In vitro growth and leaf anatomy of Cattleya walkeriana (Gardner, 1839) grown in natural ventilation system

Silva, Adriano Bortolotti da; Lima, Poliana Patrícia; Oliveira, Livia Emanuelle Simao de; Moreira, André Luís Laboratório de Biotecnologia Vegetal

doi:10.1590/0034-737x201461060001

Cited by 16 publications

(13 citation statements)

References 22 publications

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“…Isso está relacionado com o perfilhamento dessas plantas, influenciado pelo maior número de brotações. O sistema de micropropagação empregado interfere nas trocas gasosas, uma vez que a vedação hermética dos frascos ocasiona um aumento no CO 2 e gás etileno, podendo ocasionar mudanças fisiológicas nas plantas, diferenciação e crescimento dos tecidos, indução e diferenciação de órgãos (Silva et al, 2014;Teixeira da Silva et al, 2017).…”

Section: Resultados E Discussão Crescimento In Vitrounclassified

“…No entanto, quando as plantas foram cultivadas em frascos com sistema convencional, apresentaram maior NB (5,16 brotos), resultado que pode estar relacionado com o maior NF, também encontrado nesse tratamento (Tabela 1). Este fato pode ser decorrente da presença de gás etileno e de elevadas concentrações de CO 2 no ambiente hermético de cultivo, que podem diminuir o crescimento das plantas e conteúdo de pigmentos fotossintéticos (Silva et al, 2014;Silva et al, 2016;Teixeira da Silva et al, 2017). E neste trabalho contribuindo para formação de brotos e folhas.…”

Section: Resultados E Discussão Crescimento In Vitrounclassified

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Influência da luz, ventilação natural e tamanho do frasco no crescimento e desenvolvimento de denphal (Orchidaceae)

Ribeiro

Sorgato

Scalon

et al. 2019

Agraria

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RESUMO: Objetivou-se avaliar o crescimento da orquídea denphal, em função da luz, sistema de micropropagação e tamanho dos frascos de cultivo. O delineamento experimental utilizado foi inteiramente casualizado e os tratamentos arranjados em esquema fatorial 2 x 2 x 2 com cinco repetições. Plântulas cultivadas in vitro por 90 dias, a partir do início do período experimental, foram retiradas dos frascos, lavadas e avaliadas quanto ao número de folhas, altura da plântula, diâmetro do maior pseudobulbo, número de brotos e raízes, comprimento da maior raiz e da maior folha, e massa fresca. A seguir foram plantadas em substrato (esfagno rosa + fibra de coco) e transferidas para ambiente ex vitro. Com o intuito de investigar seus incrementos, após 90 dias, as plantas foram avaliadas quanto às mesmas características iniciais. Os diferentes espectros de luz não foram determinantes para o crescimento da planta. A utilização do sistema de ventilação natural em frascos de maior tamanho foi o fator que proporcionou condições favoráveis na promoção do crescimento, tanto no cultivo in vitro quanto no ex vitro do denphal.

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Section: Resultados E Discussão Crescimento In Vitrounclassified

Influência da luz, ventilação natural e tamanho do frasco no crescimento e desenvolvimento de denphal (Orchidaceae)

Ribeiro

Sorgato

Scalon

et al. 2019

Agraria

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“…The literature reports that the natural ventilation system, for instance, makes leaf cells more organized and consequently they form more rustic leaves. As stated by Silva et al (2014), natural ventilation provided an increase in the thickness of Cattleya walkeriana leaf mesophyll and stomata, making them more functional. Mohamed and Alsadon (2010) evaluated the anatomy of potato seedlings cultured in vitro, and found that the use of natural ventilation resulted in thicker leaves with more developed xylem than the conventional system.…”

Section: Mixotrophism Effect On In Vitro Elongation and Adventitious mentioning

confidence: 89%

MIXOTROPHISM EFFECT ON IN VITRO ELONGATION AND ADVENTITIOUS ROOTING OF Eucalyptus dunnii

Souza

Fernandes

Avelar

et al. 2019

CERNE

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“…Thus, the balance between endogenous and exogenous hormones and their interactions, probably contributed to promote positive results in intermediate buds. In addition, in the natural ventilation system with gas exchange, nutrients and growth regulators were probably better absorbed by the plant because of better transpiration (da Silva et al, 2014). In a study involving guava micropropagation, the bud position influenced the shoot proliferation, leading to intermediate buds with a higher percentage of shoots (Shekafandeh & Khosh-Khui, 2008).…”

Section: Shoot Proliferationmentioning

confidence: 99%

“…Additionally, no differences were reported in the thickness of the leaf blade, the palisade parenchyma or the spongy parenchyma (Table 1). For in vitro culture, the decrease in relative humidity with the higher gas exchange in the flask increased the transpiration rate and, consequently, the absorption of water and nutrients by the plant (da Silva et al, 2014). In addition, the high relative humidity inside the culture flask reduces the development of functional stomata, which can lead to losses during acclimatization (Chandra et al, 2010).…”

Section: Leaf Anatomymentioning

confidence: 99%

Shoot proliferation, leaf anatomy and pigment content of Eugenia dysenterica growing in conventional and natural ventilation systems

et al. 2019

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Shoot proliferation, leaf anatomy and pigment content of Eugenia dysenterica growing in conventional and natural ventilation systems 1 Natural ventilation micropropagation systems differ from conventional systems by allowing gas exchange between the internal and external media of the culture flask. The objective of this work was to compare the conventional system of in vitro propagation of Eugenia dysenterica (Mart.) DC. with a natural ventilation system. For shooting, explants were inoculated into test tubes with conventional lids and natural ventilation lids (NV), and WPM medium supplemented with four concentrations levels of 6-benzilaminopurine (BAP). The position of explants in each plant was considered by identifying buds as more proximate to the root, or to the apex, or in an intermediate position. Plant growth in the natural ventilation system was superior to that in the conventional system, with a 448.53% increase in leaf number, 85.64% increase in chlorophyll a levels and 74.90% increase in chlorophyll b levels. Plants with intermediate buds exhibited better results. Foliar anatomical analysis revealed abnormalities in leaves grown in the conventional system such as "giant" stomata, which remain always open. Our results indicate that the use of natural ventilation improves the water loss regulation capacity in micropropagated E. dysenterica plants and may favor plants survival and growth after transference to the natural environment.

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In vitro growth and leaf anatomy of Cattleya walkeriana (Gardner, 1839) grown in natural ventilation system

Cited by 16 publications

References 22 publications

Influência da luz, ventilação natural e tamanho do frasco no crescimento e desenvolvimento de denphal (Orchidaceae)

Influência da luz, ventilação natural e tamanho do frasco no crescimento e desenvolvimento de denphal (Orchidaceae)

MIXOTROPHISM EFFECT ON IN VITRO ELONGATION AND ADVENTITIOUS ROOTING OF Eucalyptus dunnii

Shoot proliferation, leaf anatomy and pigment content of Eugenia dysenterica growing in conventional and natural ventilation systems

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