Distribuição e caracterização de substâncias húmicas em vermicompostos de origem animal e vegetal

A utilização de resíduos orgânicos, como fertilizantes e condicionadores de solo, requer sua maturação e monitoramento da qualidade do material resultante. A vermicompostagem é uma técnica que, ao longo do processo, elimina os potenciais efeitos adversos dos resíduos à saúde humana e ao solo. A avaliação das substâncias húmicas (SH) nos produtos finais quanto à quantidade e à qualidade permite inferir sobre o grau de estabilidade e maturidade dos vermicompostos. Este trabalho objetivou avaliar a qualidade de seis vermicompostos das seguintes matérias-primas: esterco bovino (EB), esterco ovino (EO), esterco suíno (ES), esterco de codorna (EC), borra de café (BC) e de erva-mate (BE) com respeito ao teor de ácidos húmicos (AH) e de ácidos fúlvicos (AF) e às suas características químicas, após 70 dias de compostagem. O fracionamento químico da matéria orgânica foi realizado com base na solubilidade em meio básico e ácido e a distribuição de cada fração calculada como percentual do C total. Foram calculados os índices de humificação: percentual de AH e razão AH/AF. Nos AH e AF purificados, determinaram-se a composição elementar (CHNO), a composição química por espectroscopia de infravermelho com transformada de Fourier (FTIR) e o índice de aromaticidade I1630/I2920. O teor de substâncias húmicas (AH+AF) decresceu na seqüência: BC > EO≈ BE≈ EB > ES > EC, tendo sua composição química também diferido entre os vermicompostos. O grau de maturidade foi superior nos vermicompostos de resíduos de origem vegetal (borra de café e de erva-mate). Os AH desses dois vermicompostos apresentaram menor proporção de grupos oxigenados e menor caráter aromático.

Qualidade da matéria orgânica de solos sob cultivo de café consórciado com adubos verdes

O aporte de resíduos orgânicos, associado ao processo de humificação, promove melhoria dos atributos do solo e garante ao agricultor a manutenção do sistema produtivo. As leguminosas visam, além do fornecimento de nutrientes para o café, melhorar a qualidade da matéria orgânica do solo com a formação das substâncias húmicas. O objetivo deste trabalho foi avaliar o impacto do uso de leguminosas, como adubo verde, na qualidade das substâncias húmicas em solos sob café em duas condições edafoclimáticas na Zona da Mata de Minas Gerais. Foram cultivados amendoim forrageiro, calopogônio, estilosantes, mucuna e espécies espontâneas durante quatro anos, em duas propriedades de agricultores familiares. Após quatro anos, realizaram-se a coleta de solo, extração e purificação das SH para obtenção dos ácidos fúlvicos (AFs) e húmicos (AHs). Foram realizadas análise elementar (CHNO), UV-visível, infravermelho e termogravimetria do material purificado. Os resultados evidenciaram que os AHs possuem maior peso molecular, hidrofobicidade, condensação, e compostos aromáticos com maior teor de C, conferindo maior estabilidade estrutural em relação aos AFs. O ambiente voltado para a face sul, com menor incidência de luz, menor temperatura e maior umidade, possui substâncias húmicas estruturalmente mais estáveis e resistentes à degradação do que as extraídas de solo voltado para o noroeste. O tratamento com calopogônio apresentou baixo teor de C e elevado teor de O na composição dos AFs, caracterizando compostos de menor estabilidade estrutural em relação aos AFs, sob os tratamentos com estilosantes, mucuna e espontâneas. Nos AHs, o uso das leguminosas apresentaram resultados semelhantes.

Identification of quinolactin alkaloids from fungi associated to Brazilian red algae Dichotomaria marginata by LC-PDA-MS and LC-MSn

Fungi isolated from marine organisms have been shown to produce several interesting secondary metabolites with important biological activities. Such chemical diversity may be associated to environmental stress conditions and may represent an important source of NCE for bioprospection. Quinolactins belong to a rare fungi-alkaloid class with a unique N-methyl-quinolone moiety fused to a lactam ring and present several bioactivities1. Fungi strain Dm1 was isolated from red alga Dichotomaria marginata, collected from Brazil SE coast, and was grown in sterile rice solid media at 26oC 2, which was then extracted with MeOH. The MeCN fr. from the MeOH extract was chromatographed over Sephadex LH-20 and fr. 4 afforded quinolactin (QL) alkaloids B1, B2 and A, whereas fr. 5 afforded quinolactin D1 after purification by HPLC-DAD. Structural determination of pure compounds was based on HRMS, UV, and NMR spectral analyses, in addition to comparison with literature data and Antimarin® databank. UV data indicated the presence of similar chromophores with λmax at ca. 247 and 320nm. HRMS and tandem MS analyses using both negative and positive ion modes for the isolated compounds indicated their molecular formula and structural features, as for QL B1: C15H16O2N2 [M+H 257], which showed one fragment at m/z 214 [-CHNO]; QL B2: C15H16O3N2 [M+H 273], with product ions at m/z 230 [-CHNO.] and m/z 186 [-C4H9NO.]; for QL A: C16H18N2O2 [M+H 271], which presented one ion at m/z 214, due to loss of fragment (-C4H9) from the molecular ion; and for QL D1: C16H18N2O3 [M+H 287], with product ions at m/z 186 [-CHNO] and m/z 230 [-C4H9]. Such data suggested fragmentation proposals, e.g. for Quinolactin B1 (Fig. 1), which confirmed the structures of the isolated quinolactins, and may represent an important contribution for the sustainable exploration of marine biodiversity.

Structural characterization of water-soluble atmospheric organic matter by ultrahigh-resolution mass spectrometry

Isolated water-soluble analytes extracted from fog water collected during a radiation fog event near Fresno, CA were analyzed using collision induced dissociation and ultrahigh-resolution mass spectrometry. Tandem mass analysis was performed on scan ranges between 100-400 u to characterize the structures of nitrogen and/or sulfur containing species. CHNO, CHOS, and CHNOS compounds were targeted specifically because of the high number of oxygen atoms contained in their molecular formulas. The presence of 22 neutral losses corresponding to fragment ions was evaluated for each of the 1308 precursors. Priority neutral losses represent specific polar functional groups (H2O, CO2, CH3OH, HNO3, SO3, etc., and several combinations of these). Additional neutral losses represent non-specific functional groups (CO, CH2O, C3H8, etc.) Five distinct monoterpene derived organonitrates, organosulfates, and nitroxy-organosulfates were observed in this study, including C10H16O7S, C10H17NO7S, C10H17 NO8S, C10H17NO9S, and C10H17NO10S. Nitrophenols and linear alkyl benzene sulfonates were present in high abundance. Liquid chromatography/mass spectrometery methodology was developed to isolate and quantify nitrophenols based on their fragmentation behavior.

Characterization of water-soluble organic compounds in ambient aerosol using ultrahigh-resolution elctrospray ionization fourier transform ion cyclotron resonance mass spectrometry.

Atmospheric aerosol water-soluble organic compounds (WSOC) exist in a complex mixture of thousands of organic compounds which may have a significant influence on the climate-relevant properties of the atmospheric aerosol. To understand the potential influences, the ambient aerosol was collected at a nonurban mountainous site near Steamboat Springs, CO. The WSOC fraction was analyzed using positive and negative electrospray ionization Fourier transform ion cyclotron resonance mass spectrometry. Approximately 2400 and 4000 molecular formulas were identified from the detected positive and negative ions, respectively. The formulas contained carbon (C), hydrogen (H), oxygen (O), nitrogen (N), and sulfur (S) atoms over the mass range of 100-800 Da in both ionization modes. The number range of double bond equivalents (DBE), the mean O:C, H:C, and oxidation state of carbon for the positive ions were 0 – 18, 0.25 ± 0.15, 1.39 ± 0.29, and -0.89 ± 0.23, respectively. Comparatively, the negative ion values were 0 – 14, 0.53 ± 0.20, 1.48 ± 0.30, and -0.41 ± 0.45, respectively. Overall, the positive ion molecular formulas were less oxygenated than negative ions as seen with the lower O:C and OSc values. Molecular formulas of the positive ions classified as aliphatic, olefinic, and aromatic compound classes based on the aromaticity index values. Aliphatic compounds were the CHNO and CHO formulas that had mean DBE values of about 5 and 3, respectively. However, a majority of the CHOS, CHNOS, and CHS formulas were defined as olefinic compounds and had mean DBE values of about 12, 13, and 10, respectively. Overall, more than half of the assigned molecular formulas contained sulfur and were olefinic to aromatic compounds with a DBE range of 7-18. Source of the unsaturated sulfur containing compounds is currently unknown. Several nitrogen containing compounds were in common with the field and laboratory studies of the biomass burning aerosol and aged secondary organic aerosol products of the limonene ozonolysis.

Dobryi pastyr = Good shepherd.

Description based on first issue; title from caption.

The curtius rearrangement of acyl azides revisited - formation of cyanate (R-O-CN)

The Curtius rearrangement is a synthesis of isocyanates (R-N=C=O) by thermal or photochemical rearrangement of acyl acides and/or acylnitrenes. The photochemical rearrangement of benzoyl azide is now shown for the first time to produce a small amount of phenyl cyanate (Ph-O-CN) together with phenyl isocyanate.

Experimental investigation of the fuel properties of glidfuel, palm oil mill effluent biodiesel and blends

Biofuels derived from industry waste have potential to substitute fossil fuels (Diesel and Gasoline) in internal combustion (IC) engines. Use of waste streams as fuels would help to reduce considerably life-cycle greenhouse gas emissions and minimise waste processing costs. In this study an investigation into the fuel properties of two waste derived biofuels were carried out, they are: (i) Glidfuel (GF) biofuel - a waste stream from paper industry, and (ii) Palm Oil Mill Effluent (POME) biodiesel - biodiesel produced from palm oil industry effluent through various treatment and transesterification process. GF and POME was mixed together at various proportions and separately with fossil diesel (FD) to assess the miscibility and various physical and chemical properties of the blends. Fuel properties such as kinematic viscosity, higher heating value, water content, acid number, density, flash point temperature, CHNO content, sulphur content, ash content, oxidation stability, cetane number and copper corrosion ratings of all the fuels were measured. The properties of GF, POME and various blends were compared with the corresponding properties of the standard FD. Significance of the fuel properties and their expected effects on combustion and exhaust emission characteristics of the IC engine were discussed. Results showed that most properties of both GF and POME biodiesel were comparable to FD. Both GF and POME were miscible with each other, and also separately with the FD. Flash point temperatures of GF and POME biodiesel were 40.7°C and 158.7°C respectively. The flash point temperature of GF was about 36% lower than corresponding FD. The water content in GF and FD were 0.74 (% wt) and 0.01 (% wt) respectively. Acidity values and corrosion ratings of both GF and POME biodiesel were low compared to corresponding value for FD. The study concluded that optimum GF-POME biofuel blends can substitute fossil diesel use in IC engines.