Organismal duplication, inclusive fitness theory, and altruism: understanding the evolution of endosperm and the angiosperm reproductive syndrome.
- 25 April 1995
- journal article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 92 (9), 3913-3917
- https://doi.org/10.1073/pnas.92.9.3913
Abstract
For almost a century, events relating to the evolutionary origin of endosperm, a unique embryo-nourishing tissue that is essential to the reproductive process in flowering plants, have remained a mystery. Integration of recent advances in phylogenetic reconstruction, comparative reproductive biology, and genetic theory can be used to elucidate the evolutionary events and forces associated with the establishment of endosperm. Endosperm is shown to be derived from one of two embryos formed during a rudimentary process of "double fertilization" that evolved in the ancestors of angiosperms. Acquisition of embryo-nourishing behavior (with accompanying loss of individual fitness) by this supernumerary fertilization product was dependent upon compensatory gains in the inclusive fitness of related embryos. The result of the loss of individual fitness by one of the two original products of double fertilization was the establishment of endosperm, a highly modified embryo/organism that reproduces cryptically through behavior that enhances the fitness of its associated embryo within a seed. Finally, although triploid endosperm remains a synapomorphy of angiosperms, inclusive fitness analysis demonstrates that the embryo-nourishing properties of endosperm initially evolved in a diploid condition.Keywords
This publication has 4 references indexed in Scilit:
- Evidence of a Pre-Angiosperm Origin of Endosperm: Implications for the Evolution of Flowering PlantsScience, 1992
- Double Fertilization in Ephedra, a Nonflowering Seed Plant: Its Bearing on the Origin of AngiospermsScience, 1990
- Simultaneous hermaphroditism and sexual selectionProceedings of the National Academy of Sciences, 1979
- The genetical evolution of social behaviour. IIJournal of Theoretical Biology, 1964