Untangling reticulate evolutionary relationships among New World and Hawaiian mints (Stachydeae, Lamiaceae).

The phenomenon of polyploidy and hybridization usually results in novel genetic combinations, leading to complex, reticulate evolution and incongruence among gene trees, which in turn may show different phylogenetic histories than the inherent species tree. The largest tribe within the subfamily Lamioideae (Lamiaceae), Stachydeae, which includes the globally distributed Stachys, and one of the largest Hawaiian angiosperm radiations, the endemic mints, is a widespread and taxonomically challenging lineage displaying a wide spectrum of morphological and chromosomal diversity. Previous molecular phylogenetic studies have showed that while the Hawaiian mints group with Mexican-South American Stachys based on chloroplast DNA sequence data, nuclear ribosomal DNA (nrDNA) sequences suggest that they are most closely related to temperate North American Stachys. Here, we have utilized five independently inherited, low-copy nuclear loci, and a variety of phylogenetic methods, including multi-locus coalescence-based tree reconstructions, to provide insight into the complex origins and evolutionary relationships between the New World Stachys and the Hawaiian mints. Our results demonstrate incongruence between individual gene trees, grouping the Hawaiian mints with both temperate North American and Meso-South American Stachys clades. However, our multi-locus coalescence tree is concurrent with previous nrDNA results placing them within the temperate North American Stachys clade. Our results point toward a possible allopolyploid hybrid origin of the Hawaiian mints arising from temperate North American and Meso-South American ancestors, as well as a reticulate origin for South American Stachys. As such, our study is another significant step toward further understanding the putative parentage and the potential influence of hybridization and incomplete lineage sorting in giving rise to this insular plant lineage, which following colonization underwent rapid morphological and ecological diversification.

Natural control of corn postharvest fungi Aspergillus flavus and Penicillium sp. using essential oils from plants grown in Argentina.

The objective in this study was to evaluate the antifungal activity of essential oils from native and commercial aromatic plants grown in Argentina against corn postharvest fungi and to link the essential oil bioactivity with lipid oxidation and morphological changes in fungus cell membrane. Essential oil (EO) of oregano variety Mendocino (OMen), Cordobes (OCor), and Compacto (OCom), mint variety Inglesa (Mi), and Pehaujo (Mp), Suico (Sui); rosemary (Ro), and Aguaribay (Ag) were tested in vitro against 4 corn fungi: A. flavus (CCC116-83 and BXC01), P. oxalicum (083296), and P. minioluteum (BXC03). The minimum fungicidal concentration (MFC) and the minimum inhibitory concentration (MIC) were determined. The chemical profiles of the EOs were analyzed by GC-MS. Lipid oxidation in cell membrane of fungi was determined by hydroperoxides and related with essential oil antifungal activity. The major compounds were Thymol in OCor (18.66%), Omen (12.18%), and OCom (9.44%); menthol in Mi and Mp; verbenone in Sui; dehydroxy-isocalamendiol in Ag; and eucaliptol in Ro. OCor, Omen, and OCom showed the best antifungal activity. No antifungal activity was observed in Ag and Ro EO. The hydroperoxide value depended on the fungi (P < 0.001) and the antimicrobial agent (P < 0.001).Membrane lipids were oxidized by Sui EO in A. flavus BXC01 and A. flavus CCC116-83 (0.021 and 0.027 meqO2 /kg, respectively). The results suggest that the EOs of OCor, OMen, OCom, Mi, Mp, and Sui grown in Argentina can be used as natural alternatives to control fungi that produce mycotoxin in maize.

Influência do cultivo em consórcio na produção de fitomassa e óleo essencial de manjericão (Ocimum basilicum L. ) e hortelã (Mentha x villosa Huds. ) / Influence of intercropping on phytomass and essential oil production in basil (Ocimum basilicum L. ) and mint (Mentha x villosa Huds. )

As plantas medicinais produzem seus princípios ativos de acordo com os estímulos do ambiente, por isso a presença de outras plantas pode comprometer a produção dos metabólicos secundários. Assim, o presente trabalho teve como objetivo avaliar o efeito do cultivo consorciado sobre a produção de fitomassa e o teor de óleo essencial de manjericão (Ocimum basilicum L.) e hortelã (Mentha x villosa Huds.). O experimento foi conduzido na área experimental do Núcleo de Ciências Agrárias da Universidade Federal de Minas Gerais, Campus Regional de Montes Claros- MG. O delineamento utilizado foi o de blocos casualizados, com doze repetições, compreendendo seis tratamentos: manjericão + cenoura, manjericão + alface, manjericão solteiro, hortelã + cenoura, hortelã + alface e hortelã solteira. A produção de fitomassa e óleo essencial da hortelã não foram influenciados pelos tratamentos. Para o manjericão, apenas a massa fresca variou significativamente com os tratamentos.

Medicinal plants produce their active principles according to environmental stimuli; thus, the presence of other plants may affect the synthesis of secondary compounds. The present work aimed to evaluate the effect of intercropping on phytomass and essential oil production in basil (Ocimum basilicum L.) and mint (Mentha x villosa Huds.). The study was carried out in the experimental field of the Center for Agriculture, Federal University of Minas Gerais, Montes Claros Campus, Minas Gerais State, Brazil. The experimental design was in randomized blocks, with twelve replicates and six treatments: basil + carrot, basil + lettuce, sole crop of basil, mint + carrot, mint + lettuce, and sole crop of mint. Phytomass and essential oil production in mint were not affected by the treatments. As regards basil, only fresh matter significantly varied with treatments.

Teor e composição química do óleo essencial de Hyptis marrubioides Epling (Lamiaceae) em diferentes genótipos / Essential oil content and chemical composition in Hyptis marrubioides Epl. of different genotypes

Hyptis marrubioides Epling (hortelã-do-campo) é espécie de uso medicinal conhecida pelas suas atividades contra infecções gastrointestinais, infecções de pele, dores e câimbras. Objetivou-se com este trabalho, avaliar o teor e composição química do óleo essencial de H. marrubioides em diferentes genótipos (roxo e branco) e partes da planta fresca (folhas, inflorescências e caule). Os genótipos estudados foram identificados através das inflorescências das plantas que apresentam coloração roxa e branca. O delineamento experimental foi inteiramente casualizado, contendo as três partes da planta de ambos os genótipos, perfazendo um fatorial 3x2, com quatro repetições. O óleo essencial foi extraído por hidrodestilação por duas horas e analisado por Cromatografia Gasosa acoplada a Espectrometria de Massas (CG-EM). O maior teor de óleo essencial foi observado na inflorescência do genótipo roxo. A composição do óleo essencial de H. marrubioides variou quantitativamente entre as partes das plantas analisadas e entre os genótipos. O composto α-tujona apresentou a maior porcentagem de área do pico nas inflorescências de genótipo roxo. As porcentagens das plantas com genótipo roxo foram em média superiores às plantas com genótipo branco.

Hyptis marrubioides Epling ("hortelã-do-campo") is a medicinal species known for its activities against gastrointestinal and skin infections, pains and cramps. The aim of this work was to evaluate essential oil content and chemical composition in H. marrubioides of different genotypes (purple and white), as well as fresh plant parts (leaves, inflorescences and stem). The studied genotypes were identified based on the inflorescences, which are purple and white. The experimental design was completely randomized, including the three parts of both genotypes, in a 3X2 factorial arrangement, with four replicates. Essential oil was extracted through hydrodistillation for two hours and analyzed using Gas Chromatography attached to a Mass Spectrometry (GC-MS). The highest essential oil content was found for the inflorescence of purple genotype. Hyptis marrubioides essential oil composition quantitatively varied among the analyzed plant parts and between genotypes. The compound α-thujone had the highest percentage of apex area in inflorescences of purple genotype. The percentages of purple genotype were on average higher than those of white one.