Simão, E., Nakamura, A.T. & Takaki, M. Harvest period and germination capacity of Tibouchina mutabilis (Vell.) Cogn. (Melastomataceae) seeds. Biota Neotrop. Jan/Apr 2007 vol. 7, no. 1 http://www.biotaneotropica.org.br/v7n1/pt/abstract?article+bn01507012007 ISSN 1676-0603.An important step for understanding the dynamic of plant species in their environment is the study of their reproductive feature. Tibouchina mutabilis (Vell.) Cogn. (Melastomataceae) is a characteristic species of Serra do Mar, with potential for recovery of degraded areas and with landscaping purpose. The aim of this study was to investigate the acquisition of germination capacity of seeds and establishment of the best period for fruit harvest by weekly harvests, when morphological and germination capacity features were observed in four stages of development. The T. mutabilis seeds germinated only under white light. Besides the necessity of light for germination, seeds of T. mutabilis did not show another type of dormancy at the end of the ripening, with high germination percentage. The germination rate increases progressively in the function of lose of moisture in the subsequent stages of development, suggesting that the high moisture was the factor that restricted the germination. The best indicator of physiological maturation of seeds is the natural opening of the capsule. The advantage of this parameter is that it can be widely utilized and it is easy to recognize it. Due to the anemochoric dispersion of seeds, we propose that the harvest must be done, with good results, of fruit with 21 days after anthesis, and drying the fruit for capsule opening for seed extraction.Keywords: seed germination, seed maturation, morphology. ResumoSimão, E., Nakamura, A. O estudo dos aspectos reprodutivos é um importante passo para entendermos a dinâmica das espécies em seu ambiente natural. Tibouchina mutabilis (Vell.) Cogn. (Melastomataceae), espécie característica da Serra do Mar, apresenta potencial para recuperação de áreas degradadas e para fins paisagísticos. Objetivou-se investigar a aquisição da capacidade germinativa das sementes e o estabelecimento da melhor época para colheita de frutos da espécie por meio de coletas semanais, onde as características morfológicas e a capacidade germinativa foram observadas, em quatro estádios de desenvolvimento. A capacidade germinativa foi observada com 14 dias pós-antese e a máxima germinação foi observada aos 21 dias. As sementes T. mutabilis germinaram somente na luz. Além da necessidade da luz para a germinação, as mesmas não apresentaram nenhum tipo de dormência na fase final de maturação, apresentando alta porcentagem de germinação, A velocidade de germinação aumentou progressivamente em função do dessecamento das sementes nas subseqüentes fases avaliadas, sugerindo que a alta umidade foi o fator limitante para a germinação. O melhor indicador de maturação fisiológica e de fácil observação, para a espécie, é o início da abertura natural das cápsulas, entretanto, devido às sementes anemocóricas pequ...
Effect of light and temperature on seed germination in Tibouchina mutabilis (Vell.) Cogn. (Melastomataceae)
TAKAKI, M. 2008. Effect of light and temperature on seed germination in Tibouchina mutabilis (Vell.) Cogn. (Melastomataceae). Biota Neotrop. 8(2): http://www.biotaneotropica.org.br/v8n2/en/ abstract?article+bn00908022008. Abstract:The effect of light and temperature on Tibouchina mutabilis seed germination was analyzed by isothermic incubations in the range of 10 to 40 °C, with 5 °C intervals under both continuous white light (32.85 molm -2 s -1 ) and darkness and alternating temperatures (15-20; 15-25; 15-30; 15-35; 20-25; 20-30; 20-35; 25-30; 25-35 and 30-35 °C) under both photoperiod of 12 hours and continuous darkness. The seeds of T. mutabilis need light to trigger the germination and no germination was observed in darkness. ), com intervalos de 5°C e temperaturas alternadas (15-20; 15-25; 15-30; 15-35; 20-25; 20-30; 20-35; 25-30; 25-35 e 30-35 °C) sob fotoperíodo de 12 horas de luz branca. As sementes de T. mutabilis requerem luz para germinar, sendo nula a germinação no escuro em todas as temperaturas testadas. A faixa ótima de temperatura para a germinação foi de 25 a 30 °C e a alternância de temperaturas de 20-25 °C. Estes resultados indicam que T. mutabilis apresenta comportamento de uma espécie pioneira e que as alternâncias diárias de temperatura não alteraram a sensibilidade da semente à luz. Palavras-chave: fitocromo, germinação de sementes, luz, Tibouchina.
The germination response of Hylocereus setaceus seeds to isothermic incubation at different water potentials was analysed by using the thermal time and hydrotime models, aiming to describe some germination parameters of the population and to test the validity of the models to describe the response of the seeds to temperature and water potential. Hylocereus setaceus seeds germinated relatively well in a wide range of temperatures and the germination was rate limited from 11 to 20 °C interval and beyond 30 °C until 40 °C, in which the germination rate respectively shifts positively and negatively with temperature. The minimum or base temperature (T b ) for the germination of H. setaceus was 7 °C, and the ceiling temperature varied nearly from 43.5 to 59 °C depending on the percent fraction, with median set on 49.8 °C. The number of degrees day necessary for 50% of the seeds to germinate in the infra-optimum temperature range was 39.3 °C day, whereas at the supra-optimum interval the value of θ = 77 was assumed to be constant throughout. Germination was sensitive to decreasing values of Ψ in the medium, and both the germinability and the germination rate shift negatively with the reduction of Ψ, but the rate of reduction changed with temperature. The values of base water potential (Ψ b ) shift to zero with increasing temperatures and such variation reflects in the relatively greater effect of low Ψ on germination in supra optimum range of T. In general, the model described better the germination time courses at lower than at higher water potentials. The analysis also suggest that T b may not be independent of Ψ and that Ψ b(g) may change as a function of temperature at the infra-otimum temperature range.Keywords: Cactaceae, Hylocereus, hydrotime, thermal time, water potential. Resposta de germinação das sementes de Hylocereus setaceus (Salm-Dyck ex DC.)Ralf Bauer (Cactaceae) à temperatura e à redução do potencial de água ResumoAs respostas de germinação de sementes de Hylocereus setaceus para incubações isotérmicas sob diferentes potenciais de água foram analisadas utilizando-se modelos de graus dia e psi dia, com o objetivo de descrever alguns parâmetros da população e para testar a viabilidade do modelo para descrever as respostas da semente a temperatura e potencial de água. Sementes de H. setaceus germinaram relativamente bem em uma ampla faixa de temperaturas e a germinação foi limitada pela velocidade nos intervalos de 11 a 20 °C, e de 30 até 40 °C, nos quais a velocidade de germinação aumenta e diminui, respectivamente, com a temperatura. A temperatura mínima ou base (T b ) para germinação de H. setaceus foi 7 °C, e a temperatura máxima variou de 43,5 a 59 °C dependendo da fração percentual, com média de 49,8 °C. O número de graus dia necessário para 50% das sementes germinarem na faixa de temperatura infra-ótima foi de 39,3 °C dia, enquanto que, no intervalo supra-ótimo o valor de 77 °C dia foi assumido como constante para todo o intervalo. A germinação foi sensível à diminuição do Ψ no meio, e tant...
Influence of light and temperature on seed germination of Cereus pernambucensis Lemaire (Cactaceae)
TAKAKI, M. Influence of light and temperature on seed germination of Cereus pernambucensis Lemaire (Cactaceae). Biota Neotrop. 10(2): http://www.biotaneotropica. org.br/v10n2/en/abstract?article+bn00710022010. Abstract:The objective of the present study was to evaluate the effects of light and temperature on germination of Cereus pernambucensis seeds, a species of columnar cactus native to Brazil and naturally incident in the restinga. Cereus pernambucensis seeds were incubated under different temperatures, from 5 to 45 °C, with 5 °C intervals, and under alternating temperatures of 15-20 °C, 15-30 °C, 20-25 °C, 20-30 °C, 20-35 °C, 25-30 °C, 25-35 °C, and 30-35 °C, both under Resumo: Este estudo teve como objetivos avaliar os efeitos da luz e da temperatura na germinação de sementes de Cereus pernambucensis, espécie de cacto colunar, nativa do Brasil que ocorre naturalmente na restinga. As sementes foram incubadas sob diferentes isotermas, entre 5 e 45 °C, com intervalos de 5 °C, e sob termoperíodos de 15-20 °C, 15-30 °C, 20-25 °C, 20-30 °C, 20-35 °C, 25-30 °C, 25-35 °C, 30-35 °C, ambos na presença e ausência de luz contínua. As sementes também foram submetidas a um gradiente de fotoequilíbrio do fitocromo a 25 °C. A temperatura ótima para a germinação desta espécie está entre 25 e 30 °C. A alternância de temperatura não alterou a porcentagem de sementes germinadas, porém observaram-se alterações na velocidade e índice de sincronização. As sementes incubadas no escuro não germinaram em qualquer das condições testadas, indicando que a espécie, quando em condições de cultivo, é fotoblástica positiva. As sementes apresentam tolerância a diversas condições de sombreamento, germinando em condições de fluência muito baixa. Palavras-chave: cacto colunar, Cereus pernambucensis, restinga. Mancinelli (1994).For germination experiments, 50 mm diameter Petri dishes lined with two sheets of filter paper were used throughout. Each treatment contained four replicates of thirty seeds. Eight treatments of different temperatures at 5 °C intervals from 5 to 45 °C were used to evaluate the effect of different isotherms under white light or dark on germination. The effect of the 12 hours thermal period on germination was tested with the following pairs of alternating temperatures: 15-20 °C, 15-30 °C, 20-25 °C, 20-30 °C, 20-35 °C, 25-30 °C, 25-35 °C and 30-35 °C under light and dark. Temperatures and thermal periods that did not allow germination twenty days after the beginning of the experiments were excluded from statistical analyses. The white light was obtained from two fluorescent daylight type 15W light bulbs (32.85 µmol.m -1 /s). Petri dishes were inserted inside a colorless gerbox container for the experiments in light and a black gerbox container for those in the dark. The seeds under dark condition were monitored with a green safety light (Amaral-Baroli & Takaki 2001).Seeds that presented a primary root with at least 1mm were considered as germinated. Experiments were monitored daily with counting and removal of germi...
This study evaluated the contributions of Styrax camporum seed morphology (size of seeds, presence or absence of endocarp attached to the seed), different substrates (filter paper, vermiculite, sand and the soils of cerrado s. str., cerradão and a riparian forest), different water potentials (0, -0.1, -0.2, -0.3, -0.4 and -0.5 MPa), light and temperature to seed germination. Seed size did not affect the germination percentage when seeds were sown on vermiculite. Seeds were affected by small variations in the moisture content of the tested substrates, showing a significant decrease in germination under water potentials lower than -0.1 MPa, close to the field capacity of cerrado s. str. soils. At the temperatures of 15 and 20°C, a significant decrease in germination was observed. Thus, the availability of water in cerrado soils associated to temperature modulate the distribution of germination in this species. Seed morphology contributes to the maintenance of seeds in the soil, and the lack of synchrony in seed germination spreads the distribution of germination in time. These peculiarities allow the emergency of seedlings at different time periods and establishment conditions, an adaptative response of S. camporum to the cerrado environment.
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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