ResumenAntecedentes: Lamiaceae es una de las familias con mayor riqueza de especies en México. Sin embargo, aún se carece de un estudio detallado sobre su diversidad en el país y de una revisión taxonómica global y actualizada. Como resultado, el aprovechamiento y conservación de los integrantes de esta familia es limitado. Preguntas: ¿Qué avances se han logrado en el estudio y entendimiento de la riqueza, endemismo y distribución de las Lamiaceae mexicanas? ¿Qué estrategias deben ejecutarse para consolidar el conocimiento de la familia en el país? Taxon: Lamiaceae Sitio de estudio: México Métodos: Se hizo una revisión exhaustiva de las Lamiaceae mexicanas en la literatura, bases de datos y herbarios. Se sintetizó el estado de su conocimiento. Se aplicaron análisis cuantitativos para evaluar su riqueza, endemismo y distribución geográfica. Resultados: México cuenta con 33 géneros y 598 especies, de las cuales el 66.2 % son endémicas. El género más diverso es Salvia, con 306 especies. El estado más diverso es Oaxaca, mientras que Jalisco alberga el mayor número de especies endémicas. Conclusiones: En México, Lamiaceae es la octava familia más diversa y el número de sus especies representa el 5.5 % de la familia a nivel mundial, por lo que el país puede considerarse uno de los centros de diversificación más importante. Debido a lo anterior, y al endemismo elevado que presenta, México es crucial para la conservación in situ de la familia. Si bien se ha logrado un avance considerable de su conocimiento y en la actualidad hay un repunte en su estudio, es necesario diversificar los campos de investigación. Palabras clave: distribución geográfica, endemismo, Lamiaceae mexicanas, riqueza florística. AbstractBackground: Lamiaceae is one of the most species-rich families in Mexico. However, a detailed treatment on its diversity and an updated comprehensive taxonomic review for the country are still lacking. As a result, the use and conservation of the members of Lamiaceae is limited. Questions: Which advances have been achieved on the study and understanding of the Mexican Lamiaceae in terms of richness, endemism and distribution? Which strategies should be applied to enhance the knowledge of Lamiaceae in Mexico? Taxon: Lamiaceae Study site: Mexico Methods: A thorough review of Mexican Lamiaceae in the literature, databases and herbaria was conducted. The state of knowledge of the family was summarized. Quantitative analyses were performed to assess its richness, endemism and geographical distribution. Results: Mexico embraces 33 genera and 598 species of Lamiaceae, with an endemism proportion of 66.2 %. The most diverse genus is Salvia, with 306 species. Oaxaca is the state encompassing the highest richness, whereas Jalisco harbors the highest amount of endemic species. Conclusions: In Mexico Lamiaceae is the eighth most species-rich family, with a number of species equivalent to 5.5 % of all Lamiaceae worldwide; hence the country is one of the most relevant diversification centers for the family. The high species richne...
We conducted a pilot study using Anchored Hybrid Enrichment to resolve relationships among a mostly Neotropical sage lineage that may have undergone a recent evolutionary radiation. Conventional markers (ITS, trnL-trnF and trnH-psbA) have not been able to resolve the relationships among species nor within portions of the backbone of the lineage. We sampled 12 representative species of subgenus Calosphace and included one species of Salvia's s.l. closest relative, Lepechinia, as outgroup. Hybrid enrichment and sequencing were successful, yielding 448 alignments of individual loci with an average length of 704bp. The performance of the phylogenomic data in phylogenetic reconstruction was superior to that of conventional markers, increasing both support and resolution. Because the captured loci vary in the amount of net phylogenetic informativeness at different phylogenetic depths, these data are promising in phylogenetic reconstruction of this group and likely other lineages within Lamiales. However, special attention should be placed on the amount of phylogenetic noise that the data could potentially contain. A prior exploration step using phylogenetic informativeness profiles to detect loci with sites with disproportionately high substitution rates (showing "phantom" spikes) and, if required, the ensuing filtering of the problematic data is recommended. In our dataset, filtering resulted in increased support and resolution for the shallow nodes in maximum likelihood phylogenetic trees resulting from concatenated analyses of all the loci. Additionally, it is expected that an increase in sampling (loci and taxa) will aid in resolving weakly supported, short deep internal branches.
Premise of research. Salvia is one of the most species-rich genera in the world. Its outstanding diversity and subcosmopolitan distribution have prevented the preparation of a modern comprehensive monograph and reevaluation of its classification. As phylogenetic efforts advance to untangle the evolutionary relationships of Salvia, the need for a solid taxonomic footing is increasingly imperative. Accordingly, we present an updated checklist of the species richness and distribution of Salvia subg. Calosphace, which constitutes more than half of the diversity of the genus. Methodology.A preliminary checklist of the species of Salvia subg. Calosphace was compiled through examination of the literature and online databases; this was revised and discussed by the authors in order to retrieve a consensus list. The distribution of each species by country or territory as well as by biome was also recorded from the sources consulted; affinities in composition were visualized with the unweighted pair group method with arithmetic mean based on a dissimilarity matrix (Sørensen's index).Pivotal results. Salvia subg. Calosphace comprises 580 species; 30 were qualified as unresolved and require further analysis. The countries with the highest species richness are Mexico (295 spp.), Peru (77 spp.), Colombia (60 spp.), Brazil (58 spp.), Guatemala (49 spp.), and Ecuador (41 spp.). The affinity in species composition between countries and between biomes is explained mainly by geographical proximity.Conclusions. The updated list of the species of Salvia subg. Calosphace will help to guide sampling for phylogenetic analyses, enabling the achievement of a more stable and solid phylogenetic hypothesis. At the same time, it is a potentially important tool for underpinning discussions toward a new sectional classification of the lineage.
The Neotropical genus Tillandsia (Bromeliaceae) is an excellent model system for macroevolutionary and biogeographic studies owing to its remarkable species diversity (ca. 650 spp.) and varied morphological and ecological adaptations to epiphytic and saxicolous habitats. Recent phylogenetic studies have greatly improved our knowledge about generic limits and infrageneric classification of Tillandsia. These studies have identified two clades of Tillandsia characterized by a distinct geographic distribution: (i) a North and Central American clade that includes species from subgenus Tillandsia; and (ii) a central South American clade containing species from subgenera Aerobia, Anoplophytum, Diaphoranthema, and Phytarrhiza. Our study aimed to determine the size, composition, and potential geographic structure of these two clades within the context of a global phylogeny of Tillandsioideae. With the addition of 100 newly sequenced species to previous studies to cover the now ca. 30% of the known species diversity of Tillandsia, our analyses found both clades to be strongly supported, and revealed that their species richness is much greater than previously known. Ancestral area estimation suggests that most of the diversification of the first of these clades took place in North and Central America, whereas within the second, most of the migratory events occurred from the Andes to the Brazilian shield.
Salvia is the most diverse genus within the mint family (Lamiaceae), many of its species are well-known due to their medicinal and culinary uses. Most of the ethnopharmacological and phytochemical studies on Salvia are centred on species from the European and Asian clades. However, studies about the most diverse clade, the Neotropical sages (Salvia subgenus Calosphace; 587 spp.), are relatively scarce. This review aims to compile the information on the traditional medicinal uses, pharmacological and phytochemistry properties of the Neotropical sages. To do so, we carried out a comprehensive review of the articles available in different online databases published from the past to 2022 (i.e., PubMed, Scopus, and Web of Science, among others) and summarized the information in tables. To uncover phylogenetic patterns in the distribution of four different groups of metabolites (mono-, sesqui-, di-, and triterpenes), we generated presence-absence matrices and plotted the tip states over a dated phylogeny of Salvia. We found several studies involving Mexican species of Salvia, but only a few about taxa from other diversity centres. The main traditional uses of the Mexican species of Calosphace are medicinal and ceremonial. In traditional medicine 56 species are used to treat diseases from 17 categories according to the WHO, plus cultural-bound syndromes. Pharmacological studies reveal a wide range of biological properties (e.g., antinociceptive, anti-inflammatory, anxiolytic, cytotoxic, and antidiabetic, etc.) found in extracts and isolated compounds of 38 Neotropical sages. From extracts of these species, at least 109 compounds have been isolated, identified and evaluated pharmacologically; 73 of these compounds are clerodanes, 21 abietanes, six flavonoids, five sesquiterpenoids, and four triterpenoids. The most characteristic metabolites found in the Neotropical sages are the diterpenes, particularly clerodanes (e.g., Amarisolide A, Tilifodiolide), that are found almost exclusively in this group. The Neotropical sages are a promising resource in the production of herbal medication, but studies that corroborate the properties that have been attributed to them in traditional medicine are scarce. Research of these metabolites guided by the phylogenies is recommended, since closely related species tend to share the presence of similar compounds and thus similar medicinal properties.
A new species of Salvia section Lavanduloideae from the Estado de México is described and illustrated. Salvia semiscaposa is a procumbent plant morphologically similar to S. scaposa and S. helianthemifolia. It differs from the former by having mostly obovate leaf blades, more than six flowers per verticillaster and posterior calyx lobes narrower and apiculate. On the other hand, S. helianthemifolia differs from the new species by the presence of an erect stem, ovate leaves and trichomes on the calyx surface distributed only on the veins. ResumenSe describe e ilustra una nueva especie de Salvia sección Lavanduloideae del Estado de México. Salvia semiscaposa es una planta procumbente morfológicamente similar a S. scaposa y S. helianthemifolia. De la primera difiere por presentar generalmente hojas obovadas, más de seis flores por verticilastro y lóbulos posteriores del cáliz más estrechos y apiculados. Por otro lado, S. helianthemifolia difiere de la especie nueva por la presencia de un tallo erecto, hojas ovadas y tricomas del cáliz presentes solamente en las venas.
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