Dormancy breaking of the fig tree with hydrogen cyanamide and garlic extrate

The supply of cold hours needed to the dormancy breaking of shoots is the limiting factor for the cultivation of temperate climate fruit trees in warmer regions. In subtropical conditions, it is necessary to use chemical products to promote uniform sprouting. This research aimed at evaluating the effect of garlic extract and hydrogen cyanamide in sprouting, growth, production and production cycle of the fig tree. The experiment was conducted during the production cycles of 2011/12 and 2012/13. We used plants from the cultivar Roxo de Valinhos. Production pruning was made in the months of July/2011 and July/2012, and the following treatments were applied immediately after it: 2% hydrogen cyanamide and garlic extract in 4%, 8% and 12% doses, and a control treatment. Split plots were used as the experimental design, with five repetitions in blocks; each plot consisted of five treatments with hydrogen cyanamide, garlic extract and control; the subplots consisted of two production cycles. The use of hydrogen cyanamide promoted an anticipation of sprouting and the use of hydrogen cyanamide and garlic extract promoted a concentration of the productive period, when compared to the control. The estimated garlic extract dose that promoted the highest production per plant was 3%.

A rapid transcriptional activation is induced by the dormancy-breaking chemical hydrogen cyanamide in kiwifruit (Actinidia deliciosa) buds

Budbreak in kiwifruit (Actinidia deliciosa) can be poor in locations that have warm winters with insufficient winter chilling. Kiwifruit vines are often treated with the dormancy-breaking chemical hydrogen cyanamide (HC) to increase and synchronize budbreak. This treatment also offers a tool to understand the processes involved in budbreak. A genomics approach is presented here to increase our understanding of budbreak in kiwifruit. Most genes identified following HC application appear to be associated with responses to stress, but a number of genes appear to be associated with the reactivation of growth. Three patterns of gene expression were identified: Profile 1, an HC-induced transient activation; Profile 2, an HC-induced transient activation followed by a growth-related activation; and Profile 3, HC- and growth-repressed. One group of genes that was rapidly up-regulated in response to HC was the glutathione S-transferase (GST) class of genes, which have been associated with stress and signalling. Previous budbreak studies, in three other species, also report up-regulated GST expression. Phylogenetic analysis of these GSTs showed that they clustered into two sub-clades, suggesting a strong correlation between their expression and budbreak across species.

Duração do teste de germinação de Brachiaria brizantha cv. marandu (Hochst. ex A. Rich.) Stapf

O presente trabalho objetivou determinar o tempo mínimo necessário à realização do teste de germinação para sementes de B. brizantha cv. Marandu, o método de superação de dormência e a condição de temperatura que proporcionem a maior germinação no menor tempo. Numa primeira etapa, realizou-se o teste de germinação em trinta lotes de sementes, sob duas condições de temperaturas (15-35ºC e 20-35ºC), avaliadas em conjunto com três métodos para a superação de dormência (H2SO4, KNO3 e Controle), constituindo seis tratamentos. Realizaram-se contagens diárias da germinação para a determinação da data mais apropriada para o término do teste. Na segunda etapa, realizaram-se testes de germinação em oito lotes de diferentes níveis de vigor, utilizando-se os mesmos seis tratamentos e com encerramento do teste nas datas definidas na primeira etapa. Conclui-se que, para o teste de germinação de B. brizantha, a escarificação com H2SO4 e a temperatura de 20-35ºC são tratamentos que resultam na maior germinação em um menor tempo, possibilitando o encerramento do teste aos 11 dias após a semeadura.

Quebra de dormência em sementes de Commelina benghalensis

Com o objetivo de estudar alguns aspectos relacionados à dormência das sementes de trapoeraba (Commelina benghalensis L.), dois experimentos foram conduzidos em condições de laboratório. No primeiro experimento, realizado em 1989, utilizaram-se sementes aéreas e subterrâneas oriundas de Paranavaí-PR e apenas sementes aéreas oriundas de Jaboticabal-SP, todas recém-colhidas, nas modalidades de grandes e pequenas (separadas de acordo com seu peso). Os tratamentos de quebra de dormência foram. escarificação mecânica com lixa; escarificação química com ácido sulfúrico; choque térmico úmido; choque térmico seco, além da testemunha. No segundo experimento, realizado em 1990, utilizaram-se sementes do mesmo lote do experimento anterior, após um ano de armazenamento em câmara a 10o C, sem qualquer tratamento de semente, visando verificar a germinação das sementes. Os resultados indicaram que: 1) o ácido sulfúrico foi o tratamento que proporcionou as maiores porcentagens de germinação (P.G.) e os maiores índices de velocidade de germinação (I.V.G.) em todos os tipos de sementes estudadas; 2) a P.G. e o I.V.G. das sementes recém-colhidas aumentam após um ano de armazenamento; 3) as sementes grandes apresentam maior P.G. e maior I.V.G. que as sementes pequenas; 4) as sementes colhidas em Paranavaí, apresentaram uma tendência de maior P.G. e maior I.V.G. que as colhidas em Jaboticabal.

Duração do teste de germinação do capim-tanzânia

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Improved germination of the Australian natives: Hibbertia commutata, Hibbertia amplexicaulis (Dilleniaceae), Chameascilla corymbosa (Liliaceae) and Leucopogon nutans (Epacridaceae)

Hibbertia commutata (Steudel), H. amplexicaulis (Steudel), Chameascilla corymbosa [(R.Br.) F.Muell. Ex Benth.] and Leucopogon nutans (E. Pritzel) are four Australian species that are difficult to germinate during mine-site rehabilitation. Laboratory germination trails were conducted to identify dormancy mechanisms and to improve germination response. Treatments applied to all species included scarification and scarification followed by soaking seeds in smoke water (1, 5 or 10%) or gibberellic-acid solution (50, 200 or 1000 muM). Additional treatments with kinetin solution (50, 200 or 1000 muM) and smoke water (50 or 100%) were applied to scarified or unscarified seeds of C. corymbosa. Thermal-shock treatment was applied to L. nutans fruit, some of which were subsequently scarified and subjected to both smoke water (10%) and gibberellic-acid solution (1000 muM). Significant germination increases were obtained by using dormancy-breaking treatments on H. commutata ( from 12.8 to 76.0%), H. amplexicaulis (from 6.8 to 55.1%) and C. corymbosa (from 48.5 to 86.4%). Scarification alone increased germination of both Hibbertia species, suggesting that these species display a physical seed coat-imposed dormancy mechanism. Germination of H. amplexicaulis was further increased by the application of gibberellic-acid solution, indicating a possible embryo-imposed dormancy mechanism. Scarification followed by the application of smoke water produced the highest germination response for C. corymbosa seeds. Scarification alone did not significantly increase germination, inferring the existence of a smoke-responsive embryo dormancy mechanism. Seeds of L. nutans, although viable, failed to germinate and are thought to display complex seed coat- and embryo-imposed dormancy mechanisms.

Métodos de superação de dormência em sementes de Ipomoea e Merremia

Este trabalho objetivou avaliar os efeitos de métodos de superação de dormência sobre a germinação das sementes de Ipomoea grandifolia, I. hederifolia, I. nil, I. quamoclit, Merremia aegyptia e M. cissoides. Os tratamentos consistiram em ácido sulfúrico concentrado, nitrato de potássio, água quente e calor seco (50 ºC), lixa e fogo. Constatou-se que o ácido sulfúrico promoveu aumento na germinação das sementes de I. grandifolia (58, 37, 22 e 34%), I. hederifolia (76, 49, 82 e 55%), I. quamoclit (43, 33, 66 e 35%), I. nil (69, 79, 72 e 62%), M. cissoides (8, 19, 35 e 57%) e M. aegyptia (24, 64, 56 e 63%) após períodos de imersão de 5, 10, 15 e 20 minutos, respectivamente. A água (20 e 40 minutos), o calor seco (20 e 40 minutos) e o fogo melhoraram a germinação de I. grandifolia (68, 59, 62, 67 e 59%), M. cissoides (50, 52, 18, 25 e 46%) e M. aegyptia (54, 47, 21, 21 e 45%), respectivamente. O calor seco de 20 e 40 minutos melhorou a germinação de I. nil (49 e 36%), e o de 40 minutos, a de I. hederifolia (70%). O uso de nitrato de potássio e lixa não proporcionou melhoria na germinação das sementes.

Método de colheita e superação de dormência na qualidade fisiológica de sementes de Cassia ferruginea

The harvesting method of fruits of tree species should be adequate to obtain seeds of maximum physiological quality. When present, the dormancy of Cassia ferruginea seeds is due to seed coat impermeability to water. This research work viewed to find the best methods both for the harvesting and for the breaking of dormancy of seeds of that species. The experiment was conducted during two years. In the first, fruits shed from the mother plant and laying on the ground were picked and their seeds submitted to the following treatments: 1. control, 2. mechanical scarification of the seeds with sandpaper no. 220, 3. hot water for 5 minutes (initial and final temperatures of 82 and 69 degrees C, respectively), 4. hot water for 15 minutes (initial and final temperatures of 82 and 51 degrees C, respectively), 5. chemical scarification with H2SO4 (95%) for 20, 30, 40, 50, 60, 70, and 80 minutes. In the second year, seeds were submitted to treatments 2, 3, and 4 whereas acid scarification was applied for 30, 45, and 60 minutes. The results showed that seeds picked from the ground and those taken directly from the mother plant differ in their response to the dormancy breaking procedure. The results also showed that the seeds picked from the ground are better than those harvested directly from the plant and that, when dormant, the best results are attained when seeds are either submitted to mechanical scarification or chemical scarification with sulfuric acid for periods between 30 and 60 minutes.

Uso de reguladores de crescimento para a superação da dormência e sua influência na brotação, no florescimento e na produção da amoreira-preta

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Germinação de sementes de Stryphnodendron adstringens (Mart.) Coville de diferentes origens submetidas a tratamentos para superação de dormência

Sementes de diferentes procedências podem apresentar variações na intensidade de dormência, respondendo de forma diferenciada aos tratamentos e dificultando a indicação da melhor metodologia para superá-la. Este trabalho teve o objetivo de identificar métodos para superar a dormência e promover a germinação de sementes de barbatimão de diferentes procedências. Sementes dessa espécie foram colhidas em sete fragmentos de Cerrado localizados na região de Botucatu, SP, e submetidas aos seguintes tratamentos de superação de dormência: testemunha, escarificação mecânica (lixa 220), H2O quente por 20 min e escarificação com H2SO4 (95%) por 40, 60 e 80 min. As sementes foram avaliadas quanto ao teor de água, teste de germinação, comprimento de plântulas, índice de velocidade de germinação e condutividade elétrica. A escarificação em ácido sulfúrico por 60 min foi o tratamento mais eficiente para superar a dormência, acelerar e aumentar a porcentagem de germinação e resultar plântulas de maior tamanho, para as sementes de diferentes locais de origem.

On the germination and dormancy of dispersal units of Brachiaria decumbens STAPF

The effect of light and temperature on germination of Brachiaria decumbens as well as the action of some dormancy breaking chemicals were tested. Two seed batches stored different times were used. The results show that seeds failed to respond to alternating temperature regimes and different light qualities. Seeds were indifferent to white light at 25 degrees C. KNO3, ethanol and H2SO4 failed to break seed dormancy, whereas KCN and H2O2 partially reduced dormancy of two month stored seeds. The results suggest a metabolic character of dormancy in ''new'' (freshly collected) seeds and confirm the occurence of two types of dormancy in B. decumbens seeds.

On the germination and dormancy of dispersal units of Brachiaria decumbens staff

The effect of light and temperature on germination of Brachiaria decumbens as well as the action of some dormancy breaking chemicals were tested. Two seed batches stored different times were used. The results show that seeds failed to respond to alternating temperature regimes and different light qualities. Seeds were indifferent to white light at 25°C. KNO3, ethanol and H2SO4 failed to break seed dormancy, whereas KCN and H2O2 partially reduced dormancy of two month stored seeds. The results suggest a metabolic character of dormancy in new (freshly collected) seeds and confirm the occurence of two types of dormancy in B. decumbens seeds.