12 resultados para Dahlstedtia pentaphylla
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Dahlstedtia Malme (Leguminosae) is a neotropical genus, native to the Brazilian Atlantic Forest, and comprises two species, D. pinnata (Benth.) Malme and D. pentaphylla (Taub.) Burk., although it has been considered a monotypic genus by some authors. Leaf anatomy was compared to verify the presence of anatomical characters to help delimit species. Foliar primordium, leaflet, petiolule, petiole and pulvinus were collected from cultivated plants (Campinas, SP, Brazil) and from natural populations (Picinguaba, Ubatuba and Caraguatatuba, SP, Brazil - D. pinnata; Antonina, PR, Brazil - D. pentaphylla). Studies on leaflet surface assessment (Scanning Electron Microscopy), as well as histology and venation analyses were carried out of dehydrated, fresh and fixed material from two species. Leaflet material was macerated for stomatal counts. Histological sections, obtained by free-hand cut or microtome, were stained with Toluidine Blue, Safranin/Alcian Blue, Ferric Chloride, Acid Phloroglucin. Secretory cavities are present in the lamina, petiolule, petiole, pulvinus and leaf primordium in D. pentaphylla, but not in D. pinnata, and can be considered an important character for species diagnosis. Other leaf characters were uninformative in delimiting Dahlstedtia species. There is cambial activity in the petiolule, petiole and pulvinus. This study, associated with other available data, supports the recognition of two species in Dahlstedtia.
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Dahlstedtia has been considered a monotypic genus by some authors, but comprising two species according to others. The latter view was supported by our biosystematic study. The two species are Neotropical, mainly occurring in the Brazilian Atlantic Forest, where they are, however, allopatric. Experimental pollinations show that the two species are intersterile. After interspecificcrossings, few pollen tubes reach the ovule, a dense secretion fills the micropyle and no proembryos are formed. Probably, there is no gene flow between species, but if it should occur, no hybrids would be formed. The present work confirms Burkart's taxonomic view, according to which Dahlstedtia comprises at least two species: D. pinnata and D. pentaphylla.
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Dahlstedtia pentaphylla (Taub.) Burkart and D. pinnata (Benth.) Malme belong to the Millettieae tribe and are tropical leguminous trees that produce a strong and unpleasant odour. In the present work, we investigated the distribution, development and histochemistry of foliar and floral secretory cavities that could potentially be related to this odour. The ultrastructure of foliar secretory cavities were also studied and compared with histochemical data. These data were compared with observations recorded for other species of Millettieae in order to gain a phylogenetic and taxonomic perspective. Foliar secretory cavities were only recorded for D. pentaphylla. Floral secretory cavities were present in the calyx, wings and keels in both species; in D. pinnata they also were found in bracteoles and vexillum. Such structures were found to originate through a schizogenous process. Epithelial cells revealed a large amount of flattened smooth endoplasmic reticula, well-developed dictyosomes and vacuoles containing myelin-like structures. Cavity lumen secretion stains strongly for lipids. Features of the secretory cavities studied through ultrastructural and histochemical procedures identify these structures as oil glands. Thus, if the odour produced by such plants has any connection with the accumulation of rotenone, as other species belonging to the "timbó" complex, the lipophilic contents of the secretory cavities of Dahlstedtia species take no part in such odour production. The presence, distribution patterns and frequencies of secretory structures in Dahlstedtia are taxonomically significant and may be utilized as a diagnostic character which justifies the separation of this genus into two species.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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As plantas do gênero Dahlstedtia ocorrem exclusivamente no Brasil, em áreas de Mata Atlântica. O gênero é constituído por duas espécies, D. pinnata e D. pentaphylla, embora muitos autores o considerem monotípico. O objetivo deste trabalho é estudar comparativamente a anatomia do eixo vegetativo e verificar a presença de caracteres anatômicos importantes para subsidiar a delimitação destas espécies. Os caracteres anatômicos encontrados no eixo vegetativo que poderiam diferenciar as duas espécies são, em sua maioria, quantitativos, devendo ser utilizados com cautela para a identificação dos taxa, pois nem sempre são constantes num grupo. Entretanto, a presença de idioblastos cristalíferos no floema do caule em estrutura secundária de D. pentaphylla, um menor número de camadas de fibras no caule em estrutura primária em D. pinnata e a origem das cavidades secretoras em níveis diferentes na gema caulinar podem se constituir em caracteres distintivos para as duas espécies.
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Inflorescence and floral development of two tropical legume trees, Dahlstedtia pinnata and Dahlstedlia pentaphylla, occurring in the Atlantic Forest of south-eastern and southern Brazil, were investigated and compared with other papilionoids. Few studies have been made of floral development in tribe Millettieae, and this paper is intended to fill that gap in our knowledge. Dahlstedtia species have an unusual inflorescence type among legumes, the pseudoraceme, which comprises axillary units of three or more flowers, each with a subtending bract. Each flower exhibits a pair of opposite bractcoles. The order of flower initiation is acropetal; inception of the floral organs is as follows: sepals (5), petals (5), carpel (1) plus outer stamens (5) and finally inner stamens (5). Organ initiation in sepal, petal and inner stamen whorls is unidirectional; the carpel cleft is adaxial. The vexillum originates from a tubular-shaped primordium in mid-development and is larger than other petals at maturity, covering the keels. The filament tube develops later after initiation of inner-stamen primordia. Floral development in Dahlstedtia is almost always similar to other papilionoids, especially species of Phaseoleae and Sophoreae. But one important difference is the precocious ovule initiation (open carpel with ovules) in Dahlstedtia, the third citation of this phenomenon for papilionoids. No suppression, organ loss or anomalies occur in the order of primordia initiation or structure. Infra-generic differences in the first stages of ontogeny are rare; however, different species of Dahlstedtia are distinguished by the differing distribution pattern of secretory cavities in the flower. (C) 2009 Elsevier GmbH. All rights reserved.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Microsporogenesis, chromosome number, meiotic behaviour and meiotic index were investigated in Dahlstedtia pinnata and D. pentaphylla, two legume species occurring largely in Brazil, in order to ascertain whether the pollen could limit fertilization events. Archesporial cells originate primary sporogenous and anther wall precursor cells, the tapetum is uniseriate, uninucleate and glandular. Tetrads are tetrahedric or decussate, and cytokinesis is of the simultaneous type. Mature pollen grains are tricolpate and bicellular. No abnormalities in microsporogenesis were found. In both species the chromosome number is n = 11, a number not reported previously. The base number for Dahlstedtia is also 11, because cytological observations include both species of Dahlstedtia. D. pentaphylla has a higher meiotic index and lower individual variation values, and it is considered meiotically stable. Its pollen grains do not limit fertilization. D. pinnata has a lower meiotic index, and the pollen is one of the factors which limit fertilization. Furthermore, D. pinnata has numerous adventitious shoots, which suggest that vegetative propagation is important in its reproductive process. (C) 2002 the Linnean Society of London, Botanical Journal of the Linnean Society, 2002, 138, 461-471.
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In this paper of the catalogue of south brazilian arboreal pollen grains, the autor deals with the Papilionatae. The Mimosoideae and Caesalpinioideae are yet in preparation, so that a discussion of the three subfamilies (or families) is not possible. In relation with the systematical subdivision of the Papilionatae, we found a large correspondence with the morphology of the present pollen grains. The group of Phaseoleae contains the genera Mucuna, Erythrina and Dioclea; the grains of the studied species are very different one from another; the first of the genera possesses very volumous grains, with three colpori and a reticulated superficies; the second has three-porated pollen grains with a large reticulated superficies, and the third, Dioclea, is yet different; it possesses oblated grains, each three-colporated, with a thick sexine and a psilated superficies. So, we can say, that Phaseoleae is a erypalynous group. Dalbergieae, with the genera: Andira, Dalbergia, Lonchocarpus, Machaerium, Platymiscium and Pterocarpus (and Dahlstedtia, the only exception), has very uniform pollen grains, and may be considered stenopalynous. It is not possible to include the genus Dahlstedtia into this group. A little exception is represented by Pterocarpus violaceus, because of the reticulated sexine of its grains, while the others, also three-colporated, possess a tectate-reticulated sexine. The genera Myrocarpus and Ormosia, from Sophoreae, are very more similar to the Dalbergieae as to any other genus of the Phaseoleae.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
