Karyotype evolution in Helianthemum (Cistaceae): dysploidy, achiasmate meiosis and ecological specialization in H. squamatum, a true gypsophile

• Published in: Botanical journal of the Linnean Society Vol. 191; no. 4; pp. 484 - 501
• Main Authors: Aparicio, Abelardo, Escudero, Marcial, Valdés-Florido, Ana, Pachón, Miguel, Rubio, Encarnación, Albaladejo, Rafael G, Martín-Hernanz, Sara, Pradillo, Mónica
• Format: Journal Article
• Language: English
• Published: UK Oxford University Press 19.11.2019
• Subjects: flow cytometry; ChromEvol; chromosome spreads; chromosome counts; nuclear DNA content
• ISSN: 0024-4074; 1095-8339
• DOI: 10.1093/botlinnean/boz066

Abstract Helianthemum squamatum is a specialist gypsophile, the only species of a recently diverged lineage in subgenus Helianthemum characterized by having the lowest chromosome number in the genus (n = 5). With the hypothesis of great genome reorganization in the lineage of H. squamatum, we (1) modelled the evolution of the chromosome number in the genus Helianthemum, (2) analysed the karyotype and the nuclear DNA content of H. squamatum and its sister species H. syriacum (n = 10) and (3) studied in detail the meiotic process of H. squamatum. Our analyses show that: (1) the rate of chromosome losses in the lineage that gave rise to H. squamatum is 100 times higher than in the genus as a whole; (2) compared to its sister species, H. squamatum has a more symmetric karyotype composed of longer metacentric chromosomes and retains c. 80% of its nuclear DNA content and (3) achiasmatic behaviour of chromosomes occurs during microsporogenesis despite full synapsis. Our results are in agreement with previous knowledge showing that reduced chromosome numbers in determinate lineages are found in short-lived species adapted to stressful environments, and we suggest that a combination of fewer chromosomes, a smaller genome, a shorter life cycle and the suppression of meiotic recombination can together contribute to the maintenance of those advantageous allelic combinations that makes H. squamatum a true gypsophile, enabling the individual plants to cope with the harshness imposed by dry gypsum soils.