ABSTRACT
ABSTRACT Among weeds, morning glories comprise a very important group of climbing plants that infest sugarcane crops. The objective of this study was to evaluate the shoot and root interference of Merremia cissoides on the initial growth of sugarcane cultivar RB 966928. The experiment consisted of five treatment groups: (i) sugarcane monocropping, (ii) morning glory monocropping, (iii) sugarcane intertwined with morning glory but inseparate boxes, (iv) sugarcane intertwined with morning glory in attached boxes and (v) sugarcane with morning glory in attached boxes with morning glory prevented from intertwining with the sugarcane. The experimental design consisted of randomized blocks with four replicates. Merremia cissoides adversely affected the initial growth of the RB 966928 sugarcane starting at 90 days after transplanting (DAT). This effect increased with the time of intercropping, reaching at 180 DAT with a reduction of 57.3% in height,15.5% in stalk diameter, 90.4% in leaf areas, 86.6 and 75.2% in stalk and leaf dry mass, respectively. These reductions primarily due to the weed intertwining with the sugarcane plants because the weed had a physical choking and shading effect. This negative effect of morning glory on the sugarcane plants increased when they shared the substrate (i.e., when they competed for space and water), which also adversely affected weed growth, reducing 50.2% leaf areas and 42.1% shoot dry mass. The leaf area and the stalk and leaf dry mass of sugarcane are the characteristics more sensitive to the weed interference. Thus, both the shoot and root of M. cissoides interferes negatively in the growth of sugarcane, with the effect proportional to the period of coexistence, highlighting the detrimental effect on the stem (greater economic interest), and may also compromise the mechanical harvesting of the crop.
Subject(s)
Plant Shoots/physiology , Plant Roots/physiology , Crops, Agricultural/physiology , Convolvulaceae/physiology , Saccharum/growth & development , Plant Weeds/physiology , Time Factors , Random Allocation , Analysis of Variance , Plant Physiological Phenomena , Plant Leaves/physiology , Plant Development/physiology , Host-Seeking BehaviorABSTRACT
Abstract:Phyllonoma laticuspis leaves are used in Carrizal de Bravo, Guerrero, Mexico, to heal skin lesions such as injuries and smallpox sequelae and to treat diabetes mellitus type 2, and organic extracts of these leaves have been reported to exert antibacterial effects. High demand of P. laticuspis as a medicinal plant has decreased its natural populations, and propagation of the species has not yet been reported. Therefore, the purpose of this study was to assess the vegetative propagation of the species through cutting and air layering, as well as its sexual propagation in a preserved population. For this, concentrations of 1 000, 4 000 and 6 000 ppm of a commercial root enhancer, with indole butyric acid (IBA), and a control treatment without IBA, were applied to the cuttings and air layers. Germination was evaluated under light and dark conditions using lots of freshly collected seeds and lots of seeds that had been stored for three months at 4 °C or 24 ± 2 °C. All experiments were performed in a completely randomized design. The cuttings did not develop roots in any concentration, whereas 100 % of the air layers rooted, displaying vigorous roots in the presence of 4 000 ppm IBA, after four month of treatment application. Regarding germination, more than 60 % of the freshly collected seeds germinated, whereas less than 20 % of the seeds stored at 4 °C, and close to 50 % of the seeds stored at 24 ± 2 °C germinated under light and dark conditions. No significant differences were observed between light and dark conditions, so they were categorized as indifferent photoblastic seeds. The observed moisture content of 13.5 % and germination behaviour as the response to cold storage, suggest that the resultant seed quality was intermediate. P. laticuspis propagation for short-term foliage production can be carried out in air layers, in populations with a high density of adult plants as a source of plant material and for the restoration of disturbed areas, in the same locality. On the other hand, large-scale seedling production, medium-term foliage production and preservation of species variability can be achieved using seeds. Rev. Biol. Trop. 65 (1): 9-19. Epub 2017 March 01.
ResumenLas hojas de Phyllonoma laticuspis se utilizan en Carrizal de Bravo, Gro. México, para curar lesiones de la piel como heridas, secuelas de viruela y afecciones de la diabetes mellitus tipo 2. Los extractos orgánicos de hojas, mostraron efectos antibacterianos. La gran demanda de P. laticuspis como planta medicinal, ha disminuido sus poblaciones naturales, y no existen reportes de la propagación de la especie. Por lo tanto, el propósito del presente trabajo fue evaluar la propagación vegetativa de la especie a través de estacas y acodos, y su propagación sexual en una población conservada. En la propagación por estacas y acodos se aplicaron concentraciones de 1 000, 4 000 y 6 000 ppm de un enraizador comercial con ácido indolbutírico (AIB), y un tratamiento control sin AIB. La germinación se evaluó en luz y oscuridad mediante el uso de lotes de semillas recién recolectadas y lotes de semillas almacenadas por tres meses a 4 °C y a 24 ± 2 ºC. Todos los experimentos se realizaron en un diseño completamente al azar. Las estacas no desarrollaron raíces en ninguna de las concentraciones, mientras que el 100 % de los acodos enraizaron, produciendo raíces vigorosas con la concentración de 4 000 ppm de AIB, a los cuatro meses de la aplicación. Con respecto a la germinación bajo condiciones de luz y oscuridad, las semillas recién recolectadas germinaron más del 60 %, mientras que las semillas almacenadas a 4 ºC menos del 20 % y las almacenadas a 24 ± 2 ºC cerca del 50 %. No hubieron diferencias significativas entre la germinación en luz y oscuridad, por lo que se consideraron como semillas fotoblásticas indiferentes. El contenido de humedad de 13.5 % y el comportamiento de la germinación en respuesta al almacenamiento en frío, sugieren la cualidad de semillas de tipo intermedias. La propagación de P. laticuspis para la producción de follaje a corto tiempo, puede hacerse por acodos en poblaciones con alta densidad de plantas adultas como fuente de material vegetal y para la restauración de áreas alteradas en la misma localidad. Mientras que la producción de follaje a mediano plazo y la conservación de la variabilidad de la especie, se puede lograr con la obtención masiva de plántulas a través de semillas.
Subject(s)
Plants, Medicinal/physiology , Seeds/physiology , Germination/physiology , Aquifoliaceae/physiology , Temperature , Time Factors , Plant Roots/physiology , Fruit/physiology , LightABSTRACT
Resumen:Las raíces finas juegan un papel importante en la adquisición de agua y minerales del suelo, el balance global del carbono y la mitigación del cambio climático. La dinámica (productividad-PRF y recambio-RRF) de raíces finas es esencial para el ciclo de nutrientes y balance de carbono de los ecosistemas forestales. La disponibilidad de agua y nutrientes determina de manera significativa la PRF y el RRF. Se ha planteado la hipótesis de que la dinámica de raíces finas aumenta con la disponibilidad de los recursos del suelo en bosques tropicales. Para probar esta hipótesis en las selvas tropicales del Chocó (ecosistemas con las más altas tasas de precipitación en el mundo), se establecieron cinco parcelas permanentes de una hectárea en las localidades de Opogodó y Pacurita, donde la PRF y RRF se midieron a 0-10 cm y 10-20 cm de profundidad. La medición de la PRF se realizó por el método de cilindros de crecimiento. La tasa de RRF se midió como la PRF/ biomasa media anual. Además, se midieron los parámetros de fertilidad del suelo (pH, nutrientes y textura) y se evaluó su asociación con PRF y RRF. Se encontró que ambos sitios presentan suelos pobres en nutrientes. Las localidades difieren en características edáficas; Opogodó tiene suelos arenosos y topografía plana, y Pacurita tiene suelos arcillosos, ricos en aluminio y topografía montañosa. En Opogodó la PRF fue (media ± DE) de 6.50 ± 2.62 t/ha.año. En Pacurita la PRF fue 3.61 ± 0.88 t/ha.año. Igualmente, en Opogodó el RRF fue mayor que en Pacurita (1.17 /año y 0.62 /año, respectivamente). El RRF y la PRF fueron mayores en la superficie del suelo (10 cm de profundidad). La PRF y el RRF mostraron correlación positiva con el pH, MO, N total, K, Mg, y arena; mientras que, las correlaciones fueron negativas con la CICE, Al, limo y arcilla. El porcentaje de arena fue el parámetro que mejor explica la variación en la PRF. La tasa negativa de la RRF fue explicada por la disponibilidad de Al. Los resultados evidenciaron un aumento en la dinámica de las raíces finas con la fertilidad del suelo a escala local, lo que sugiere que en selvas tropicales con suelos oligotróficos, las raíces finas tienden a proliferar rápidamente en pequeños parches de suelo ricos en arena y nutrientes.
Abstract:The fine roots play an important role in the acquisition of water and minerals from the soil, the global carbon balance and mitigation of climate change. The dynamics (productivity and turnover) of fine roots is essential for nutrient cycling and carbon balance of forest ecosystems. The availability of soil water and nutrients has significantly determined the productivity and turnover of fine roots. It has been hypothesized that fine roots dynamics increases with the availability of soil resources in tropical forest ecosystems. To test this hypothesis in tropical rainforests of Chocó (ecosystems with the highest rainfall in the world), five one-ha permanent plots were established in the localities of Opogodó and Pacurita, where the productivity and turnover of fine roots were measured at 0-10 cm and 10-20 cm depth. The measurement of the fine root production was realized by the Ingrowth core method. The fine root turnover was measured like fine roots production divided mean annual biomass. In addition, soil fertility parameters (pH, nutrients, and texture) were measured and their association with productivity and turnover of fine roots was evaluated. It was found that the sites had nutrient-poor soils. The localities also differ in soil; Opogodó has sandy soils and flat topography, and Pacurita has clay soils, rich in aluminum and mountainous topography. In Opogodó fine root production was 6.50 ± 2.62 t/ha.yr (mean ± SD). In Pacurita, fine root production was 3.61 ± 0.88 t/ha.yr. Also in Opogodó, the fine root turnover was higher than in Pacurita (1.17 /y and 0.62 /y, respectively). Fine root turnover and production in the upper soil layers (10 cm upper soil) was considerably higher. Productivity and turnover of fine roots showed positive correlation with pH and contents of organic matter, total N, K, Mg, and sand; whereas correlations were negative with ECEC and contents of Al, silt, and clay. The percentage of sand was the parameter that best explained the variations of fine root production. The fine root turnover was negatively explained by soil Al availability. Results suggested the increase of fine root dynamics with soil fertility at a local scale, which also indicates that under the oligotrophic conditions of soils in tropical rainforests, fine roots tend to proliferate rapidly in small patches of soil rich in sand and nutrients. Rev. Biol. Trop. 64 (4): 1709-1719. Epub 2016 December 01.
Subject(s)
Soil/chemistry , Tropical Climate , Plant Roots/physiology , Rainforest , Reference Values , Time Factors , Colombia , Statistics, Nonparametric , BiomassABSTRACT
ABSTRACT In the current study, 18 halotolerant and halophilic bacteria have been investigated for their plant growth promoting abilities in vitro and in a hydroponic culture. The bacterial strains have been investigated for ammonia, indole-3-acetic acid and 1-aminocyclopropane-1-carboxylate-deaminase production, phosphate solubilisation and nitrogen fixation activities. Of the tested bacteria, eight were inoculated with Triticum aestivum in a hydroponic culture. The investigated bacterial strains were found to have different plant-growth promoting activities in vitro. Under salt stress (200 mM NaCl), the investigated bacterial strains significantly increased the root and shoot length and total fresh weight of the plants. The growth rates of the plants inoculated with bacterial strains ranged from 62.2% to 78.1%.Identifying of novel halophilic and halotolerant bacteria that promote plant growth can be used as alternatives for salt sensitive plants. Extensive research has been conducted on several halophilic and halotolerant bacterial strains to investigate their plant growth promoting activities. However, to the best of my knowledge, this is the first study to inoculate these bacterial strains with wheat.
Subject(s)
Plant Growth Regulators/biosynthesis , Stress, Physiological , Bacteria/drug effects , Bacteria/metabolism , Triticum/physiology , Triticum/microbiology , Bacterial Physiological Phenomena , Salinity , Phenotype , Plant Roots/physiology , Plant Roots/microbiology , Biomass , Ammonia/metabolism , Nitrogen FixationABSTRACT
ResumenProsopis ruscifolia es una especie arbórea pionera en áreas inundadas o salinas. El objetivo de este trabajo fue determinar cambios anatómicos en raíces e hipocótilos de plántulas de P. ruscifolia sometidas a estrés salino, bajo condiciones controladas. Las semillas se recolectaron en bosques nativos de la Región Chaqueña Occidental de Argentina. Las semillas se sembraron sobre toallas de papel humedecidas con soluciones salinas de 100, 200 y 300 mM de NaCl y un control humedecido con agua destilada. Se sembraron cuatro repeticiones de 50 semillas cada una, correspondientes a cada tratamiento, se ubicaron en cajas plásticas herméticas dentro de cámara de siembra a 27 ºC y con fotoperíodo de 12 horas. Doce días después de la siembra, se extrajeron plántulas para estudios anatómicos. Se estudiaron 35 plántulas correspondientes a cada tratamiento. Se midieron en raíces e hipocótilos las siguientes variables anatómicas: diámetro de la raíz principal e hipocótilo (µm), espesor de la corteza (µm), número de estratos celulares en la corteza, diámetro del cilindro central (µm), diámetro de la médula (µm), número de estratos celulares en el periciclo y diámetro tangencial de los vasos (µm). Se realizó ANOVA con diámetro de la raíz o hipocótilo como variable dependiente y espesor de la corteza, número de estratos celulares en la corteza, diámetro del cilindro central, diámetro de la médula, número de estratos celulares en el periciclo, diámetro tangencial de los vasos y concentración salina como variables independientes. El diámetro de la raíz disminuyó significativamente con el aumento de la concentración salina (P < 0.0001). El espesor de la corteza redujo su espesor a 100 mM (P < 0.0001) e incrementó el número de estratos celulares que la componen (P < 0.0002). El diámetro del cilindro central se redujo a la concentración salina de 100 mM (P < 0.0001) y el diámetro de la médula y el número de estratos celulares del periciclo (P < 0.0003) disminuyó progresivamente hasta 300 mM. El diámetro tangencial de los vasos (P < 0.0001) se redujo recién a 300 mM de NaCl. Estos cambios anatómicos podrían estar relacionados con la alteración de la expansión y división celular causada por la salinidad y comprometer la formación de raíces laterales y el almacenamiento de reservas. Los hipocótilos no mostraron cambios anatómicos significativos en respuesta al incremento en la salinidad, con excepción de la variación en la posición de estomas y un incremento en el espesor de la hipodermis. Estos cambios parecen indicar el estrés hídrico impuesto por el bajo potencial osmótico causado por las sales. Las plántulas de P. ruscifolia experimentaron cambios anatómicos en respuesta a las concentraciones salinas analizadas, en rasgos vinculados al almacenamiento de reservas, a la absorción y la conducción de agua y la formación de raíces laterales.
Abstract:Prosopis ruscifolia is a pioneer tree species in flooding or saline areas. The aim of this work was to assess anatomical changes in roots and hypocotyls of P. ruscifolia seedlings induced to saline stress under controlled conditions. Seeds, collected in natural forests of Western Chaco region in Argentina, were sown on paper towels moisturized with saline solutions of 100, 200 and 300 mM of NaCl, and a control group with distilled water. Four repetitions of 50 seeds per treatment were sown, located in hermetic polystyrene boxes, and included in a seeding chamber, at 27 ºC and 12 hours photoperiod. Were studied 35 seedlings from each saline concentration; these seedlings were processed 12 days after sown to obtain microscopic samples. The anatomical variables measured in roots and hypocotyls were the following: main root diameter (µm), bark thickness (µm), number of cell strata in bark, central cylinder diameter (µm), pith diameter (µm), number of cell strata in the pericycle and the tangential diameter of vessels (µm). ANOVA analysis were performed with hypocotyl and root diameters as the dependent variable, and bark thickness (µm), number of cell strata in the bark, the central cylinder diameter (µm), the pith diameter (µm), number of cell strata in the pericycle, the tangential diameter of vessels and the saline concentration as independent variables. Results showed that the root diameter decreased with increasing saline concentrations (P < 0.0001). The bark thickness decreased at 100 mM (P < 0.0001) and the number of cell strata of bark increased to 300 mM (P < 0.0002). The central cylinder diameter decreased at 100 mM saline concentration (P < 0.0001) and the number of cell strata of the pericycle and the pith diameter reduced progressively until 300 mM. The tangential diameter of vessels decreased at 300 mM. These anatomical changes suggested alterations in the expansion and cell division caused by the salinity, and could limit lateral roots formation and reserves storage. Hypocotyls did not show significant anatomical changes in response to increasing salinity, with exception of stomata position and an increase of the hypodermis thickness. These changes indicated that the water stress imposed by low osmotic potential is caused by increasing saline concentration. The seedlings of P. ruscifolia experienced anatomical changes in response to tested saline concentrations in traits related to reserve storage, the absorption and conduction of water, and lateral roots formation. Rev. Biol. Trop. 64 (3): 1007-1017. Epub 2016 September 01.
Subject(s)
Stress, Physiological , Plant Roots/anatomy & histology , Hypocotyl/anatomy & histology , Prosopis/anatomy & histology , Salinity , Salt-Tolerant Plants/anatomy & histology , Reference Values , Water , Analysis of Variance , Statistics, Nonparametric , Plant Roots/physiology , Hypocotyl/physiology , Prosopis/physiology , Salt-Tolerant Plants/physiologyABSTRACT
Salinity is the leading abiotic stress hampering maize (Zea mays L.) growth throughout the world, especially in Pakistan. During salinity stress, the endogenous ethylene level in plants increases, which retards proper root growth and consequent shoot growth of the plants. However, certain bacteria contain the enzyme 1-aminocyclopropane-1-carboxylate (ACC) deaminase, which converts 1-aminocyclopropane-1-carboxylic acid (an immediate precursor of ethylene biosynthesis in higher plants) into ammonia and α-ketobutyrate instead of ethylene. In the present study, two Pseudomonas bacterial strains containing ACC-deaminase were tested separately and in combinations with mineral fertilizers to determine their potential to minimize/undo the effects of salinity on maize plants grown under saline-sodic field conditions. The data recorded at 30, 50 and 70 days after sowing revealed that both the Pseudomonas bacterial strains improved root and shoot length, root and shoot fresh weight, and root and shoot dry weight up to 34, 43, 35, 71, 55 and 68%, respectively, when applied without chemical fertilizers: these parameter were enhanced up to 108, 95, 100, 131, 100 and 198%, respectively, when the strains were applied along with chemical fertilizers. It can be concluded that ACC-deaminase Pseudomonas bacterial strains applied alone and in conjunction with mineral fertilizers improved the root and shoot growth of maize seedlings grown in saline-sodic soil.
Subject(s)
Plant Development , Plant Roots/physiology , Plant Shoots/physiology , Pseudomonas/growth & development , Soil Microbiology , Soil/chemistry , Zea mays/physiology , Amino Acids, Cyclic/metabolism , Ammonia/metabolism , Butyrates , Carbon-Carbon Lyases/metabolism , Fertilizers , Pakistan , Pseudomonas/enzymology , SalinityABSTRACT
An efficient and reproducible protocol for plantlet regeneration from nodal segments of Olive cv ‘Frontio’ has been developed. Media and explants browning due to exudation of phenolics from the explants were controlled by fortification of the medium with 100 mg/L ascorbic acid. Best establishment of olive explants was observed on half-strength MS salts fortified with 2.0 mg/L 6-benzylaminopurine (BAP), which resulted in 56.2% of bud break and 93.7% survival whereas, a combination of full strength MS medium with 1.0 mg/L each of 3-indole-butyric-acid (IBA) and kinetin was found to be the best for shoot multiplication, in terms of number of shoots (3.6 shoots/explant) and shoot length (2.2 cm). The in vitro shoots were rooted on half-strength MS medium fortified with 0.2 mg/L IBA and 0.2 mg/L α-naphthalene acetic acid (NAA) with 1.5 g/L activated charcoal, which supported optimum rooting (60 %), with an average of 2-3 roots/shoot, about 2.4 cm length were produced on four weeks of culture.
Subject(s)
Antioxidants/pharmacology , Ascorbic Acid/pharmacology , Olea/drug effects , Olea/physiology , Plant Roots/drug effects , Plant Roots/physiology , Plant Shoots/drug effects , Plant Shoots/physiology , Regeneration/drug effectsABSTRACT
The seeds of C. nervosa and E. pseudoclavicaulis were germinated asymbiotically on Knudson C (KC) and Schenk and Hildebrandt basal medium (SH). Growth regulators such as 2,4-Dichlorophenoxyacetic acid (2,4-D) individually and in combinations with benzyladenine (BA) and kinetin were used for callus induction from the protocorm like bodies. Coelogyne nervosa showed maximum (90%) callus induction in Knudson C medium supplemented with 2,4-D (2.26 µM) and Eria pseudoclavicaulis showed 60% callus induction in Schenk and Hildebrandt medium supplemented with 2,4-D (2.26 µM). Calli developed a route of production of protocorm-like bodies and eventually developed into plantlets on transfer to growth regulator free half strength basal medium. The well rooted plants were hardened successfully in the potting mixture containing coconut husk, charcoal, and brick pieces in the ratio 2:1:1.
Subject(s)
2,4-Dichlorophenoxyacetic Acid/pharmacology , Cell Culture Techniques , Cells, Cultured , Culture Media/pharmacology , Endangered Species , India , Orchidaceae/cytology , Orchidaceae/physiology , Plant Growth Regulators/pharmacology , Plant Roots/drug effects , Plant Roots/physiology , Regeneration/drug effectsABSTRACT
In the Brazilian Cerrado (neotropical savanna), the development of bud-bearing underground systems as adaptive structures to fire and dry periods can comprise an important source of buds for this ecosystem, as already demonstrated in the Brazilian Campos grasslands and North American prairies. Asteraceae species from both woody and herbaceous strata have subterranean organs that accumulate carbohydrates, reinforcing the adaptive strategy of these plants to different environmental conditions. This study aims to analyse the morpho-anatomy of underground systems of six species of Asteraceae (Mikania cordifolia L.f. Willd., Mikania sessilifolia DC, Trixis nobilis (Vell.) Katinas, Pterocaulon alopecuroides (Lam.) DC., Vernonia elegans Gardner and Vernonia megapotamica Spreng.), to describe these structures and to verify the occurrence and origin of shoot buds, and to analyse the presence of reserve substances. Individuals sampled in Cerrado areas in São Paulo State showed thick underground bud-bearing organs, with adventitious or lateral roots and presence of fructans. Xylopodium was found in all studied species, except for Trixis nobilis, which had stem tuber. The presence of fructans as reserve, and the capacity of structures in the formation of buds indicate the potential of herbaceous species of Asteraceae in forming a viable bud bank for vegetation regeneration in the Brazilian Cerrado.
No Cerrado brasileiro (savana neotropical), o desenvolvimento de sistemas subterrâneos que produzem gemas, como estruturas adaptativas contra o fogo e períodos de seca, pode compreender um importante suprimento de gemas para esse ecossistema, como já demonstrado nos campos brasileiros e nas pradarias norte-americanas. Espécies de Asteraceae tanto do estrato lenhoso, quanto do herbáceo têm órgãos que acumulam carboidratos, reforçando a estratégia adaptativa dessas plantas a diferentes condições ambientais. Este estudo tem o objetivo de analisar a morfo-anatomia de sistemas subterrâneos de seis espécies de Asteraceae (Mikania cordifolia L.f. Willd., Mikania sessilifolia DC, Trixis nobilis (Vell.) Katinas, Pterocaulon alopecuroides (Lam.) DC., Vernonia elegans Gardner e Vernonia megapotamica Spreng.), para descrever essas estruturas e verificar a ocorrência e origem de gemas caulinares, e analisar a presença de substâncias de reserva. Indivíduos amostrados em áreas de Cerrado no Estado de São Paulo apresentaram órgãos subterrâneos espessados produtores de gemas, com raízes adventícias ou laterais e presença de frutanos. Em todas as espécies estudadas foi constatada a presença de xilopódio, com exceção de Trixis nobilis, a qual apresentou caule tuberoso. A presença de frutanos como reserva e a capacidade de estruturas na formação de gemas indicam o potencial de espécies herbáceas de Asteraceae em formar um banco de gemas viável para regeneração da vegetação no Cerrado brasileiro.
Subject(s)
Adaptation, Physiological , Asteraceae/anatomy & histology , Plant Roots/anatomy & histology , Asteraceae/classification , Asteraceae/physiology , Brazil , Plant Roots/physiologyABSTRACT
Mandevilla velutina (Apocynaceae) é uma planta medicinal endêmica do Cerrado brasileiro conhecida popularmente como infalível, utilizada pela população em tratamentos de processos inflamatórios e acidentes com serpentes. Atualmente, esta espécie encontra-se em risco de extinção, devido à coleta extrativista. Os objetivos deste trabalho foram otimizar o protocolo para o enraizamento in vitro de M. velutina e introduzir diferentes genótipos em banco de germoplasma in vitro, a fim de se estabelecer a conservação da espécie. Foram realizados cinco experimentos de enraizamento in vitro utilizando ANA, AIB, di e poliaminas, dithiothreitol e floroglucinol. As avaliações foram realizadas aos 30 e 60 dias quanto à porcentagem de enraizamento, número e comprimento de raiz. Para a introdução dos genótipos in vitro, foram utilizados segmentos nodais (1 cm) como explantes, contendo uma gema axilar ou apical, coletados de plantas mantidas em casa de vegetação, submetidos previamente à assepsia. As avaliações foram realizadas durante quatro semanas, quanto à porcentagem de contaminação dos explantes. Os resultados obtidos nas avaliações evidenciaram que a presença de compostos fenólicos no meio de cultura foi importante na promoção do enraizamento adventício in vitro de M. velutina e a metodologia de assepsia para a introdução de diferentes genótipos in vitro foi eficiente.
Mandevilla velutina (Apocynaceae) is a medicinal plant endemic to the Brazilian Cerrado, commonly known as "infalivel" and used by the population for treatments of inflammatory processes and accidents with snakes. This species is currently endangered due to extraction. The aims of this study were to optimize the protocol for in vitro rooting of M. velutina and to introduce different genotypes in the in vitro germplasm bank to establish the species conservation. Five experiments for in vitro rooting were conducted using NAA, IBA, di and polyamines, dithiothreitol and phloroglucinol. Evaluations were performed at 30 and 60 days as to rooting percentage, and root number and length. For the introduction of genotypes in vitro, nodal segments (1 cm) were used as explants; they had an axillary or apical bud and were collected from plants kept in a greenhouse after being subjected to asepsis. Evaluations were carried out for four weeks as to the percentage of explant contamination. Results showed that the presence of phenolic compounds in the culture medium was important to promote in vitro adventitious rooting in M. velutina and that the asepsis methodology for the introduction of in vitro of different genotypes was efficient.
Subject(s)
Grassland , In Vitro Techniques , Jalapa , Plants, Medicinal , Plant Roots/embryology , Plant Roots/physiology , Plant Roots/genetics , Apocynaceae/genetics , Brazil , Gene Library , SeedsABSTRACT
Arboreal palms have developed a variety of structural root modifications and systems to adapt to the harsh abiotic conditions of tropical rain forests. Stilt roots have been proposed to serve a number of functions including the facilitation of rapid vertical growth to the canopy and enhanced mechanical stability. To examine whether stilt roots provide these functions, we compared stilt root characteristics of the neotropical palm tree Socratea exorrhiza on sloped (>20º) and flat locations at two lowland neotropical sites. S. exorrhiza (n=80 trees) did not demonstrate differences in number of roots, vertical stilt root height, root cone circumference, root cone volume, or location of roots as related to slope. However, we found positive relationships between allocation to vertical growth and stilt root architecture including root cone circumference, number of roots, and root cone volume. Accordingly, stilt roots may allow S. exorrhiza to increase height and maintain mechanical stability without having to concurrently invest in increased stem diameter and underground root structure. This strategy likely increases the species ability to rapidly exploit light gaps as compared to non-stilt root palms and may also enhance survival as mature trees approach the theoretical limits of their mechanical stability. Rev. Biol. Trop. 55 (3-4): 787-793. Epub 2007 December, 28.
Comparamos características físicas de raíces aéreas de la palmera Socratea exorrhiza en sitios inclinados (pendiente>20º) y sitios planos, en dos lugares neotropicales. S. exorrhiza (n=80 árboles) no muestra diferencias en el número de raíces, la altura vertical de las raíces, la circunferencia y la masa del cono de las raíces, o la posición de las raíces en los sitios con pendiente. Encontramos relaciones positivas entre el crecimiento vertical y la arquitectura de las raíces aéreas, incluso entre el número de raíces, la circunferencia del cono de las raíces, y la masa del cono de las raíces. Es posible que las raíces aéreas permitan a S. exorrhiza crecer en altura y mantener la estabilidad mecánica sin involucrar el diámetro del tallo y la estructura de las raíces subterráneas. Probablemente, esta estrategia incrementa la capacidad de la especie para usar claros de luz rápidamente, en comparación con palmeras carentes de raíces aéreas; posiblemente también exista un incremento en su supervivencia cuando las adultas palmeras se acercan a sus límites de estabilidad mecánica.
Subject(s)
Arecaceae/growth & development , Plant Roots/physiology , Arecaceae/physiology , Sunlight , Tropical ClimateABSTRACT
Germination tests on Garcinia intermedia (Clusiaceae) seeds showed the growth of two types of roots: additionally to the primary root, a secondary root crosses the seed lengthwise. To determine its possible role on the survival and growth of this species, 90 seedlings at least six months old (collected in Central Costa Rica) were planted in plastic bags with organic soil, and placed in a greenhouse. The seedlings were treated as follows: treatments in which the primary or secondary root was cut off, and a control group with both roots intact (30 replicates each). After three months 10 seedlings/month/treatment were extracted to measure their height, basal diameter, root length (main and secondary root), and biomass of the stem, roots and seed (without its coat). Control seedlings had the highest growth, followed by those without secondary roots. Nonetheless, more than 90% of the seedlings whose primary roots were cut off, survived after five months of the excision treatment, in part due to the capacity of this species to regenerate its radical system through the seed reserves, sprouting of a primary-like root, and/or the growth stimulus of the secondary root (60% of the total: 20% with sprouts from the primary root stump, 13.3% with a growth stimulus of the secondary root, and 26.7% with both conditions). The length of the sprouted roots was significantly different only on those plants that were extracted during the first two monthly measurements, when compared with the control (F6 = 18.6, F7 = 16.0, p < 0.01).
Subject(s)
Garcinia/growth & development , Germination/physiology , Plant Roots/growth & development , Seedlings/physiology , Seeds/growth & development , Garcinia/physiology , Plant Roots/physiology , Seeds/physiology , Time FactorsABSTRACT
The spatial and temporal variations of soil respiration were studied from May 2004 to June 2005 in a C3/C4 mixed grassland of Japan. The linear regression relationship between soil respiration and root biomass was used to determine the contribution of root respiration to soil respiration. The highest soil respiration rate of 11.54 micro mol m-2 s-1 was found in August 2004 and the lowest soil respiration rate of 4.99 micro mol m-2 s-1 was found in April 2005. Within-site variation was smaller than seasonal change in soil respiration. Root biomass varied from 0.71 kg m-2 in August 2004 to 1.02 in May 2005. Within-site variation in root biomass was larger than seasonal variation. Root respiration rate was highest in August 2004 (5.7 micro mol m-2 s-1) and lowest in October 2004 (1.7 micro mol m-2 s-1 ). Microbial respiration rate was highest in August 2004 (5.8 micro mol m-2 s-1 ) and lowest in April 2005 (2.59 micro mol m-2 s-1 ). We estimated that the contribution of root respiration to soil respiration ranged from 31% in October to 51% in August of 2004, and from 45% to 49% from April to June 2005.
Subject(s)
Biomass , Carbon , Nitrogen , Oxygen Consumption/physiology , Plant Roots/physiology , Poaceae/physiology , Soil , Soil MicrobiologyABSTRACT
A presente revisão aborda a história da Fixação Biológica de Nitrogênio (FBN) em Gramíneas no Brasil, procurando mostrar a evolução da pesquisa na área iniciada a mais de 40 anos sob a liderança da pesquisadora Johanna Döbereiner. Um aspecto marcante deste período foi a descoberta de diversas bactérias fixadoras de nitrogênio atmosférico tais com as rizosféricas (Beijerinckia fluminensis e Azotobacter paspali), associativas (Azospirillum lipoferum, A. brasilense, A. amazonense) e as endofíticas (Herbaspirillum seropedicae, H. rubrisubalbicans, Gluconacetobacter diazotrophicus, Burkholderia brasilensis e B. tropica). O papel destas bactérias diazotróficas em associação com as gramíneas, especialmente os cereais, tem sido estudado e muito se avançou sobre os aspectos ecológicos, fisiológicos, bioquímicos e genéticos. Os mecanismos de colonização e infecção dos tecidos das plantas foram melhor entendidos e a contribuição da FBN para o sistema solo-planta foi determinado. Estudos de inoculação de cereais com bactérias diazotróficas, têm mostrado que as endofíticas têm um maior potencial de contribuição da FBN e que o genótipo da planta influencia na associação da planta/bactéria. Os avanços alcançados apontam para uma maior exploração e entendimento desta associação endofítica. Os programas de sequenciamento do genoma: RIOGENE (Gluconacetobacter diazotrophicus) e GENOPAR (Herbaspirillum seropedicae) mostram a importância da FBN no Brasil e devem permitir que o país continue na fronteira do conhecimento em relação ao processo de FBN em gramíneas.
Subject(s)
Nitrogen Fixation/physiology , Poaceae/physiology , Proteobacteria/metabolism , Brazil , Genotype , Nitrogen Fixation/genetics , Plant Roots/microbiology , Plant Roots/physiology , Poaceae/microbiology , Proteobacteria/geneticsABSTRACT
A protocol for in vitro mass multiplication of plants through seedling (shoot) cultures was established for Ophiorrhiza mungo. Maximum number of adventitious shoots per shoot culture (10.4 +/- 1.72) was initiated on MS solid medium supplemented with BAP (2.22 microM) after 3 weeks. Shoots were further multiplied (12.8 +/- 2.8) through subculture of intact shoots and reculture of nodal segments of aseptic shoots (6.5 +/- 0.94) in MS solid medium containing BAP (0.89 microM). Shoot elongation (1.27 +/- 0.12 cm) was achieved in the medium containing GA3 (1.44 microM) in two weeks. Rooting was favoured in basal agar medium supplemented with IBA (12.3 microM) plus NAA (1.07 microM). The plants were successfully established (100%) in the pots containing sand and top soil (1:1) mixture in a period of two weeks.
Subject(s)
Agar/chemistry , Cell Division , Culture Media , Plant Growth Regulators/metabolism , Plant Physiological Phenomena , Plant Roots/physiology , Plant Shoots/physiology , Rubiaceae/metabolism , Silicon Dioxide/metabolism , Time FactorsABSTRACT
A large amount of energy is utilized by legume nodules for the fixation of nitrogen and assimilation of fixed nitrogen (ammonia) into organic compounds. The source of energy is provided in the form of photosynthates by the host plant. Phosphoenol pyruvate carboxylase (PEPC) enzyme, which is responsible for carbon dioxide fixation in C4 and crassulacean acid metabolism plants, has also been found to play an important role in carbon metabolism in legume root nodule. PEPC-mediated CO2 fixation in nodules results in the synthesis of C4 dicarboxylic acids, viz. aspartate, malate, fumarate etc. which can be transported into bacteroids with the intervention of dicarboxylate transporter (DCT) protein. PEPC has been purified from the root nodules of few legume species. Information on the relationship between nitrogen fixation and carbon metabolism through PEPC in leguminous plants is scanty and incoherent. This review summarizes the various aspects of carbon and nitrogen metabolism in legume root nodules.
Subject(s)
Carbon/metabolism , Fabaceae/physiology , Nitrogen Fixation/physiology , Phosphoenolpyruvate Carboxylase/physiology , Plant Roots/physiologyABSTRACT
The present communication reports the effect of various carboxylic and amino acids on the uptake and translocation of root-absorbed Cd by maize (Zea mays). Statistically significant increases in Cd accumulation in various plant tissues with increasing supplementation of organic acids suggested the existence of Cd-organic acid interaction in soil-rhizosphere environment of the plant. The potentiality of phytochelators (organic acids) to form plant available organically bound Cd is discussed.
Subject(s)
Amino Acids/pharmacology , Biological Availability , Cadmium/pharmacokinetics , Carboxylic Acids/pharmacology , Chelating Agents/chemistry , Plant Roots/physiology , Soil Pollutants/pharmacokinetics , Zea maysABSTRACT
Microrhizomes were induced at the base of the in vitro derived shoots of Curcuma amada grown in the liquid MS medium supplemented with BA (5 mg/l), sucrose (80 g/l) and incubated under 16 hr photoperiod. They were produced year round in culture, harvested after 90 days of growth in medium, and could be used as seeds and germinated to plantlets showing normal growth.
Subject(s)
Agriculture/methods , Culture Techniques/methods , Curcuma/metabolism , Plant Physiological Phenomena , Plant Roots/physiology , Seeds/physiology , Time FactorsABSTRACT
Pot culture studies were conducted to examine the effect of selenite (SeO3(2-)) and selenate (SeO4(2-)) on the uptake and translocation of root absorbed selenium in maize Zea mays plants grown in sand and soil culture. Increasing selenium supplementation (0.5-6.00 microg/ml), increased the selenium retention in roots, but there was little transfer of selenium from shoot to grains. The study indicates that selenite species (less mobile) also accumulates in maize plants when supplied in solution form. Selenium does not cause any adverse effect on the maize plants (dry matter yield vs concentration, no significant correlation, p>0.05).
Subject(s)
Biological Availability , Plant Roots/physiology , Selenium/chemistry , Selenium Compounds/pharmacokinetics , Sodium Selenite/pharmacokinetics , Soil , Tissue Distribution , Zea mays/physiologyABSTRACT
In vitro regeneration of complete plants from nodal single bud segments of "yerba mate" (Ilex paraguariensis St. Hil.) was studied under defined nutritional and environmental conditions. Nodal segments harvested from actively growing shoots of conventionally raised plants were cultured on nutrient medium with the mineral salts and vitamins of Murashige and Skoog medium at 1/4 strength, supplemented with various concentrations of sucrose and 6-benzyladenine (BAP). Shoot regeneration from explants of both young (2 years old) and adult (20 years old) mother plants were readily achieved in the medium supplemented with 0.04-0.09 M sucrose with or without BAP. As many as 60-65 of the nodal segments cultured formed shoots. Rooting of regenerated shoots was observed in 50 of the explants harvested from young plants, whereas 25 of the explants rooted when the nodal explants were harvested from adult plants. The best rooting induction was achieved on 1/4 strength MS medium with vermiculite as the substrate and supplemented with 1-1.5 IBA (indolebutyric acid) and 1-2 PPZ (3-methyl-1-phenyl-2 pyrazolin-5-one). Plantlets were successfully transferred to soil.