Paulina G. Ossa scite author profile

Aim To investigate the impact of Quaternary climate cycles on the coastal Atacama Desert flora by assessing phylogeographical patterns of the desert shrub Nolana crassulifolia (Solanaceae) and its congener Nolana incana. Location The latitudinal aridity gradient from the southern margin of the coastal Atacama Desert to the mediterranean semi‐arid region of Chile (25–33° S). Methods Two cpDNA regions were sequenced for 130 individuals in 15 populations of these two closely related species, covering their entire distribution range (1000 km) along the arid to semi‐arid Chilean coast. We explored haplotype relationships in a statistical parsimony network, and assessed population genetic diversity, population differentiation and phylogeographical structure. In addition, we conducted demographic analyses and spatial analysis of genetic variation, identified barriers to gene flow with Monmonier's algorithm, and used Bayesian phylogenetic reconstruction to estimate divergence dates between lineages. Results We found a total of 14 haplotypes – four of them shared by both species – and high levels of genetic differentiation among populations, but no past distribution breaks that could account for major vicariant events. Genetic diversity decreased continuously from north to south, with loss of haplotypes and a greater number of monomorphic populations in the southern range. Landscape analysis revealed greater genetic differentiation in the northernmost populations of both species. Main conclusions The documented north–south gradient of declining genetic diversity, the origin and location of ancestral haplotypes in northern sites, and the loss of haplotypes from southern populations all support the hypothesis of post‐glacial range expansion of Nolana southwards during arid/warmer cycles in the Atacama. The higher genetic diversity and greater differentiation of northern populations of both Nolana species support the hypothesis that populations survived in northern arid sites during wetter/colder episodes of the glacial cycles. We suggest that Quaternary arid phases in the Atacama promoted southward expansion of the coastal desert vegetation.

show abstract

Assessing the influence of life form and life cycle on the response of desert plants to past climate change: Genetic diversity patterns of an herbaceous lineage ofNolanaalong western South America

Ossa

Armestó

Pérez

2017

American J of Botany

View full text Add to dashboard Cite

Genetic evidence revealed that both lineages of Nolana survived climate change through the Quaternary, experiencing population collapses and recoveries. Phylogeographic histories present similarities between the two lineages, but also marked differences that can be explained by their differences in life form and life cycle. While the shrubby lineage followed the classical pattern of postglacial expansion toward higher latitudes, species in the herbaceous lineage showed evidence of long-lasting persistence at the southern edge of their current range, suggesting for the first time multiple glacial refugia for a xerophytic plant in southern South America.

show abstract

Transcriptomic analysis of the C3-CAM transition in Cistanthe longiscapa, a drought tolerant plant in the Atacama Desert

Ossa

Moreno

Daniela

et al. 2022

Preprint

View full text Add to dashboard Cite

One of the most outstanding plant species during the blooming of the Atacama Desert is the annual plant Cistanthe longiscapa. This plant can perform CAM photosynthesis, but the ecophysiological and molecular mechanisms that this plant uses to withstand the extreme conditions it inhabits in the field are unknown. Morphological and ecophysiological traits were studied and leaf samples at dawn/dusk times were collected from three sites distributed across an increasing south to north arid gradient, to evaluate CAM expression and transcriptomic differences, and search for links between photosynthetic path and abiotic response. Plants from the different sites presented significant differences in nocturnal leaf acid accumulation, isotopic carbon ratio (?13C), succulence and other four traits that clearly indicated a spectrum of CAM photosynthesis intensity that correlated with aridity intensity. The differential gene expression analysis among Dawn vs Dusk between sampling sites showed higher gene expression in the arid northern site (3991 v/s 2293) with activation of regulatory processes associated with abscisic acid and circadian rhythm. The analysis highlights clear ecophysiological differences and the requirement of a strong rewiring of the gene expression to allow a transition from a weak into a strong CAM in C. longiscapa.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Paulina G. Ossa

Phylogeography of two closely related species of Nolana from the coastal Atacama Desert of Chile: post‐glacial population expansions in response to climate fluctuations

Assessing the influence of life form and life cycle on the response of desert plants to past climate change: Genetic diversity patterns of an herbaceous lineage ofNolanaalong western South America

Transcriptomic analysis of the C3-CAM transition in Cistanthe longiscapa, a drought tolerant plant in the Atacama Desert

Contact Info

Product

Resources

About