A rare cypress tree increases its chances by using a clever reproductive strategy.
In higher plants, the embryo generally derives from the fusion of male and female gametes, although it may sometimes develop from only female cells. Here we show how the diploid pollen of the Mediterranean cypress tree Cupressus dupreziana naturally produces an embryo without fertilization that is nourished in the seed tissues of a surrogate mother, Cupressus sempervirens. This reproductive strategy of paternal apomixis, which to our knowledge has not been seen before in plants, could be an adaptation by this species in response to the threat of extinction.
The life cycle of plants generally alternates between two generations: the diploid sporophyte that produces haploid spores by meiosis, and the haploid gametophyte that produces gametes. Fertilization of a female gamete by a male gamete gives rise to a zygote that produces an embryo, the new sporophyte. However, in apomictic plants the embryo develops from maternal cells without fertilization1. Apomixis has been frequently reported in angiosperms but was thought not to occur in gymnosperms2.
We have previously discovered significant anomalies in the reproductive structures of a Mediterranean gymnosperm, Cupressus dupreziana A. Camus (Fig. 1). In this variant, viable pollen (male gametophyte) is diploid3, embryos do not have the same allozymes as their mothers4, and the endosperm (seed nutritive tissue) is not haploid5, although in gymnosperms it is derived solely from the female gametophyte6. These anomalies suggested that the embryo results from the development of diploid pollen4 and led us to examine six 15-year-old families produced by controlled crosses of Cupressus sempervirens L. (as female) × C. dupreziana (as male). C. sempervirens is native to the eastern Mediterranean basin and has been widely propagated; C. dupreziana is native to the Tassili N'Ajjer desert of Algeria7 and is one of the most threatened trees in the world.
We compared the characteristics of C. sempervirens × C. dupreziana progeny to those of their parents by using the following morphological and cytological traits to differentiate the two species3,5,8: orientation of terminal twigs (in one plane in C. dupreziana; in all directions in C. sempervirens); female cone size (larger in C. sempervirens); percentage of filled seeds (always low in C. dupreziana); endosperm ploidy levels (only even levels: 2n, 4n, 6n ... in C. dupreziana); pollen diameter (38 μm in C. dupreziana; 28 μm in C. sempervirens); and pollen ploidy level (diploid in C. dupreziana). For all these traits, all progeny were identical to the male tree, C. dupreziana.
We assessed genetic diversity using two types of marker: isozymes (seven polymorphic systems: Fest, Idh, Lap, 6Pgd, Pgi, Pgm and Skdh) in one C. sempervirens × C. dupreziana family, and random amplification of polymorphic DNA (RAPD; four operon primers: OPA-08, OPA-15, OPA-18 and OPR-07) in four families. A biparental, codominant inheritance was previously reported in C. sempervirens for these isozymes9, whereas the genetic control of the RAPD markers was unknown. The markers allowed identification of all the parents. Progeny had a single genetic pattern that was strictly identical to that of the father, C. dupreziana (Fig. 2).
Our results confirm at the interspecific level our hypothesis that pollen development in C. dupreziana is apomictic. This leads to the production of embryos that are genetically unrelated to the other seed components (maternal sporophyte and gametophyte). We have also shown here that another cypress species can be a surrogate mother for this embryogenic pollen. This is, to our knowledge, the first report of paternal apomixis in plants. We suspect that this deviant reproductive pattern evolved in response to the reduction of C. dupreziana population size, which is today limited to 231 individuals. Inbreeding in small populations of naturally outbreeding species reduces fitness and increases the risk of extinction10. Apomixis, as well as other factors that limit inbreeding, may therefore confer a selective advantage.
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Pichot, C., El Maâtaoui, M., Raddi, S. et al. Surrogate mother for endangered Cupressus. Nature 412, 39 (2001). https://doi.org/10.1038/35083687
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DOI: https://doi.org/10.1038/35083687
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