Flower perianth: first observations on a novel diet item for the ponerine ant Odontomachus chelifer (Latreille)

Abstract Ants are known to feed on a variety of plant resources. Nevertheless, there are very few reports in the literature on ants using flower parts. Here, we describe how two Odontomachus chelifer (Latreille) ants teared and removed a part of an inner tepal of a Neomarica candida (Hassl.) (Iridaceae) flower at the restinga sandy forest in the Cardoso Island State Park, Brazil. To determine which part of the perianth attracted these ants, we performed two independent two-choice field assays: tepals (inner and outer tepals) were cut in two parts (basal and apical), with contrasting colors, which were offered to ants leaving a colony. Our results show that ants significantly preferred to remove or lick the basal part of the inner tepal. Based on the knowledge of N. candida's floral anatomy, we hypothesize that ants were attracted by the nectar produced by trichomatic nectaries at the basal part of the inner tepals. These tepal parts containing nectar are likely to be used as an alternative food resource amid the scarcity of arthropods usually preyed or scavenged by O. chelifer, since the restinga forest is known as an arthropod-poor habitat.

A dynamic of some biological active compounds in the Iridaceae species / Монголын Анагаах Ухаан

Background @#We have done dynamic study of tannin and total flavonoid contents in samples of Iridaceae such as Iris bungei maxim, Iris tenuifolia Pall, Iris lactea Pall and Iris dichotoma from 2017 April to 2017 Oct. Those 4 samples were prepared from Khuld sum of Dundgobi, Tsogttsetsii sum of Umnugobi, Altanbulag soum of Tuv province and the Botanical Garden 2 of Medicinal plants of Drug Research Institute. @*Goal@#The purpose of this study is to determine how does change biological active compounds in Iridaceae species that depending on growing season and to describe which harvesting period is efficient to use. @*Materials and Methods@#The chemical contents were analyzed with the colorimetric assay, volume metric analysis method and spectrophotometric method.@*Result@#In result of study, there was shown differences in bioactive substance of each Iridaceae, overall content of polyphenolt compound and total flavonoid highest from April to June. But, the bioactive substance in the Iris dichotoma was the highest in August and constantly increased in May to August then constantly decreased in September and October. Comparisons between Iridaceae; the highest concentration of bioactive substance was Iris tenuifolia Pall and the lowest concentration bioactive substance was Iris lactea Pall.

Antioxidant α-amylase inhibitors flavonoids from Iris germanica rhizomes

ABSTRACT A new isoflavonoid glycoside, iridin A (9), along with eight known isoflavonoids: irilone 4'-methyl ether (1), irilone (2), irisolidone (3), irigenin S (4), irigenin (5), irilone 4'-O-β-D-glucopyranoside (6), iridin S (7), and iridin (8) were separated from Iris × germanica L., Iridaceae, rhizomes. The structural elucidation of these flavonoids was achieved with the aid of extensive spectroscopic techniques and comparing with the published data. They were estimated for their α-amylase and 1,1-diphenyl-2-picrylhydrazyl inhibitory capacities. Compounds 3, 5, and 9 showed α-amylase inhibitory activities with % inhibition 70.8, 67.5, and 70.5, respectively compared to acarbose (a reference α-amylase inhibitor). Moreover, 9 exhibited moderate antioxidant activity with IC50 8.91 µM.

Population genetic structure of Sisyrinchium micranthum Cav. (Iridaceae) in Itapuã State Park, Southern Brazil

Sisyrinchium micranthum Cav. is a member of the family Iridaceae, which is distributed over the American continent. In Brazil, this species is found, not only in disturbed areas and coastal regions, but is also very common in urban centers, such as public parks, during the spring. Chromosome counts for North American specimens are 2n = 32 and 2n = 48, whereas in southern Brazil, there is a polyploidy series with three chromosome numbers, 2n = 16, 2n = 32, and 2n = 48. Population analyses using DNA molecular markers are inexistent for this species, in spite of its wide distribution and morphological variation. To study the genetic population structure of S. micranthum, five natural populations were accessed in a conservation park within the Atlantic Rain Forest Biome in southern Brazil. Here, the chromosome numbers 2n = 16 and 2n = 48 had already been described. Molecular analysis showed that the populations are highly structured with low gene flow among them. The population with 2n = 48 was genetically less variable than and distinct from the other populations. Population genetics in relation to cytogenetic data provided new insights regarding the genetic diversification and mating system of S. micranthum.

Chromosome characterization and variability in some Iridaceae from Northeastern Brazil

The chromosomes of 15 species of Iridaceae of the genera Alophia, Cipura, Eleutherine, Neomarica and Trimezia (subfamily Iridoideae) were examined after conventional Giemsa staining. The karyotypes of Alophia drummondii (2n = 14+1B, 28, 42 and 56), Cipura paludosa (2n = 14), C. xanthomelas (2n = 28) and Eleutherine bulbosa (2n = 12) were asymmetric; Neomarica candida, N. caerulea, N. humilis, N. glauca, N. gracilis, N. northiana and Neomarica sp. (2n = 18); N. cf. paradoxa (2n = 28), Trimezia fosteriana (2n = 52), T. martinicensis (2n = 54) and T. connata (2n = 82) were all generally symmetric. New diploid numbers of 2n = 56 for Alophia drummondii, 2n = 18 for N. candida, N. humilis, N. glauca, and N. gracilis, 2n = 28 for N. cf. paradoxa, and 2n = 82 for T. connata are reported. The karyotypic evolution of the studied species is discussed.