Search Results (25)

A new species, Anthurium elsieae, from the Amapá State Forest in the Eastern Brazilian Amazon is described and illustrated. Belonging to the Anthurium sect. Schizoplacium, the species differs from its Amazonian congeners, A. pentaphyllum and A. eminens, by a unique combination of morphological characters, including a short petiole (10–13 cm), inconspicuous venation with a marginal collective vein, and a notably short spadix (ca. 1.7 cm long). Detailed morphological descriptions, habitat information, and diagnostic features are provided. The species appears to be narrowly distributed, occurring at approximately 30 m elevation in terra firme forest. An identification key to the species of Anthurium sect. Schizoplacium is also presented. The discovery of this species highlights the relevance of continued taxonomic and floristic efforts for improving biodiversity knowledge in the Amazon domain and supporting conservation planning. Full article

Anthurium (Araceae) is one of the most species-rich Neotropical genera, yet its infrageneric classification remains unresolved. This study tests the monophyly of the morphologically defined Anthurium sect. Pachyneurium diagnosed by rosulate habit, involute prefoliation, and absence of a collective vein with a focus on Brazilian species. Using target capture sequencing (Angiosperms353 probe set), we generated a phylogenomic dataset for 35 Anthurium species (18 from sect. Pachyneurium) and conducted maximum likelihood and coalescent-based analyses. Our results demonstrate that sect. Pachyneurium is not monophyletic as traditionally circumscribed. Brazilian species previously assigned to the section are recovered in three geographically structured and strongly supported lineages: Amazonian, Atlantic Forest, and Caatinga/Cerrado. The Atlantic Forest lineage is unexpectedly resolved as sister to A. coriaceum (sect. Urospadix), revealing an evolutionary relationship not predicted by morphology. Divergence-time estimates place the origin of crown Anthurium in the Paleocene (~62 Ma), with diversification of the Brazilian lineages occurring during the Miocene (20–3 Ma), coinciding with major geoclimatic events in South America. Our findings indicate that key diagnostic morphological characters are homoplastic and provide a phylogenomic framework for revising the infrageneric classification of Anthurium. By identifying evolutionarily distinct lineages, this study also contributes to prioritizing conservation efforts in threatened Neotropical biomes. Full article

Background/Objectives: Pothos chinensis is commonly used as traditional medicine in China and India. Codon usage analysis is a good way to understand plants’ evolution. However, there is no report about the codon usage bias of chloroplast genomes in P. chinensis. Methods: In this study, the chloroplast genome of the medicinal plant P. chinensis was newly obtained. Comparative analyses, DNA barcoding investigation, codon usage bias, and phylogenetic reconstruction were conducted to reveal the chloroplast genome characteristics of P. chinensis. Results: The length of the chloroplast genome of P. chinensis was 165,165 bp. A total of 134 genes were annotated, i.e., 90 protein-coding genes, 36 transfer RNA genes, and eight ribosomal RNA genes. Compared to its sister group Anthurium andraeanum, the length of the large single-copy region (LSC) had been expanded, while the small single-copy region (SSC) had been contracted. Within P. chinensis and P. scandens there were no obvious differences in the length of LSC, SSC, and two inverted repeat regions. Based on Pi values, seven hypervariable regions of whole plastomes were identified. The analysis of codons showed that an average frequency of the 50 candidate genes was 35.30%, and these genes preferred A/U-ending codons. The average effective number of codon (ENC) value was 45.49, which indicated weak codon usage bias. ENCs had a highly significant positive correlation with GC3. Fourteen optimal codons had been identified, 11 of which ended with A/U. The results of the neutrality plot, ENC-plot, and PR2-plot analysis indicated that natural selection might have a significant impact on codon usage patterns. Conclusions: Taken together, our study unraveled the codon usage patterns in P. chinensis and provided valuable genetic information for the genus Pothos. Full article

Bract coloration in ornamental plants is a complex trait governed by diverse pigments (chlorophylls, anthocyanins, betalains, and carotenoids), their biosynthetic pathways, and regulatory networks. While previous research has primarily focused on floral pigmentation, studies on bract coloration—particularly in species where bracts serve as the primary ornamental feature—have received less attention until recent advances. This review synthesizes current understanding of bract color diversity, pigment biochemistry, and molecular regulation in key species including Bougainvillea, Euphorbia pulcherrima, Anthurium andraeanum, Curcuma alismatifolia, and Zantedeschia hybrida. Anthocyanins predominantly contribute to red-to-purple hues, while betalains generate red, purple, or yellow coloration through differential accumulation of betacyanins and betaxanthins. Developmental color transitions are mediated by chlorophyll degradation and carotenoid dynamics. The spatiotemporal regulation of pigment accumulation involves coordinated interactions between key structural genes (CHS, DFR, ANS for anthocyanins; DODA, CYP76AD1 for betalains), transcription factors (MYB, bHLH, WRKY), and plant growth regulators (BAP, GA, MeJA). Despite these advances, significant knowledge gaps remain in genetic inheritance patterns, epigenetic regulation, cross-pigment pathway crosstalk, and environmental modulation. Future research directions should integrate multi-omics approaches, wild germplasm resources, and gene-editing technologies to develop novel breeding strategies for bract color improvement. Full article

Xanthomonas phaseoli pv. dieffenbachiae (Xpd), the causal agent of bacterial blight in Anthurium within the Araceae family, is listed as an EPPO A2 quarantine organism. Although the whole genome of Xpd has been sequenced, the molecular mechanisms underlying anthurium bacterial blight (ABB) remain unknown. Selecting an optimal reference gene is crucial for obtaining accurate and reliable gene expression profiles during the initial interactions between Xpd and Anthurium. The stability of four reference genes was evaluated by applying three statistical methods—BestKeeper, geNorm, and delta Ct (ΔCt)—using reverse-transcription quantitative PCR (RT-qPCR) data. The rpoD and gyrB genes exhibited the most consistent gene expression profiles, whereas atpD and thyA were less stable at four time points (0, 0.5, 1, and 2 h) during the interactions between Xpd and susceptible A. andreanum cultivar ‘Marian Seefurth.’ The suitability of these reference gene candidates was validated by normalizing the gene expression levels of four pathogenicity-related genes. The highly upregulated expression of gumD, which encodes xanthan biosynthesis glycosyltransferase, observed after 1 h of interaction, suggests it may be a key virulence determinant in the Xpd–Anthurium pathosystem. The stable reference genes identified here will facilitate more accurate and comprehensive gene expression studies in the Xpd–Anthurium pathosystem going forward. Full article

The genus Xanthomonas (family Xanthomonadaceae) comprises 39 validly published species and is associated with a broad host range, infecting hundreds of monocot and dicot plants worldwide. While many Xanthomonas species are notorious for causing leaf spot and blight diseases in major agricultural crops, less attention has been given to their impact on ornamental plants. In Hawaii and other key production regions, xanthomonads have posed persistent threats to popular ornamentals in the Araceae and Araliaceae families. This review synthesizes the evolving phylogenetic and taxonomic framework of Xanthomonas strains isolated from Araceae and Araliaceae, highlighting recent advances enabled by multilocus sequence analysis and whole genome sequencing. We discuss the reclassification of key pathovars, unresolved phylogenetic placements, and the challenges of pathovar delineation within these plant families. Additionally, we examine current knowledge of molecular determinants of pathogenicity, including gene clusters involved in exopolysaccharide and lipopolysaccharide biosynthesis, flagellar assembly, cell-wall-degrading enzymes, and secretion systems (types II, III, and VI). Comparative genomics and functional studies reveal that significant gaps remain in our understanding of the genetic basis of host adaptation and virulence in these xanthomonads. Addressing these knowledge gaps will be crucial for developing effective diagnostics and management strategies for bacterial diseases in ornamental crops. Full article

The cryopreservation of Anthurium andraeanum germplasm resources is extremely important for the production and selection of new varieties. At present, the cryopreservation procedure for the callus of A. andraeanum has not been established. In this study, the leaves of A. andraeanum were used as explants to culture the callus. The cryopreservation procedure of the callus by vitrification was initially established by using the orthogonal experimental method of four factors and three levels in the preculture, loading, and dehydration steps. Furthermore, the vitrification-based cryopreservation was optimized by changing the preculture temperature and loading solution and adding exogenous substances to the plant vitrification solution (PVS2). In this procedure, the callus was precultured at 25 °C for 2 d, and loaded in 50% PVS2 at 25 °C for 60 min. The callus was dehydrated with PVS2 containing 0.08 mM reduced glutathione (GSH) at 0 °C for 60 min. After rapid-cooling in liquid nitrogen for 1 h, it was rapid-warming in a water bath at 40 °C for 90 s and unloaded for 30 min. After 1 d of recovery, the cell relative survival rate of the cryopreserved callus was 64.60%. The results provide a valuable basic and effective method for the long-term conservation of A. andraeanum germplasm resources. Full article

Hybridization is considered an important mode of species evolution, but the genetic evolutionary process of Anthurium andraeanum hybridization is still poorly characterized. In order to provide the molecular and morphological basis for phylogenetic analysis in A. andraeanum hybridization, we analyzed the morphological, nuclear genomic, and chloroplast genomic data of five A. andraeanum cultivars and explored the correlations between different traits and nuclear and chloroplast genome characteristics. A. andraeanum hybrid 1 is an A. andraeanum ‘Baron’ (♀) × A. andraeanum ‘Spice’ (♂) cross, and A. andraeanum hybrid 2 is an A. andraeanum ‘Cheers’ (♀) × A. andraeanum hybrid 1 (♂) cross. The A. andraeanum hybrids reflected their parents’ heterozygous features in their morphologies, nuclear genomes, and chloroplast genomes. The morphological traits in the F1 generation were widely separated, showing continuous variation. Based on cluster analysis, the five A. andraeanum cultivars could be divided into two groups. The ISSR analysis results were highly correlated with the spathe color. Among the five A. andraeanum cultivars, the composition and structure features of chloroplast genomes were completely the same or highly similar, respectively. Phylogenetic analysis based on complete chloroplast genome data showed that the genetic stability of the chloroplast is high in A. andraeanum, manifested as uniparental maternal inheritance, where the chloroplast genome composition and structural features of hybrids are highly similar to those of the maternal parent. Full article

Anthurium is the second largest tropical flower crop in the world. The international market has urgent demand for anthurium varieties with different spathe colors, which mainly arises from the types and contents of anthocyanin. The flavonoid 3-O-glycosyltransferase (UF3GT) gene is the key enzyme involved in promoting anthocyanin accumulation through glycosylation downstream of the anthocyanin synthesis pathway (ASP). Abnormal functioning of UFGT usually results in a reduction in or loss of anthocyanins. The aim of this study was to reveal the role of one anthurium UFGT gene (AnUFGT1) in ‘Xueyu’ (X), an anthocyanin-deficient mutant of ‘Alabama’. Metabolome analysis was used to analyze the metabolic products in the ASP to determine the possible key link of the anthocyanin deletion mutation. Agrobacterium-mediated transformation of Arabidopsis UFGT functionally deficient mutant (ufgt) and ‘X’ validated the function of AnUFGT1. The results of comparative metabolome analysis of ‘X’ and ‘Alabama’ showed that there was no significant difference in product levels upstream of ASP. The expression levels of AnUFGT1 were significantly greater in ‘Alabama’ than in ‘X’. The overexpression of AnUFGT1 in ufgt significantly increased its anthocyanin contents. The overexpression of AnUFGT1 in ‘X’, mediated by a new injection method, can only promote the synthesis of trace anthocyanins. These results showed that AnUFGT1 could fully compensate the phenotype of ufgt, but only partially compensate the anthocyanidin-deficient phenotype of anthurium mutant X. This difference suggested that anthocyanin-deletion mutations in anthurium ‘X’ are associated with AnUFGT1, but AnUFGT1 is not the only factor. There should be other factors interacting with AnUFGT1 that cause anthocyanin deficiency. Full article

Flower blight caused by Neopestalotiopsis clavispora is an emerging disease of flamingo flower (Anthurium andraeanum Lind.) that negatively impacts flower production. The use of rhizosphere fungi as biocontrol agents is an alternative way to control this disease instead of using synthetic fungicides. This research aimed to screen the potential of rhizosphere fungi, Trichoderma spp., with diverse antifungal abilities to control N. clavispora and to reduce flower blight in flamingo flowers. A total of ten isolates were tested against N. clavispora by dual culture assay, and T1-02 was found to be the most effective isolate against N. clavispora, with inhibition of 78.21%. Morphology and molecular phylogeny of multiple DNA sequences of the genes, the internal transcribed spacer (ITS), translation elongation factor 1-α (tef1-α), and RNA polymerase 2 (rpb2) identified isolate T1-02 as Trichoderma virens. Sealed plate method revealed T. virens T1-02 produced volatile antifungal compounds (VOCs) against N. clavispora, with inhibition of 51.28%. Solid-phase microextraction (SPME) was applied to trap volatiles, and GC/MS profiling showed VOCs emitted from T. virens T1-02 contained a sesquiterpene antifungal compound—germacrene D. The pre-colonized plate method showed that T. virens T1-02 aggressively colonized in tested plates with inhibition of 100% against N. clavispora, and microscopy revealed direct parasitism onto fungal hyphae. Furthermore, the application of T. virens T1-02 spore suspension reduced the disease severity index (DSI) of flower blight in flamingo flowers. Based on the results from this study, T. virens T1-02 displays multiple antagonistic mechanisms and has the potential ability to control flower blight of flamingo flowers caused by N. clavispora. Full article

The velamen radicum, a rhizodermis that consists of dead cells at maturity, is often described as typical for epiphytic aroids. Such claims are surprising on two grounds: (1) there are hardly any data on this trait for aroids and (2) the link between a velamen and epiphytic growth has recently been challenged in general. We performed an anatomical and histological study with 82 Anthurium species and analyzed the occurrence of a velamen in regard to habit (epiphytic vs. terrestrial) and phylogenetic relatedness. Almost 90% of both epiphytic and terrestrial species had a velamen. The number of cell layers comprising this tissue were also very similar in both groups. The most likely interpretation of the phylogenetic tree suggests that a velamen is not ancestral in Anthurium. It was gained once and has been lost several times during diversification of the genus. Our results are an important contribution to the current discussion on the possible function of the velamen. While there is some experimental evidence for its importance for epiphytic plants, its role in terrestrial plants is completely unresolved. Full article

Anthurium andraeanum is a tropical ornamental flower. The cost of Anthurium production is higher under low temperature (non-freezing) conditions; therefore, it is important to increase its cold tolerance. However, the molecular mechanisms underlying the response of Anthurium to cold stress remain elusive. In this study, comparative physiological and transcriptome sequencing analyses of two cultivars with contrasting cold tolerances were conducted to evaluate the cold stress response at the flowering stage. The activities of superoxide dismutase and peroxidase and the contents of proline, soluble sugar, and malondialdehyde increased under cold stress in the leaves of the cold tolerant cultivar Elegang (E) and cold susceptible cultivar Menghuang (MH), while the soluble protein content decreased in MH and increased in E. Using RNA sequencing, 24,695 differentially expressed genes (DEGs) were identified from comparisons between cultivars under the same conditions or between the treatment and control groups of a single cultivar, 9132 of which were common cold-responsive DEGs. Heat-shock proteins and pectinesterases were upregulated in E and downregulated in MH, indicating that these proteins are essential for Anthurium cold tolerance. Furthermore, four modules related to cold treatment were obtained by weighted gene co-expression network analysis. The expression of the top 20 hub genes in these modules was induced by cold stress in E or MH, suggesting they might be crucial contributors to cold tolerance. DEGs were significantly enriched in plant hormone signal transduction pathways, trehalose metabolism, and ribosomal proteins, suggesting these processes play important roles in Anthurium’s cold stress response. This study provides a basis for elucidating the mechanism of cold tolerance in A. andraeanum and potential targets for molecular breeding. Full article

Anthurium andraeanum Linden is a prominent ornamental plant belonging to the family Araceae and is cultivated worldwide. The morphology characteristics are crucial because they significantly impact ornamental values, commercial properties, and the efficiency of space utilization in production. However, only a few related investigations have been conducted in anthurium to date. In this study, an F₁ genetic segregation population containing 160 progenies was generated through hybridization between potted and cut anthurium varieties. Fifteen morphological traits were assessed and revealed substantial levels of genetic variation and widespread positive correlation. Based on specific length amplified fragment (SLAF) sequencing technology, 8171 single nucleotide polymorphism (SNP) markers were developed, and the high-density linkage map of 2202.27 cM in length distributed on 15 linkage groups was constructed successfully, with an average distance of 0.30 cM. Using the inclusive composite interval mapping (ICIM) method, 59 QTLs related to 15 key morphological traits were successfully identified, which explained phenotypic variance (PVE) ranging from 6.21% to 17.74%. Thirty-three of those associated with 13 traits were designated as major QTLs with PVE > 10%. These findings offer valuable insights into the genetic basis of quantitative traits and are beneficial for molecular marker-assisted selection (MAS) in anthurium breeding. Full article

Numerous plant functional traits of ecophysiology and morphology associated with an epiphytic life history have promoted relatively high rates of evolutionary diversification and ecological success in tropical families such as the Orchidaeae, Polypodiaceae, Bromeliaceae, and Cactaceae. Epiphytic life histories are relatively uncommon in the Araceae and rare in the Cyclanthaceae which lack key functional traits for epiphytism. Only two lineages of Neotropical Araceae, Anthurium and Philodendron, include examples of epiphyte life histories. The evolution of a hemiepiphytic life history represented an important development for tropical Araceae by providing functional traits that have greatly expanded opportunities for adaptive radiation and ecological success as indicated by species richness and frequency of occurrence. The key adaptive trait allowing the diversification of hemiepiphytic Araceae was the development of heteroblastic growth of leaves and stems. Although hemiepiphytic life histories are present in the Cyclanthaceae, the family has undergone only modest speciation and limited ecological success in both its epiphytes and hemiepiphytes. Extensive sampling of more than 4600 trees from primary forest on four soil groups in northeastern Costa Rica have found a modest diversity of 15 species of epiphytic Araceae but only two species of epiphytic Cyclanthaceae. In contrast, 38 species of hemiepiphytic Araceae and 5 species of hemiepiphytic Cyclanthaceae were sampled, indicating relatively limited adaptive radiation of hemiepiphytic Cyclanthaceae and lower ecological success. Using summed values of frequency of occurrence as a measure of ecological success, epiphytic Araceae were 18 to 42 times more frequent than epiphytic Cyclanthaceae in swamp, alluvial, and residual soil forests. Summed frequencies of occurrence of hemiepiphytic Araceae were 7 to 13 times higher than those of hemiepiphytic Cyclanthaceae. The four soil groups were similar in their floristic composition of epiphytic and hemiepiphytic Araceae and Cyclanthaceae, but the frequencies of occurrence of both epiphytes and hemiepiphytes were, with few exceptions, highest on swamp soil plots, with alluvial soil plots slightly less favorable. Full article

Araceae comprises a diverse group of plants that grow in various habitats, ranging from submerged aquatics to lithophytes. Thus, aroids are likely to show diverse glands acting in several plant–environment interactions, including colleters that protect young shoots. Based on this premise and the lack of studies regarding secretory structures in Araceae, we employed standard light and electron microscopy methods to test the hypothesis that colleters are present in Anthurium. Our main goals were to identify mucilage glands in A. andraeanum by conducting a detailed anatomical study of their structure, ultrastructure, and secretory activity. We found finger-like colleters in the apex of young leaves, spathes, and unexpanded cataphylls as well as secreting zones at the apex of expanded cataphylls, at the margins of non-fused cataphylls, and throughout the keels in two-keeled cataphylls. The colleters develop precociously and senesce shortly afterwards. Ultrastructural data and histochemistry confirmed the production of a polysaccharide-rich secretion that fills the spaces within the developing shoot. As far we know, this is the first time that colleters have been reported for Araceae. The functional roles of the secretion and the position of finger-like colleters concerning the ‘precursor tip’ of monocotyledons are discussed. Future research correlating secretory activity in colleters of species from different habitats might reveal a great diversity of mucilage glands with ecological and evolutionary significance to the family. Full article