Further cytogenetical studies on diploid and polyploid species of Eryngium L. (Saniculoideae, Apiaceae) from Argentina

O’Leary, Nataly; Calviño, Carolina Isabel; Greizerstein, Eduardo José; Martínez, Susana; Poggio, Lidia

doi:10.1111/j.1601-5223.2004.01795.x

Cited by 12 publications

(3 citation statements)

References 14 publications

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“…If A. virgata has tetraploid origin, the meiotic success observed here could be explained by genic control of the pairing of distinct genomes in an alotetraploid or a high degree of homology between the genomes (Riley and Chapman, 1958;Sybenga, 1996;Dagne, 2001). A regular meiotic behavior may also be indicative of polyploidy established by diploid-like behavior at meiosis (De Wet, 1979;Widen and Widen, 2000;Ozkan et al, 2001;O´Leary et al, 2004). An additional hypothesis is that natural selection may have eliminated the eventual problems caused by chromosomes with a normal meiotic behavior.…”

Section: Discussionmentioning

confidence: 96%

Cytogenetic characterization of Aloysia virgata Ruiz and Pavan (Verbenaceae)

Brandão

Viccini

Recco‐Pimentel

2009

Braz. arch. biol. technol.

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Section: Discussionmentioning

confidence: 96%

Cytogenetic characterization of Aloysia virgata Ruiz and Pavan (Verbenaceae)

Brandão

Viccini

Recco‐Pimentel

2009

Braz. arch. biol. technol.

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“…These plants resemble monocotyledons in leaf morphology and plant architecture, as they possess a rosette of sessile, generally linear or subulate and parallel‐veined leaves and a well‐developed cauline axis, erect and with several internodes (Calviño & al., 2008). Many monocot‐like Eryngium are polyploids and different ploidy levels may occur within a species (Bell & Constance, 1960, 1966; Constance & al., 1971, 1976; O'Leary & al., 2004; Perthuy & al., 2010). To date, molecular phylogenies are inconclusive as to the monophyly of this striking group (Calviño & al., 2008, 2010), comprising at least two different clades (i.e., South American monocot‐like and North American monocot‐like clades) that are part of a polytomy together with additional South American monocot‐like species, and other Eryngium clades (e.g., Pacific clade; Calviño & al., 2008, 2010).…”

Section: Introductionmentioning

confidence: 99%

Species boundaries within the recently diverged South American monocot‐like Eryngium (Apiaceae, Saniculoideae) based on biogeographic, climatic, morphological, and molecular data: E. cerradense, a new species from Paraguay

Mattos

Fernández

Calviño

2023

TAXON

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The species of Eryngium with a monocot-like habit are among the most taxonomically complex. They show low phenotypic and molecular differentiation due to their recent, rapid, and reticulate speciation during the Quaternary period. In this study, we evaluate the boundaries of the monocot-like Eryngium regnellii and a closely related entity from the grasslands in the Cerrado of Paraguay. We integrated evidence from multiple data sources to test species delimitation: we estimated the phylogenetic position of both entities within Eryngium based on ITS nrDNA and cpDNA sequences; we carried out univariate and multivariate morphometric analyses to test statistically significant differences and to recognize morphological diagnostic characters; we also analyzed geographic distribution, habitat, and bioclimatic variables to evaluate divergence in environmental niche, and finally, we used Bayesian coalescent-based delimitation approaches to test genetic structure. Divergence in morphology, environmental niche, and genetic structure between E. regnellii and the lineage from Paraguay support the hypothesis of evolutionary independence among these two lineages. Therefore, based on an integrative approach, we recognize and describe a new species from Paraguay: Eryngium cerradense.

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“…Many studies have been carried out to investigate the genus Eryngium L. (Apiaceae-subfamily Saniculoideae) (O'Leary et al 2004;Wörz 2004;Clausing et al 2000;Gaudeul et al 2000). The genus includes about 250 species in Eurasia, North Africa, North and South America and Australia (Pimenov & Leonov 1993;reviewed in Wörz 2004).…”

Section: Introductionmentioning

confidence: 99%

Molecular and ecological study of Eryngium species in Syria

et al. 2010

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Eryngium L. species growing in Syria were characterized using morphological, geographical and molecular analyses (IRAP and RAPD). Eight Eryngium L. species have been determined to exist in Syria. E. glomeratum, E. campestre and E. falcatum were found to grow in the mountain regions. E. creticum and E. desertorum were found to grow in variant environments: mountains, semidesert and saline environments, which indicate their wide range of adaptation and tolerance to abiotic stresses. E. maritimum was the only species found to grow on the coastal sandy beaches suggesting that it is adapted to sandy, saline and humid environments. The two PCR-based techniques showed that E. pussilum and E. billardieri were the most distal to all other species. E. pussilum is found to grow in Leftaya region, which is a swamps area similar to the typical habitat for American Eryngiums. The most related species were E. glomeratum and E. campestre, which were mainly found in mountainous regions, followed by E. desertorum, E. falcatum, and E. creticum.

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Further cytogenetical studies on diploid and polyploid species of Eryngium L. (Saniculoideae, Apiaceae) from Argentina

Cited by 12 publications

References 14 publications

Cytogenetic characterization of Aloysia virgata Ruiz and Pavan (Verbenaceae)

Cytogenetic characterization of Aloysia virgata Ruiz and Pavan (Verbenaceae)

Species boundaries within the recently diverged South American monocot‐like Eryngium (Apiaceae, Saniculoideae) based on biogeographic, climatic, morphological, and molecular data: E. cerradense, a new species from Paraguay

Molecular and ecological study of Eryngium species in Syria

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