum of Natural History, Stockholm, Sweden
A. Wanninger (ed.), Evolutionary Developmental Biology of Invertebrates 1: Introduction, Non-Bilateria, Acoelomorpha, Xenoturbellida, Chaetognatha DOI 10.1007/978-3-7091-1862-7_3, © Springer-Verlag Wien 2015
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INTRODUCTION For anyone who has cared for animal embryos, it beggars belief that these squishy cellular aggregates could be fossilised. Hence, with hindsight, it is possible to empathise with palaeontologists who found such fossils and, in their naming of Olivooides, Pseudooides, etc., drew attention to their likeness to animal eggs and embryos but without going so far as to propose such an interpretation. However, in 1994, Zhang Xi-guang and Brian Pratt described microscopic balls of calcium phosphate from Cambrian rocks of China, one or two of which preserved polygonal borders that resembled blastomeres on the surface of an early cleaving animal embryo (Zhang and Pratt 1994). In retrospect, these fossils are far from remarkable, some of them may not be fossils at all, and it is not as if anyone ever conceived Cambrian animals as having lacked an embryology. But Zhang Xi-guang and Brian Pratt dared the scientific world, not least their fellow palaeontologists, to believe that the fragile embryonic stages of invertebrate animals could be fossilised, that there was a fossil record of animal embryology, that this record hailed from the interval of time in which animal body plans were first established, and that it had been awaiting discovery in the rocks, for want of looking. The proof of this concept came a few years later, when phosphatised Cambrian fossils from China and Siberia were shown to display indisputable features of animal embryonic morphologies (Bengtson and Yue 1997). In the case of Olivooides, a series of developmental stages from cleavage to morphogenesis through hatching and juvenile growth could be tentatively identified; in Markuelia, the coiled-up body of an annulated worm-like animal could be clearly seen within its fertilisation envelope. It is not as if palaeontologists had been sitting on their hands until then. There has long been a strong tradition of assaying rocks of all ages, including these, for microscopic phosphatic fossils, principally conodonts (Donoghue et al. 2000) and elements of the enigmatic small shelly faunas (Bengtson 2005), driven principally by attempts to establish a global stratigraphy as a basis for establishing a relative timescale for Earth history. Indeed, the majority of discoveries of fossil em
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