A revised infrageneric classification of Bellevalia Lapeyr. (Asparagaceae: Scilloideae) based on molecular analysis

Within the genus Bellevalia (Asparagaceae: Scilloideae: Hyacintheae), flower shape and colour, the ratio of leaf to scape length, and the orientation of the pedicels were traditionally used to delimit sections, subsections and species. We conducted a phylogenetic analysis of representative species from sections Bellevalia, Conicae, Nutantes and Oxydontae, representing four out of the six sections that are currently recognised, using the four chloroplast regions rbcL, matK, trnL intron, and trnL-F spacer. Our results indicate that the sections are not monophyletic as currently circumscribed. Our analyses retrieve two major, well-supported clades. The first clade (sect. Conicae) includes only species with ciliate leaves and green-veined perianth lobes, and the second clade (sect. Bellevalia) includes the species lacking these characteristics. Within the second clade, the species with yellow anthers are separated from those with violet anthers. Our molecular analysis does not support the traditional subdivisions of the genus but establishes the value of cilia on the leaf margin, green veins in the perianths lobes, and the colour of the anthers as indicators of relationships among the species. We recommend that the current four sections and six subsections of Bellevalia be reduced to two sections without subsections and we provide an updated and corrected nomenclature for these sections and subsections, designating lectotypes where necessary.

A key to the subgenera of the stingless bee genus Melipona (Hymenoptera: Apidae)

The infrageneric classification of the stingless bee genus Melipona Illiger (Apinae: Meliponini) has historically consisted of four subgenera. Here a slightly expanded subgeneric system is presented in the context of a key to subgenera, with two new subgenera established: Meliponotes subgen. n. and Mouremelia subgen. n.

A key to the subgenera of the orchid bee genus Euglossa (Hymenoptera: Apidae)

The infrageneric classification of the orchid bee genus Euglossa Latreille (Apinae: Euglossini) has historically comprised six or seven subgenera and a plethora of species groups, many of which are demonstrably monophyletic. Nonetheless, challenges remain, particularly in relation to the subgenus Glossurella Dressler. Herein a new key to subgenera is presented and four problematic species groups of Glossurella are removed to separate subgeneric entities: Eurhytisma subgen. n., Glossurodes subgen. n., Parisoglossa subgen. n., and Trachyglossa subgen. n.

Nomenclatural and taxonomic comments on some taxa of Dysphania (Chenopodiaceae s. str. / Amaranthaceae s. l.)

Following the comprehensive molecular phylogenetic results presented by Uotila et al. (2021), comments are provided on the infrageneric classification system of the genus Dysphania in its amended circumscription. Amendments and additions to the five-section scheme of Uotila et al. (2021) are proposed. In particular, the morphologically distinct lineage containing Dysphania atriplicifolia (earlier widely recognized in the monospecific genus Cycloloma as C. atriplicifolium) is recognized as a separate section, Dysphania sect. Cycloloma (Moq.) Mosyakin, comb. et stat. nov. Extensive synonymy of the section and its species is provided. The subclades revealed in the Australian clade of Dysphania sect. Dysphania are rather well characterized morphologically and were treated earlier as sections of either Chenopodium (sensu lato) or Dysphania. These subclades are recognized here as three subsections of sect. Dysphania: (1) subsect. Orthospora (R.Br.) Mosyakin, comb. et stat. nov.; (2) subsect. Dysphania; and (3) subsect. Tetrasepalae (Aellen) Mosyakin, comb. et stat. nov. The nomenclature of Dysphania graveolens (≡ Chenopodium graveolens) is discussed. It is confirmed that the name Chenopodium graveolens was first validated not by Willdenow in 1809 but by Lagasca and Rodríguez in 1802. Original specimens associated with that name in both publications belong taxonomically to the same species currently known as D. graveolens (= Chenopodium incisum Poir.). In my opinion, Art. 41.8(a) of the ICN (Shenzhen Code) is directly applicable here. Consequently, the name D. graveolens should be cited with the corrected authorship "(Lag. & Rodr.) Mosyakin & Clemants", and the new combination in Dysphania based on Chenopodium incisum (provisionally cited in POWO as "Dysphania incisa (Poir.) ined.") is unnecessary.

Species delimitation of the northeastern Anatolian Symphytum (Boraginaceae) taxa

Symphytum is regarded one of the most complicated genera in terms of the classification of its members among the Boraginaceae. In addition to different infrageneric classification methods, several species complex or aggregates have been proposed to deal with the taxonomical problem of genus members. Symphytum asperum aggregate was first introduced by Kurtto, who proposed six taxa within this aggregate. However, according to further studies by different researchers based on morphological data, total number of species of the complex was variable. The number of species was reduced to three, comprising S. asperum, S. savvalense, and S. sylvaticum, after the phylogenetic and morphological studies of Tarıkahya-Hacıoğlu and Erik. However, the taxonomical status of some of these species (i.e., S. savvalense and S. sylvaticum, and S. sepulcrale), which was assigned as a member of this complex by Kurtto, has been regarded as unresolved. To solve this uncertainty, different species delimitation methods were used, including statistical parsimony network analysis (TCS), generalized mixed Yule coalescent (GMYC), and Bayesian Phylogenetics and Phylogeography (BPP) of the ITS, trnL-F and trnS-G sequence data. In addition to members of this complex, S. ibericum, which is phylogenetically nested within the S. asperum aggregate, was also used. The TCS and GMYC analyses demonstrated more complicated clusters, whereas high posterior probabilities of BPP clusters were more compatible with the morphological data. In accordance with the morphological approach of Tarıkahya-Hacıoğlu and Erik, the species delimitation analyses based on molecular data support the recognition of S. asperum, S. ibericum, S. savvalense, and S. sylvaticum as different species.

Morphometric Characteristics of Endocarp, Seed and Embryo of Elaeocarpus ganitrus, the Indian Rudraksha Plant

Elaeocarpus ganitrus Roxb. ex G. Don (Syn. E. angustifolius Bl., E. sphaericus (Gaertn.) K. Schum.) occurs naturally in various parts of India and elsewhere in the world. The plant has poor regeneration in the wild and has been reported as a threatened species in the north-eastern region of India. This plant, known as Rudraksha in India, has been considered very sacred and pious for devotees in Hinduism. As, only limited studies have been carried out on morphometrics of the endocarp, seed and embryo of this species, therefore, the required studies on these aspects including detection of seed presence within the endocarp through X-Ray imaging were carried out and reported in the present article. Findings of the study will be helpful in correct identification of this important species and also in making comparison in case of infrageneric classification and grouping of various Elaeocarpus species within Ganitrus Group (Group V, sub group A).

An Updated Infrageneric Classification of the North American Oaks (Quercus Subgenus Quercus): Review of the Contribution of Phylogenomic Data to Biogeography and Species Diversity

The oak flora of North America north of Mexico is both phylogenetically diverse and species-rich, including 92 species placed in five sections of subgenus Quercus, the oak clade centered on the Americas. Despite phylogenetic and taxonomic progress on the genus over the past 45 years, classification of species at the subsectional level remains unchanged since the early treatments by WL Trelease, AA Camus, and CH Muller. In recent work, we used a RAD-seq based phylogeny including 250 species sampled from throughout the Americas and Eurasia to reconstruct the timing and biogeography of the North American oak radiation. This work demonstrates that the North American oak flora comprises mostly regional species radiations with limited phylogenetic affinities to Mexican clades, and two sister group connections to Eurasia. Using this framework, we describe the regional patterns of oak diversity within North America and formally classify 62 species into nine major North American subsections within sections Lobatae (the red oaks) and Quercus (the white oaks), the two largest sections of subgenus Quercus. We also distill emerging evolutionary and biogeographic patterns based on the impact of phylogenomic data on the systematics of multiple species complexes and instances of hybridization.

Evaluating the monophyly of Mammillaria series Supertextae (Cactaceae)

Mammillaria (Cactaceae) taxonomy has been historically problematic due to the morphological variability and sympatry of the species. This has led to several proposals for infrageneric classification, including subgeneric, section and series categories. Mammillaria ser. Supertextae is one of 15 series and is made up of a variable set of species that are mainly distributed in southern Mexico and Central America. However, the phylogenetic relationships within M. ser. Supertextae and its relationship to other Mammillaria taxa are far from fully understood. Here we attempt to elucidate these relationships using complete terminal sampling and newly obtained chloroplast marker sequences and comparing them to Mammillaria species sequences from GenBank. Our phylogenetic analyses showed that M. ser. Supertextae comprises a well-supported monophyletic group that diverged approximately 2.1 Mya and has M. ser. Polyacanthae as its sister group; however, relationships within M. ser. Supertextae remain unresolved. The topology obtained within M. ser. Supertextae must also be interpreted under the distribution shared by these taxa, but it is difficult to differentiate ancestral polymorphisms from possible introgression, given the short time elapsed and the markers used. Our results show that the infrageneric units of M. haageana and M. albilanata can be considered independent evolutionary units. We also suggest that the relationship between M. haageana and M. albilanata is convoluted because their distribution overlaps (mainly towards southern Mexico), with genetic differences that possibly indicate they represent more than two taxonomic entities. One possible explanation is that there could still be gene flow between these taxa, and we might be witnessing an ongoing speciation process.

Phylogenetic Relationships of Tovomita (Clusiaceae): Carpel Number and Geographic Distribution Speak Louder than Venation Pattern

Abstract—Tovomita is a Neotropical clade of Clusiaceae that includes 52 species widely distributed throughout the Amazon, Atlantic, Antilles, and Chocoan/southern Mesoamerican rainforests. Species-level relationships within Tovomita remain largely unexplored, thus hindering our understanding of their biogeography and the evolution of key morphological characters in the genus. Here, we inferred a plastid genome phylogeny containing 18 Tovomita species using maximum likelihood and Bayesian inference approaches. Our results indicate that current infrageneric classification of Tovomita, which relies largely on leaf venation, does not reflect phylogenetic relationships. Instead, we identify carpel number as a more reliable morphological trait for infrageneric classification: clades within Tovomita tend to include species that possess either four or five (or more) carpels. Moreover, groups of species within Tovomita tend to exhibit a high degree of geographic endemicity corresponding to their clade affiliation: species within these clades are restricted to either Amazon or Atlantic forests. The well supported clade of Atlantic forest inhabitants we identify is sister to a clade of mostly Amazonian species that also includes Amazon and Atlantic forest disjunct species, which are more closely related to Amazonian than to other Atlantic forest species. These findings represent a first important step in elucidating morphological evolution and biogeography in this widespread genus of neotropical rainforest trees and shrubs.

TAXONOMIC REVISION OF NIGERIAN SPECIES OF Capsicum L. BASED ON SOME MORPHOLOGICAL CHARACTERS

Species of Capsicum L. are closely related plants whose taxonomic status has remained controversial among different taxonomists. This study was designed to examine the taxonomic status of the species of Capsicum in Nigeria in order to establish the genetic variation between the species for the purpose of identification, as well as review the infrageneric classification (INC) of the members of the genus. Germplasm collection of the seeds of five cultivars of Capsicum were regenerated and nurtured to fruiting. Variations in their vegetative and reproductive morphology were macroscopically evaluated in replicates of 30 individuals per cultivar for each character, which equals 150 samples altogether. The cultivars of each species was hierarchically clustered as operational taxonomic units (OTUs) using Ward’s method with squared Euclidean distance. Artificial key was also constructed for the identification of the species in the genus. The twenty-three (23) morphological characters adopted gave useful insights into the INC of the species and were sufficiently diagnostic of the species as evidenced by the artificial key. Through this study, some light has been shed on the delimitation of species and varieties of the Nigerian Capsicum.