Page 271 - Introduction to Paleobiology and The Fossil Record
P. 271
258 INTRODUCTION TO PALEOBIOLOGY AND THE FOSSIL RECORD
Scotland and the emergence of animals. Journal of Jensen, S. 2003. The Proterozoic and earliest Cambrian
the Geological Society, London 155, 5–12. trace fossil record: patterns, problems and perspec-
Budd, G.E. 2003. The Cambrian fossil record and the tives. Integrative Comparative Biology 43, 219–28.
origin of the phyla. Integrative Comparative Biology Lieberman, B.S. 2001. A probabilistic analysis of rates
43, 157–65. of speciation during the Cambrian radiation. Pro-
Budd, G.E. 2008. The earliest fossil record of the ceedings of the Royal Society, Biological Sciences
animals and its signifi cance. Philosphical Transac- 268, 1707–14.
tions of the Royal Society B 363, 1425–34. Marshall, C.R. 2006. Explaining the Cambrian “Explo-
Budd, G.E. & Jensen, S. 2000. A critical reappraisal of sion” of animals. Annual Reviews of Earth and Plan-
the fossil record of bilaterian phyla. Biological etary Science 33, 355–84.
Reviews 75, 253–95. McKerrow, W.S. 1978. Ecology of Fossils. Duckworth
Buss, L.W. & Seilacher, A. 1994. The phylum Vendobi- Company Ltd., London.
onta: a sister group of the Eumetazoa? Paleobiology McMenamin, M.A.S. 1986. The garden of Ediacara.
20, 1–4. Palaois 1, 178–82.
Canfield, D.E., Poulton, S.W. & Narbonne, G.M. 2007. Meert, J.G. & Lieberman, B.S. 2004. A palaeomagnetic
Late-Neoproterozoic deep-ocean oxygenation and and palaeobiogeographic perspective on latest
the rise of animal life. Science 315, 92–5. Neoproterozoic and Cambrian tectonic events.
Conway Morris, S. 1998. The evolution of diversity in Journal of the Geological Society, London 161,
ancient ecosystems: a review. Philosophical Transac- 1–11.
tions of the Royal Society B 353, 327–45. Narbonne, G.M. 2005. The Ediacara biota: Neopro-
Conway Morris, S. 2006. Darwin’s dilemma: the terozoic origin of animals and their ecosystems.
realities of the Cambrian explosion. Philosophical Annual Reviews of Earth and Planetary Science 33,
Transactions of the Royal Society B 361, 1069– 421–42.
83. Nielsen, C. 2008. Six major steps in animal evolution:
Cooper, A. & Fortey, R.A. 1998. Evolutionary explo- are we derived sponge larvae? Evolution and Devel-
sions and the phylogenetic fuse. Trends in Ecology opment 10, 241–57.
and Evolution 13, 151–6. Peterson, K.J. 2005. Macroevolutionary interplay
Donogue, P.C.J. 2007. Embryonic identity crisis. Nature between planktic larvae and benthic predators.
445, 155–6. Geology 33, 929–32.
Donoghue, P.C.J., Bengtson, S., Dong Xi-ping et al. Peterson, K.J., Cotton, J.A., Gehling, J.G. & Pisani, D.
2006. Synchotron X-ray tomographic microscopy of 2008. The Ediacaran emergence of bilaterians: con-
fossil embryos. Nature 442, 680–3. gruence between genetic and the geological fossil
Droser, M.L., Jensen, S. & Gehling, J.G. 2002. Trace records. Philosphical Transactions of the Royal
fossils and substrates of the terminal Proterozoic- Society B 363, 1435–43.
Cambrian transition: implications for the record of Peterson, K.J., Lyons, J.B., Nowak, K.S., Takacs, C.M.,
early bilaterians and sediment. Proceedings of the Wargo, M.J. & McPeek, M. 2004. Estimating meta-
National Academy of Sciences, USA 99, 12572–6. zoan divergence times with a molecular clock. Pro-
Fedonkin, M.A. 1990. Precambrian metazoans. In ceedings of the National Academy of Sciences, USA
Briggs, D.E.G. & Crowther, P.R. (eds) Palaeobiology, 101, 6536–41.
A Synthesis. Palaeontological Association and Black- Peterson, K.J., McPeek, M.A. & Evans, D.A.D. 2005.
well Scientific Publications, Oxford, UK, pp. Tempo and mode of early animal evolution: infer-
17–24. ences from rocks, Hox, and molecular clocks. Paleo-
Fortey, R.A., Briggs, D.E.G. & Wills, M.A. 1996. biology 31 (Suppl.), 36–55.
The Cambrian evolutionary “explosion”: decoupling Porter, S.M. 2004. Closing the phosphatization window:
cladogenesis from morphological disparity. Biologi- testing for the influence of taphonomic megabias on
cal Journal of the Linnaean Society 57, 13–33. the patterns of small shelly fauna decline. Palaios 19,
Gould, S.J. 1989. Wonderful Life. The Burgess Shale 178–83.
and the Nature of History. W.W. Norton & Co., Porter, S.M. 2007. Seawater chemistry and early car-
New York. bonate biomineralization. Science 316, 1302.
Grazhdankin, D. 2004. Patterns of distribution in the Qian Yi & Bentson, S. 1989. Palaeontology and biostra-
Ediacaran biotas: facies versus biogeography and tigraphy of the Early Cambrian Meishucunian Stage
evolution. Paleobiology 30, 203–21. in Yunnan Province, South China. Fossils and Strata
Hagadorn, J.W., Xiao Shuhai, Donoghue, P.C.J. et al. 24, 1–156.
2006. Cellular and subcellular structure of Neopro- Rasmussen, B., Bengtson, S., Fletcher, I.R. &
terozoic animal embryos. Science 314, 291–4. McNaughton, N.J. 2002. Discoidal impressions and
Harper, D.A.T. 2006. The Ordovician biodiversifi ca- trace-like fossils more than 1200 million years ago.
tion: setting an agenda for marine life. Palaeogeog- Science 296, 1112–15.
raphy, Palaeoclimatology, Palaeoecology 232, Schmitz, B., Harper, D.A.T., Peucker-Ehrenbrink, B.
148–66. et al. 2008. Asteroid breakup linked to the Great
