Résumé
The medicinal and aromatic species Lantana camara is a bush that receives a lot of interest regarding ornamental use. However, due to its condition of invasive plant in natural environments, it suffers constant eradication attempts, which causes genetic erosion of the species. To work around this problem, a sample of the genetic variability of L. camara was saved in the Active Germplasm Bank of medicinal and aromatic plants of the Federal University of Sergipe (UFS). This study aimed to evaluate morphoagronomically 22 accessions of L. camara, collected in 15 municipalities in the state of Sergipe. To carry out morphoagronomic characterization, morphological and agronomic traits were analyzed. Phenotypic variability among the accessions of the L. camara collection for all the analyzed morphological quantitative and agronomic characteristics was observed. The means ranged from 4.91 to 6.90 cm for leaf length; from 2.81 to 5.03 cm for leaf width; from 1.32 to 1.87 for the leaf length/width ratio; from 9.59 to 22.98 mm2 for leaf area; from 99.00 to 215.00 cm for crown diameter; from 85.67 to 214.33 for plant height; and from 1.08 to 2.43 cm for stem diameter. Most accessions presented erect form. The mean number of flowers per inflorescence varied from 12 to 38 flowers. For the agronomic traits, we observed that the dry mass ranged from 49.86 to 649.04 g.plant-1. The mean content of essential oil ranged from 0.13 to 0.26% and yield between 0.10 and 1.55 mL.plant-1. The most divergent phenotypic accessions were LAC-001 (São Cristóvão) and LAC-038 (Moita Bonita) and the ones with the lowest divergence were LAC-004 (Itaporanga D'ajuda) and LAC-019 (Siriri). Thus, it was observed that the variables were efficient to differentiate the accessions and suggest the existence of genetic variability among them.
A espécie aromática e medicinal Lantana camara, é um arbusto muito usado para ornamentação. Devido à sua condição de planta invasora em ambientes naturais, sofre com tentativas de erradicação constantes, o que ocasiona erosão genética da espécie. Para contornar essa problemática, uma amostra da variabilidade genética da L. camara está sendo conservada no Banco Ativo de Germoplasma (BAG) de Plantas Medicinais e Aromáticas da Universidade Federal de Sergipe (UFS). Assim, objetivou-se com o presente trabalho avaliar morfoagronomicamente 22 acessos de L. camara, coletados em 15 municípios do estado de Sergipe. Para caracterização morfoagronômica, variáveis morfológicas e agronômicas foram analisadas. Observou-se variabilidade fenotípica entre os acessos da coleção de L. camara para a maioria das características morfológicas quantitivas e agronômicas. A média para comprimento de folha variou de 4,91 e 6,90 cm; largura de folha de 2,81 a 5,03 cm; relação comprimento/largura de 1,32 a 1,87; área folia de 9,59 a 22,98 mm²; diâmetro da copa de 99, 00 a 215,00 cm; altura de planta de 85,67 a 214,33 cm; diâmetro do caule de 1,08 a 2,43 cm; A maioria dos acessos apresentou porte ereto. O número médio de flores por inflorescências variou de 12 a 38. Para as características agronômicas observou-se que a massa seca variou de 49,86 a 649,04 g.planta-¹. A média para teor de óleo essencial variou de 0,13 a 0,26% e o rendimento entre 0,10 a 1,55 mL.planta-¹. Os acessos mais divergentes fenotipicamente foram LAC-001 (São Cristóvão) e LAC-038 (Moita Bonita) e os que apresentaram a menor divergência foram LAC-004 (Itaporanga D'ajuda) e LAC-019 (Siriri). Dessa forma, nota-se que as variáveis foram eficientes para diferenciar os acessos e sugerem a existência de variabilidade genética entre eles.
Sujets)
Lantana , Banque de semencesRésumé
Aims: To establish a programmatic framework facilitating all stakeholders harmonize their approaches and methodologies in ensuring sustainable management of Medicinal and Aromatic Plants. Study Design: Combination of semi-structured interviews, questionnaire, and direct observation research methods. Place and Duration of Study: Selected towns and villages in South Western States of Nigeria between January 2010 and June 2012. Methodology: ‘Participatory approach’ adopted to explore individual perceptions, values and attitudes through in-depth interviewing and administration of semi-structured questionnaires with open-ended pertinent questions for all stakeholders’ joint inputs. 413 stakeholders (General Practitioners with Complementary and Alternative Medicine (CAM) knowledge, CAM practitioners with biomedicine knowledge, pharmacists, MAPs consumers, and community members), 127 Parks and Gardens government officials, 58 conservation scholars/researchers, and 14 legal practitioners on MAPs conservation were interviewed to perform stakeholder analysis. Model-driven engineering tools were used to create the static behaviour aspects of MAPs management. A logistic productivity and sustainability potential of a village medicinal plants harvesting was simulated with a written software. Results: CAM practitioners demanded appropriate information on the sustainable use of MAPs. Regulatory/government body ensured stakeholders’ compliance with the laws governing harvesting of MAPs, while reducing or avoiding policies/political changes that could result in MAPs’ loss. Doctors/nurses showed interest seeking integration of conventional medical practice with MAPs-based therapies. Pharmacists expressed interest exploring MAPs for new therapeutics. Scholars/researchers demanded research grants/funding from governments and their research findings’ implementation. Conclusion: Coordination among different stakeholders, significant involvement of the parks management, improvement in national education standards, and a legal framework that provides a basis for co-management agreements that constitute critical success factors needed to implement viable and sustainable conservation agreements within the program. MAPs’ productivity and sustainability demand individual and collective responsibilities from all stakeholders for better management of ecosystem and public health in a viable option using a ‘participation model’.
Résumé
Melissa officinalis L., Lamiaceae, is an herb with great growth prospects in the cosmetic industry due to its essential oil. In order to improve its production, it is necessary to study related agricultural practices. This study evaluated the effect of organic and mineral fertilization on the chemical composition of lemon balm (Melissa officinalis L.) essential oil. The assay was conducted at the "Fazenda Experimental do Glória" of the Federal University of Uberlândia, and essential oil extraction and GC/MS analyses were completed by the Centre for Research and Development on Plant Genetic Resources of the Campinas Agronomic Institute. The assay was conducted in a randomized complete block design with three replications. The tested treatments were six types of fertilization (0, 1, 2, 4, 8 kg.m-2 of cattle manure and mineral fertilizing with 60 g.m-2 of NPK 4-14-8 + 4 g.m-2 of boric acid) with four replications. The essential oil was extracted by hydrodistillation in a modified Clevenger apparatus. The chemical composition was analyzed by GC/MS. The essential oil presented the same compounds for all treatments; however, the relative proportion of some chemical constituents was altered according to the treatment. Neral, geranial, and citronellal were the major constituents.
Résumé
O gerânio (Pelargonium graveolens L.) é uma planta medicinal e aromática nativa do sul da África, cujo óleo essencial é amplamente empregado nas indústrias de perfumaria e cosmético, além de ser usado como terapêutico. Avaliou-se o efeito da luminosidade e dos reguladores de crescimento BAP e ANA na multiplicação in vitro e o uso de diferentes substratos na aclimatização de mudas micropropagadas. Foram avaliadas as concentrações 0; 0,5; 1,0 e 2,0 mg L-1 de BAP, 0; 0,1 e 0,5 mg L-1 de ANA e duas condições de luminosidade (ausência e presença de luz), em esquema fatorial 4x3x2; para a aclimatização foram utilizados quatro substratos, pó de coco + Biosafra® (3-12-6) (12 g L-1) + calcário (1 g L-1) (PCBC); pó de coco + Biosafra® (3-12-6) (12 g L-1) + calcário (1 g L-1) + vermiculita (1:1) (PCBCV 1:1); pó de coco + Biosafra® (3-12-6) (12 g L-1) + calcário (1 g L-1) + vermiculita (PCBCV 2:1) e vermiculita e adição semanal de sais MS (VS). Para a micropropagação de P. graveolens a utilização de 1,3 mg L-1 de BAP e 0,5 mg L-1 de ANA é eficiente na regeneração direta de plantas de gerânio, sendo a condição de escuro a mais indicada por proporcionar o maior número de brotos por explante. Para a aclimatização das mudas de gerânio, os melhores resultados foram obtidos em mudas aclimatizadas no substrato vermiculita com adição semanal de sais de MS seguido do substrato PCBCV 1:1.
Geranium (Pelargonium graveolens L.) is a medicinal and aromatic plant native to the south of Africa and whose essential oil is widely used by perfume and cosmetic industries, as well as in therapeutics. The effect of luminosity and growth regulators BAP and NAA on in vitro multiplication was evaluated, together with the use of different substrates on the acclimatization of micropropagated seedlings. The evaluated concentrations were 0, 0.5, 1.0 and 2.0 mg L-1 BAP; 0, 0.1 and 0.5 mg L-1 NAA; and two luminosity conditions (absence and presence of light), in a 4 x 3 x 2 factorial arrangement. For acclimatization, four substrates were tested: coconut dust + Biosafra® (3-12-6) (12 g L-1) + limestone (1 g L-1) (CDBL); coconut dust + Biosafra® (3-12-6) (12 g L-1) + limestone (1 g L-1) + vermiculite (1:1) (CDBLV 1:1); coconut dust + Biosafra® (3-12-6) (12 g L-1) + limestone (1 g L-1) + vermiculite (CDBLV 2:1); and vermiculite with weekly addition of MS salts (VS). For P. graveolens micropropagation, the use of 1.3 mg L-1 BAP and 0.5 mg L-1 NAA is efficient for the direct regeneration of geranium plants, and the dark condition is the most suitable since it provides a larger number of shoots per explant. For the acclimatization of geranium seedlings, the best results were obtained with seedlings acclimatized in the substrate vermiculite with weekly addition of MS salts, followed by the substrate CDBLV 1:1.