Re-thinking the embryo lethal system within the Pinaceae.

摘要

Outcrossing, wind-pollinated members of the Pinaceae have high self-pollination rates yet produce few selfed seedlings. How are selfs selectively eliminated? Barriers to selfing have long been considered to be (i) avoidance of self-pollen capture, (ii) competition via simple polyembryony, and (iii) lower viability of selfed embryos. Here, reviews - and some revisions - are offered in addition to future research needs. First, avoiding self-pollen capture is largely ineffectual. Second, simple polyembrony is also a weak or nonexistent barrier against selfed embryos. Third, selfed embryos die at all stages, but a stage-specific death peak occurs during early embryogeny in some taxa and this death peak, if prevalent across a wider range of taxa, deserves a closer look. The death peak does not preclude the prevailing genetic model for embryo viability loci, but could indicate that other genetic mechanisms are operative. Molecular dissection shows that zygotic lethals are distributed across different chromosomal segments. To date, these are mostly semi-lethal rather than lethal, and they range from partially dominant to overdominant. A literature survey suggests that only 5 of the 10 genera within the Pinaceae (Abies, Larix, Picea, Pinus, and Pseudotsuga) have been well characterized with respect to selfing. Extreme inbreeding depression during embryo development may not be a shared feature among conifers as a group. A critical research question is whether dual death patterns are present in other genera, and if they are, alternative genetic models to account for the death peak. Addressing these questions has broad relevance to conservation, domestication, and management of closed populations, not just conifers or gymnosperms.