Your search keyword '"Tuler AC"' showing total 10 results

1. Towards a species-level phylogeny for Neotropical Myrtaceae: Notes on topology and resources for future studies.

Author

Staggemeier VG, Amorim B, Bünger M, Costa IR, de Faria JEQ, Flickinger J, Giaretta A, Kubo MT, Lima DF, Dos Santos LL, Lourenço AR, Lucas E, Mazine FF, Murillo-A J, de Oliveira MIU, Parra-O C, Proença CEB, Reginato M, Rosa PO, Santos MF, Stadnik A, Tuler AC, Valdemarin KS, and Vasconcelos T

Subjects

South America, Plastids genetics, Phylogeny, Myrtaceae genetics, Myrtaceae classification

Abstract

Premise: Increasingly complete phylogenies underpin studies in systematics, ecology, and evolution. Myrteae (Myrtaceae), with ~2700 species, is a key component of the exceptionally diverse Neotropical flora, but given its complicated taxonomy, automated assembling of molecular supermatrices from public databases often lead to unreliable topologies due to poor species identification., Methods: Here, we build a taxonomically verified molecular supermatrix of Neotropical Myrteae by assembling 3909 published and 1004 unpublished sequences from two nuclear and seven plastid molecular markers. We infer a time-calibrated phylogenetic tree that covers 712 species of Myrteae (~28% of the total diversity in the clade) and evaluate geographic and taxonomic gaps in sampling., Results: The tree inferred from the fully concatenated matrix mostly reflects the topology of the plastid data set and there is a moderate to strong incongruence between trees inferred from nuclear and plastid partitions. Large, species-rich genera are still the poorest sampled within the group. Eastern South America is the best-represented area in proportion to its species diversity, while Western Amazon, Mesoamerica, and the Caribbean are the least represented., Conclusions: We provide a time-calibrated tree that can be more reliably used to address finer-scale eco-evolutionary questions that involve this group in the Neotropics. Gaps to be filled by future studies include improving representation of taxa and areas that remain poorly sampled, investigating causes of conflict between nuclear and plastid partitions, and the role of hybridization and incomplete lineage sorting in relationships that are poorly supported., (© 2024 The Authors. American Journal of Botany published by Wiley Periodicals LLC on behalf of Botanical Society of America.)

Published

2024

2. Genetic Diversity and Population Structure of Psidium Species from Restinga: A Coastal and Disturbed Ecosystem of the Brazilian Atlantic Forest.

Author

de Oliveira Bernardes C, Tuler AC, Canal D, Carvalho MS, Ferreira A, and da Silva Ferreira MF

Subjects

Ecosystem, Brazil, Forests, Polyploidy, Genetic Variation, Psidium genetics

Abstract

The Atlantic Forest is one of the most threatened biomes in the world. Here, we use a common set of microsatellite markers to assess the genetic diversity and population structure of three species from the genus Psidium (P. guajava, P. macahense, and P. guineense), located in a disturbed environment of the Atlantic Forest, the restinga, in Espírito Santo, Brazil. Psidium guajava populations presented the highest number of alleles (95) followed by P. guineense (81) and P. macahense (68). The genetic variability was high (P. guajava = 0.71; P. guineense = 0.74; P. macahense = 0.63), with greater variation within populations (72 to 84%) than among populations (15 to 27%), reflecting elevated values of genetic differentiation (P. guajava, F ST: 0.15; P. macahense, Ø ST : 0.27; P. guineense, Ø ST : 0.21). The populations were clustered into two main groups and considered moderately structured. This is the first report of genetic studies and evidence of polyploidy to P. macahense. Our results may provide information that can be used in management and conservation strategies, to preserve the diversity of Psidium populations., (© 2022. Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

3. Phytochemical screening and phytocytotoxic effects of the tropical Myrcia vittoriana (Myrtaceae).

Author

Vasconcelos LC, Carrijo TT, Venancio AN, Alves TA, Tuler AC, Hollunder RK, Garbin ML, Menini L, and Praça-Fontes MM

Subjects

Phytochemicals analysis, Phytochemicals pharmacology, Plant Extracts chemistry, Plant Leaves chemistry, Alkaloids pharmacology, Myrtaceae, Oils, Volatile chemistry

Abstract

We investigated whether essential oil and aqueous and ethanolic extracts from M. vittoriana leaves have phytotoxic effects on the germination and initial development, and cytogenotoxic effects on the cell cycle, of model plants. The essential oil and extracts of M. vittoriana were characterized and used as treatments in phytotoxicity and cytotoxicity tests. The results indicated a reduction in germinative parameters and plant growth, with the higher concentrations of extracts and essential oil having the most evident effects. The cell cycle was also affected with a reduction of the mitotic index and the presence of chromosomal and nuclear alterations. All treatments showed clastogenic and aneugenic modes of action. The results can be associated with the synergistic effects of metabolites found in the extracts and essential oil, mainly the presence of the sesquiterpene germacrene D in the essential oil and of catechins, saponins, and tannins in the extracts. These substances inhibit plant germination and growth, confirming the phytotoxic effects of M. vittoriana in plant models, which should now be tested under field conditions.

Published

2022

4. Diversity, phylogeny and evolution of the rapidly evolving genus Psidium L. (Myrtaceae, Myrteae).

Author

Proença CEB, Tuler AC, Lucas EJ, Vasconcelos TNDC, de Faria JEQ, Staggemeier VG, de-Carvalho PS, Forni-Martins ER, Inglis PW, da Mata LR, and da Costa IR

Subjects

Bayes Theorem, Forests, Phylogeny, Myrtaceae anatomy & histology, Myrtaceae genetics, Psidium genetics

Abstract

Background and Aims: Psidium is the fourthth largest genus of Myrtaceae in the Neotropics. Psidium guajava is widely cultivated in the tropics for its edible fruit. It is commercially under threat due to the disease guava decline. Psidium cattleyanum is one of the 100 most invasive organisms in the world. Knowledge of the phylogenetic relationships within Psidium is poor. We aim to provide a review of the biology, morphology and ecology of Psidium, a phylogenetic tree, an infrageneric classification and a list of species., Methods: Morphological and geographic data were obtained by studying Psidium in herbaria and in the field between 1988 and 2020. Forty-six herbaria were visited personally. A database of approx. 6000 specimens was constructed, and the literature was reviewed. Thirty species (about a third of the species in the genus) were sampled for molecular phylogenetic inference. Two chloroplast (psbA-trnH and ndhF) and two nuclear (external transcribed spacer and internal transcribed spacer) regions were targeted. Phylogenetic trees were constructed using maximum likelihood (ML; RaxML) and Bayesian inference (BI; MrBayes)., Key Results: Psidium is a monophyletic genus with four major clades recognized as sections. Section Psidium (ten species), to which P. guajava belongs, is sister to the rest of the genus; it is widespread across the Neotropics. Section Obversifolia (six species; restricted to the Brazilian Atlantic Forest), which includes P. cattleyanum, is sister to the innermost clade composed of sister sections Apertiflora (31 species; widespread but most diverse in the Brazilian Atlantic Forest) + Mitranthes (26 species; widespread in dry forests and probably diverse in the Caribbean). Characters associated with diversification within Psidium are discussed., Conclusions: Research on pre-foliation, colleters, leaf anatomy, leaf physiology, staminal development, placentation and germination associated with the anatomy of the opercular plug is desirable. Studies are biased towards sections Psidium and Obversifolia, with other sections poorly known., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

5. Floristic survey of vascular plants of a poorly known area in the Brazilian Atlantic Forest (Flona do Rio Preto, Espírito Santo).

Author

Alves-Araújo A, Moreira MM, Carrijo TT, Lohmann LG, Lobão AQ, Scheidegger AF, Firmino AD, de Melo Silva AV, Nepomuceno Á, Tuler AC, Amorim AM, Moreira AL, Cosenza BA, Sossai BG, Silva C, Lopes CR, Monteiro D, Couto DR, Lima DF, Dalcin EC, Ramos E, Lírio EJ, Salimena F, de Oliveira FA, Fraga FR, Torres-Leite F, Antar GM, Shimizu GH, Lima HC, Medeiros H, Luber J, Christ JA, Lanna J, Zorzanelli JPF, Freitas J, Pastore JF, Melo JI, Paula-Souza J, Oliveira JR, Pederneiras LC, Freitas L, Giacomin LL, Meireles LD, Silva LA, Pinto LJ, Menini Neto L, Trovó M, Garbin ML, Morim MP, Ribeiro M, Pena NT, Labiak PH, Cardoso PH, Viana PL, Moraes PL, Moraes QS, Zorzanelli RF, Amaral RN, Asprino RC, Goldenberg R, Magnago R, Couto RS, Dutra SC, Hoyos-Gómez SE, Vieira TA, Flores TB, Dutra VF, Miranda VS, Manhães VC, and Forzza RC

Abstract

Background: The Atlantic Forest is one of the most threatened biomes in the world. Despite that, this biome still includes many areas that are poorly known floristically, including several protected areas, such as the "Floresta Nacional do Rio Preto" ("Flona do Rio Preto"), located in the Brazilian State of Espírito Santo. This study used a published vascular plant species list for this protected area from the "Catálogo de Plantas das Unidades de Conservação do Brasil" as the basis to synthesise the species richness, endemism, conservation and new species occurrences found in the "Flona do Rio Preto"., New Information: The published list of vascular plants was based on field expeditions conducted between 2018 and 2020 and data obtained from herbarium collections available in online databases. Overall, 722 species were documented for the "Flona do Rio Preto", 711 of which are native to Brazil and 349 are endemic to the Atlantic Forest. In addition, 60 species are geographically disjunct between the Atlantic and the Amazon Forests. Most of the documented species are woody and more than 50% of these are trees. Twenty-three species are threatened (CR, EN and VU), while five are Data Deficient (DD). Thirty-two species are new records for the State of Espírito Santo. Our results expand the knowledge of the flora of the Atlantic Forest and provide support for the development of new conservation policies for this protected area., (Anderson Alves-Araújo, Marina M Moreira, Tatiana T Carrijo, Lúcia G Lohmann, Adriana Q Lobão, Alana F Scheidegger, Aline D Firmino, Aline Vieira de Melo Silva, Álvaro Nepomuceno, Amélia C Tuler, André MA Amorim, André LC Moreira, Braz AP Cosenza, Brenno G Sossai, Christian Silva, Claudia R Lopes, Daniele Monteiro, Dayvid R Couto, Duane F Lima, Eduardo C Dalcin, Eliana Ramos, Elton J Lírio, Fatima Salimena, Felipe Alves de Oliveira, Fernanda RM Fraga, Filipe Torres-Leite, Guilherme M Antar, Gustavo H Shimizu, Haroldo C Lima, Herison Medeiros, Jaquelini Luber, Jheniffer A Christ, João Lanna, João Paulo F Zorzanelli, Joelcio Freitas, José FB Pastore, José IM Melo, Juliana Paula-Souza, Juliana RPM Oliveira, Leandro C Pederneiras, Leandro Freitas, Leandro L Giacomin, Leonardo D Meireles, Luis AE Silva, Luiz JS Pinto, Luiz Menini Neto, Marcelo Trovó, Mário L Garbin, Marli P Morim, Michel Ribeiro, Nelson TL Pena, Paulo H Labiak, Pedro H Cardoso, Pedro L Viana, Pedro LR Moraes, Quélita S Moraes, Raquel F Zorzanelli, Renara N Amaral, Renata C Asprino, Renato Goldenberg, Ricardo Magnago, Ricardo S Couto, Sandrine C Dutra, Saúl E Hoyos-Gómez, Tamara AF Vieira, Thiago B Flores, Valquíria F Dutra, Víctor S Miranda, Vitor C Manhães, Rafaela C Forzza.)

Published

2022

6. A list of land plants of Parque Nacional do Caparaó, Brazil, highlights the presence of sampling gaps within this protected area.

Author

Moreira MM, Carrijo TT, Alves-Araújo AG, Rapini A, Salino A, Firmino AD, Chagas AP, Versiane AFA, Amorim AMA, da Silva AVS, Tuler AC, Peixoto AL, Soares BS, Cosenza BAP, Delgado CN, Lopes CR, Silva C, Barbosa DEF, Monteiro D, Marques D, Couto DR, Gonzaga DR, Dalcin E, de Lirio EJ, Meyer FS, Salimena FRG, Oliveira FA, Souza FS, Matos FB, Depiantti G, Antar GM, Heiden G, Dias HM, Sousa HCF, Lopes ITFV, Rollim IM, Luber J, Prado J, Nakajima JN, Lanna J, Zorzanelli JPF, Freitas J, Baumgratz JFA, Pereira JBS, Oliveira JRPM, Antunes K, Sylvestre LS, Pederneiras LC, Freitas L, Giacomin LL, Meireles LD, Silva LN, Pereira LC, Silva LAE, Menini Neto L, Monge M, Trovó MLO, Reginato M, Sobral MEG, Gomes M, Garbin ML, Morim MP, Soares ND, Labiak PHE, Viana PL, Cardoso PH, Moraes PLR, Schwartsburd PB, Moraes QS, Zorzanelli RF, Nichio-Amaral R, Goldenberg R, Furtado SG, Feletti T, Dutra VF, Bueno VR, Dittrich VAO, and Forzza RC

Abstract

Background: Brazilian protected areas are essential for plant conservation in the Atlantic Forest domain, one of the 36 global biodiversity hotspots. A major challenge for improving conservation actions is to know the plant richness, protected by these areas. Online databases offer an accessible way to build plant species lists and to provide relevant information about biodiversity. A list of land plants of "Parque Nacional do Caparaó" (PNC) was previously built using online databases and published on the website "Catálogo de Plantas das Unidades de Conservação do Brasil." Here, we provide and discuss additional information about plant species richness, endemism and conservation in the PNC that could not be included in the List. We documented 1,791 species of land plants as occurring in PNC, of which 63 are cited as threatened (CR, EN or VU) by the Brazilian National Red List, seven as data deficient (DD) and five as priorities for conservation. Fifity-one species were possible new ocurrences for ES and MG states., New Information: "Parque Nacional do Caparaó" houses 8% of the land plant species endemic to the Brazilian Atlantic Forest, including 6% of its angiosperms, 31% of its lycophytes and ferns and 14% of its avascular plants. Twelve percent of the threatened species listed for the State of Espírito Santo and 7% listed for the State of Minas Gerais are also protected by PNC. Surprisingly, 79% of the collections analysed here were carried out in Minas Gerais, which represents just 21% of the total extension of the Park. The compiled data uncover a huge botanical collection gap in this federally-protected area., (Marina M Moreira, Tatiana T Carrijo, Anderson G Alves-Araújo, Alessandro Rapini, Alexandre Salino, Aline D Firmino, Aline P Chagas, Ana F A Versiane, André M A Amorim, Andrews V S da Silva, Amélia C Tuler, Ariane L Peixoto, Bethina S Soares, Braz A P Cosenza, Camila N Delgado, Claudia R Lopes, Christian Silva, Daniel E F Barbosa, Daniele Monteiro, Danilo Marques, Dayvid R Couto, Diego R Gonzaga, Eduardo Dalcin, Elton John de Lirio, Fabrício S Meyer, Fátima R G Salimena, Felipe A. Oliveira, Filipe S Souza, Fernando B Matos, Gabriel Depiantti, Guilherme M Antar, Gustavo Heiden, Henrique M Dias, Hian C F Sousa, Isabel T F V Lopes, Isis M Rollim, Jaquelini Luber, Jefferson Prado, Jimi N Nakajima, João Lanna, João Paulo F Zorzanelli, Joelcio Freitas, José F A Baumgratz, Jovani B S Pereira, Juliana R P M Oliveira, Kelly Antunes, Lana S Sylvestre, Leandro C Pederneiras, Leandro Freitas, Leandro L Giacomin, Leonardo D Meireles, Leonardo N Silva, Luciana C Pereira, Luís Alexandre E Silva, Luiz Menini Neto, Marcelo Monge, Marcelo L O Trovó, Marcelo Reginato, Marcos E G Sobral, Mario Gomes, Mário L Garbin, Marli P Morim, Nayara D Soares, Paulo H E Labiak, Pedro L Viana, Pedro H Cardoso, Pedro L R Moraes, Pedro B Schwartsburd, Quélita S Moraes, Raquel F Zorzanelli, Renara Nichio-Amaral, Renato Goldenberg, Samyra G Furtado, Thamara Feletti, Valquíria F Dutra, Vinícius R Bueno, Vinícius A O Dittrich, Rafaela C Forzza.)

Published

2020

7. Phytochemical analysis and effect of the essential oil of Psidium L. species on the initial development and mitotic activity of plants.

Author

Vasconcelos LC, de Souza Santos E, de Oliveira Bernardes C, da Silva Ferreira MF, Ferreira A, Tuler AC, Carvalho JAM, Pinheiro PF, and Praça-Fontes MM

Subjects

Allelopathy, Herbicides chemistry, Lactuca chemistry, Phytochemicals, Polycyclic Sesquiterpenes, Psidium drug effects, Sesquiterpenes, Germination drug effects, Herbicides pharmacology, Lactuca drug effects, Meristem chemistry, Oils, Volatile chemistry, Plant Oils pharmacology, Psidium chemistry, Seedlings drug effects, Sorghum chemistry

Abstract

The use of allelopathic compounds is an alternative for weeds control, since they present low toxicity when compared with the synthetic herbicides, that may cause several damages, as the contamination of the environment. Our objective was to determine the chemical composition and allelopathic properties of the essential oils of Psidium cattleianum, P. myrtoides, P. friedrichsthalianum, and P. gaudichaudianum on the germination and root growth of Lactuca sativa and Sorghum bicolor, and to evaluate their action on the cell cycle of root meristematic cells of L. sativa. The main compound found in all the studied species was (E)-caryophyllene (P. cattleianum-23.4 %; P. myrtoides-19.3%; P. friedrichsthalianum-24.6% and P. gaudichaudianum-17.0%). The different essential oils were tested at different concentrations on L. sativa and S. bicolor, reducing germination, germination speed index, and root and shoot growth of lettuce and sorghum seedlings. The cytotoxicity and aneugenic potential of these oils were evidenced by the reduction of the mitotic index and increase of the frequency of chromosomal alterations in L. sativa. The essential oils of the species of Psidium studied have potential to be used in weeds control.

Published

2019

8. Relationship between Psidium species (Myrtaceae) by resistance gene analog markers: focus on nematode resistance.

Author

Noia LR, Tuler AC, Ferreira A, and Ferreira MF

Subjects

Animals, Base Sequence, Conserved Sequence, Evolution, Molecular, Genetic Markers genetics, Genetic Variation, Genotype, Microsatellite Repeats, Phylogeny, Plant Diseases genetics, Psidium genetics, Psidium parasitology, Disease Resistance, Plant Diseases parasitology, Plant Proteins genetics, Psidium classification, Tylenchoidea pathogenicity

Abstract

Guava (Psidium guajava L.) crop is severely affected by the nematode Meloidogyne enterolobii. Native Psidium species have been reported as sources of resistance against this nematode. Knowledge on the molecular relationship between Psidium species based on plant resistance gene analogs (RGA) can be useful in the genetic breeding of guava for resistance to M. enterolobii. In this study, RGA markers from conserved domains, and structural features of plant R genes, were employed to characterize Psidium species and establish genetic proximity, with a focus on nematode resistance. SSR markers were also applied owing to their neutral nature, thus differing from RGA markers. For this, species reported as sources of resistance to M. enterolobii, such as P. cattleianum and P. friedrichsthalianum, as well as species occurring in the Atlantic Rainforest and susceptible genotypes, were investigated. In 10 evaluated Psidium species, high interspecific genetic variability was verified through RGA and SSR markers, with intraspecific variation in P. guajava higher with SSR, as was expected. Resistant species were clustered by RGA markers, and differential amplicons among genotypes resistant and susceptible to M. enterolobii were identified. Knowledge on the molecular relationships between Psidium species constitutes useful information for breeding of the guava tree, providing direction for hybridization and material for rootstocks. Additionally, the genetic relationship between native species, which have been little studied, and P. guajava were estimated by RGAs, which were confirmed as important markers for genetic diversity related to pathogen resistance.

Published

2017

9. Refinement of the karyological aspects of Psidium guineense (Swartz, 1788): a comparison with Psidium guajava (Linnaeus, 1753).

Author

Marques AM, Tuler AC, Carvalho CR, Carrijo TT, Ferreira MF, and Clarindo WR

Abstract

Euploidy plays an important role in the evolution and diversification of Psidium Linnaeus, 1753. However, few data about the nuclear DNA content, chromosome characterization (morphometry and class) and molecular markers have been reported for this genus. In this context, the present study aims to shed light on the genome of Psidium guineense Swartz, 1788, comparing it with Psidium guajava Linnaeus, 1753. Using flow cytometry, the nuclear 2C value of Psidium guineense was 2C = 1.85 picograms (pg), and the karyotype showed 2n = 4x = 44 chromosomes. Thus, Psidium guineense has four chromosome sets, in accordance with the basic chromosome number of Psidium (x = 11). In addition, karyomorphometric analysis revealed morphologically identical chromosome groups in the karyotype of Psidium guineense. The high transferability of microsatellites (98.6%) further corroborates with phylogenetic relationship between Psidium guajava and Psidium guineense. Based on the data regarding nuclear genome size, karyotype morphometry and molecular markers of Psidium guineense and Psidium guajava (2C = 0.95 pg, 2n = 2x = 22 chromosomes), Psidium guineense is a tetraploid species. These data reveal the role of euploidy in the diversification of the genus Psidium.

Published

2016

10. SSR markers: a tool for species identification in Psidium (Myrtaceae).

Author

Tuler AC, Carrijo TT, Nóia LR, Ferreira A, Peixoto AL, and da Silva Ferreira MF

Subjects

Genetic Markers, Phylogeny, Polymorphism, Genetic, Psidium classification, Genome, Plant, Microsatellite Repeats, Psidium genetics

Abstract

Molecular DNA markers are used for detection of polymorphisms in individuals. As they are independent of developmental stage of the plant and environmental influences, they can be useful tools in taxonomy. The alleles of simple sequence repeat (SSR) markers (or microsatellites) are traditionally used to identify taxonomic units. This application demands the laborious and costly delimitation of exclusive alleles in order to avoid homoplasy. Here, we propose a method for identification of species based on the amplification profile of groups of SSR markers obtained by a transferability study. The approach considers that the SSR are conserved among related species. In this context, using Psidium as a model, 141 SSR markers developed for Psidium guajava were transferred to 13 indigenous species of Psidium from the Atlantic Rainforest. Transferability of the markers was high and 28 SSR were conserved in all species. Four SSR groups were defined and they can help in the identification of all 13 Psidium species studied. A group of 31 SSR was genotyped, with one to six alleles each. The H0 varied from 0.0 to 0.46, and PIC from 0.0 to 0.74. Cluster analysis revealed shared alleles among species. The high percentage of SSR transferability found in Psidium evidences the narrow phylogenetic relationship existing among these species since transferability occurs by the preservation of the microsatellites and anchoring regions. The proposed method was useful for distinguishing the species of Psidium, being useful in taxonomic studies.

Published

2015