Anatomia comparada das folhas de espécies de Peperomia (Piperaceae): I. Ontogênese do tecido aqüífero e dos estômatos

Takemori, Nathieli Keila; Bona, Cleusa; Alquini, Yedo

doi:10.1590/s0102-33062003000300006

Cited by 10 publications

(10 citation statements)

References 19 publications

(23 reference statements)

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“…Metcalfe & Chalk (1965, 1979 descrevem como hipoderme o tecido ocorrente abaixo da primeira camada de células (epiderme) nas espécies de Piperaceae, assim como Albiero et al (2006) as primeiras camadas de células da lâmina foliar de várias espécies de Peperomia, constituem uma epiderme múltipla, pois tais células se desenvolvem a partir de divisões periclinais da protoderme. A presença de epiderme múltipla em Peperomia está relacionada principalmente com ambientes bem iluminados, onde tal tecido, de acordo com sua espessura, pode agir como um filtro, regulando a intensidade luminosa para o interior da folha (Takemori 2002;Takemori et al 2003). Em estudos morfológicos e anatômicos Souza et al (2004) descreveram em Peperomia dahlstedtii C.DC., Ottonia martiana Miq.…”

Section: Resultsunclassified

“…Kaul (1977) também constatou a presença de epiderme múltipla em Peperomia, assim como Cutter (1971) relata para o gênero Piper. No presente trabalho optou-se por usar o termo epiderme múltipla, em função das evidencias da origem a partir da protoderme constatadas em artigos consultados sobre espécies de Piperaceae (Cutter 1971;Kaul 1977;Takemori 2002;Takemori et al 2003;Souza et al 2004). No entanto, apenas a A nervura central da maioria das espécies analisadas é proeminente na face abaxial (Fig.…”

Section: Resultsunclassified

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Anatomia foliar comparativa de nove espécies do gênero Piper (Piperaceae)

et al. 2012

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ResumoAs espécies de Piper são de grande interesse medicinal. Porém apresentam considerável desafio taxonômico, provavelmente pelo diminuto tamanho das partes florais. Por isso a morfologia externa da folha tem sido muito utilizada para taxonomia do grupo. Entretanto, há poucos trabalhos anatômicos para o gênero. Neste estudo, as folhas de nove espécies foram comparadas anatomicamente: Piper aduncum Vell.; P. cernuum Vell.; P. dilatatum Rich; P. gaudichaudianum Kunth; P. glabratum Kunth; P. hispidinervum C. DC.; P. lindbergii C. DC.; P. solmsianum C. DC. e P. umbellatum Jacq. O objetivo era avaliar o potencial dos caracteres anatômicos para separação de espécies. A maioria das espécies estudadas tem a epiderme do limbo constituída por células retangulares e arredondadas. Camadas subepidérmicas ocorrem em ambas às faces do limbo, exceto em P. aduncum, P. cernuum e P. hispidinervum. Todas as espécies são hipoestomáticas, exceto P. hispidinervum. O mesofilo é dorsiventral na maioria das espécies, enquanto em P. solmsianum e P. umbellatum o mesofilo é homogêneo. O número de camadas dos tecidos paliçádico e esponjoso é variável. Também ocorrem variações no número e no tamanho dos feixes vasculares. Em geral, ocorrem células secretoras, idioblastos, tricomas tectores e glandulares, lipídios, compostos fenólicos e amido. A análise de agrupamento identificou três grupos distintos entre as espécies, com base nas características anatômicas estudadas. Palavras-chave: anatomia, folha, Piperaceae, Piper. AbstractThe species of Piper are of great medical interest. They, however, represent considerable taxonomic challenge, probably due to the small size of floral parts. Therefore, the external morphology of the leaf has been used as diagnostic features in the taxonomy of the group. However, there are few anatomical studies on species of this genus. In this study, the leaves of nine species were compared anatomically: Piper aduncum Vell., P. cernuum Vell., P. dilatatum Rich, P. gaudichaudianum Kunth, P. glabratum Kunth, P. hispidinervum C. DC., P. lindbergii C. DC., P. solmsianum C. DC. and P. umbellatum Jacq. The objective was to evaluate the potential of anatomical characters for species separation. Most species studied have the epidermis of the lamina consists of rectangular and rounded cells. Subepidermal layers occur on both sides of the lamina, except in P. aduncum, P. cernuum and P. hispidinervum. All species are hypostomatic, except P.hispidinervum. The mesophyll is dorsiventral in most species, while in P. solmsianum and P. umbellatum, the mesophyll is homogeneous. The number of layers of palisade and spongy tissue is variable. Also there are variations in the number and size of vascular bundles. In general, secreting cells, idioblasts, and glandular trichomes, lipids, phenolic compounds and starch are present. Cluster analysis identified three distinct groups of species based on anatomical features studied.

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Section: Resultsunclassified

Anatomia foliar comparativa de nove espécies do gênero Piper (Piperaceae)

et al. 2012

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“…Although the subepidermal tissue in Piper is originated from the ground meristem, for another genus in the Piperaceae, Peperomia, the analysis of leaf ontogeny demonstrated the presence of a multisseriate epidermis (Takemori et al, 2003). The difference in the origin of the subepidermal tissue in species of the same family may be related, in the case of Peperomia, to an evolutionary convergence to the epiphytic habit, as defended by Reginato et al (2009).…”

Section: Discussionmentioning

confidence: 95%

“…Yet, for the five existing genera in this family (Stevens, 2013), the multisseriate epidermis is reported only in Peperomia species (Takemori et al, 2003;Evert, 2006), which show succulent leaves.…”

Section: Introductionmentioning

confidence: 99%

Origin of the subepidermal tissue in Piper L. leaves

et al. 2015

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Studies on the anatomy of Piper leaves demonstrate the presence of a subepidermal tissue distinct from the adjacent epidermis, which cells show thin walls and hyaline contents. Some authors consider such cells a hypodermal tissue, while others refer to them as components of a multiple epidermis. In this study, the nature of this subepidermal tissue was investigated through the analysis of leaf ontogeny in three Piper species. The analysis showed that the referred tissue originates from the ground meristem and, thus, should be considered a hypodermis. The studied species suggests that the role of the hypodermis would be to protect the photosynthetic apparatus from excess light, regulating the intensity of light reaching the chlorophyll parenchyma.Keywords: hypodermis, multisseriate epidermis, Piperaceae. Origem do tecido subepidérmico em folhas de Piper L. ResumoOs estudos de anatomia foliar de espécies de Piper revelam a presença de um tecido subepidérmico distinto da epiderme e cujas células apresentam paredes finas e conteúdo hialino. Estas células são referenciadas por alguns autores como um tecido hipodérmico e por outros, como sendo constituintes de uma epiderme múltipla. Nesse estudo verificou-se a natureza deste tecido subepidérmico a partir da análise da ontogênese foliar de três espécies de Piper. A análise revelou que o referido tecido tem origem do meristema fundamental e, portanto, deve ser denominado de hipoderme. Para as espécies avaliadas, sugere-se que a hipoderme teria função de, proteger o aparato fotossintético do excesso de luminosidade, regulando a intensidade luminosa que atinge o parênquima clorofiliano.Palavras-chave: hipoderme, epiderme multisseriada, Piperaceae.

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“…Although cuticle composition, organization and proportion of wax can vary, the extent of the amorphous phase that is characterized by the lipophilic wax matrix is probably the main barrier to water diffusion (Tenberge 1992); except in the case of moist environments, where the cuticle swells because of water absorption, which in turn leads to an increase in cuticular transpiration . In the semideciduous forest studied, which has a notable dry season, the thick cuticles of the evergreen P. longifolium have an extensive amount of wax (observed by TEM and histochemical tests) that could promote resistance to desiccation during dry periods while the underlying adaxial surface of epidermis promotes water storage in the leaf tissues because of the pectic nature of the walls (Kaul 1977;Takemori et al 2003).…”

Section: Discussionmentioning

confidence: 99%

Leaf structure, microanalysis and characterization of the latex protein profile of Pachystroma longifolium (Nees) I.M. Jonhst. (Euphorbiaceae) in a seasonally dry Atlantic Forest

et al. 2011

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ABSTRACT(Leaf structure, microanalysis and characterization of the latex protein profile of Pachystroma longifolium (Nees) I.M. Jonhst. (Euphorbiaceae) in a seasonally dry Atlantic Forest). Pachystroma longifolium is an evergreen species of Euphorbiaceae that occurs in tabuleiro forest, a type of lowland Atlantic Forest. The site chosen for this study was a fragment of tabuleiro forest that has a history of being selectively logged for timber. P. longifolium is very successful at colonizing disturbed areas in this forest fragment in comparison with preserved fragments. In the present work, which was based on using different microscopy (electron and light microscopy, X-ray analysis) and biochemistry techniques, we describe the leaf and latex traits of P. longifolium and their role as defense mechanisms against desiccation and herbivory. Our results suggest the richness of P. longifolium populations, in the disturbed forest area studied, is primarily a consequence of unpalatable leaves because of an abundance of calcium oxalate crystals in the subjacent epidermis; the presence of phenolic compounds in the adaxial surface; and a laticifer system that contains a complex mixture of proteins, which provides resistance to herbivores. In addition, this species is resistant to desiccation during dry periods because of an extensive amount of wax that occurs on the outer cell walls of the epidermis, and its ability to retain water because of a biseriate epidermis.

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Anatomia comparada das folhas de espécies de Peperomia (Piperaceae): I. Ontogênese do tecido aqüífero e dos estômatos

Cited by 10 publications

References 19 publications

Anatomia foliar comparativa de nove espécies do gênero Piper (Piperaceae)

Anatomia foliar comparativa de nove espécies do gênero Piper (Piperaceae)

Origin of the subepidermal tissue in Piper L. leaves

Leaf structure, microanalysis and characterization of the latex protein profile of Pachystroma longifolium (Nees) I.M. Jonhst. (Euphorbiaceae) in a seasonally dry Atlantic Forest

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