Effective temperature for overcoming dormancy of 'Fuyu' persimmon tree buds

The objective of this study was to evaluate the effective temperature for overcoming the dormancy of 'Fuyu' persimmon tree buds. Stem samples were collected three times between 2013 and 2014. Stems were maintained in a climate incubator chamber at 3, 6, 9, and 12 °C. For each temperature, five numbers of additional chilling hours (CH) (0, 240, 384, 528, and 672 CH) were studied. The experimental design was completely randomized in a 5 × 4 factorial design (chilling hours × temperatures) with four replications with 10 cuttings. The maintenance of branches at cold temperatures from 3 to 12 °C intensified endodormancy of the buds when the plants were at the beginning of endodormancy. The most effective temperatures for overcome dormancy when the buds were in transition from paradormancy to endodormancy were from 3 to 6 °C. When the buds were already in endodormancy, temperatures of 3, 6, 9, and 12 °C were effective for the accumulation of cold and overcoming dormancy. The increase in the number of chilling hours from 3 to 12 °C induced budburst and the temperature of 12 °C was able to slowly induce and overcome bud dormancy.

Water absorption and method improvement concerning electrical conductivity testing of Acacia mangium (Fabaceae) seeds / Absorción de agua y optimización de métodos para medir la conductividad eléctrica en semillas de Acacia mangium (Fabaceae)

Abstract:Acacia is an important forest species of rapid growth whose seeds have tegument dormancy. In this work it was intended to characterize water absorption pattern after seed dormancy break, and to determine the amount of water, container size and the need of breaking the tegument dormancy, as to perform electrical conductivity test in small and large seeds of Acacia mangium (Fabaceae). The seeds were collected from 10, 8 and 6 years old trees established in poor yielding-capacity soils on savannah areas of Roraima, Brazil; seeds were classified in six lots concerning to seed size and tree age. Germination tests (50 seeds and four replications per lot) were carried out on germitest® paper maintained on gerbox at 25 °C. Imbibition was verified by seed weighing at different times (0, 2, 5, 8, 12, 16, 24, 36, 48, 60, 72, 84, 96 and 120 hours). The electrical conductivity test consisted of three experiments, distinguished by the amount of water used and by the container size in which seeds were immersed. Seeds of A. mangium coming from 10 years old trees presented increased germination percent and germination speed than seeds of six-year old trees. Small seeds presented increased in electrical conductivity and water absorption until 120 hours when compared to large seeds. The immersion of seeds of A. mangium in 40 mL of distilled water into 180 mL plastic containers, after dormancy break, it is indicated for the determination of electrical conductivity test. The ratio of electrolytes by seed mass, after 24 hours of immersion in water, turns electrical conductivity test more accurate concerning A. mangium seeds. Rev. Biol. Trop. 64 (4): 1651-1660. Epub 2016 December 01.

Resumen:Acacia es una importante especie forestal de rápido crecimiento cuyas semillas presentan dormancia del tegumento. En este trabajo se caracterizó el patrón de absorción de agua después de la dormancia y se estableció la cantidad de agua, el tamaño del recipiente y la necesidad de ruptura del tegumento para poder medir la conductividad eléctrica en semillas pequeñas y grandes de Acacia mangium (Fabaceae). Las semillas fueron recolectadas de árboles de 6, 8 y 10 años, clasificadas en grandes o pequeñas y agrupadas en seis grupos. Para la prueba de germinación fueron utilizados cuatro repeticiones de 50 semillas de cada grupo, en papel germitest® a 25 °C. La imbibición se verificó con pesajes en los tiempos 0, 2, 5, 8, 12, 16, 24, 36, 48, 60, 72, 84, 96 y 120 horas con semillas colocadas en papel. La prueba de conductividad eléctrica se realizó en tres experimentos diferenciados por la cantidad de agua utilizada y el tamaño del recipiente de inmersión de las semillas. Las semillas de árboles de 10 años de edad tienen un porcentaje de germinación más alto y mayor velocidad de germinación que semillas de árboles de seis años. Las semillas pequeñas tienen una mayor conductividad eléctrica y mayor porcentaje de absorción de agua en comparación con las semillas grandes, hasta 120 horas. La inmersión de semillas en 40 mL de agua destilada en recipientes plásticos de 180 mL, después de la dormancia, esta indicada para la determinación de la conductividad eléctrica. La lectura de electrolitos en semillas, después de 24 horas de inmersión en agua, hace más precisa la prueba de conductividad eléctrica de semillas de A. mangium.

Seed dormancy of Ochradenus baccatus (Resedaceae), a shrubby species from Arabian desert regions / Dormición de semillas de Ochradenus baccatus (Resedaceae), una especie arbustiva de las regiones desérticas arábicas

Abstract:Ochradenus baccatus is a perennial glycophyte growing in Middle East and it is one of the most important food sources for many animal species in desert regions. The aim of our study was to investigate the effects of seed storage, light, temperature and gibberellic acid (GA3) on germination of O. baccatus seeds. We also investigated the germination characteristics of O. baccatus seeds under different saline concentration and their capability to recover germination once they were transferred to distilled water. Seeds were stored at room temperature (20 ± 2 ºC) and at -18 ºC. Germination tests were conducted at alternating temperatures of 15/25, 20/30 and 25/35 ºC in either continuous darkness or photoperiod of 12-h dark/12-h light. To study the effect of GA3 on germination of O. baccatus seeds, freshly-collected seeds and stored seeds were soaked for 24 h in a GA3 water solution (1 g/L) before sowing. To assess the salinity tolerance during germination, seeds were germinated under different salinity levels (100, 200 and 400 mM NaCl). Stored seeds at room temperature and -18 ºC germinate equally well at different temperature regimes and light conditions. However, freshly matured seeds were not able to germinate even when they were treated with GA3. On the contrary, stored seeds at room temperature and -18 ºC treated with GA3 increase the final germination percentages. These results indicated that O. baccatus seeds have physiological dormancy and they need to be stored in order to break their dormancy. In the present study, one year of storage did not show a significant variation in germination between the two storage conditions assayed. Therefore, further research is needed to know about the maximum storage period for O. baccatus seeds under different storage conditions. Very few O. baccatus seeds (less than 5 %) germinated at the tested lowest concentration of NaCl. However, ungerminated seeds were able to germinate when salinity stress was alleviated. In conclusion, O. baccatus seeds have physiological dormancy, and seed storage (at room temperature and at -18 ºC) for one year is effective for breaking this dormancy. In addition, O. baccatus seeds present ability to remain viable in saline conditions and they will be able to germinate once the salinity level decrease. Rev. Biol. Trop. 64 (3): 965-974. Epub 2016 September 01.

ResumenOchradenus baccatus es un glicófito perenne que crece en oriente Medio y es una de las fuentes de alimentación más importantes para muchas especies animales de regiones desérticas. El objetivo de nuestro estudio fue investigar los efectos del almacenamiento de semillas, luz, temperatura y ácido giberélico (GA3) en la germinación de semillas de O. baccatus. También se ha investigado la germinación de semillas de O. baccatus bajo diferentes concentraciones salinas y su capacidad para recuperar la germinación una vez que fueron transferidas a agua destilada. Las semillas se conservaron a temperatura ambiente (20 ± 2 ºC) y a -18 ºC. Los ensayos de germinación se realizaron a temperaturas alternas de 15/25, 20/30 y 25/35 ºC bajo oscuridad continua o fotoperiodo de 12-h oscuridad/12-h luz. Para estudiar el efecto del GA3 en la germinación de semillas de O. baccatus, semillas recién recolectadas y semillas almacenadas se sumergieron durante 24 h en una solución acuosa de GA3 (1 g/L) antes de la siembra. Para evaluar la tolerancia a la salinidad durante la germinación, la semillas fueron germinadas bajo diferentes niveles de salinidad (100, 200 y 400 mM ClNa). Las semillas conservadas a temperatura ambiente y a -18 ºC germinaron igualmente bien en los diferentes regímenes de temperatura y condiciones de iluminación. Sin embargo, las semillas recién maduradas fueron incapaces de germinar incluso cuando se trataron con GA3. Por el contrario, las semillas almacenadas tratadas con GA3 incrementaron los porcentajes finales de germinación. Estos resultados indican que las semillas de O. baccatus tienen dormición fisiológica y necesitan ser almacenadas para romperla. En este estudio, un año de conservación no supuso una variación significativa en la germinación entre las dos condiciones de conservación ensayadas. Por lo tanto, se precisan investigaciones adicionales para conocer cuáles son los periodos máximos de almacenamiento de semillas de O. baccatus bajo diferentes condiciones de conservación. Muy pocas semillas de O. baccatus (menos del 5 %) germinaron a la concentración más baja de ClNa. Sin embargo, las semillas no germinadas fueron capaces de germinar cuando el estrés salino fue aliviado. En conclusión, las semillas de O. baccatus tienen dormición fisiológica y el almacenamiento de las mismas (a temperatura ambiente y a -18 ºC) durante un año es eficaz para romper dicha dormición. Además, las semillas de O. baccatus presentan capacidad para permanecer viables en condiciones salinas y serán capaces de germinar una vez que el nivel de salinidad disminuya.

Dormancy-breaking requirements of Sophora tomentosa and Erythrina speciosa (Fabaceae) seeds / Dormancy-breaking requirements of Sophora tomentosa and Erythrina speciosa (Fabaceae) seeds

The physical dormancy of seeds has been poorly studied in species from tropical forests, such as the Atlantic Forest. This study aimed to examine the effect of moderate alternating temperatures on breaking the physical dormancy of seeds, the morphoanatomy and histochemistry of seed coats, and to locate the structure/region responsible for water entrance into the seed, after breaking the physical dormancy of seeds of two woody Fabaceae (subfamily Faboideae) species that occur in the Brazilian Atlantic Forest: Sophora tomentosa and Erythrina speciosa. To assess temperature effect, seeds were incubated in several temperature values that occur in the Atlantic Forest. For morphological and histochemical studies, sections of fixed seeds were subjected to different reagents, and were observed using light or epifluorescence microscopy, to analyze the anatomy and histochemistry of the seed coat. Treated and non-treated seeds were also analyzed using a scanning electron microscope (SEM) to observe the morphology of the seed coat. To localize the specific site of water entrance, the seeds were blocked with glue in different regions and also immersed in ink. In the present work a maximum temperature fluctuation of 15ºC was applied during a period of 20 days and these conditions did not increase the germination of S. tomentosa or E. speciosa. These results may indicate that these seeds require larger fluctuation of temperature than the applied or/and longer period of exposition to the temperature fluctuation. Blocking experiments water inlet combined with SEM analysis of the structures of seed coat for both species showed that besides the lens, the hilum and micropyle are involved in water absorption in seeds scarified with hot water. In seeds of E. speciosa the immersion of scarified seeds into an aniline aqueous solution showed that the solution first entered the seed through the hilum. Both species showed seed morphological and anatomical features for seed coats of the subfamily Faboideae. Lignin and callose were found around all palisade layers and the water impermeability and ecological role of these substances are discussed in the work.

Requisitos para romper la latencia en semillas de Sophora tomentosa y Erythrina speciosa (Fabaceae). La latencia física de las semillas ha sido poco estudiada en las especies de los bosques tropicales, como el bosque atlántico. Este estudio tuvo como objetivo examinar el efecto de las temperaturas moderadas alternantes en romper la latencia física de las semillas, la anatomía y la histoquímica de la cubierta de las semillas, y la localización de la estructura o región responsable de la entrada de agua, después de romper la latencia física de las semillas de Sophora tomentosa y Eythrina speciosa, dos especies leñosas de Fabaceae (subfamilia Faboideae) que presentes en el bosque atlántico de Brasil. Para cumplir con el primer objetivo se incubaron las semillas a varias temperaturas que se dan en el bosque atlántico. Para los estudios morfológicos e histoquímicos se fijaron secciones de semillas sometidos a diferentes reactivos y se observaron usando luz o microscopía de epifluorescencia para analizar la anatomía y la histoquímica de la cubierta de la semilla. Semillas tratadas y no tratadas se analizaron también usando un microscopio electrónico de barrido (MDB) o microscopio estereoscópico (ME) para observar la morfología de la cubierta de la semilla. Para localizar el sitio específico de la entrada de agua, las semillas fueron bloqueadas con pegamento en diferentes regiones y también sumergidas en tinta. En el presente trabajo se aplicó una fluctuación de temperatura máxima de 15°C durante un período de 20 días y estas condiciones no aumentó la germinación de S. tomentosa o E. speciosa. Estos resultados pueden indicar que estas semillas requieren mayor fluctuación de la temperatura que la aplicada y/o un período más largo de exposición a la fluctuación de la temperatura. Experimentos de bloqueo de entrada de agua combinada con el análisis de las estructuras de la cubierta de la semilla para ambas especies (SEM) mostró que, a pesar de la lente, el hilio y micropilo están implicados en la absorción de agua en las semillas escarificadas con agua caliente. En las semillas de E. speciosa la inmersión de semillas escarificadas en una solución acuosa de anilina mostró que la solución entró por primera vez a la semilla a través del hilio. Ambas especies mostraron características morfológicas y anatómicas de semillas con cubierta de la subfamilia Faboideae. La lignina y callosa se encontraron alrededor de todas las capas de empalizada y la impermeabilidad al agua y en el trabajo se discute el papel ecológico de estas sustancias.

Superação de dormência em sementes de Bombax malabaricum D. C. (Malvaceae) / Dormancy breaking in seeds of Bombax malabaricum D. C. (Malvaceae)

RESUMOA espécie Bombax malabaricum, popularmente conhecida por paineira-vermelha, apresenta metabólitos secundários de interesse medicinal. Como outras espécies da família Malvaceae, suas sementes possuem dormência tegumentar, o que dificulta sua propagação sexuada. Assim, o presente trabalho objetivou superar a dormência de sementes de B.malabaricum por métodos físicos e químicos. Os métodos utilizados na escarificação mecânica foram: abrasão do tegumento com lixa e corte com tesoura na região oposta ao hilo. Para a escarificação química foram utilizados: ácido clorídrico (HCl), ácido nítrico (HNO3), ácido sulfúrico (H2SO4), hidróxido de sódio (NaOH) e hidróxido de potássio (KOH) por um período de 30 minutos. Também houve imersão de sementes em 40 mg L-1 de GA3 pelo mesmo período. Foram utilizadas quatro repetições por tratamento, constituídas de 25 sementes por placa e conduzidas em Câmara de Germinação. Os dados obtidos foram utilizados para o cálculo da Germinabilidade, Índice de Velocidade de Germinação, Tempo Médio de Germinação, e Porcentagem de Sementes Deterioradas. O HNO3 mostrou-se como o melhor tratamento na variável Germinabilidade (83,5%), seguido do HCl (71,5%) e das técnicas de escarificação mecânica, com lixa (71,5%) e tesoura (67,5%). O HNO3também apresentou o menor número de sementes deterioradas (3,5%); o H2SO4 foi o tratamento que mais causou danos às sementes (36,5%).

ABSTRACTThe species Bombax malabaricum, popularly known as red-cotton tree, presents secondary metabolites of medicinal interest. Like other species of the Malvaceae, their seeds have tegumentary dormancy, which hinders their sexual propagation. Thus, this study aimed to break the dormancy of B. malabaricum through physical and chemical strategies. For mechanical scarification of the seeds it were employed: abrasion of the tegument with sandpaper and cut with scissors in the region opposite to the hilum. For chemical scarification: hydrochloric acid (HCl), nitric acid (HNO3), sulphuric acid (H2SO4), sodium hydroxide (NaOH) and potassium hydroxide (KOH) for a period of 30 minutes. The seeds were also subjected to immersion in 40 mg L-1 of GA3 for the same period. Four replicates of 25 seeds were used for each treatment and then they were conducted for calculation in a B.O.D. germination Chamber. The results obtained were applied in order to calculate: Germination, Germination Speed Index, Average Time of Germination and Percentage of Damaged Seeds. The HNO3proved to be the best treatment in the Germination trials (83.5%), followed by the HCl (71.5%) and the mechanical scarification techniques with sandpaper (71.5%) and scissors (67.5%). The HNO3 also showed the lowest percentage of damaged seeds (3.5%); The H2SO4 was the treatment that caused more damage to the seeds (36.5%).

Superação da dormência imposta pela impermeabilidade do tegumento em sementes de mucuna-preta / Overcoming of the dormancy imposed for the impermeability of the tegumentary in velvet bean seeds

A mucuna-preta é uma leguminosa empregada para adubação verde e como forrageira, cujas sementes apresentam dormência causada pela impermeabilidade do tegumento à água. O objetivo deste trabalho foi avaliar a eficiência de tratamentos para superação da dormência e a influencia do tamanho da semente na germinação. Foram utilizados dez tratamentos para superar a dormência. Foi utilizado o delineamento inteiramente casualisado com quatro repetições totalizando 200 sementes por tratamento para as três classes de tamanho das sementes submetidas aos dez tratamentos no esquema fatorial 3 x 10. As médias foram submetidas ao teste de Tukey a 5% de probabilidade. Os tratamentos via ácida com H2S04 concentrado por 10 e 15 minutos demonstraram maior eficiência na superação da dormência principalmente nas sementes das classes de tamanho pequenas e médias. A classe de sementes de tamanho considerada média demonstrou maior produção de fitomassa aliada a bons índices de germinação.

The velvet bean (Mucuna aterrima (Piper & Tracy) Holland) is a legume utilized for green manure and as forage. Its seeds have dormancy caused by a seed coat that is impermeable to water. The objective of this work was to evaluate the efficiency of treatments for overcoming of the dormancy it influences and it of the size of the seed in the germination. Ten treatments had been used to surpass the dormancy. A factorial 3 x 10 was used the DIC with four repetitions totalizing 200 seeds for treatment for the three class of size of the seeds submitted to the ten treatments. The averages had been submitted to the test of Tukey 5% of probability. The treatments acid with H2S04 concentrated for 10 and 15 minutes had mainly demonstrated to greater efficiency in the overcoming of the dormancy in the seeds of the class of average small size. The class of seeds of considered size average demonstrated to greater allied production of green material the good indices of germination.