Delmira da Costa Silva

Effects of cadmium on the anatomy and photosynthesis of two aquatic macrophytes.

As macrofitas aquaticas vem sendo usadas no monitoramento de aguas poluidas por metais pesados, dessa forma, avaliou-se a capacidade fitorremediadora de Alternanthera philoxeroides (Mart.) Griseb. (Amaranthaceae) e de Polygonum ferrugineum Wedd. (Polygonaceae). As duas especies foram submetidas as concentracoes 0, 25 e 50 mg L-1 de cadmio em solucao nutritiva. Aos sete dias apos a aplicacao dos tratamentos, foram efetuadas medicoes de trocas gasosas foliares e de emissao de fluorescencia da clorofila em folhas expandidas e maduras. Amostras de raiz, caule e folha foram fixadas em FAA 70, incluidas em historresina, seccionadas em microtomo rotativo e submetidas a coloracao com azul de toluidina a 1%. Determinou-se o teor de Cd nas amostras vegetais utilizando ICP-MS. Na nervura central da folha e na raiz de P. ferrugineum, a 50 mg L-1 Cd observou-se alteracoes nas lacunas do aerenquima. Alem disso, a 50 mg L-1 Cd, verificou-se acrescimo de tricomas glandulares nas folhas e compactacao do mesofilo. No caule de A. philoxeroides, a 50 mg L-1 Cd, os nucleos das celulas do cortex apresentaram formato eliptico e a 25 e 50 mg L-1 Cd, ocorreu diminuicao de drusas em celulas da nervura central da folha. Os teores de Cd para A. philoxeroides foram maiores na raiz, seguido do caule e da folha. A taxa de fotossintese liquida de P. ferrugineum foi mais afetada pelo Cd em comparacao a A. philoxeroides. Nao houve variacao da atividade do fotossistema II (Fv/Fm) entre as duas especies e os tratamentos com Cd. A. philoxeroides foi mais tolerante ao Cd do que P. ferrugineum, o que indica sua potencialidade para uso em programas de fitorremediacao.

Light intensity on growth, leaf micromorphology and essential oil production of Ocimum gratissimum

Light conditions can promote the growth and development of plants and contribute to increase the essential oil production of commercially cultivated medicinal and aromatic species. In view of the great importance of Ocimum gratissimum L., Lamiaceae, as an aromatic plant, the objective of this work was to determine the effect of light intensities (approximately 4, 7, 11 and 20 mol m-2 d-1) on growth, foliar micromorphology, essential oil content, yield and chemical composition of O. gratissimum. Biomass production of different organs, root:shoot ratio and leaf mass per area were found to linearly increase with increased light availability, whereas stem dry matter fraction, number of leaves, leaf area and plant height have increased up to 10 mol m-2 d-1 and decreased from this value. The tector trichomes density increased with increased light availability, but there was no effect of light treatments on the glandular trichomes density and essential oil content. Regardless of the light level, the major component of the essential oil was eugenol. The essential oil yield per plant increased linearly with light intensity as a direct effect of increased leaf biomass under similar conditions.

Histochemistry, content and chemical composition of essential oil in different organs of Alpinia zerumbet

Alpinia zerumbet is a medicinal plant from Asian origin used in folk medicine for the treatment of hypertension, which effect is attributed to terpinen-4-ol, the major component of the essential oil. The objective of this work was to identify the essential oil secretory structures in the leaf, flower, root and rhizome of this plant, and analyze the content and the chemical composition of the oil in the different organs of the plant. Sections were subjected to histochemical test with Nadi reagent for in situ localization of secretion. The essential oil extraction was performed by hydrodistillation in a Clevenger apparatus and the compounds were identified in CG-EM/FID. The histochemical test was positive for terpenoids, confirming the presence of essential oil stored in secretory structures named oils cells present in all analyzed organs. The higher essential oil content was found on the leaf (0.30%), while the petal and the rhizome presented content of 0.10% and 0.06%, respectively. It was not possible to determine essential oil content of the root due to the low amount of biomass produced. There were qualitative and quantitative differences in the chemical composition of the essential oil in the different plant organs, but the major constituent in all of them was the terpinen-4-ol, followed by 1,8 cineol in the leaf and by the α-terpineol in the flower and rhizome.

Anatomia e ultraestrutura foliar de Ocimum gratissimum sob diferentes níveis de radiação luminosa

Plant species are able to adjust their physiological, anatomical and ultrastructural characteristics to changes in environmental factors, such as the availability of incident light. The objective of this study was to evaluate the influence of different light radiation levels on leaf anatomy and ultrastructure in plants of Ocimum gratissimum L. (Lamiaceae). Plants were grown for 93 days in four levels photosynthetic active radiation (FAR): 20, 11, 7 and 4mol m-2 d-1. The increase of light intensity resulted in increase of palisade and spongy parenchyma thickness and leaf blade. However, epidermal thickness was not changed. Regarding the ultrastructural aspects, there was an increase in the size of the chloroplasts and starch granules. However, there was an increase of the stacking of the thylakoids with reducing light intensity. Anatomical and ultrastructural changes confirm the phenotypic plasticity of this species as a function of changes in light intensity.

Lippia alba morphotypes cidreira and melissa exhibit signifi cant differences in leaf characteristics and essential oil profi le

Lippia alba (Mill.) N.E. Br. ex Britton & P. Wilson, Verbenaceae, is widely used in traditional Brazilian medicine for the treatment of abdominal distress. The species exhibits considerable chemical and morphological diversity, and various chemotypes have been characterized. A comparative study of L. alba, has been carried out of the morphoanatomical characteristics of the leaves and the profiles of the essential oils of the morphotypes cidreira and melissa grown in the Medicinal Plant Garden of the Universidade Estadual de Santa Cruz, Ilheus, Bahia, Brazil. The mean plant height of cidreira was 1.80 m and the stems and branches were fairly erect, while melissa plants were smaller (1.60 m) and presented prostrate stems and branches. Although the leaf of the morphotypes look were similar, the mean values of length, width and area of the leaves of cidreira (respectively, 7.42 cm, 3.32 cm and 17.31 cm2) differed significantly from those of melissa (4.68 cm, 2.35 cm and 7.32 cm2). The morphotypes presented amphistomatic leaves with uniseriate epidermis on both surfaces. The mesophyll was dorsiventral, but in cidreira the palisade parenchyma was biseriate while in melissa it was uniseriate. Simple tector and capitate glandular trichomes were present on the adaxial and abaxial surfaces of the leaf blades of both morphotypes. Six distinct types of glandular trichomes could be distinguished: types I and II were present in both morphotypes, while type III was detected only in cidreira, and types IV to VI were present only in melissa. The two morphotypes also differed with respect to the composition of the essential oil, cidreira produced oil composed mainly of citral, while the oil from melissa was rich in citral, limonene and carvone.

Morphophysiological, ultrastructural, and nutritional changes induced by Cu toxicity in young Erythrina fusca plants

ABSTRACT Erythrina fusca is an important legume used for shade cover in cacao plantations in Brazil. Cacao plantations receive large quantities of copper (Cu)-containing agrochemicals, mainly for control of diseases. Therefore, Cu toxicity was investigated in seedlings grown in hydroponics with increasing concentrations of Cu (0.005–32 mg L−1) in a greenhouse. Ultrastructural analyses showed cell plasmolysis in the root cortical area and changes in thylakoid membranes at 8 mg Cu L−1 and higher. There were changes in epicuticular wax deposition on the leaf surface at the 16 and 32 mg Cu L−1 treatments. Leaf gas exchanges were highly affected 24 hours after application of treatments beginning at 8 mg Cu L−1 and higher Cu concentrations. Chemical analyses showed that Cu content in E. fusca roots increased as Cu concentration in the nutrient solution increased, whereas the shoot did not show significant changes. It is also observed that excess Cu interfered with Zn, Fe, Mn, Mg, K, P, and Ca content in the different E. fusca organs. Investigation of Cu toxicity symptoms focusing on morphophysiological, ultrastructural, gas exchange, and nutritional changes would be useful to alleviate Cu toxicity in E. fusca under field conditions, an important agroforestry species in cacao plantation.

Enraizamento de estacas, crescimento e respostas anatômicas de mudas clonais de cacaueiro ao ácido indol-3-butírico

The effects of indole-3-butyric acid (IBA) on growth and internal morphology of four clones of Theobroma cacao (CCN-10, CP-53, PS-1319 and CA-1.4) were evaluated. The IBA was applied in the base of stem cuttings, as an inert talc, in mixture concentrations of 2, 4, 6 and 8 g kg-1 together with the control, without IBA. The evaluation of the growth of roots, stem and leaves of the four clones were accomplished by 160 days after the cutting (DAC) for all the IBA concentrations. However, the anatomical studies of the several plant organs were also made to the 160 DAC, but only for the concentration of 4g kg-1 IBA and the control. The clone CA-1.4 presented increment in the root dry biomass (RDB) with the increase of the IBA concentrations, while for the other clones there were decreases of RDB starting from the 4 g kg-1 IBA. The same fact was observed for the stem and leaf dry biomass, except for CCN-10 that did not answer to the increment of the concentrations of IBA. There was an increase of the total leaf area for the clones CP-53 e PS-1319 with the increment of the IBA (concentration up to 4 g kg-1), while the leaves number only increased for the clones CA-1.4 and CP-53, concentrations up to 8 and 4 g kg-1 IBA, respectively. There was a decrease in the number of dead cuttings for the clones CA-1.4 and CCN-10 (up 8 g kg-1) of IBA and for the CP-53 (up to 4 g kg-1 of IBA). The best IBA concentrations for the branch cutting rooting of the cacao clones CP-53, PS-1319 and CCN-10 were of 4, 4 and 6 g kg-1 respectively, while for the clone CA-1.4 was the one of 8 g kg-1; the increase of the IBA concentration promoted anatomical changes in the plant organs of all the clones, influencing the activity of the vascular cambium in the stem and inducing the formation of a larger number of adventitious roots in the stem cuttings.The effects of indole-3-butyric acid (IBA) on growth and internal morphology of four clones of Theobroma cacao (CCN-10, CP-53, PS-1319 and CA-1.4) were evaluated. The IBA was applied in the base of stem cuttings, as an inert talc, in mixture concentrations of 2, 4, 6 and 8 g kg together with the control, without IBA. The evaluation of the growth of roots, stem and leaves of the four clones were accomplished by 160 days after the cutting (DAC) for all the IBA concentrations. However, the anatomical studies of the several plant organs were also made to the 160 DAC, but only for the concentration of 4g kg IBA and the control. The clone CA-1.4 presented increment in the root dry biomass (RDB) with the increase of the IBA concentrations, while for the other clones there were decreases of RDB starting from the 4 g kg IBA. The same fact was observed for the stem and leaf dry biomass, except for CCN-10 that did not answer to the increment of the concentrations of IBA. There was an increase of the total leaf area for the clones CP-53 e PS-1319 with the increment of the IBA (concentration up to 4 g kg), while the leaves number only increased for the clones CA-1.4 and CP-53, concentrations up to 8 and 4 g kg IBA, respectively. There was a decrease in the number of dead cuttings for the clones CA-1.4 and CCN-10 (up 8 g kg) of IBA and for the CP-53 (up to 4 g kg of IBA). The best IBA concentrations for the branch cutting rooting of the cacao clones CP-53, PS-1319 and CCN-10 were of 4, 4 and 6 g kg respectively, while for the clone CA1.4 was the one of 8 g kg; the increase of the IBA concentration promoted anatomical changes in the plant organs of all the clones, influencing the activity of the vascular cambium in the stem and inducing the formation of a larger number of adventitious roots in the stem cuttings.