Morphologies and elemental compositions of calcium crystals in phyllodes and branchlets of Acacia robeorum (Leguminosae: Mimosoideae)
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Cited by 74 publications
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RESUMOPiper L. (Piperaceae) é monofilético, com espécies de difícil distinção taxonômica, sendo necessários ferramentas que auxiliem a identificação interespecífica. Os objetivos do trabalho foram descrever os macropadrões e caracterizar in situ a composição química dos cristais caulinares e foliares de Piper arboreum Aubl. var. arboreum, P. callosum Ruiz & Pav. e P. tuberculatum Jacq., visando avaliar o uso dos cristais para a separação interespecífica. Para tanto, amostras foram submetidas à análise em microscopias de luz e eletrônica de varredura, microanálises espectroscópicas de raios-X por dispersão de energia e testes histoquímicos. Foram observados cristais prismáticos cuneiformes, tabulares, cúbicos e bipiramidais; ráfides; estiloides; drusas de cristais em bloco; rosetas cristalinas de estiloides e concrescências cristalinas. Foram descritos 15 macropadrões cristalinos reunidos em três categorias. Os cristais foram classificados quimicamente como: puros de oxalato de cálcio e misturas entre oxalatos e sulfatos e entre oxalatos, sulfatos e sílica. Rosetas cristalinas, concrescências cristalinas silicificadas e 14 dos 15 macropadrões cristalinos descritos são registros inéditos para inclusões biominerais de Piper e Piperaceae. Os macropadrões cristalinos caulinares e foliares observados são constitutivos e úteis à separação interespecífica das espécies estudadas. Ademais, os cristais desempenham funções relevantes para a autoecologia dos taxa de Piper analisados. PALAVRAS-CHAVE: Cristais, MEV-EDS, Histoquímica, Quimiometria. Silicified crystal concretions and rosettes in Piper (Piperaceae): unpublished reports on their macropatternsABSTRACT Piper L. (Piperaceae) is monophyletic, with species of difficult taxonomic distinction, and thus tools that facilitate interspecific identification are needed. The aims of this study were to describe the macropatterns and characterize in situ the chemical composition of leaf and stem crystals of Piper arboreum Aubl. var. arboreum, P. callosum Ruiz & Pav. and P. tuberculatum Jacq., in order to evaluate the use of the crystals on interspecific distinction. Samples were submitted to analyses under light and scanning electron microscopies, energy-dispersive x-ray spectroscopic microanalyses, and histochemical tests. We observed cuneiform, tabular, cubic, and bipiramidal prismatic crystals; raphides; styloids; blocky crystal druses; styloid crystal rosettes; and crystal concretions. We described 15 crystal macropatterns, which were distributed along three categories. The crystals were chemically classified as: pure calcium oxalate; and mixtures of oxalates and sulfates, and of oxalates, sulfates and silica. Crystal rosettes, silicified crystal concretions, and 14 out of the 15 macropatterns described are unpublished reports on biomineral inclusions in Piper and Piperaceae. The stem and leaf crystal macropatterns observed are constitutive and useful for interspecific separation of the studied species. Moreover, the crystals present relevant functions for the autecology of t...
RESUMOPiper L. (Piperaceae) é monofilético, com espécies de difícil distinção taxonômica, sendo necessários ferramentas que auxiliem a identificação interespecífica. Os objetivos do trabalho foram descrever os macropadrões e caracterizar in situ a composição química dos cristais caulinares e foliares de Piper arboreum Aubl. var. arboreum, P. callosum Ruiz & Pav. e P. tuberculatum Jacq., visando avaliar o uso dos cristais para a separação interespecífica. Para tanto, amostras foram submetidas à análise em microscopias de luz e eletrônica de varredura, microanálises espectroscópicas de raios-X por dispersão de energia e testes histoquímicos. Foram observados cristais prismáticos cuneiformes, tabulares, cúbicos e bipiramidais; ráfides; estiloides; drusas de cristais em bloco; rosetas cristalinas de estiloides e concrescências cristalinas. Foram descritos 15 macropadrões cristalinos reunidos em três categorias. Os cristais foram classificados quimicamente como: puros de oxalato de cálcio e misturas entre oxalatos e sulfatos e entre oxalatos, sulfatos e sílica. Rosetas cristalinas, concrescências cristalinas silicificadas e 14 dos 15 macropadrões cristalinos descritos são registros inéditos para inclusões biominerais de Piper e Piperaceae. Os macropadrões cristalinos caulinares e foliares observados são constitutivos e úteis à separação interespecífica das espécies estudadas. Ademais, os cristais desempenham funções relevantes para a autoecologia dos taxa de Piper analisados. PALAVRAS-CHAVE: Cristais, MEV-EDS, Histoquímica, Quimiometria. Silicified crystal concretions and rosettes in Piper (Piperaceae): unpublished reports on their macropatternsABSTRACT Piper L. (Piperaceae) is monophyletic, with species of difficult taxonomic distinction, and thus tools that facilitate interspecific identification are needed. The aims of this study were to describe the macropatterns and characterize in situ the chemical composition of leaf and stem crystals of Piper arboreum Aubl. var. arboreum, P. callosum Ruiz & Pav. and P. tuberculatum Jacq., in order to evaluate the use of the crystals on interspecific distinction. Samples were submitted to analyses under light and scanning electron microscopies, energy-dispersive x-ray spectroscopic microanalyses, and histochemical tests. We observed cuneiform, tabular, cubic, and bipiramidal prismatic crystals; raphides; styloids; blocky crystal druses; styloid crystal rosettes; and crystal concretions. We described 15 crystal macropatterns, which were distributed along three categories. The crystals were chemically classified as: pure calcium oxalate; and mixtures of oxalates and sulfates, and of oxalates, sulfates and silica. Crystal rosettes, silicified crystal concretions, and 14 out of the 15 macropatterns described are unpublished reports on biomineral inclusions in Piper and Piperaceae. The stem and leaf crystal macropatterns observed are constitutive and useful for interspecific separation of the studied species. Moreover, the crystals present relevant functions for the autecology of t...
Piper solmsianum C.DC., which is popularly known as pariparoba, is a shrub that measures 1-3 m in height and it inhabits areas with wet tropical soils. The objective of this study was to analyze the leaf and stem anatomy using light microscopy, scanning electron micrographs, and energy-dispersive X-ray spectroscopy in order to provide information for species identification. The anatomical profile showed the following main microscopic markers: hypostomatic leaf; hypodermis layer on both sides; pearl glands; biconvex midrib shape; five collateral vascular bundles in open arc with the central bundle larger than the others; circular stem shape; collateral vascular bundles arranged in two rings; sinuous sclerenchymatic sheath in the pith; secretory idioblasts; and starch grains in the mesophyll, in the ground parenchyma of the midrib, petiole, and in the stem; and six morphotypes of calcium oxalate crystals (styloids, cuneiform, tabular crystal rosettes, cuneiform crystal rosettes, elongated square dipyramids, as well as very elongated square dipyramids).
This study provides a comprehensive account of the various types of calcium oxalate crystals found in the genus Baccharis and assesses the exceptional value of crystal macropatterns for the taxonomy of the genus. The morphotype, occurrence, and chemical composition of the crystals found in the stems and leaves are studied. The 44 species included in this study were selected based on a broad phylogeny‐based sampling covering seven subgenera and 31 sections. These species were chosen to represent all the main phylogenetic lineages of Baccharis; thus, the sampling also represents a comprehensive coverage concerning evolutionary significance for such a large and environmentally and economically important plant group. The samples were analyzed by light microscopy, scanning electron microscopy (SEM), and energy‐dispersive x‐ray spectroscopy (EDS). Several morphotypes of crystals, including druses, crystal sand, styloids and prisms, were present. Based on their chemical composition, the crystals were classified as pure calcium oxalate, mixtures of oxalates and sulfates, and mixtures of oxalates, sulfates, and silica. The crystal macropatterns observed in this study aid in species identification and provide novel data for the taxonomy of Baccharis. Research Highlights Most species of Baccharis have a specific crystalline pattern. Each species produces a crystal morphotype or a set of morphotypes specific to it. The crystals observed are formed by calcium oxalate.
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