Telling the Evolutionary Time: Molecular Clocks and the Fossil Record

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timing for early angiosperm diversification, or that there are historical patterns to changes
in the rate of molecular evolution that we still know little about. This last possibility
should be evaluated, and the least we should do is to quantify the consequences of
accepting the fossil-based estimates.


Acknowledgements

This research was supported by a Marie Curie Fellowship of the European Community
Programme Improving Human Research Potential and the Socio-Economic Knowledge
under contract number HPMFCT-2000–00631 to N.Wikström.


References

APG (1998) ‘An ordinal classification for the families of flowering plants’, Annals of the Missouri
Botanical Garden, 85:531–53.
Axelrod, D.I. (1952) ‘A theory of angiosperm evolution’, Evolution, 6:29–60.
—— (1970) ‘Mezozoic paleogeography and early angiosperm history’, Botanical Review, 36:
277–319.
Basinger, J.F. and Dilcher, D.L. (1984) ‘Ancient bisexual flowers’, Science, 224:511–13.
Bateman, R. (1999) ‘Architectural radiations cannot be optimally interpreted without
morphological and molecular phylogenies’, in M.H.Kurmann and A.R.Hemsley (eds) The
Evolution of Plant Architecture, Kew: Royal Botanic Gardens, pp. 221–50.
Brandl, R., Mann, W. and Sprintzl, M. (1992) ‘Estimation of the monocot-dicot age through tRNA
sequences from the chloroplast’, Proceedings of the Royal Society, London, B249:13– 17.
Chase, M.W., Soltis, D.E., Olmstead, R.G., Morgan, D., Les, D.H., Mishler, B.D., Duvall,
M.R., Price, R.A., Hills, H.G., Qiu, Y.-L., Kron, K.A., Rettig, J.H., Conti, E., Palmer,
J.D., Manhart, J.R., Sytsma, K.J., Michaels, H.J., Kress, J.W., Karol, K.G., Clark, D.W.,
Hedren, M., Gaut, B.S., Jansen, R.K., Kim, K.-J., Wimpee, C.F., Smith, J.F., Furnier,
G.R., Strauss, S.H., Xiang, Q.-Y., Plunkett, G.M., Soltis, P.S., Swensen, S.M., Williams,
S.E., Gadek, P.A., Quinn, C.J., Equiarte, L.E., Golenberg, E., Learn Jr., G.H., Graham,
S.W., Barrett, S.C.H., Dayanandan, S. and Albert, V.A. (1993) ‘Phylogenetics of seed plants:
An analysis of nucleotide sequences from the plastid gene rbcL’ Annals of the Missouri Botanical
Garden, 80:528–80.
Chase, M.W., Soltis, D.E., Soltis, P.S., Rudall, P.J., Fay, M.F., Hahn, W.H., Sullivan, S., Joseph,
J., Molvray, M., Kores, P.J., Givnish, T.J., Sytsma, K.J. and Pires, J.C. (2000) ‘Higher-level
systematics of the monocotyledons: an assessment of current knowledge and a new
classification’, in K.L.Wilson and D.A.Morrison (eds) Monocots: Systematics and Evolution,
Collingwood, Victoria, Australia: CSIRO Publishing, pp. 3–16.
Collinson, M.E., Boulter, M.C. and Holmes, P.L. (1993) ‘Magnoliophyta (‘Angiospermae’)’, in
M.J.Benton (ed.) The Fossil Record 2, London: Chapman & Hall, pp. 809–41.
Cornet, B. (1993) ‘Dicot-like leaf and flowers from the Late Triassic tropical Newark Supergroup
rift zone, U.S.A.’, Modern Geology, 19:81–99.
Cornet, B. and Habib, D. (1992) ‘Angiosperm-like pollen from the ammonite-dated Oxfordian
(Upper Jurassic) of France’, Review of Palaeobotany and Palynology, 71:269–94.


ANGIOSPERM DIVERGENCE 165
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