Topography explains the distribution of genetic diversity in one of the most fragile European hotspots

Blanco‐Pastor, José Luis; Fernández‐Mazuecos, Mario; Coello, Alberto J.; Pastor, Julia M O; Vargas, Pablo

doi:10.1111/ddi.12836

Cited by 16 publications

(15 citation statements)

References 94 publications

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“…The hypothesis of automatic advantage of selfing implies that self-pollination is a sustainable strategy if the level of genetic diversity is low, as after DNA purging and bottlenecks (Busch and Delph 2011). We preliminary checked for genetic differences between individuals of L. tonzigii collected both in the same population and in different parts of the distribution range using similar genetic markers as other studies focused on geographic ranges comparable to ours (Zecca et al 2017;Blanco-Pastor et al 2019). Although the loci used here are less variable than what would be obtainable with microsatellites, DD-Rad or other genomic approaches based on high-troughput sequencing, we still found a very low genetic diversity amongst individuals.…”

Section: Discussionmentioning

confidence: 79%

Investigating pollination strategies in disturbed habitats: the case of the narrow-endemic toadflax Linaria tonzigii (Plantaginaceae) on mountain screes

et al. 2021

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Plant mating systems may reflect an adaptation to a habitat type, with self-pollination being potentially common in unstable and disturbed conditions. We investigated the reproductive ecology of an Alpine, narrow-range toadflax, Linaria tonzigii Lona (Plantaginaceae), occurring in steep and dynamic mountain screes. We explored self-compatibility and spontaneous autogamy, seed viability, daily nectar production, pollinator behaviour and pollen transfer in wild populations, using hand pollination treatments, quantification of nectar volume, viability Tetrazolium assay, active pollinator sampling and video recordings, and UV-bright dust for pollen substitution. After ex novo sequencing of several genetic regions of L. tonzigii, we performed a multi-marker phylogenetic analysis of 140 Linaria species and tracked the occurrence of the self-compatibility trait. Our results showed that this species is self-compatible, pollinated mostly via spontaneous autogamy and pollinator-mediated geitonogamy, and self-pollinated seeds are as viable as cross-pollinated ones. Selfing could be due to pollinator rarity because, despite the studied species providing a high nectar volume, wild bees, moths and small beetles infrequently visited its flowers in the sparsely vegetated scree slopes. In addition, a preliminary survey showed a low genetic haplotype diversity in the study plant. Moreover, the phylogeny shows that self-compatibility is scattered in the tree, suggesting the adaptive nature of this reproductive trait in the genus Linaria. This study supports for theories that high prevalence of selfing is an adaptation to environments unfavourable for cross-pollination, and particularly where pollinators are rare, such as in perturbed, poorly vegetated high-elevation habitats.

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Section: Discussionmentioning

confidence: 79%

Investigating pollination strategies in disturbed habitats: the case of the narrow-endemic toadflax Linaria tonzigii (Plantaginaceae) on mountain screes

et al. 2021

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“…Topographical events play an important role in the process of species diversification (Blanco‐Pastor, Fernández‐Mazuecos, Coello, Pastor, & Vargas, ; Merckx et al, ). The establishment of closed systems such as oceanic islands provides opportunities for genetic diversification through geographical isolation and ecological diversification due to the creation of new niches.…”

Section: Introductionmentioning

confidence: 99%

Role of ancient lakes in genetic and phenotypic diversification of freshwater snails

et al. 2019

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Endemic organisms of ancient lakes have been studied as models to understand processes of speciation and adaptive radiation. However, it remains unclear how ancient lakes play roles in genetic and phenotypic diversity of freshwater mollusks. In the present study, we focus on viviparid freshwater snails in the ancient lakes of East and Southeast Asia (Japan and China) to address this question. Using molecular phylogenetic analyses based on mitochondrial (COI, 16S) and nuclear genes (18S, 28S, H3), we show that patterns of species diversification in viviparid lineages. Colonization to ancient lakes occurred independently in China and Japan at least four times, with subsequent diversification into more than two species within each lake group. Morphological analyses of fossil related viviparids suggest parallel phenotypic evolution occurred in the different lakes and ages. Each lake contained a single lineage which was phenotypically diversified relative to those from other sites. Using genome‐wide SNPs obtained by MIG‐seq, we also examined the genetic structure of three Japanese viviparids, including two endemic species of ancient Lake Biwa. The results suggest that these two species diversified from the population of the third species living in wetlands surrounding the lake. These findings suggest that rapid diversification of lineages and phenotypic divergence can occur in ancient lakes compared to other habitats. Formation of large lakes probably promotes speciation and phenotypic divergence as a result of adaptation into different microhabitats. High numbers of ancient lakes could be a driver of species diversity in Asian viviparid snails.

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“…Specifically, Valbuena-Carabaña and Gil [86] found high values of population genetic differentiation between oak stand located in the El Camarate site (CAM population), on the northern slope of Sierra Nevada, and other stands located in the Cáñar site (CAN population), located on the southern slope. The climatic and topographical heterogeneity that exists in the Sierra Nevada offers a great diversity of microhabitats, which has allowed this mountain range to act as a refuge for different species [87][88][89], including for deciduous Quercus species during the last glacial period [90][91][92]. In fact, there is fossil and genetic evidence for different Quercus species that strongly suggests that they survived only in southerly refugia during the last glacial maximum [90,[93][94][95].…”

Section: Resultsmentioning

confidence: 99%

Ecological Diversity within Rear-Edge: A Case Study from Mediterranean Quercus pyrenaica Willd.

Pérez‐Luque

Benito

Bonet‐García

et al. 2020

Forests

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Understanding the ecology of populations located in the rear edge of their distribution is key to assessing the response of the species to changing environmental conditions. Here, we focus on rear-edge populations of Quercus pyrenaica in Sierra Nevada (southern Iberian Peninsula) to analyze their ecological and floristic diversity. We perform multivariate analyses using high-resolution environmental information and forest inventories to determine how environmental variables differ among oak populations, and to identify population groups based on environmental and floristic composition. We find that water availability is a key variable in explaining the distribution of Q. pyrenaica and the floristic diversity of their accompanying communities within its rear edge. Three cluster of oak populations were identified based on environmental variables. We found differences among these clusters regarding plant diversity, but not for forest attributes. A remarkable match between the populations clustering derived from analysis of environmental variables and the ordination of the populations according to species composition was found. The diversity of ecological behaviors for Q. pyrenaica populations in this rear edge are consistent with the high genetic diversity shown by populations of this oak in the Sierra Nevada. The identification of differences between oak populations within the rear-edge with respect to environmental variables can aid with planning the forest management and restoration actions, particularly considering the importance of some environmental factors in key ecological aspects.

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Topography explains the distribution of genetic diversity in one of the most fragile European hotspots

Cited by 16 publications

References 94 publications

Investigating pollination strategies in disturbed habitats: the case of the narrow-endemic toadflax Linaria tonzigii (Plantaginaceae) on mountain screes

Investigating pollination strategies in disturbed habitats: the case of the narrow-endemic toadflax Linaria tonzigii (Plantaginaceae) on mountain screes

Role of ancient lakes in genetic and phenotypic diversification of freshwater snails

Ecological Diversity within Rear-Edge: A Case Study from Mediterranean Quercus pyrenaica Willd.

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