Morphology of starch grains of cassava cultivars (Manihot esculenta Crantz, Euphorbiaceae) – Pará, Brazil

A mandioca (Manihot esculenta Crantz, Euphorbiaceae) é uma espécie amplamente cultivada no Brasil, principalmente pelas comunidades tradicionais da Amazônia, que abrigam em seus roçados grande número de cultivares ainda pouco explorados. Objetivou-se caracterizar a morfologia dos grãos de amido encontrados nas raízes de cinco cultivares de mandioca, procedentes da Floresta Nacional (Flona) de Caxiuanã, Pará, Brasil, a fim de verificar a similaridade entre eles. Os grãos de amido foram medidos, descritos e ilustrados em microscopia de luz e eletrônica de varredura. Constatou-se que são de superfície lisa, não compostos e apresentam as formas mitra, cúpula e arredondada. Embora a morfologia dos grãos de amido tenha se mostrado bastante semelhante entre os cultivares estudados, o tratamento estatístico aplicado evidenciou diferenças quanto ao diâmetro, sendo possível delimitar os cinco cultivares em apenas quatro

Anatomia floral e desenvolvimento em espécies de Phyllanthaceae, Picrodendraceae, Euphorbiaceae e Pandaceae

Euphorbiaceae s.l. are distributed in the most varied types of vegetation and habitat, being one of the biggests, most complexs and diversified families in the angiosperms. Its classification was discussed during long time by many authors and with the phylogenetic analyses was proved its polyphyletic origin, bearing the dissolution in six distinct families: Phyllanthaceae, Picrodendraceae, Putranjivaceae, Pandaceae, Peraceae e Euphorbiaceae s.s. Considering the floral diversity of these families, fours species were selected to this study, aiming to sample the different groups: Phyllanthus urinaria (Phyllanthaceae), Piranhea trifoliate (Picrodendraceae), Alchornea sidifolia (Euphorbiaceae s.s.) and Microdesmis caseariifolia (Pandaceae). There are few detailed literature about the floral structure of the representants from the allied families of Euphorbiaceae s.l., which makes difficult the accurate usage of the floral characters in studies about systematics and evolution of these groups. Furthermore, information on the functional implications of these characteristics in the biology of the species are limited. In this context, the aim of this work was analyse the floral morphology, with an emphasis on the development patterns, vascularization and secretory structures. For this purpose, floral buds and flowers in different stages of development were fixed, dehydrated, embedded in Paraplast or historesin, sectioned and stained, besides the SEM and TEM analysis that helped on the investigation of the floral ontogenesis and the nectariferous tissue. As main results of the structural analysis, we found that Phyllanthus urinaria has sepals and petals, as well Piranhea trifoliate, both from the clade Phyllanthaceae + Picrodendraceae. Then, flowers from these groups should be studied from its origin and vascularization to have a better understanding of the evolutionary path of the perianth in these families. Piranhea trifoliate also have staminodes that may indicate a transitional process during the evolution of the group. In Alchornea sidifolia we found development patterns that explain the formation of characteristics of anemophilous plant, such as the production of more flowers in the male inflorescences than the more compact and fewer flowered female inflorescences, the presence of unisexual flowers with reduced perianth, absence of nectaries, and female flowers with extensive stigmatic receptive surface. This species also has a peculiar characteristic regarding the number of carpels, which is generally three in the Euphorbiaceae and Malpighiales, even though A. sidifolia has two carpels. Microdesmis caseariifolia displayed variation in the number of stamens, shown a placental obturator and a pistilode, and all these features are novelties to the Pandaceae. This study adds to the floral knowledge of the different families, as well as enable to raise issues to be addressed in future studies about the structure and evolution of floral characters in MalpighialesAs Euphorbiaceae s.l. distribuem-se nos mais variados tipos de vegetação e habitat, sendo uma das maiores, mais complexas e diversificadas famílias das angiospermas. Sua classificação foi discutida durante muito tempo por diversos autores e, atualmente, as análises filogenéticas, comprovaram seu polifiletismo, dando suporte ao desmembramento em seis famílias distintas: Phyllanthaceae, Picrodendraceae, Putranjivaceae, Pandaceae, Peraceae e Euphorbiaceae s.s. Considerando a diversidade floral destas famílias, quatro espécies foram selecionadas para este trabalho, visando amostrar os diferentes grupos: Phyllanthus urinaria (Phyllanthaceae), Piranhea trifoliata (Picrodendraceae), Alchornea sidifolia (Euphorbiaceae s.s.) e Microdesmis caseariifolia (Pandaceae). Poucos são os estudos detalhados sobre a estrutura floral de representantes das famílias segregadas de Euphorbiaceae s.l., o que dificulta o uso acurado dos caracteres florais em estudos sobre sistemática e evolução dos grupos em questão. Além disso, as informações sobre as implicações funcionais dessas características na biologia das espécies são limitadas. Nesse contexto, o objetivo desse estudo foi analisar a morfologia da floral, com ênfase nos padrões de desenvolvimento, vascularização e estruturas secretoras. Para isso, botões florais e flores em diversos estágios de desenvolvimento foram fixados, desidratados, incluídos em parafina ou historresina, seccionados e corados, além das análises em MEV e MET que auxiliaram na investigação da ontogênese floral e tecido nectarífero. Como principais resultados das análises estruturais, encontramos que Phyllanthus urinaria possui sépalas e pétalas, bem como Piranhea trifoliata, espécies pertencentes ao clado Phyllanthaceae + Picrodendraceae. Logo, flores desses grupos devem ser analisadas a partir de sua origem e vascularização para que haja um melhor entendimento da trajetória evolutiva do perianto nessas famílias. Piranhea trifoliata também apresentou estaminódios que podem indicar um processo transicional durante a evolução do grupo. Em Alchornea sidifolia nós encontramos padrões de desenvolvimento que explicam a formação de características de plantas anemófilas, como a produção de mais flores nas inflorescências masculinas do que nas femininas, flores unissexuais com perianto reduzido, ausência de nectários e flores femininas com uma extensa região estigmática. Essa espécie também apresenta uma característica peculiar em relação ao número de carpelos, que geralmente são três nas Euphorbiaceae e na das Malpighiales, mas A. sidifolia apresenta dois carpelos. Microdesmis caseariifolia mostrou variação no número de estames, presença de obturador placentário e pistilódio, sendo todas essas características novidades para a família. Este estudo contribuiu com o conhecimento floral das diferentes famílias, bem como permitiu criar hipóteses a serem abordadas em futuros estudos sobre a estrutura e evolução de caracteres florais em Malpighiale

Transfer cells in trichomatous nectary in Adenocalymma magnificum (Bignoniaceae)

Transfer cells are specialized cells that play an important role where there are high energy costs due to facilitation of transmembrane flow of solutes. This study aimed to investigate the ontogenesis, histochemistry and ultrastructure of glandular trichomes focusing on stalk cells and their possible transfer function. Samples of prophylls of axillary buds, calyces of flowers in anthesis, and flower buds in different stages of development were collected, fixed and processed according to the common methods of microscopy. The glandular trichomes are composed of a secretory head with its cells in columnar format. The stalk is formed by two layers of cells, with the upper layer composed of cuboidal cells where the wall starts to thicken at the beginning of the pre-secretory phase. The secretion is heterogeneous, releasing glucose, other carbohydrates, lipids and phenolic compounds, with two types of release - eccrine and granulocrine. These trichomes are functionally termed as nectaries. The stalk cells appear as transfer cells since they have a thicker anticlinal wall with irregular ingrowths. The presence of transfer cells in thenectaries suggests a high specialization because it improves transport capacity of nectar and compensation in the high energy expenditure for its production and release

Calicinal trichomes of Adenocalymma magnificum (Bignoniaceae) producing lipophilic substances: ultrastructural and functional aspects

Plant structures that secrete lipids and phenolic compounds are often associated with the protection and development of organs against desiccation, in addition to the protection they provide against animals, as the capitate trichomes of Adenocalymma magnificum. Understanding the glandular activities that occur in these trichomes has required the study of their ontogeny, structure, ultrastructure and histochemical aspects; the interpretation of their ecological functions or evolutionary history is complicated by the scarcity of reports on calicinal trichomes that are not nectar-secreting. Samples of floral calyx in anthesis and flower buds at different stages of development were fixed and processed according to the methods for light and electron microscopy. The trichomes are randomly distributed throughout the entire inner surface of the calyx and are also visible on the flower buds. These capitate glandular trichomes were composed of a peduncle, having up to nine cells, and a multicellular secretory head with their cells in columnar format and arranged in disc form. The collar cell, which is under the secretory head, divides anticlinally and arranges itself side by side with the mother cell. As they develop, they bend with some of them becoming adpressed to the calyx. Histochemical tests indicate that the secretory head cells produce lipid substances, acidic lipids and phenolic compounds. In the secretory head, the vacuome is dispersed and the cytoplasm possesses a great number of smooth endoplasmic reticulum and leucoplasts, organelles involved in the production of osmiophilic substances. In some regions of the secretory cells, cuticle detachment was observed; however, the accumulation of secretions was not observed. This study describes, for the first time, the origin, development, and secretion process of the calicinal trichomes of Adenocalymma magnificum, showing that production of lipophilic substances is important for this plant, possibly the trichomes may be involved in the plant’s chemical defense against insects, offering protection against herbivores. Plant structures that secrete lipids and phenolic compounds are often associated with the protection and development of organs against desiccation, in addition to the protection they provide against animals, as the capitate trichomes of Adenocalymma magnificum. Understanding the glandular activities that occur in these trichomes has required the study of their ontogeny, structure, ultrastructure and histochemical aspects; the interpretation of their ecological functions or evolutionary history is complicated by the scarcity of reports on calicinal trichomes that are not nectar-secreting. Samples of floral calyx in anthesis and flower buds at different stages of development were fixed and processed according to the methods for light and electron microscopy. The trichomes are randomly distributed throughout the entire inner surface of the calyx and are also visible on the flower buds. These capitate glandular trichomes were composed of a peduncle, having up to nine cells, and a multicellular secretory head with their cells in columnar format and arranged in disc form. The collar cell, which is under the secretory head, divides anticlinally and arranges itself side by side with the mother cell. As they develop, they bend with some of them becoming adpressed to the calyx. Histochemical tests indicate that the secretory head cells produce lipid substances, acidic lipids and phenolic compounds. In the secretory head, the vacuome is dispersed and the cytoplasm possesses a great number of smooth endoplasmic reticulum and leucoplasts, organelles involved in the production of osmiophilic substances. In some regions of the secretory cells, cuticle detachment was observed; however, the accumulation of secretions was not observed. This study describes, for the first time, the origin, development, and secretion process of the calicinal trichomes of Adenocalymma magnificum, showing that production of lipophilic substances is important for this plant, possibly the trichomes may be involved in the plant’s chemical defense against insects, offering protection against herbivores

Pollen of the restinga vegetation of Algodoal/Maiandeua, Pará, Brazil. III. Polygalaceae and Polygonaceae.

Este trabalho aborda o estudo dos grãos de pólen de Polygalaceae e Polygonaceae na ilha de Algodoal/Maiandeua, representadas, respectivamente, pelas espécies Polygala adenophora DC., P. monticola Kunth, P. spectabilis DC., P. variabilis Kunth, Coccoloba latifolia Lam. e C. ramosissima Wedd. Grãos de pólen retirados de botões florais de exsicatas foram acetolisados, medidos, descritos e fotomicrografados em microscopia de luz e eletrônica de varredura. Os grãos de pólen de Polygalaceae variam de médios a grandes, de subprolatos a prolatos esferoidais, de 9 (-10) (-13) (-16)-colporados, de superfície psilada a perfurada. Os grãos de pólen de Polygonaceae são pequenos, prolatos, 3-colporados, de superfície microrreticulada. Com objetivo de separar as espécies, com base na ornamentação da exina, uma chave foi elaborada

Estrutura e distribuição de tricomas glandulares em três espécies da família Bignoniaceae

Glandular trichomes play a major role in the morphological characterization of the Bignoniaceae. Due to their great diversity of forms and functions, this study aimed to inventory the glandular trichomes present in the aerial vegetative axis of Amphilophium magnoliifolium, Martinella obovata and Stizophyllum riparium, analyze their structure and register the participation of ants in these plants. Fresh samples from the nodal region, petiole and from medium to apical regions of the leaflet blade were fixed and processed according to usual methods in light and scanning electron microscopies. The glandular trichomes found were: peltate, capitate, stipitate, and patelliform/cupular. Peltate trichomes are the most abundant ones and present the most uniform distribution. Patelliform/cupular trichomes occur at specific regions, such as prophylls, leaflet blade and nodal regions. Martinella obovata is the only species that presents capitate and stipitate trichomes, which are widely distributed along the entire aerial vegetative axis. Ants were found in all species, mainly at nodal regions. The occurrence of the capitate-type trichome is reported for the first time to the genus.Tricomas glandulares desempenham papel importante na caracterização morfológica de Bignoniaceae e, devido à grande diversidade de formas e funções que esses tricomas apresentam, o objetivo desse estudo foi inventariar os tricomas glandulares presentes no eixo vegetativo aéreo de Amphilophium magnoliifolium, Martinella obovata. e Stizophyllum riparium, bem como analisar sua estrutura e registrar a participação de formigas nessas espécies. Amostras frescas da região mediana à apical das lâmina foliolar, pecíolo e nó foram fixadas e processadas de acordo com os métodos usuais para microscopia de luz e eletrônica de varredura. Os tricomas glandulares encontrados nas espécies foram: peltados, capitados, estipitados e pateliformes/cupuliformes. Dentre esses tipos o mais abundante foi o tricoma peltado, apresentando também uma distribuição mais uniforme que os demais. Os tricomas pateliformes/cupuliformes estavam em regiões mais específicas, como profilos, lâmina foliolar e na região nodal. Martinella obovata foi a única espécie que apresentou os tricomas capitados e estipitados, amplamente distribuídos ao longo de todo eixo vegetativo aéreo. Em todas as espécies foram encontradas formigas, principalmente nas regiões nodais. A ocorrência do tricoma capitado é relatada pela primeira vez para o gênero.DIAS, A. C.A. A. Universidade Federal do Par