Hemsley, A.R., Chaloner, W.G., Scott, A.C. and Groombridge, C.J. (1992) Carbon-13 solid state nuclear magnetic resonance of sporopollenins from modern and fossil plants. Annals of Botany, 69 (6).
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13C solid-state nuclear magnetic resonance (NMR) has been applied to modern pollen and spore exines (Betula, Pinus and Lycopodium) and those of two fossil spores (Lagenicula and Parka) in order to assess the composition of their constituent sporopollenin. While they prove to have broadly similar structural characteristics, there are some significant differences between all types and and particularly between the fossil and living material. The capacity of NMR to to demonstrate variation in structure, in what is clearly a heterogeneous group of organic macromolecules, suggests the possibility that this procedure could be of use in characterizing the sporopollenin of different plant groups. The fact that such material retains its structural integrity in the fossil state further opens up the possibility of our following evolutionary changes through time of this inert biomacromolecules.
This is a Published version This version's date is: 06/1992 This item is peer reviewed
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