Doutorado em Biologia Vegetal
URI Permanente para esta coleção
Nível: Doutorado
Ano de início: 2013
Conceito atual na CAPES: 4
Ato normativo: Homologado pelo CNE (Portaria MEC Nº 609, de 14/03/2019.
Publicação no DOU 18 de março de 2019, seç. 1, p.63 - Parecer CNE/CES nº 14/03/2019, Processo no 23001.000335/2018-51).
Periodicidade de seleção: Anual
Url do curso: https://biologiavegetal.ufes.br/pt-br/pos-graduacao/PPGBV/detalhes-do-curso?id=99
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Navegando Doutorado em Biologia Vegetal por Assunto "Adubos e fertilizantes"
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- ItemBidens pilosa L.: análises da composição química e atividades biológicas de diferentes populações e condições de cultivo(Universidade Federal do Espírito Santo, 2017-06-22) Delarmelina, Juliana Macedo; Batitucci, Maria do Carmo Pimentel; Matsumoto, Silvia Tamie; Ventura , José Aires; Paula, Flávia de; Jamal, Claudia MasrouahThe use of plants for medicinal purposes, for treatment, cure and prevention of diseases, is one of the oldest forms of medicinal practice of mankind. Bidens pilosa L., Asteraceae, popularly called "picão-preto", is a plant traditionally used for the treatment of hepatitis, cancer, diabetes, among other disorders. It is a plant of therapeutic interest because it is rich in chemical compounds associated with human health. However, chemical compounds can vary, qualitatively and quantitatively, according to numerous factors that reflect on their biological activities. Among the main factors that contribute to the chemical variation of plant extracts is the genetic variability, environmental factors and the extraction process, such as the use of solvents with different polarity, for example. Thus, the present study aimed to: a) evaluate the variability of the hydroalcoholic extract and five fractions (hexane, dichloromethane, ethyl acetate, butanol and aqueous), from four populations of B. pilosa (Afonso Claudio, Barra de São Francisco, Cariacica and Muniz Freire), using genetic markers (RAPD), phytochemical analyzes (phytochemical prospecting, ESI (-) FT-ICR MS and total content of flavonoids, tannins and phenolics), analyzes of antioxidant activity in vitro (by DPPH? , ABTS?+ ,, chelating activity on Fe+2 and ß-carotene/linoleic acid assays), and in vivo analyzes to evaluate cytotoxicity, anti-cytotoxicity, mutagenicity and antimutagenicity (by micronucleus test in mouse bone marrow). b) evaluate the variability of hydroalcoholic extract of plants submitted to three growth conditions (organic and inorganic fertilizers and the control) and in different phenological stages (vegetative and flowering), through phytochemical, antioxidant and in vivo analyzes (mutagenicity and cytotoxicity of plants in the flowering stage) and growth. The phytochemical analyzes revealed a significant quantitative and qualitative difference between the samples tested, which reflected in variability in their biological activities (antioxidant, t-test, P<0.5). The results suggest that environmental factors were determinant as compared to genetic factors. In vivo assays demonstrated that the plant did not induce cytotoxicity and mutagenicity in all experimental conditions (Tukey, P <0.5) and was able to protect DNA from damage induced by cyclophosphamide in the anti-cytotoxicity and antimutagenicity assays.
- ItemEfeitos dos resíduos de beneficiamento do café e do granito na fertilidade do solo e no desenvolvimento do milho (Zea mays L.)(Universidade Federal do Espírito Santo, 2018-03-12) Campos, Luana Morati; Martins, André Guarçoni; Costa, Adelaide de Fátima Santana da; Milanez, Camilla Rozindo Dias; Silva, Diolina Moura; Guarçoni, Rogério Carvalho; Araújo, João Batista SilvaThe sectors for the processing of ornamental stones and coffee are relevant to the economy of Espírito Santo. However, such industrial activities produce tons of waste daily and their reuse is a way to promote the sustainability of productive processes. The use of these residues in agriculture as sources of nutrients for plants is a process that requires studies that identify their influence on plant growth and soil attributes. Thus, this work is the product of three experiments, whose objectives were: 1) To evaluate the growth of maize plants (Zea mays L.) and leaf chlorophyll index, as well as soil fertility, due to application of increasing doses of granite processing waste obtained in multi wire saw and two liming levels; 2) To determine the growth and nutrient content in the aerial parts of maize plants, as well as the soil fertility, in function of increasing doses of the mix of dry sludge and ash from the industrial processes of soluble coffee and two liming levels; 3) To establish growth, foliar and root anatomy, photosynthesis, chlorophyll fluorescence, leaf chlorophyll and total carotenoid content, soluble carbohydrate content and nutrient concentration of aerial parts of maize plants, as well as determine the soil fertility characteristics due to the application of a dose of granite processing waste obtained in multi wire saw and the use of a dose of the mix of dry sludge and ash from industrial processes of soluble coffee with and without lime. The results show that both residues used in the experiments, without or with lime, can generally increase the values of the analyzed variables. In experiments 1 and 2, the application of increasing doses of the granite and coffee processing waste induced an increase on soil pH and a reduction on potential acidity (H+Al). In addition, the residues increased the sum of bases and soil nutrient contents, such as calcium, magnesium, manganese and copper. However, in the case of the application of granite processing waste, this provided an excessive increase of copper in the soil. The lime increased soil pH and reduced H+Al. Besides that, higher height, stem diameter and biomass occurred in relation to the control treatments. However, the copper content of granite processing waste and the caffeine of coffee processing waste may have made it impossible to increase these parameters. In the experiment 3, the treatments with granite processing waste plus simple superphosphate (SS) increased the phosphorus concentration in the soil in relation to the other treatments, while the treatments with coffee processing waste increased the contents of potassium, calcium and manganese in relation to the other treatments. The use of granite processing waste plus SS provided, as a rule, higher growth and nutrient content by mass of dry matter of the aerial part per vessel when compared to the use of coffee processing waste, which, in turn, provided higher values of these parameters in relation to non-application of waste. The addition of lime tended to increase the values of sum of bases, cation exchange capacity and base saturation, as well as some nutrients, in relation to the non-addition of lime. In addition, liming tended to increase pH and reduce H+Al, but in small magnitude. Generally, the application of both residues allowed the increment of the anatomical variables, of gas exchanges, chlorophyll a fluorescence, chlorophyll a content and total soluble carbohydrates when compared to non-application of residues. The granite processing waste of diamond multi wire saw plus SS can be used at a dose of 10 t ha-1 per application and the coffee processing waste can be used at 29 t ha-1 , favoring the adequate initial growth of the maize plants, however, in greater evidence in the case of the use of the granite processing waste plus simple SS. Therefore, it can be affirmed that the agricultural use of these materials is an ecologically correct and economically viable option, which provides benefits to all parties involved in its generation and disposal.