Rare Andes plant shows how slow reproduction dooms genetic health
Scientists studying a 100-year-flowering plant from the Andes discovered it carries heavy genetic damage and cannot recover from past population crashes, unlike faster-breeding relatives. The finding reveals how reproductive strategy shapes extinction risk—critical insight for conservation planning and understanding which species are most vulnerable to climate change.
Originaltitel: The 'queen of the Andes' (<em>Puya raimondii</em>) is genetically fragile and fragmented: a consequence of long generation time and semelparity?
<p>Understanding how life history shapes genetic diversity is a fundamental issue in evolutionary biology, with important consequences for conservation. However, we still have an incomplete picture of the impact of life history on genome-wide patterns of diversity, especially in long-lived semelparous plants. Puya raimondii is a high-altitude semelparous species from the Andes that flowers at 40-100 years of age. We sequenced the whole genome and estimated the nucleotide diversity of 200 individuals sampled from nine populations. Coalescent-based approaches were then used to infer past population dynamics. Finally, these results were compared with results obtained for the iteroparous species, Puya macrura. The nine populations of P. raimondii were highly divergent, highly inbred, and carried an exceptionally high genetic load. They are genetically depauperate, although, locally in the genome, balancing selection contributed to the maintenance of genetic polymorphism. While both P. raimondii and P. macrura went through a severe bottleneck during the Pleistocene, P. raimondii did not recover from it and continuously declined, while P. macrura managed to bounce back. Our results demonstrate the importance of life history, in particular generation time and reproductive strategy, in affecting population dynamics and genomic variation, and illustrate the genetic fragility of long-lived semelparous plants.</p>