A snapshot of progenitor-derivative speciation in action in<i>Iberodes</i>(Boraginaceae)

Otero, Ana; Vargas, Pablo; Valcárcel, Virginia; Fernández‐Mazuecos, Mario; Jiménez‐Mejías, Pedro; Hipp, Andrew L.

doi:10.1101/823641

Cited by 5 publications

(3 citation statements)

References 101 publications

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“…Closely related endemic species frequently co‐occur at a regional scale, supporting that speciation of neoendemics may have taken place in situ. The speciation mechanism known as ‘budding’, in which a new range‐restricted species originates within or at the margin of a surviving ancestral species (Crawford, 2010), seems to be common in the Mediterranean‐type region of California (Anacker & Strauss, 2014) and it is probably usual also in the Mediterranean Basin (Otero et al., 2019; Papuga et al., 2018). Plants are particularly prone to strong divergent selection caused by fine‐scale environmental heterogeneity and, as a result, soil properties and microclimatic conditions may play an important role in speciation and ecological segregation at the regional scale (Rundle & Nosil, 2005; Anacker & Strauss, 2014; Molina‐Venegas et al., 2016).…”

Section: Discussionmentioning

confidence: 99%

The contribution of the edaphic factor as a driver of recent plant diversification in a Mediterranean biodiversity hotspot

et al. 2020

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The high diversification rates of plant lineages in the Mediterranean Basin hotspot have been linked to a complex interaction of climatic stressors, geographic isolation and soil type, but the question remains as to which of these factors has been the most significant environmental driver of recent speciation. Here, we draw on distributional data for the entire endemic flora of the Iberian Peninsula, together with DNA‐based phylogenies and spatial phylogenetic methods, to explore the patterns of relative phylogenetic endemism at different spatial resolutions and phylogenetic scales (superclades) and assess how environmental factors contribute to explain these patterns. We found that recent diversification of angiosperms as a whole, and particularly of eudicots, has been boosted by environmental stressors including high values of soil pH and dry‐seasonal climatic conditions, while diversification of monocots has not been associated with soil conditions but with high elevation and less seasonal climate. Synthesis. These results provide robust insights into the environmental factors driving recent plant diversification in the Mediterranean Basin, including a role of soil properties that had not been quantified before. The contrasting environmental drivers of diversification in eudicots and monocots highlight the importance of analysing spatial phylogenetic patterns at multiple phylogenetic scales to get a better understanding of the processes that shape biodiversity.

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Section: Discussionmentioning

confidence: 99%

The contribution of the edaphic factor as a driver of recent plant diversification in a Mediterranean biodiversity hotspot

et al. 2020

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“…Some other species (4) fall in a pattern of paraphyly (A. microphyllum embedded in A. pulverulentum lineages; A. grosii embedded in A. meonanthum lineages) following Sutton's (1988) circumscription of species (Figure 3). This suggests a pattern of budding speciation typically found in Iberia (Otero et al, 2019). The hypothesis of a general pattern of budding speciation in Antirrhinum needs to be tested with a higher number of populations, particularly from widespread species.…”

Section: Monophyly and Species Recognitionmentioning

confidence: 95%

Evolution in the Model Genus Antirrhinum Based on Phylogenomics of Topotypic Material

2021

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Researchers in phylogenetic systematics typically choose a few individual representatives of every species for sequencing based on convenience (neighboring populations, herbarium specimens, samples provided by experts, garden plants). However, few studies are based on original material, type material or topotypic material (living specimens from the locality where the type material was collected). The use of type or topotypic material in phylogenetic studies is paramount particularly when taxonomy is complex, such as that of Antirrhinum (Plantaginaceae). In this paper, we used topotypic materials of Antirrhinum at the species level (34 species proposed by previous authors), 87 specimens representing the species distributions and >50,000 informative nucleotide characters (from ∼4,000 loci) generated by the genotyping-by-sequencing (GBS) technique: (i) to test two explicit taxonomic hypotheses widely followed by local taxonomic treatments; (ii) to robustly estimate phylogenetic relationships; (iii) to investigate the evolution of key morphological characters and biogeographic centers of differentiation. Two GBS phylogenies based on two datasets (87 localities and 34 topotypic specimens) revealed that: (1) Sutton’s (1988) taxonomic account is the most congruent with phylogenetic results, whereas division of Antirrhinum into three major clades disagrees with Rothmaler’s (1956) infrageneric classification; (2) monophyly of populations currently included in the same species is primarily supported; (3) the historically recognized Antirrhinum majus group is not monophyletic; (4) sister-group relationships are robust for eight species pairs; (5) the evolutionary radiation of 26 species since the Pliocene is underpinned given a high rate of diversification (0.54 spp. Myr–1); (6) a geographic pattern of speciation is reconstructed, with northern Iberia as the center of early diversification followed by more recent speciation in southeastern Iberia; and (7) multiple acquisitions of key taxonomic characters in the course of Antirrhinum diversification are strongly supported, with no evidence of hybridization between major clades. Our results also suggest incipient speciation in some geographic areas and point to future avenues of research in evolution and systematics of Antirrhinum.

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“…Such P-D pairs are often expected to display paraphyletic relationships, with accessions of the derivative species occupying a nested position within those of the ancestral taxon (e.g. Lopéz et al 2012;Otero et al 2019). However, our phylogenetic (ML) analysis of multiple intraspecific ITS sequences of S. englerianus and S. flavus (Figure S2) rsulted in an unresolved (polytomous) crown topolgy, including a weakly supported, potentially derived cluster of northern S. flavus.…”

Section: Unresolved Species Relationships Between S Englerianus and S Flavusmentioning

confidence: 99%

Plant speciation in the Namib Desert: origin of a widespread derivative species from a narrow endemic

Milton

Affenzeller

Abbott

et al. 2022

Preprint

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Background: Parapatric (or budding) speciation is increasingly recognized as an important phenomenon in plant evolution but its role in extreme (e.g. desert) environments is poorly documented. Aims: To test this speciation model in a hypothesized sister pair, the Southwest and North African disjunct Senecio flavus and its putative progenitor, the Namibian Desert endemic S. englerianus. Methods: Phylogenetic inferences were combined with niche divergence tests, morphometrics, and experimental genetic approaches. We also evaluated the potential role of an African Dry Corridor (ADC) in promoting the hypothesized northward expansion of S. flavus (from Namibia), using palaeodistribution models. Results: Belonging to an isolated (potentially relict) clade, the two morphologically distinct species show pronounced niche divergence in Namibia and signs of digenic epistatic hybrid incompatibility (based on F2 pollen fertility). The presence of connate fluked pappus hairs in S. flavus, likely increasing dispersal ability, is controlled by a single gene locus. Conclusions: Our results provide support for a rare example of budding speciation in which a wider ranged derivative (S. flavus) originated at the periphery of a smaller ranged progenitor (S. englerianus) in the Namib Desert region. The Southwest and North African disjunction of S. flavus could have been established by dispersal across intermediate ADC areas during periods of (Late) Pleistocene aridification.

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A snapshot of progenitor-derivative speciation in action inIberodes(Boraginaceae)

Cited by 5 publications

References 101 publications

The contribution of the edaphic factor as a driver of recent plant diversification in a Mediterranean biodiversity hotspot

The contribution of the edaphic factor as a driver of recent plant diversification in a Mediterranean biodiversity hotspot

Evolution in the Model Genus Antirrhinum Based on Phylogenomics of Topotypic Material

Plant speciation in the Namib Desert: origin of a widespread derivative species from a narrow endemic

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