Removal of nickel(II) from aqueous solution using Citrus Limettioides peel and seed carbon.

The agricultural wastes like Citrus Limettioides peel and seed to be suitable precursor for the preparation of carbon [Citrus Limettioides peel carbon (CLPC) and seed carbon (CLSC)] has been explored in the present work, utilizing sulfuric acid as the activating agent. Adsorption studies were performed by varying contact time, solution pH, adsorbent dose and temperature. The equilibrium time for Ni(II) ions was determined as 4h and optimal pH was 4-7. Surface morphology and functionality of the CLPC and CLSC were characterized by SEM, EDX and FT-IR. The experimental data were analysed using the Freundlich, Langmuir, Temkin, Redlich-Peterson, Sips and Dubinin-Radushkevich adsorption isotherm equations using nonlinear regression analysis. Equilibrium data were found to fit well in the Langmuir isotherm, which confirmed the monolayer coverage of Ni(II) ions. The Langmuir monolayer adsorption capacity of CLPC and CLSC was found to be 38.46 and 35.54 mg/g. The thermodynamic parameters indicated that the adsorption process was spontaneous and exothermic in nature. The kinetic data followed pseudo-second order model with film diffusion process. The adsorbents were tested with Ni(II) plating wastewater in connection with the reuse and selectivity of the adsorbents.

Composição química e atividade antimicrobiana do óleo essencial e anatomia foliar e caulinar de Citrus limettioides Tanaka (Rutaceae) / Chemical Composition and Antimicrobial Activity of Essential Oil and Anatomy of Citrus limettioides Tanaka(Rutaceae) Leaves and Stem

Citrus limettioides (Rutaceae) é utilizada popularmente para tratamento da sinusite, e também como antitérmica e hipotensora. Este trabalho teve como objetivos: identificar os constituintes dos óleos essenciais da folha e da casca dos frutos de C. limettioides; avaliar a atividade antimicrobiana dos óleos essenciais da folha e da casca dos frutos e realizar o estudo anatômico da folha e caule jovem. Os óleos essenciais foram obtidos por hidrodestilação em aparelho de Clevenger modificado e analisados por CG-EM. A concentração inibitória mínima (CIM) foi determinada utilizando o método de microdiluição em caldo frente a bactérias Gram-positivas, Gram-negativas e fungos. Para o estudo anatômico foram realizados cortes histológicos a mão livre e as secções foram coradas com azul de Alcian/safranina, reagente de Steinmetz, lugol e analisados em microscopia de luz. O linalol foi o componente majoritário no óleo essencial das folhas (36,88 a 45,15%) e o limoneno no óleo da casca dos frutos (70,60 a 75,18%). O óleo essencial das folhas apresentou CIM de 2000 μg/mL frente às bactérias e nenhuma atividade frente aos fungos. O óleo essencial da casca dos frutos não apresentou atividade antimicrobiana. A folha é hipoestomática, predominando os estômatos anomocíticos; o mesofilo é dorsiventral com parênquima paliçádico bisseriado e parênquima lacunoso com 11 camadas de células. Cavidades secretoras foram observadas no mesofilo da folha, no pecíolo e no caule, enquanto cristais prismáticos foram identificados em todas as estruturas da folha e do caule. Os dados obtidos no estudo microscópico podem auxiliar na identificação taxonômica desta planta e na avaliação da autenticidade da droga vegetal.

Citrus limettioides (Rutaceae), a sweet lime, is popularly used to treat sinusitis, and as an antipyretic and hypotensive agent.the aim of this study was to identify the constituents of the essential oils from the leaf and fruit peel of C. limettioides, test the antimicrobial activity of these essential oils and perform an anatomical study of the leaf and young stem. Essential oils were isolated by steam distillation in a modified Clevenger apparatus and analyzed by GC-MS. the minimum inhibitory concentrations (MIC) against Gram-positive and Gram-negative bacteria and fungi were determined by broth microdilution.Anatomical studies were performed on freehand histological sections, which were stained with Alcian blue / safranin, Steinmetz reagent and lugol and analyzed by light microscopy. Linalol was the major component in the leaf essential oil (36.88 to 45.15%) and limonene in the fruit peel essential oil (70.60 to 75.18%).the essential oil from leaves showed antimicrobial activity against bacteria (MIC 2000 μg/mL) and no activity against fungi.the essential oil from the fruit peel showed no antimicrobial activity. the leaf is hypostomatic with predominance of anomocytic stomata, the mesophyll is dorsiventral with biseriate palisade and 11 layers of spongy parenchyma cells.Secretory cavities were observed among the mesophyll cells of the leaf, petiole and stem, whilst prismatic crystals were identified in all structures of leaf and stem. the anatomical data obtained in the microscopic study may help in the taxonomic identification of this plant and to verify the authenticity of the drug plant.

Leaching Soluble Salts Increases Population Densities of Tylenchulus semipenetrans.

The effect of salinity on population densities of Tylenchulus semipenetrans was measured on 3-month-old salt-tolerant Rangpur lime growing on either loamy sand, sand, or organic mix and on 4-month-old salt-sensitive Sweet lime in organic mix. Salinity treatments were initiated by watering daily with 25 mol/m(3) NaCl + 3.3 mol/m(3) CaCl for 3 days and every other day with 50 mol/m(3) NaC1 + 6.6 mol/m(3) CaC1 for one week, with no salt (NS) treatments as controls. Salinity was discontinued in one treatment (DS) by leaching with tap water prior to inoculation with nematodes, whereas the continuous salinity (CS) treatment remained unchanged. Overall, in Rangpur lime organic soil supported the highest population densities of T. semipenetrans, followed by loamy sand and sand. The DS treatment resulted in the highest (P