Your search keyword '"Scatena, Vera"' showing total 10 results

1. Floral Anatomy of Xyrids (Poales): Contributions to Their Reproductive Biology, Taxonomy, and Phylogeny

Author

Oriani, Aline and Scatena, Vera L.

Published

2012

2. Floral ontogeny and vasculature in Xyridaceae, with particular reference to staminodes and stylar appendages.

Author

Sajo, M., Oriani, Aline, Scatena, Vera, and Rudall, Paula

Subjects

ONTOGENY, XYRIDACEAE, PHYLOGENY, ERIOCAULACEAE, DATA analysis

Abstract

We provide a detailed comparative study of floral ontogeny and vasculature in Xyridaceae, including Xyris, Abolboda and Orectanthe. We evaluate these data in the context of a recent well-resolved phylogenetic analysis of Poales to compare floral structures within the xyrid clade (Xyridaceae and Eriocaulaceae). Xyrids are relatively diverse in both flower structure and anatomy; many species incorporate diverse and unusual floral structures such as staminodes and stylar appendages. Xyridaceae possess three generally epipetalous stamens in a single whorl; the 'missing' stamen whorl is either entirely absent or transformed into staminodes. Fertile stamens each receive a single vascular bundle diverged from the median petal bundle. In Xyris, the stamen bundle diverges at the flower base, but it diverges at upper flower levels in both Abolboda and Orectanthe. In species of Abolboda that possess staminodes, staminode vasculature is closely associated with the lateral vasculature of each petal. Despite the likely sister-group relationship between Eriocaulaceae and Xyridaceae, our character optimization indicates that the stylar appendages that characterize some Xyridaceae (except Xyris and Achlyphila) are non-homologous with those of some Eriocaulaceae. On the other hand, it remains equivocal whether the loss of a fertile outer androecial whorl occurred more than once during the evolutionary history of the xyrid clade; this transition occurred either once followed by a reversal to fertile stamens in Eriocauloideae and staminodes in some Xyridaceae, or twice independently within both Xyridaceae and Eriocaulaceae. [ABSTRACT FROM AUTHOR]

Published

2017

3. OVULE, FRUIT, AND SEED DEVELOPMENT OF ORECTANTHE SCEPTRUM AND ITS SYSTEMATIC RELEVANCE TO XYRIDACEAE (POALES).

Author

Oriani, Aline, Scatena, Vera L., and Herendeen, Patrick S.

Subjects

*OVULES, *GERMINATION, *SEED development, *XYRIDACEAE, *PLANT phylogeny, *GAMETOPHYTES

Abstract

Premise of research. Orectanthe consists of only two species with a distribution limited to the Guayana Highlands, in locations where sample collection is challenging. The genus belongs to Abolbodoideae, one of the two subfamilies of Xyridaceae. The development of the ovule, fruit, and seed of Orectanthe sceptrum was studied using a comparative approach to provide useful information for the taxonomy and phylogeny of the family. Methodology. Flowers and fruits at different developmental stages were analyzed by light and scanning electron microscopy. Optimization of select characters on a previously published phylogeny was conducted to evaluate the evolution of some embryological characters in Poales. The seed weights of O. sceptrum and species of Abolboda and Xyris were measured for comparison. Pivotal results. Orectanthe sceptrum presents anatropous, tenuinucellate, and bitegmic ovules with a micropyle bounded by both integuments. The multilayered outer integument forms the seed wing, which is a unique feature of this genus. The development of megagametophyte is of the Polygonum type. The seed has a tanniferous hypostase, a starchy endosperm, and a reduced and undifferentiated embryo. The seed coat is composed of a tanniferous tegmen (endotegmen and exotegmen) and testa (endotesta and exotesta). The mechanical layer of the seed coat is the exotesta. The fruit has a sclerenchymatous exocarp. The ancestral character-state reconstructions show that anatropous, crassinucellate ovules, megagametophyte development of the Polygonum type, and nuclear endosperm are the ancestral conditions in Poales. Orthotropous, tenuinucellate ovules appear in the most recent common ancestor of the xyrid, restiid, and graminid clades. The seed weight of O. sceptrum is one to two orders of magnitude greater than the seed weight of Abolboda and Xyris species. Conclusions. Anatropous ovules and a seed coat formed by endotegmen, exotegmen, endotesta, and exotesta link Orectanthe to Abolboda (Abolbodoideae). Such characteristics are not found in Xyris (Xyridoideae), which is consistent with the subfamilial division. The presence of anatropous ovules in Abolbodoideae most likely represents a character reversal. The greater seed weight of O. sceptrum may explain the presence of wings in the seeds. [ABSTRACT FROM AUTHOR]

Published

2017

4. ANTHER WALL DEVELOPMENT, MICROSPOROGENESIS, AND MICROGAMETOGENESIS IN ABOLBODA AND ORECTANTHE: CONTRIBUTIONS TO THE EMBRYOLOGY OF XYRIDACEAE (POALES).

Author

Oriani, Aline, Scatena, Vera L., and Herendeen, Patrick S.

Subjects

*XYRIDACEAE, *SPOROGENESIS in plants, *GAMETOGENESIS, *POLLEN, *TAPETUM, *PLANT cells & tissues, *PLANT embryology, *PLANTS

Abstract

Premise of research. Xyridaceae includes two subfamilies with a total of five genera. Xyridoideae has only the single genus Xyris, and Abolbodoideae includes the remaining genera. The inter- and intrafamilial relationships among Xyridaceae have not yet been clarified, and this study therefore aimed to investigate the anther wall and pollen grain development in Abolboda and Orectanthe species, searching for characters that can be used in taxonomic and phylogenetic analyses. Methodology. Anthers from flowers at different stages of development were examined using both LM and SEM. Pivotal results. All studied species present the following: monocotyledonous type of anther wall development, single-layered endothecium with band-like thickenings in the mature anther, single ephemeral middle layer, multilayered and plasmodial tapetum, successive microsporogenesis, and spherical inaperturate pollen grains. Characteristics such as reduced type of anther wall development, single-layered and secretory tapetum with uninucleate or binucleate cells, and elliptical sulcate pollen grains with a reticulate exine are present in Xyris and differentiate this genus from Abolboda and Orectanthe. The characteristics reported for Xyris are also present in Mayacaceae, which used to form the xyrid clade of Poales with Eriocaulaceae and Xyridaceae. Abolboda and Orectanthe share with Eriocaulaceae the monocotyledonous type of anther wall development with an ephemeral middle layer, an endothecium with band-like thickenings, and pollen grain exine with projections. The presence of a multilayered tapetum is exclusive to Abolboda and Orectanthe among the Xyridaceae and also among the Poales. Conclusions. The embryological characteristics support the division of Xyridaceae into two subfamilies. In contrast with the megasporogenesis and megagametogenesis, the microsporogenesis and microgametogenesis characteristics were quite variable within the xyrid clade, with successive microsporogenesis being the only characteristic shared by Xyridaceae, Eriocaulaceae, and Mayacaceae. [ABSTRACT FROM AUTHOR]

Published

2015

5. Development of ovule, fruit and seed of X yris ( Xyridaceae, Poales) and taxonomic considerations.

Author

Nardi, Kaire de Oliveira, Scatena, Vera L., and Oriani, Aline

Subjects

*XYRIDACEAE, *OVULES, *PLANT embryology, *SEED coats (Botany), *MONOCOTYLEDONS

Abstract

The development of the ovule, fruit and seed of Xyris spp. was studied to assess the embryological characteristics of potential taxonomic usefulness. All of the studied species have (1) orthotropous, bitegmic and tenuinucellate ovules, with a micropyle formed by both the endostoma and exostoma; (2) a cuticle in the ovules and seeds between the nucellus/endosperm and the inner integument and between the inner and outer integuments; (3) helobial, starchy endosperm; (4) a reduced, campanulate and undifferentiated embryo; (5) a seed coat formed by a tanniferous endotegmen, endotesta with thick-walled cells and exotesta with thin-walled cells; and (6) a micropylar operculum formed from inner and outer integuments. The pericarp is composed of a mesocarp with cells containing starch grains and an endocarp and exocarp formed by cells with U-shaped thickened walls. The studied species differ in the embryo sac development, which can be of the Polygonum or Allium type, and in the pericarp, which can have larger cells in either endocarp or exocarp. The Allium-type embryo sac development was observed only in Xyris spp. within Xyridaceae. Xyris also differs from the other genera of Xyridaceae by the presence of orthotropous ovules and a seed coat formed by endotegmen, endotesta and exotesta, in agreement with the division of the family into Xyridoideae and Abolbodoideae. © 2015 The Linnean Society of London, Botanical Journal of the Linnean Society, 2015, 177, 619-628. [ABSTRACT FROM AUTHOR]

Published

2015

6. Ovule, fruit and seed development in Abolboda ( Xyridaceae, Poales): implications for taxonomy and phylogeny.

Author

Oriani, Aline and Scatena, Vera L.

Subjects

*OVULES, *FRUIT development, *SEED development, *XYRIDACEAE, *PLANT classification, *PLANT phylogeny, *ENDOSPERM

Abstract

Xyridaceae belongs to the xyrid clade of Poales, but the phylogenetic position of the xyrid families is only weakly supported. Xyridaceae is divided into two subfamilies and five genera, the relationships of which remain unclear. The development of the ovule, fruit and seed of Abolboda spp. was studied to identify characteristics of taxonomic and phylogenetic value. All of the studied species share anatropous, tenuinucellate and bitegmic ovules with a micropyle formed by the inner and outer integuments, megagametophyte development of the Polygonum type, seeds with a tanniferous hypostase, a helobial and starchy endosperm and an undifferentiated embryo, seed coat derived from both integuments with a tanniferous tegmen and a micropylar operculum, and fruits with a parenchymatous endocarp and mesocarp and a sclerenchymatous exocarp. Most of the ovule and seed characteristics described for Abolboda are also present in Xyris and may represent a pattern for the family. Abolboda is distinguished by the ovule type, endosperm formation and the number of layers in the seed coat, in agreement with its classification in Abolbodoideae. The following characteristics link Xyridaceae to Eriocaulaceae and Mayacaceae, supporting the xyrid clade: tenuinucellate, bitegmic ovules; seeds with a tanniferous hypostase, a starchy endosperm and an undifferentiated embryo; and a seed coat with a tanniferous tegmen. A micropylar operculum in the seeds of Abolboda is described for the first time here and may represent a synapomorphy for the xyrids. © 2014 The Linnean Society of London, Botanical Journal of the Linnean Society, 2014, 175, 144-154. [ABSTRACT FROM AUTHOR]

Published

2014

7. Reproductive biology of Abolboda pulchella and A. poarchon (Xyridaceae: Poales).

Author

Oriani, Aline and Scatena, Vera Lucia

Subjects

*XYRIDACEAE, *PLANT reproduction, *POLLINATION by bees, *POLLEN tube, *PLANT phylogeny, *FIELD research, *NECTAR

Abstract

Background and Aims Abolboda (Xyridaceae) belongs to the Poales, a predominantly wind-pollinated order whose phylogeny has been widely studied in recent years. The reproductive biology of Abolboda pulchella and A. poarchon was studied to determine the main pollination system of these species, providing the first experimental data on reproduction in the Xyridaceae. Methods A field study was conducted, including observations on the morphology and biology of the flowers, insect visits and pollinator behaviour. Experimental pollination treatments were performed to assess agamospermy, spontaneous self-pollination and self-compatibility. Pollination success was determined by pollen tube growth, and reproductive success was assessed by fruit- and seed-set. Key Results Abolboda pulchella and A. poarchon were pollinated by Apidae, Megachilidae and Halictidae bees. The floral resources were pollen and nectar that was produced by stylar appendages, an uncommom nectary type for monocotyledons. The species were self-compatible, and pollen tube growth from self-pollen was similar to that of cross-pollen. However, herkogamy prevented spontaneous selfing, rendering the plants dependent on the pollinator's activity. There was no production of seeds by agamospermy. Conclusions Melittophily is the main pollination system of these two Abolboda species. Nectar production was first recorded here for Xyridaceae, and along with self-compatibility, herkogamy and bee pollination, is an informative characteristic that can be used in future phylogenetic analyses of the family as well as Poales. [ABSTRACT FROM PUBLISHER]

Published

2011

8. Anatomy of vegetative organs and inflorescence axis of Orectanthe sceptrum (Xyridaceae–Poales)1

Author

de Oliveira, Fernanda Martins Gonzaga, Scatena, Vera Lucia, and Oriani, Aline

Published

2015

9. On the taxonomic value of the anatomical structure of vegetative organs and inflorescence axis of Abolboda species (Xyridaceae – Poales)1

Author

Scatena, Vera Lucia, Formiga, Carla Caetano, and Oriani, Aline

Published

2011

10. Desenvolvimento de óvulo, fruto e semente de Xyris (Xyridaceae, Poales)

Author

Nardi, Kaire de Oliveira [UNESP], Universidade Estadual Paulista (Unesp), Scatena, Vera Lucia [UNESP], and Oriani, Aline [UNESP]

Subjects

Botânica - Morfologia, Frutas, Plant anatomy, Embriologia, Ecologia vegetal, Xyridaceae, Taxonomia vegetal, Anatomia vegetal, Sementes

Abstract

Made available in DSpace on 2014-08-13T14:50:53Z (GMT). No. of bitstreams: 0 Previous issue date: 2014-03-11Bitstream added on 2014-08-13T18:01:24Z : No. of bitstreams: 1 000765888.pdf: 1195860 bytes, checksum: dc399271e85a3b780f2d606440e38766 (MD5) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Xyris é o gênero mais representativo de Xyridaceae, porém há poucos dados disponíveis na literatura sobre sua embriologia e micromorfologia de sementes. O objetivo deste trabalho foi descrever o desenvolvimento de óvulo, fruto e semente de espécies do gênero em uma abordagem comparativa e caracterizar a superfície do envoltório seminal, com fins taxonômicos. Os resultados sugerem um padrão embriológico: óvulos ortótropos, bitegumentados e tenuinucelados, com micrópila formada pela endóstoma e exóstoma; endosperma helobial, amilífero; embrião reduzido, campanulado e indiferenciado; envoltório seminal formado por endotégmen taninífero, endotesta com células com espessamento de parede periclinal interna e exotesta formada por células de paredes finas; opérculo micropilar formado pelos tegumentos interno e externo. O pericarpo apresenta mesocarpo constituído por células contendo grãos de amido e exocarpo e endocarpo com células com espessamento de parede em “U”. Há diferenças quanto ao desenvolvimento do megagametófito, que pode ser do tipo Polygonum ou Allium, e também quanto ao pericarpo, que pode apresentar o endocarpo ou o exocarpo diferenciado. O desenvolvimento do envoltório seminal e do pericarpo é detalhado pela primeira vez, bem como a origem do opérculo. Xyris diferencia-se dos demais gêneros de Xyridaceae por apresentar óvulos ortótropos, desenvolvimento do megagametófito do tipo Allium e envoltório seminal constituído por endotégmen, endotesta e exotesta, corroborando a divisão da família em duas subfamílias. A morfologia e micromorfologia das sementes apontam a presença de cristas longitudinais como padrão para o gênero, além de indicar caracteres que permitem o reconhecimento das espécies como: forma e tamanho das sementes, forma das cristas, número de fileiras de células entre as cristas e padrão de estriação na zona entre cristas. A partir desse levantamento de caracteres... Xyris is the largest genus of Xyridaceae, however there are few studies on its embryology and seed micromorphology. This thesis aimed to describe the development of ovule, fruit and seed of Xyris species in a comparative approach and to characterize the seed coat, identifying useful characters for taxonomy. The results show an embryological pattern for the genus: orthotropous, bitegmic and tenuinucellate ovules, with a micropyle formed by both the endostoma and exostoma; helobial, starchy endosperm; reduced, campanulate and undifferentiated embryo; seed coat formed by a tanniferous endotegmen, endotesta with thickwalled cells and exotesta with thin-walled cells; and a micropylar operculum. The pericarp is composed of a mesocarp with cells containing starch grains and an exocarp and endocarp formed by U-shaped thickened cells. The megagametophyte development differs among the studied species: it can be of the Polygonum or Allium type. The pericarp anatomy also varies since either the endocarp or the exocarp can have larger cells. The anatomy of the seed coat and pericarp in Xyris is first characterized here, as well as the origin of the operculum. Xyris differs from the other genera of Xyridaceae by the presence of orthotropous ovules, megagametophyte development of the Allium type, and seed coat composed of endotegmen, endotesta and exotesta, corroborating the division of the family into two subfamilies. The seed morphology and micromorphology show that the presence of longitudinal ridges in the seed coat is a pattern for the genus and that the following characters distinguish among the species: shape and size of the seed, shape of the ridges, number of cell rows between the ridges, and the striation pattern of the seed coat. Based on these characters a standard terminology is proposed to characterize the seed coat in the family

Published

2014