Cultura de anteras e embriogênese de genótipos selecionados de cevada (Hordeum vulgare L.ssp.vulgare)

A eficiência da técnica de cultura de anteras, em escala comercial, ainda pode ser considerada baixa quando medida em número de plantas duplo-haplóides férteis obtidas para cada antera estabelecida in vitro. Dessa forma, o presente trabalho é pioneiro no estudo detalhado da embriogênese in vitro do micrósporo e do grão de pólen de cevada (Hordeum vulgare L. ssp. vulgare). Com o objetivo de contribuir para o aperfeiçoamento da técnica de cultura de anteras foi analisada a embriogênese, com especial ênfase na etapa da indução, através de análises citológicas e histológicas de anteras cultivadas in vitro. Foram analisadas uma cultivar brasileira de cevada, em comparação com linhagens de duas outras cultivares brasileiras, que foram selecionadas, por seleção divergente para maior ou para menor resposta na indução da rota embriogênica e, respectivamente, para menor ou para maior capacidade de regenerar plântulas verdes. Somente foram estabelecidas em cultivo in vitro as anteras que apresentaram micrósporos e pólens jovens, das linhagens selecionadas da cultivar A-05 (S3A22 e S3A23), e da cultivar BR-2(S3B63 e, apenas na cultura de anteras, S3B61), bem como da cultivar MN-599 (nãoselecionada). Para as análises histológicas, foram fixadas, a cada dois dias, duas anteras, correspondentes a cada fileira da mesma espiga, após o início do cultivo in vitro. As anteras em cultivo e respectivas estruturas multicelulares foram fixadas em FAA 50%, desidratadas em série etílica e incluídas em hidroxietilmetacrilato. Os blocos de resina polimerizada foram secionados longitudinalmente com 3 mm de espessura. Para as análises citológicas foram fixadas, de cada espiga recém-coletada, três espiguetas sendo uma da base, outra do meio e outra do ápice. Após o pré-tratamento à baixa temperatura (5 °C), porém antes do cultivo in vitro, foram fixadas três anteras (amostras utilizadas como controles). A cada três dias, durante o cultivo, três anteras foram fixadas (até 18 dias). As anteras em cultivo e estruturas multicelulares foram fixadas em Farmer e FAA 50%, transferidas após 24 horas para etanol 70%. Na cultura in vitro das anteras houve diferenças entre uma das linhagens da cultivar A-05 em relação a cultivar MN- 599, na produção inicial de estruturas embriogênicas, diferença que desapareceu na produção total. Entretanto, houve diferenças na formação dos xiii embriões: a cv.MN-599 formou embriões bem diferenciados ao passo que a linhagem S3A22 produziu um número aparentemente menor, sendo que os embriões não eram bem diferenciados. A linhagem S3B63 não apresentou embriões até o final da análise histológica. Considerando que a amostra dessa linhagem, mantida em cultura, formou plantas verdes, pode-se propor que a formação de embriões deve ocorrer posteriormente ao desenvolvimento da cv.MN-599. Cabe destacar que houve diferenças significativas entre as cultivares A-05 e BR-2 quanto à regeneração de plântulas verdes. Esses resultados indicam ter havido maior eficiência da seleção em relação à etapa da regeneração. Com relação às categorias classificatórias dos micrósporos e grãos de pólen, constatou-se que desde o início da análise histológica (2o dia de cultivo in vitro) até o final (34o dia), foram observados micrósporos, o mesmo tendo sido observado na análise citológica. Os grãos de pólen multinucleados ocorreram praticamente em todo o período de cultivo in vitro, em ambas análises; não ocorrendo nos controles da citologia (antes do cultivo); os multinucleados foram observados a partir do 3o dia, enquanto que os multicelulares a partir do 4o dia de cultivo. As estruturas multicelulares foram observadas a partir do 8o dia. A quantidade e o tamanho das estruturas multicelulares foram variáveis ao longo da análise histológica, sendo que do 14o ao 20o dia foram encontradas as de maiores dimensões, resultantes da proliferação celular por mitoses sucessivas. A partir do 22o dia (cultivar MN- 599), a ocorrência de estruturas multicelulares no interior dos lóculos da antera diminuiu, predominando o processo de proliferação externo às anteras. Para as linhagens, a partir do 18o dia foram observadas estruturas multicelulares liberadas das anteras. A análise das estruturas multicelulares permitiu classificá-las em quatro categorias: 1. SFD: Sem forma definida; 2. MAC: meristema apical caulinar; 3. MAR: meristema apical radical embrionário adventício; e 4. Embriões. As estruturas amorfas apareceram em maior número, quando comparadas com as outras categorias. Em síntese: as linhagens selecionadas e a cultivar diferiram não apenas no tempo necessário para a formação dos embriões, mas também no desenvolvimento dos mesmos, que foi mais diferenciado na cultivar MN-599, porém sendo observados mais cedo na linhagem S3A22 e S3A23, do que na cultivar MN-599.

Use of repellents for honeybees (Apis mellifera L.) in vitro in the yellow passion-fruit (Passiflora edulis Deg) crop and in confined beef cattle feeders

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Embryology and seed development of Blastocaulon scirpeum and Paepalanthus scleranthus (Eriocaulaceae)

The embryology and seed structure of Blastocaulon scirpeum (Mart.) Giul. and Paepalanthus scleranthus Ruhland were studied in order to contribute to the embryology of Eriocaulaceae and supply data for future taxonomic studies. Both species present: anther with 4-layered wall; conspicuous endothecium with fibrous thickenings; secretory tapetum with uninucleate cells; successive microsporogenesis forming isobilateral microspore tetrads; bicellular pollen grains; orthotropous, bitegmic and tenuinucellate ovule; micropyle formed by the inner integument alone; megagametophyte of the Polygonum type, with a conspicuous antipodal cyst; nuclear and starchy endosperm; reduced, undifferentiated, and bell-shaped embryo; operculate and endotestal seed; seed coat derived from the two ovule integuments; and tanniniferous endotegmen. In addition, Blastocaulon scirpeum shows a bisporangiate anther and a 3-layered ovary wall, while P. scleranthus presents a tetrasporangiate anther that becomes bisporangiate at maturity, and a 2-layered ovary wall. This investigation shows that the bisporangiate condition does not suffice to separate Blastocaulon from Paepalanthus, since it is common to both. It also indicates, based on several embryological aspects, the proximity of Eriocaulaceae and Xyridaceae, which comply mainly with the features presented by the other commelinid families. These results may be used in future cladistic analysis of the family, and contribute to a better understanding of its phylogeny.

Evidence of pseudomonad pollen formation in Hypolytrum (Mapanioideae, Cyperaceae)

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Flower morpho-anatomy in Epiphyllum phyllanthus (Cactaceae)

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Microsporogenesis is simultaneous in the early-divergent grass Streptochaeta, but successive in the closest grass relative, Ecdeiocolea

Simultaneous microsporogenesis is described for the first time in a grass, Streptochaeta spicata Schrad., a tropical Brazilian species that belongs in the early-divergent subfamily Anomochlooideae. Microsporogenesis is successive in all other Poaceae examined so far, and most other members of the order Poales, to which grasses belong. The only other reports of simultaneous microsporogenesis in Poales are in Rapateaceae and some members of the cyperid clade (Juncaceae, Cyperaceae, Prionium and Thurnia). Among the graminids, Ecdeiocolea (the putative closest relative to Poaceae) is successive, as are Joinvillea, Flagellaria and all other Poaceae, indicating that the simultaneous condition is autapomorphic in Streptochaeta, though Anomochloa has yet to be examined. Anther wall development in Streptochaeta is of the reduced type, as also in another early-divergent grass Pharus, though most other Poales, including most grasses, have the monocot type. In Streptochaeta, as in Pharus, the endothecium lacks thickenings, unlike other grasses that have a persistent endothecium with thickenings. The centrifixed anthers and nonplumose stigmas of Streptochaeta suggest entomophily.

Morphology and development of anthers and ovules in Croton and Astraea (Euphorbiaceae)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Plant spacing and pollen quantity on yield and quality of squash seeds

O rendimento e a qualidade de sementes de abóbora podem ser aprimorados por uma densidade populacional de plantas adequada, além da quantidade de pólen, que influi na qualidade da polinização e fertilização. Para este estudo, aplicaram-se nove tratamentos, que resultaram da combinação fatorial de três espaçamentos entre plantas (0,8 x 0,3; 0,8 x 0,6 e 0,8 x 0,9 m) com duas quantidades de pólen (50% de uma antera e uma antera inteira) e a polinização natural por insetos. Foram avaliados parâmetros de produção de frutos e sementes, além da qualidade física e fisiológica das sementes. O delineamento experimental adotado foi em blocos ao acaso com cinco repetições e dez plantas úteis por amostragem. O aumento do espaçamento entre plantas elevou o número médio de frutos maduros e a produção de sementes por planta. A produtividade de sementes foi diretamente proporcional à quantidade de pólen usada durante a polinização. Já o fator espaçamento entre plantas não afetou a produção de sementes por área. A maior quantidade de pólen resultou em uma maior produção de sementes por planta e por área. A polinização manual, com a utilização de uma antera inteira, não diferiu da polinização natural com insetos, tanto para rendimento como para a qualidade de sementes.

Floral development and embryology in the early-divergent grass Pharus

A detailed study of floral ontogeny, anatomy, and embryology in two (of six) species of Pharus is presented as part of a series of comparative investigations on early-divergent grasses. Pharus is a taxonomically isolated genus belonging to the earliest-diverging grass lineage with a true grass spikelet. It is unusual in possessing remarkably dimorphic florets: male florets possess two lodicules, six stamens, and a pistillode, whereas female florets lack lodicules entirely but possess six staminodes and a tricarpellary ovary with three stigmas. The rudimentary lodicules in male florets are initiated after the stamen whorls. There are most commonly six androecial organs, but in some florets, a five-staminate condition was observed, resulting from suppression of the abaxial stamen from the inner whorl, or even a four-staminate condition resulting from subsequent fusion of the two adaxial outer stamens (i.e., elements of both whorls). Thus, the pattern of floral zygomorphy in Pharus differs from that of many other grasses. Centrifixed anther attachment is reported for the first time in Pharus, resembling the condition in another early-divergent grass, Anomochloa, though anthers are introrse in Anomochloa compared with latrorse in Pharus. Anther wall development is of the reduced type in Pharus, in contrast to most other monocots. Microsporogenesis is of the successive type, as in many other monocots. The ovary develops from three distinct primordia and is unilocular with a single ovule and a pronounced ovary beak that is highly characteristic of Pharus. There is a hollow style, in contrast to the solid styles that are common in many other grasses. The embryo is highly differentiated, as in other grasses, with a distinct epiblast and a small cleft between the scutellum and the coleorhiza.

A noteworthy new species of Peritassa (Celastraceae, Hippocrateoideae) from Amazonian Brazil

The new species Peritassa Manaoara, Lombardi differs from other species in Peritassa Miers by its unique 3-lobed stigma. The inclusion of this new taxon in Peritassa was based on the characteristics of non-confluent anther locules and the disc free from the ovary wall, which distinguishes this species from Tontelea Aublet, the Only other genus of Neotropical Hippoerateoideae species with a 3-lobed stigma and tubular nectariferous disc.

Embryology and seed development of Syngonanthus caulescens (Poir.) Ruhland (Eriocaulaceae-Poales)

The embryology and the seed development of Syngonanthus caulescens are presented. This species possesses: a bithecous and tetrasporangiate anther, with a four-layered wall, a conspicuous endothecium of the baseplate type, a secretory tapetum formed by uninucleate cells, successive microsporogenesis resulting in isobilateral microspore tetrads, spiraperturate and binucleate pollen grains, an orthotropous, pendulous, bitegmic and terminucellate ovule, with a micropyle formed only by the inner integument, a megagametophyte of the Polygonum type, with formation of an antipodal cyst, free-nuclear and starchy endosperm, a broad and bell-shaped embryo, operculate and endotestal seeds, a seed coat derived from the inner layers of both integuments, and tanniniferous endotegmen. These embryological aspects are characteristic not only for Syngonanthus, but for the whole family, with few differences between genera. Furthermore, the pollen grain of the spiraperturate type and the cystic arrangement of the antipodals in the megagametophyte are peculiar and very distinctive features of Eriocaulaceae within the other Poales (commelinids). (c) 2006 Elsevier B.V. All rights reserved.

Development and cytology of pollen in Dahlstedtia Malme (Leguminosae : Papilionoideae)

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.

Comparative embryology and taxonomic considerations in Eriocaulaceae (Poales)

The genus concept within Eriocaulaceae is widely discussed because it is mainly based on a small number of floral characteristics of unknown functional and evolutionary significance. The aim of the present work is to comparatively study the embryology of representatives of most genera of Eriocaulaceae to identify relevant features that might aid in circumscribing them. In Eriocaulaceae, the uniformity of the embryological characteristics makes it difficult to interpret the existing relationships among the genera. Some embryological characteristics, especially those related to the number of microsporangia, are shown to be unstable and restricted to Paepalanthoideae. The unique pollen morphology may be related to mechanical processes to accommodate the increase in volume after early formation of the pollen wall and may indicate a relationship to an inaperturate ancestor. The placentation, formerly stated to be axile, is more likely to be central due to protusions of the locular base. The shape of the proximal region of the megagametophyte may be responsible for the formation of the antipodal cyst. The seed coat structure is uniform in origin and is a consistent taxonomic characteristic of the family. A review of Eriocaulaceae is necessary, in which additional morphological and anatomical characteristics should be considered and combined. © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Morphological evolution in the graminid clade: Comparative floral anatomy of the grass relatives Flagellariaceae and Joinvilleaceae

New comparative data are presented on the reproductive morphology and anatomy of two genera closely related to grasses, Flagellaria and Joinvillea, in which the flowers are superficially similar, especially in stamen morphology. This investigation demonstrates some anatomical differences between the two genera. For example, both genera depart from the 'typical' condition of tepal vasculature (three-traced outer tepals and one-traced inner tepals): in Flagellaria, each tepal receives a single vascular bundle and, in Joinvillea, each tepal is supplied by three vascular bundles. Joinvillea possesses supernumerary carpel bundles, as also found in the related family Ecdeiocoleaceae, but not in Flagellaria or grasses. In the anther, the tapetum degenerates early in Flagellaria, and is relatively persistent in Joinvillea, in which the pollen grains remain closely associated with the tapetum inside the anther locule, indicating a correlation between peripheral pollen (a feature that is common in grasses) and a persistent tapetum. This study highlights the presence of a pollen-tube transmitting tissue (PTTT) or solid style in the gynoecium of Flagellaria, as also in many Poaceae, but not in Joinvillea or Ecdeiocoleaceae. We speculate that the presence of a PTTT could represent one of the factors that facilitated the subsequent evolution of the intimately connected gynoecia that characterize grasses. © 2012 The Linnean Society of London.

The taxonomic value of floral characters in Rapateaceae (Poales-Monocotyledons)

The floral anatomy of Cephalostemon, Monotrema, Rapatea, Spathanthus, and Stegolepis was studied for taxonomic purposes. All species studied share colleters between the floral parts; sepals, petals, anthers, and style covered by an ornamented cuticle; short epidermal cells with sinuous walls on the abaxial surface of the petals; tetrasporangiate anthers with phenolic idioblasts in the epidermis; endothecium with spiral thickenings; incompletely septate ovary; and anatropous, bitegmic ovules. The floral anatomy is useful not only for characterizing the family, but also for delimiting the subfamilies and genera. Sepals with silica bodies in the epidermal cells; mature anther wall composed of epidermis, endothecium, and middle layer; absence of phenolic idioblasts in the sepals, filaments, and ovary; and stylar epidermal cells with thickened external periclinal wall support Rapateoideae. Cephalostemon and Rapatea show a great number of similarities, corroborating their close relationship indicated in the phylogenetic analyses of the family. Monotrema shares few characters with the genera of Rapateoideae, corroborating its placement in Monotremoideae. Stegolepis shows several distinctive characters, probably related to the greater diversity found in this genus. © 2012 Springer-Verlag Wien.