The growth and developmental characteristics of grasses and their high biodiversity make such plants suitable for remediation of areas contaminated by heavy metals. Nevertheless, heavy metal toxic effect on the plants may cause alteration in their metabolic pathways, such as photosynthesis, respiration, and growth, modifying plant anatomy. This work aimed to evaluate the effect of levels of soil contamination (0, 7.5 % and 15 % m 3 m -3) on biomass production, on photosynthetic characteristics and on anatomical changes in roots and leaves of brachiaria (Brachiaria decumbens Stapf.). After seeds were planted, seedlings were uprooted and replanted in vases containing soil at different contamination levels, being left to rest for 120 days. At the end of that time, plants presented reduced yield of root and shoot dry matter, contents of chlorophyll a, chlorophyll b, total chlorophyll and potential photosynthesis with increased of soil contamination. The cell layers of endodermis and exodermis in the root tissues and the cell walls of the xylem and cortical parenchyma all thickened as contamination increased. In the leaf tissues, the adaxial and abaxial epidermis presented increased thickness while the leaf blade presented reduced thickness as contamination increased with consequent change in the root growth rate. In general, the effects of heavy metal increased with the metal concentration. Some results indicate that B. decumbens seems to have some degree of heavy metal tolerance.
Selenium is an important element associated with enhancement of antioxidant activity in plants, microorganisms, animals, and humans. In Brazil, the information on Se in agricultural crops is lacking, though there are indications that low levels of Se are consumed by the population. The experiment was conducted under greenhouse conditions with pots containing 3 l of nutritive solution in a completely randomized factorial design, with seven Se concentrations (0, 2, 4, 8, 16, 32, and 64 µmol/l) and two forms of Se (sodium selenate -Na 2 SeO 4 and sodium selenite -Na 2 SeO 3 ), with six replicates. The application of Se as selenate at low concentrations is more appropriate for lettuce biofortification because it favors shoot biomass growth and Se levels in the shoot biomass. Selenium in both forms had two effects on lettuce plant metabolism: at low doses it acted as an antioxidant and enhanced plant growth, whereas at higher levels it reduced yield.
Resumo -A cultura do café é de expressiva importância no mercado internacional, com uma produção anual de cerca de 120 milhões de sacas beneficiadas e no Brasil, é responsável pela geração de mais de dez milhões de empregos diretos e indiretos. O estresse hídrico é um fator ambiental que pode ser extremamente prejudicial para a cultura do café, sendo que a seleção de cultivares tolerantes é de grande importância, principalmente diante da expansão da cafeicultura brasileira para áreas consideradas marginais para o cultivo do café por estarem sujeitos à deficiência hídrica. Nesse trabalho foram avaliadas 15 cultivares de Coffea arabica quanto ao status hídrico e às características da estrutura interna das folhas, verificando quais dessas cultivares são potencialmente mais eficientes em tais condições. Dentre as cultivares estudadas destacam-se a Bourbon Amarelo e a Catimor como potencialmente mais eficientes em condições de estresse hídrico por possuírem: maior potencial hídrico, cutícula mais espessa, maior proporção de parênquima paliçádico, maior espessura da nervura central e maior densidade estomática em relação às demais variáveis. Dessa forma, as cultivares Bourbon Amarelo e Catimor são potencialmente mais eficientes na redução da transpiração, fotossíntese e translocação de fotossintatos em condições de estresse hídrico, sendo mais indicadas ao plantio em regiões sujeitas a maiores déficits hídricos em relação às demais cultivares estudadas. Palavra-chave -Coffea arábica. Plasticidade anatômica. Deficiência hídrica.Abstract -Coffee yield has a great importance to the international market with a 120 million 60-kilogram bags and in Brazil it produces 10 million of direct and indirect jobs. Water stress is one of the most important factors to the crop yield, and so, the selection of tolerant cultivars is of great importance in the places under water stress. In this work, 15 Coffea arabica cultivars were evaluated about the water status and leaf anatomy to indicate the most tolerant Cultivars under water stress. The Bourbon Amarelo and Catimor were the most efficient under water stress, because these varieties have thicker cuticle, more palicade parenchyma, bigger central bundle sheath, and higher stomatal density. So, these Cultivars can be more potentially more efficient to reduce the transpiratory rate, to improve the photosynthesis and photosynthates translocation under water stress, and these varieties can be more indicated under water stress against the other cultivars.
Resumo -Este trabalho teve como objetivo verificar as modificações nas características anatômicas radiculares relacionadas à hipoxia, durante 18 ciclos de seleção da variedade de milho (Zea mays) BRS 4154 Saracura, adaptada a áreas sujeitas a alagamento. A variedade BR 107 e o híbrido simples BRS 1010, suscetíveis ao alagamento, foram utilizados como controle. As diferentes cultivares foram submetidas a alagamentos intermitentes, a cada dois dias, durante dois meses. As amostras radiculares foram preparadas e analisadas em microscopia óptica. Em relação ao grupo controle e aos ciclos anteriores de seleção, a BRS 4154 teve aumento na formação de aerênquima, diminuição do córtex, diminuição do diâmetro dos vasos, diminuição da camada subepidérmica, aumento na espessura do floema e epiderme. Os sucessivos ciclos de seleção melhoraram as características do milho 'Saracura' e sua tolerância a ambientes alagados.Termos para indexação: Zea mays, aerênquima, alagamento do solo, hipoxia, tolerância a ambientes alagados. Evolution of the root anatomy of 'Saracura' maize in successive selection cyclesAbstract -This work aimed to verify the modifications in the root anatomical characteristics related to hypoxia, along 18 selection cycles of the maize (Zea mays) cultivar BRS 4154 Saracura, adapted to areas subject to flooding. Cultivars not tolerant to fooding, BR 107 and the simple hybrid BRS 1010, were used as controls.The different cultivars were subjected to intermittent soil waterlogging every two days for two months. The root samples were prepared and analyzed through light microscopy. Compared to the controls group and to early selection cycles, BRS 4154 had increased development of aerenchyma, decreased cortex thickness, decreased metaxylem diameter, decreased subepidermal layer, and increased epidermis and phloem thickness. The successive selection cycles improved 'Saracura' maize characteristics and its tolerance to flooding environments.
O plantio de essências nativas, seja com finalidade econômica ou conservacionista, requer uma série de cuidados que dependem do conhecimento prévio de suas características fisiológicas e exigências ecológicas nas diversas etapas de seu ciclo vital. O estudo do crescimento e desenvolvimento de uma planta, em diferentes condições ambientais, oferece ao pesquisador bom indício sobre quais as melhores condições para se cultivar determinada espécie. Objetivou-se avaliar o crescimento inicial e as concentrações de clorofilas em plantas jovens de Cryptocaria aschersoniana Mez. (Canela-Batalha), submetidas a níveis de redução da radiação solar: 0% (Pleno Sol), 30%, 50% e 70%. Os resultados demonstram que o teor de clorofila total foi maior nas plantas cultivadas em 70% de sombreamento, o mesmo ocorrendo com a razão clorofila a/b. A maior altura foi apresentada pelas plantas cultivadas em 50% de sombreamento. Do ponto de vista de acúmulo de matéria seca total e matéria seca de raízes, a melhor performance foi observada nas plantas em 30% de sombreamento e o maior acúmulo de matéria seca de folhas verificado nas plantas cultivadas em 30 e 50% de sombreamento. Conclui-se que as melhores condições de cultivo para mudas de Cryptocaria aschersoniana Mez. (Canela-Batalha) foram os níveis de 30 e 50% de redução da radiação solar incidente.
Four levels of shading (full sunlight (0%), 30, 50, 70% of solar radiation interception on growth, chlorophyll concentration and photosynthetic rate were studied in Croton urucurana Baill., a pioneer plant species. This species seedlings are of potential interest for reforestation projects and recovery of degraded areas. The seedlings were grown in pots containing soil and sand (2:1) and later transferred to plastic bags of 3 dm³ and submitted to different levels of shading (30, 50, 70%) of solar radiation and full sunlight, as control. The experimental design was completely randomized with five replicates and each experimental unit was composed of five plants. The results suggest that plants submitted to 70% shading showed higher dry weight accumulation in leaf and root, and higher plant height and leaf area. However, the seedlings root system showed higher dry biomass under full sunlight. It was observed a tendency to increase chlorophyll concentration and to decrease photosynthetic rate with the increase of the shading level.
In the northern region of the state of Minas Gerais, lack of rainfall limits crop production in the field, which is possible only with irrigation. Agricultural and physiological practices have been intensively searched to overcome drought effects and consequently increase production. In this context, the objective of this study was to characterize morphophysiological and morphoanatomical changes and evaluate the attributes of grain yield under field conditions in two hybrids contrasting for drought tolerance. The experiment was carried out for 2 years (2010 and 2011) and the water deficit was imposed by stopping irrigation for 22 days at the pre-flowering stage. At the end of the stress treatment, leaf and root anatomy and morphophysiological characteristics (leaf water potential, chlorophyll content, percentage of dry leaves, leaf area, stomatal conductance, chlorophyll fluorescence, and anthesis-silking interval) were evaluated. For a better interpretation of tolerance of the hybrids in the evaluated characteristics, an index was used stress index. Hybrid DKB 390 (tolerant) surpassed hybrid BRS 1030 (sensitive) in grain yield. Furthermore, it presented lower percentage of dry leaves, higher flowering synchronization, higher stomatal conductance, and higher Fv/Fm relationship. In the root, DKB 390 showed higher amount of aerenchyma in the cortex, an increase of exodermis width, and numerous metaxylem with smaller diameter. In the leaf, it presented higher number of stomata and smaller distance between the vascular bundles in the leaf blade. The study concluded that significant morphophysiological and morphoanatomical changes, which are related to drought tolerance, occurred in DKB 390, leading to a higher yield in the field.
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