Leaf anatomy and its contribution to the systematics of Aechmea subgenus Macrochordion (de Vriese) Baker (Bromeliaceae)

Faria, Ana Paula Gelli de; Vieira, Ana Carolina Reiff e; Wendt, Tânia

doi:10.1590/s0001-37652012005000053

Cited by 12 publications

(6 citation statements)

References 29 publications

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“…The information obtained through comparative morpho-anatomical studies is necessary for ecological, phylogenetic and evolutionary studies. For example, anatomical characters, especially of leaves, have been extensively used in the systematics of several plant families, including Bromeliaceae (De Faria et al, 2012), Myrtaceae (Al-Edany and Al-Saadi, 2012), Amaryllidaceae (Lin and Tan, 2015), Malpighiaceae (Araújo et al, 2010) and Asteraceae (Castro et al, 1997;Milan et al, 2006;Adedeji and Jewoola, 2008;Bombo et al, 2012;Akinnubi et al, 2014;Rojas-Leal et al, 2017;Lusa et al, 2018). Particularly in Asteraceae, leaf architecture and anatomical characters are extremely diverse (Bombo et al, 2012;Rojas-Leal et al, 2014, 2018 and have been studied from an ecological (Bercu et al, 2012;Moroney et al, 2013;Rivera et al, 2017;Ferraro and Scremin-Dias, 2018), physiological (Bondarev et al, 2003;McKown and Dengler, 2007;Santiago and Kim, 2009), and medical perspective (Cambi et al, 2006;Hulley et al, 2010;García-Sánchez et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Leaf architecture and anatomy of Asteraceae species in a xerophytic scrub in Mexico City, Mexico

et al. 2019

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Background and Aims: Leaf architecture and anatomy in the Asteraceae family are extremely diverse and have been studied from ecological, physiological and evolutionary perspectives. The aims of this study are to describe in detail leaf architecture and anatomy for 61 species belonging to 13 tribes of Asteraceae inhabiting a xerophytic scrub in Mexico City, Mexico and to discuss characters common to these tribes.Methods: Mature and undamaged leaves of 61 species of Asteraceae were collected in southwestern Mexico City in the “Reserva Ecológica del Pedregal de San Ángel” (REPSA). Standard anatomical techniques were used to obtain permanent slides of cleared leaves and transverse and paradermal sections. The permanent slides were analyzed to describe leaf architecture and anatomy by tribe following the standard terminologies.Key results: The results show a significant variation in leaf architecture although pinnate venation, brochidodromous secondary venation, areoles moderately developed and looped ultimate marginal venation predominate in the material studied. For anatomy, the most common traits are the striate cuticle, occurrence of trichomes and glands, as well as collateral vascular bundles with a parenchymatous sheath with girders in the Asteraceae present in this xerophytic scrub. There are no unique combinations of leaf characters for the family or any tribe.Conclusions: Leaf diversity in the family and within each tribe is consistent with some previous reports. Anatomical descriptions are a fundamental piece of the evolutionary, ecological and physiological studies in Asteraceae. The results of this descriptive study will allow testing hypotheses about the factors causing leaf diversity in this plant lineage. More leaf anatomical studies of the family are necessary to confirm the patterns proposed for the tribes and the family.

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Section: Introductionmentioning

confidence: 99%

Leaf architecture and anatomy of Asteraceae species in a xerophytic scrub in Mexico City, Mexico

et al. 2019

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“…On the other hand, considering the epidermal features on the adaxial layer, Ficus exasperata is distanced from F. muscuso and F. thonningii by having hypostomatic leaves. There exist studies [23][24][25][26][27][28] in which the positioning of stomata on the epidermal layer was used to delimit the taxa of plants. However, there is presently scarce information according to the literature on the discrimination of Ficus species based on the positioning of stomata but there is replete information on other epidermal indices such as stomatal types and epidermal cell shape [29].…”

Section: Discussionmentioning

confidence: 99%

Taxonomic significance of leaf morpho-anatomical markers in identifying Ficus exasperata Roxb., Ficus mucuso Welw. ex Ficalho and Ficus thonningii Blume in Nigeria

Onefeli

Fabowale

2021

Proceedings of 1st International Electronic Conference on Biological Diversity, Ecology and Evolution

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Indigenous Ficus species are well noted for ethnomedicinal uses in Nigeria. Among the available species, Ficus exasperata, Ficus mucuso and Ficus thonningii are very germane to traditional herbal practitioners. Upon this basis, various parts such as leaves, barks and roots are frequently collected for medicinal purposes. Literature has shown that the identification of most of the Ficus species in Nigeria is based on the characterisation results generated by taxonomists several decades ago. Adequate and recent taxonomic evidence is needed for the discrimination and better understanding of the affinities among medicinally important and closely related species. Although macro morphological analysis has hitherto provided clues to differentiating the taxa by a common layman, however, combining it with leaf epidermal characters would produce a better predictive delimitation of the taxa. This study, therefore, investigated the Morpho-Anatomical markers for identifying Ficus exasperata, Ficus mucuso and Ficus thonningii. Leaves samples were collected from the lower canopy portion of the tree species located in the University of Ibadan Campus, Nigeria. Specimens were prepared, analysed for morphological and epidermal characters following standard methods. The result shows that Ficus exasperata and Ficus mucuso shared appreciable morphological similarities, which are taxonomically different from Ficus thonningii. In terms of the anatomical delimitation, F. mucuso was differentiated from the other two species by having actinocytic stomata on the abaxial layer of the leaf. Whereas, F. exasperata lacks stomata on the adaxial layer. Epidermal cell shape is polygonal for all the species while the trichome present is stellate, foliform and papillary respectively for F. exasperata, F. mucuso and F. thonningii on the adaxial layer. Based on the identified taxonomic evidence observed in this study, leaf anatomical markers could provide discriminatory information for the taxa even when the plants are in fragmentary forms.

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“…The recent reports of the complete genomes of Ananas comosus (L.) Merr.) Versieux et al, 2010;De Faria, Vieira & Wendt, 2012;Magalhães & Mariath, 2012;Santos-Silva et al, 2013;Nogueira et al, 2015). Gilmartin & Brown, 1987;Varadarajan & Gilmartin, 1988).…”

Section: Evolution and Phylogeneticsmentioning

confidence: 99%

“…The use of morphological data in phylogenetic analysis decreased for many years before being re-established in the last decade, when micro-and macromorphological traits began to be employed at inter-and infrageneric levels (De Faria et al, 2004;Hornung-Leoni & Sosa, 2008;Almeida et al, 2009;Aguirre-Santoro et al, 2015;Da Costa et al, 2015;Donad ıo, Pozner & Giussani, 2015;Monteiro, Mantovani & Forzza, 2015;Saraiva, Mantovani & Forzza, 2015) and some studies in recent years have identified morphological characters with good taxonomic value for phylogenetic inferences (e.g. Versieux et al, 2010;De Faria, Vieira & Wendt, 2012;Magalhães & Mariath, 2012;Santos-Silva et al, 2013;Nogueira et al, 2015). In this issue, Kuhn et al (2016) present a study on morphoanatomical features of species of Tillandsioideae, revealing good systematic value of ovule morphology in delimiting genera in Tillandsioideae; its use in phylogenetic studies in this group should be tested.…”

Section: Evolution and Phylogeneticsmentioning

confidence: 99%

Advances in and perspectives on evolution in Bromeliaceae

et al. 2016

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Leaf anatomy and its contribution to the systematics of Aechmea subgenus Macrochordion (de Vriese) Baker (Bromeliaceae)

Cited by 12 publications

References 29 publications

Leaf architecture and anatomy of Asteraceae species in a xerophytic scrub in Mexico City, Mexico

Leaf architecture and anatomy of Asteraceae species in a xerophytic scrub in Mexico City, Mexico

Taxonomic significance of leaf morpho-anatomical markers in identifying <em>Ficus exasperata </em>Roxb.<em>, Ficus mucuso Welw. ex Ficalho </em>and <em>Ficus thonningii</em> Blume in Nigeria

Advances in and perspectives on evolution in Bromeliaceae

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Leaf anatomy and its contribution to the systematics of Aechmea subgenus Macrochordion (de Vriese) Baker (Bromeliaceae)

Cited by 12 publications

References 29 publications

Leaf architecture and anatomy of Asteraceae species in a xerophytic scrub in Mexico City, Mexico

Leaf architecture and anatomy of Asteraceae species in a xerophytic scrub in Mexico City, Mexico

Taxonomic significance of leaf morpho-anatomical markers in identifying &lt;em&gt;Ficus exasperata &lt;/em&gt;Roxb.&lt;em&gt;, Ficus mucuso Welw. ex Ficalho &lt;/em&gt;and &lt;em&gt;Ficus thonningii&lt;/em&gt; Blume in Nigeria

Advances in and perspectives on evolution in Bromeliaceae

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Taxonomic significance of leaf morpho-anatomical markers in identifying <em>Ficus exasperata </em>Roxb.<em>, Ficus mucuso Welw. ex Ficalho </em>and <em>Ficus thonningii</em> Blume in Nigeria