Extraction and characterization of Raphanus Sativus seed oil obtained by different methods

Purpose: To evaluate the impact of three different extraction methods on yield, physicochemical properties and bioactive ingredients of Raphanus sativus seed oil. Methods: Raphanus Sativus seed oil was prepared by traditional solvent extraction (SE), super-critical carbon dioxide extraction (SCE) and sub-critical propane extraction (SPE). The yield, physicochemical properties, fatty acid composition and oxidative stability of the oil extracts were compared. The contents of tocopherol and sulforaphene in the oils were also determined. Results: The oil yield obtained by SPE, SE and SCE were 33.69, 27.17 and 24.10 %, respectively. There were no significant differences in physicochemical properties and fatty acid compositions of oils extracted by the three methods. However, SCE oil had the best oxidative stability, and highest contents of vitamin E and sulforaphene, followed by oils from SPE and SE. Conclusion: SCE is highly selective for tocopherol and sulforaphene, which could explain its high oil oxidative stability. These results suggest that of the three extraction methods, SCE is best suited for preparing medicinal radish seed oil.

Properties of lignin and poly(hydroxybutyrate) blends

The Queensland University of Technology (QUT) allows the presentation of a thesis for the Degree of Doctor of Philosophy in the format of published or submitted papers, where such papers have been published, accepted or submitted during the period of candidature. This thesis is composed of Seven published/submitted papers and one poster presentation, of which five have been published and the other two are under review. This project is financially supported by the QUTPRA Grant. The twenty-first century started with the resurrection of lignocellulosic biomass as a potential substitute for petrochemicals. Petrochemicals, which enjoyed the sustainable economic growth during the past century, have begun to reach or have reached their peak. The world energy situation is complicated by political uncertainty and by the environmental impact associated with petrochemical import and usage. In particular, greenhouse gasses and toxic emissions produced by petrochemicals have been implicated as a significant cause of climate changes. Lignocellulosic biomass (e.g. sugarcane biomass and bagasse), which potentially enjoys a more abundant, widely distributed, and cost-effective resource base, can play an indispensible role in the paradigm transition from fossil-based to carbohydrate-based economy. Poly(3-hydroxybutyrate), PHB has attracted much commercial interest as a plastic and biodegradable material because some its physical properties are similar to those of polypropylene (PP), even though the two polymers have quite different chemical structures. PHB exhibits a high degree of crystallinity, has a high melting point of approximately 180°C, and most importantly, unlike PP, PHB is rapidly biodegradable. Two major factors which currently inhibit the widespread use of PHB are its high cost and poor mechanical properties. The production costs of PHB are significantly higher than for plastics produced from petrochemical resources (e.g. PP costs $US1 kg-1, whereas PHB costs $US8 kg-1), and its stiff and brittle nature makes processing difficult and impedes its ability to handle high impact. Lignin, together with cellulose and hemicellulose, are the three main components of every lignocellulosic biomass. It is a natural polymer occurring in the plant cell wall. Lignin, after cellulose, is the most abundant polymer in nature. It is extracted mainly as a by-product in the pulp and paper industry. Although, traditionally lignin is burnt in industry for energy, it has a lot of value-add properties. Lignin, which to date has not been exploited, is an amorphous polymer with hydrophobic behaviour. These make it a good candidate for blending with PHB and technically, blending can be a viable solution for price and reduction and enhance production properties. Theoretically, lignin and PHB affect the physiochemical properties of each other when they become miscible in a composite. A comprehensive study on structural, thermal, rheological and environmental properties of lignin/PHB blends together with neat lignin and PHB is the targeted scope of this thesis. An introduction to this research, including a description of the research problem, a literature review and an account of the research progress linking the research papers is presented in Chapter 1. In this research, lignin was obtained from bagasse through extraction with sodium hydroxide. A novel two-step pH precipitation procedure was used to recover soda lignin with the purity of 96.3 wt% from the black liquor (i.e. the spent sodium hydroxide solution). The precipitation process is presented in Chapter 2. A sequential solvent extraction process was used to fractionate the soda lignin into three fractions. These fractions, together with the soda lignin, were characterised to determine elemental composition, purity, carbohydrate content, molecular weight, and functional group content. The thermal properties of the lignins were also determined. The results are presented and discussed in Chapter 2. On the basis of the type and quantity of functional groups, attempts were made to identify potential applications for each of the individual lignins. As an addendum to the general section on the development of composite materials of lignin, which includes Chapters 1 and 2, studies on the kinetics of bagasse thermal degradation are presented in Appendix 1. The work showed that distinct stages of mass losses depend on residual sucrose. As the development of value-added products from lignin will improve the economics of cellulosic ethanol, a review on lignin applications, which included lignin/PHB composites, is presented in Appendix 2. Chapters 3, 4 and 5 are dedicated to investigations of the properties of soda lignin/PHB composites. Chapter 3 reports on the thermal stability and miscibility of the blends. Although the addition of soda lignin shifts the onset of PHB decomposition to lower temperatures, the lignin/PHB blends are thermally more stable over a wider temperature range. The results from the thermal study also indicated that blends containing up to 40 wt% soda lignin were miscible. The Tg data for these blends fitted nicely to the Gordon-Taylor and Kwei models. Fourier transform infrared spectroscopy (FT-IR) evaluation showed that the miscibility of the blends was because of specific hydrogen bonding (and similar interactions) between reactive phenolic hydroxyl groups of lignin and the carbonyl group of PHB. The thermophysical and rheological properties of soda lignin/PHB blends are presented in Chapter 4. In this chapter, the kinetics of thermal degradation of the blends is studied using thermogravimetric analysis (TGA). This preliminary investigation is limited to the processing temperature of blend manufacturing. Of significance in the study, is the drop in the apparent energy of activation, Ea from 112 kJmol-1 for pure PHB to half that value for blends. This means that the addition of lignin to PHB reduces the thermal stability of PHB, and that the comparative reduced weight loss observed in the TGA data is associated with the slower rate of lignin degradation in the composite. The Tg of PHB, as well as its melting temperature, melting enthalpy, crystallinity and melting point decrease with increase in lignin content. Results from the rheological investigation showed that at low lignin content (.30 wt%), lignin acts as a plasticiser for PHB, while at high lignin content it acts as a filler. Chapter 5 is dedicated to the environmental study of soda lignin/PHB blends. The biodegradability of lignin/PHB blends is compared to that of PHB using the standard soil burial test. To obtain acceptable biodegradation data, samples were buried for 12 months under controlled conditions. Gravimetric analysis, TGA, optical microscopy, scanning electron microscopy (SEM), differential scanning calorimetry (DSC), FT-IR, and X-ray photoelectron spectroscopy (XPS) were used in the study. The results clearly demonstrated that lignin retards the biodegradation of PHB, and that the miscible blends were more resistant to degradation compared to the immiscible blends. To obtain an understanding between the structure of lignin and the properties of the blends, a methanol-soluble lignin, which contains 3× less phenolic hydroxyl group that its parent soda lignin used in preparing blends for the work reported in Chapters 3 and 4, was blended with PHB and the properties of the blends investigated. The results are reported in Chapter 6. At up to 40 wt% methanolsoluble lignin, the experimental data fitted the Gordon-Taylor and Kwei models, similar to the results obtained soda lignin-based blends. However, the values obtained for the interactive parameters for the methanol-soluble lignin blends were slightly lower than the blends obtained with soda lignin indicating weaker association between methanol-soluble lignin and PHB. FT-IR data confirmed that hydrogen bonding is the main interactive force between the reactive functional groups of lignin and the carbonyl group of PHB. In summary, the structural differences existing between the two lignins did not manifest itself in the properties of their blends.

Utilization of bio-oil for cooking and lighting

Among the available alternative sources of energy in Bangladesh bio-oil is recognized to be a promising alternative energy source. Bio-oil can be extracted by pyrolysis as well as expelling or solvent extractionmethod. In these days bio-oil is merely used in vehicles and power plants after some up gradation .However, it is not used for domestic purposes like cooking and lighting due to its high density and viscosity. This paper outlines the design of a gravity stove to use high dense and viscous bio-oil for cooking purpose. For this, Pongamia pinnata (karanj) oil extracted by solvent extraction method is used as fuel fed under gravity force. Efficiency of gravity stove with high dense and viscous bio-oil (karanj) is 11.81% which of kerosene stove is 17.80% also the discharge of karanj oil through gravity stove is sufficient for continuous burning. Thus, bio-oil can be effective replacement of kerosene for domestic purposes.

A review of hydrothermal liquefaction bio-crude properties and prospects for upgrading to transportation fuels

Hydrothermal liquefaction (HTL) presents a viable route for converting a vast range of materials into liquid fuel, without the need for pre-drying. Currently, HTL studies produce bio-crude with properties that fall short of diesel or biodiesel standards. Upgrading bio-crude improves the physical and chemical properties to produce a fuel corresponding to diesel or biodiesel. Properties such as viscosity, density, heating value, oxygen, nitrogen and sulphur content, and chemical composition can be modified towards meeting fuel standards using strategies such as solvent extraction, distillation, hydrodeoxygenation and catalytic cracking. This article presents a review of the upgrading technologies available, and how they might be used to make HTL bio-crude into a transportation fuel that meets current fuel property standards.

Volatile compounds from the flowers of spathiphyllum Cannaefolium

Headspace analysis and solvent extraction of the pollenbearing flower spike of Spathiphyllum cannaefolium have been conducted by GC-MS, to determine the basis of the flower spike’s attractancy to certain fruit-fly species. The major components were benzyl acetate, methyleugenol, methylchavicol, p-methoxybenzyl acetate and fatty acids. Benzyl acetate is known to be attractive to D. cueurbitae, D. dorsalis and C. capitata (representing the three different ‘male-lure categories’) and methyleugenol (one of these male-lures) attracts D. cacuminatus, D. dorsalis and D. occipitalis. Thus the odoriferous flowerspike exhibits wide ranging attractancy and hence Spathiphyllum cannaefolium may have some application as a fruit-fly control measure for small orchards where ‘methyleugenol-attracted’ species (e.g. D. cacuminatus, D. dorsalis, D. occipitalis) are the dominant pests.

High-anthocyanin strawberries through cultivar selection

BACKGROUND: Diets high in fruit and vegetables are known to have significant health benefits. This is in part due to the presence of phytochemicals, which possess potential protective health benefits. This study focuses on the ability of strawberries to be bred for higher anthocyanin content. This is a major contributor to the characteristic colour and nutritional value of ripe strawberries, together with phenolic acids, ascorbic acid and total antioxidant capacity. RESULTS: Anthocyanins in five commercial strawberry cultivars and three breeding lines were assessed. This led to the discovery of one breeding line (BL 2006-221) as an exceptional source of anthocyanins (approximate to 1 g kg1 fresh weight), with approximately double the levels of current commercial cultivars. Temperature was shown to influence anthocyanin extraction, with 40 degrees C being the best extraction temperature using the accelerated solvent extraction (ASE) method. Hue angle and anthocyanin concentration showed a good correlation (r2 = 0.69). CONCLUSION: The new breeding line BL 2006-221 has the potential to be used in the development of phytochemically rich strawberry cultivars. Using hue angle as a screening tool for total anthocyanin concentration and extraction of anthocyanins from strawberries by ASE at 40 degrees C would support such cultivar development. (c) 2012 Commonwealth of Australia

Bioactive Properties of Mushroom (Agaricus bisporus) Stipe Extracts

The antibacterial activity and total phenolic (TP) content of Agaricus bisporus stipes were assessed using solvent and water extracts to determine its bioactivity. Extraction methods included accelerated solvent extraction (ASE) and hot water followed by membrane concentration. Water extract from ASE had the highest TP of 1.08 gallic acid equivalents (GAE)/g dry weight (DW) followed by ethanol at 0.61 mg GAE/g DW and 0.11 mg GAE/g DW for acetone. Acetone extracts inhibited Escherichia coli and Staphylococcus aureus at less than 50%; ethanol inhibited E. coli at 61.9% and S. aureus at 56.6%; and ASE water inhibited E. coli at 78.6% and S. aureus at 65.4%. The TP content of membrane concentrated extract of mushroom was 17 mg GAE in 100 mL. Membrane concentrated water extracts had a higher percentage inhibition on S. aureus than E. coli. Overall, the results were promising for further application of mushroom stipe extracts as a functional food additive. Practical Applications Mushrooms are known for their health benefits and have been identified as a good source of nutrients. The highly perishable nature of mushrooms warrants further processing and preservation to minimize losses along the supply chain. This study explores the possibility of adding value to mushroom stipes, a by-product of the fresh mushroom industry. The extracts assessed indicate the antibacterial activity and phenolic content, and the potential of using these extracts as functional ingredients in the food industry. This study provides valuable information to the scientific community and to the industries developing novel ingredients to meet the market demand for natural food additives.

Bioactive Properties of Mushroom (Agaricus bisporus) Stipe Extracts

The antibacterial activity and total phenolic (TP) content of Agaricus bisporus stipes were assessed using solvent and water extracts to determine its bioactivity. Extraction methods included accelerated solvent extraction (ASE) and hot water followed by membrane concentration. Water extract from ASE had the highest TP of 1.08 gallic acid equivalents (GAE)/g dry weight (DW) followed by ethanol at 0.61 mg GAE/g DW and 0.11 mg GAE/g DW for acetone. Acetone extracts inhibited Escherichia coli and Staphylococcus aureus at less than 50%; ethanol inhibited E. coli at 61.9% and S. aureus at 56.6%; and ASE water inhibited E. coli at 78.6% and S. aureus at 65.4%. The TP content of membrane concentrated extract of mushroom was 17 mg GAE in 100 mL. Membrane concentrated water extracts had a higher percentage inhibition on S. aureus than E. coli. Overall, the results were promising for further application of mushroom stipe extracts as a functional food additive. Practical Applications Mushrooms are known for their health benefits and have been identified as a good source of nutrients. The highly perishable nature of mushrooms warrants further processing and preservation to minimize losses along the supply chain. This study explores the possibility of adding value to mushroom stipes, a by-product of the fresh mushroom industry. The extracts assessed indicate the antibacterial activity and phenolic content, and the potential of using these extracts as functional ingredients in the food industry. This study provides valuable information to the scientific community and to the industries developing novel ingredients to meet the market demand for natural food additives.

Two Novel Hexadepsipeptides with Several Modified Amino Acid Residues Isolated from the Fungus

Two new cyclohexadepsipeptides have been isolated from the fungus Isaria. Fungal growth in solid media yielded hyphal strands from which peptide fractions were readily isolable by organic-solvent extraction. Two novel cyclodepsipeptides, isaridin A and isaridin B, have been isolated by reverse-phase HPLC, and characterized by ESI-MS and 1H-NMR. Single crystals of both peptides have been obtained, and their 3D structures were elucidated by X-ray diffraction. The isaridins contain several unusual amino acid residues. The sequences are cyclo(β-Gly-HyLeu-Pro-Phe-NMeVal-NMePhe) and cyclo(β-Gly-HyLeu-β-MePro-Phe-NMeVal-NMePhe), where NMeVal is N-methylvaline, NMePhe N-methylphenylalanine, and HyLeu hydroxyleucine (=2-hydroxy-4-methylpentanoic acid). The two peptides differ from one another at residue 3, isaridin A having an (S)-proline at this position, while β-methyl-(S)-proline (=(2S,3S)-2,3,4,5-tetrahydro-3-methyl-1H-pyrrole-2-carboxylic acid) is found in isaridin B. The solid-state conformations of both cyclic depsipeptides are characterized by the presence of two cis peptide bonds at HyLeu(2)-Pro(3)/HyLeu(2)-β-MePro(3) and NMeVal(5)-NMePhe(6), respectively. In isaridin A, a strong intramolecular H-bond is observed between Phe(4)CO⋅⋅⋅HNβ-Gly(1), and a similar, but weaker, interaction is observed between β-Gly(1)CO⋅⋅⋅HNPhe(4). In contrast, in isaridin B, only a single intramolecular H-bond is observed between β-Gly(1)CO⋅⋅⋅HNPhe(4

In Vitro Production of Echioidinin, 7-O-Methywogonin from Callus Cultures of Andrographis lineata and Their Cytotoxicity on Cancer Cells

Andrographis lineata is an herbal medicinal plant used in traditional medicine as a substitute for Andrographis paniculata. Here, using mature leaf explants of A. lineata we demonstrate for the first time the callus induction established on MS medium containing 1.0 mg l(-1) IAA. Dried callus was subjected to solvent extraction with acetone. Further the acetone residue was separated by silica gel column chromatography, crystallized and characterized on the basis of nuclear magnetic resonance (proton and c13) and liquid chromatographic mass spectroscopy. This analysis revealed the occurrence of two known flavones namely, 7-O-methylwogonin (MW) and Echioidinin (ED). Furthermore, these compounds were tested for their cytotoxicity against leukemic cell line, CEM. We identify that ED and MW induced cytotoxicity in a time-and concentration-dependent manner. Further increase in the LDH release upon treatment with ED and MW further confirmed our cytotoxicity results against leukemic cell line. Strikingly, MW was more potent than ED when compared by trypan blue and MTT assays. Our results recapitulate the utility of callus cultures for the production of plant specific bioactive secondary metabolites instead of using wild plants. Together, our in vitro studies provide new insights of A. lineata callus cultures serving as a source for cancer chemotherapeutic agents.

Formation and characterization of tin oxide aerogel derived from sol-gel process based on tetra(n-butoxy)tin(IV)

Transparent and translucent SnO2 aerogels with high specific surface area (>300m(2)/g) have been prepared by sol-gel process using tetra(n-butoxy)tin(IV) as a starting compound, and supercritical drying technique for solvent extraction. Light scattering measurements reveal that the polymeric cluster size distribution in sol system is gradually broadened during sol-gel transition. SEM images show that the aerogels are made up of the cottonlike oxide agglomerates with a large number of Pores. TEM images show that these aerogels seem to be self-similar at different magnifications. Their pore size distribution is pretty wide ranging, from mesopore to macropore especially for that of translucent aerogel. (C) 2004 Elsevier B.V. All rights reserved.

Estudo em Escala Piloto de Parâmetros de Monitoramento e Operação de Biopilhas no Tratamento de Solos Contaminados por Hidrocarbonetos de Petróleo

O objetivo do trabalho foi identificar ferramentas e indicadores adequados ao monitoramento e à otimização de processos de biorremediação, incluindo parâmetros físicos, químicos e microbiológicos definidos em estudos de tratabilidade de solos contaminados por óleo cru em escala de laboratório e comparar estratégias de biorremediação, tais como bioestímulo e bioaumento conduzidas em simulações de biopilhas dinâmicas ou estáticas. Quando três métodos de extração de hidrocarbonetos de petróleo de solo arenoso e franco-argiloso para análise cromatográfica (Soxhlet-SOX, microondas-MARS e extração acelerada por solvente-ASE) foram comparados entre si, concluiu-se que a técnica que promove a melhor recuperação depende da fração de interesse (n-alcanos, HRP, MCNR, HPA), das características texturais do solo (teores de areia, silte e argila) e da idade da contaminação. Dentre os indicadores de densidade populacional microbiana (microrganismos heterotróficos totais-PHT, população de fungos-PF e população microbiana degradadora de óleo (PDO) passíveis de utilização para indicar a taxa de degradação de compostos orgânicos presentes no solo tais como os hidrocarbonetos de petróleo, o PDO mostrou-se o mais adequado em conjunto com a produção de CO2 aferida pelo método respirométrico. Quando a estratégia de biorremediação de solo franco-argiloso contaminado com óleo cru a 3% (m m-1) utilizando bioestímulo (ajuste de pH, umidade e taxa C:N:P) foi comparada ao bioaumento (bioestímulo e adição de inóculo de microrganismos extraídos, enriquecidos e aclimatizados ao óleo cru como fonte de carbono), em sistemas de bancada simulando biopilha dinâmica (microcosmo M) e biopilha estática com aeração forçada (reator B), o tratamento que apresentou melhor remoção (32%) de HTP após 121 dias foi o bioaumento em biopilha estática. Para HPA, o tratamento que alcançou a melhor remoção (33%) foi com bioestímulo também em biopilha estática. A avaliação da taxa de mortalidade (%) de Eisenia andrei exposta tanto a solos recém-contaminados por óleo cru e preparados para bioestímulo (BIOS) e bioaumento (BIOA) a serem tratados em biopilhas dinâmicas e estáticas em escala de laboratório mostrou que após 56 dias de exposição da E. andrei, todos os solos produziram letalidade de 100%, quer fossem os solos recém-contaminados e preparados para os diferentes tratamentos (BIOS M, BIOS B, BIOA M, BIOA B) ou após 121 dias de tratamento. Tal resultado confirma que a biorremediação foi incipiente também do ponto de vista de remoção da ecotoxicidade. Em linhas gerais, a biorremediação de solo franco-argiloso contaminado por óleo cru, contendo tanto contaminação antiga quanto recente, reúne os maiores desafios à biorremediação, tanto do ponto de vista da composição textural do solo quanto da natureza do contaminante. Os processos são aparentemente lentos e requerem ferramentas auxiliares para aceleração dos mesmos. Recomenda-se no futuro, condução de experimentos com o uso de diferentes surfactantes, com ênfase em biosurfactantes

Ecotoxicidade aguda, crônica e genotoxicidade de solo contaminado por óleo lubrificante usado e biorremediado para Eisenia andrei.

O objetivo do presente deste trabalho foi avaliar a toxicidade aguda, crônica e a genotoxicidade sobre E. andrei causadas por solo recém-contaminado com óleo lubrificante usado e após biorremediação por diferentes estratégias, após 22 meses, e paralelamente ao estudo de ecotoxicidade, foi conduzida uma investigação comparativa de três métodos de extração de HTP e HPA de solos para análise cromatográfica. A comparação das técnicas de extração evidenciou que para HTP, a técnica de extração acelerada por solvente-ASE foi a que melhor recuperou n-alcanos; já para as frações HRP e MCNR as técnicas soxhlet e micro-ondas-MARS não apresentaram diferenças significativas e foram melhores que ASE. Para HPA, a técnica de extração por soxhlet foi a que apresentou melhor recuperação em todos os solos. O teste de mortalidade apresentou, aos 14 dias, taxas crescentes de mortalidade de 10 6%, 20 0%, 73 25%, 93 12% e 100 0% para amostras de CONT (solo controle, sem contaminação artificial), BIOS (solo contaminado com 5% de OLU e biorremediado por bioestimulo), BIOA1 (solo contaminado com 5% de OLU e biorremediado por bioestimulo + bioaumento com adição de 10% de RSU maturado), e BIOA2 (solo contaminado com 5% de OLU e biorremediado por bioestimulo + bioaumento com adição de 10% de RSU semi-maturado) e OLU (solo contaminado com 5% de OLU), respectivamente. Aos 28 dias, entretanto, BIOS e OLU apresentaram taxas de mortalidade de 97 % 6 % e de 100 % 0 % respectivamente, valores estes significativamente superiores ao CONT. Foram observadas deformações anatômicas nos indivíduos mantidos em BIOS e OLU, assim como diminuição da biomassa em todas as amostras, evidenciando efeitos crônicos. O teste de reprodução, aos 28 dias, foram observadas grandes quantidades de indivíduos jovens nos solos biorremediados e recém-contaminado. No entanto, aos 56 dias houve uma diminuição dessas formas e o controle (CONT) exibiu uma quantidade maior de formas juvenis. O teste de densidade e viabilidade celular mostrou ser indicador sensível para toxicidade crônica apresentando queda nos solos BIOS e OLU em relação ao CONT com diferenças significativas (p <0.05). Não foram observados micronúcleos nos solos em estudo. Tal observação reforça a necessidade de testes de ecotoxicidade para avaliar a real eficácia de tecnologias de tratamento.

Ecotoxicidade aguda, crônica e genotoxicidade de solo contaminado por óleo lubrificante usado e biorremediado para Eisenia andrei.

O objetivo do presente deste trabalho foi avaliar a toxicidade aguda, crônica e a genotoxicidade sobre E. andrei causadas por solo recém-contaminado com óleo lubrificante usado e após biorremediação por diferentes estratégias, após 22 meses, e paralelamente ao estudo de ecotoxicidade, foi conduzida uma investigação comparativa de três métodos de extração de HTP e HPA de solos para análise cromatográfica. A comparação das técnicas de extração evidenciou que para HTP, a técnica de extração acelerada por solvente-ASE foi a que melhor recuperou n-alcanos; já para as frações HRP e MCNR as técnicas soxhlet e micro-ondas-MARS não apresentaram diferenças significativas e foram melhores que ASE. Para HPA, a técnica de extração por soxhlet foi a que apresentou melhor recuperação em todos os solos. O teste de mortalidade apresentou, aos 14 dias, taxas crescentes de mortalidade de 10 6%, 20 0%, 73 25%, 93 12% e 100 0% para amostras de CONT (solo controle, sem contaminação artificial), BIOS (solo contaminado com 5% de OLU e biorremediado por bioestimulo), BIOA1 (solo contaminado com 5% de OLU e biorremediado por bioestimulo + bioaumento com adição de 10% de RSU maturado), e BIOA2 (solo contaminado com 5% de OLU e biorremediado por bioestimulo + bioaumento com adição de 10% de RSU semi-maturado) e OLU (solo contaminado com 5% de OLU), respectivamente. Aos 28 dias, entretanto, BIOS e OLU apresentaram taxas de mortalidade de 97 % 6 % e de 100 % 0 % respectivamente, valores estes significativamente superiores ao CONT. Foram observadas deformações anatômicas nos indivíduos mantidos em BIOS e OLU, assim como diminuição da biomassa em todas as amostras, evidenciando efeitos crônicos. O teste de reprodução, aos 28 dias, foram observadas grandes quantidades de indivíduos jovens nos solos biorremediados e recém-contaminado. No entanto, aos 56 dias houve uma diminuição dessas formas e o controle (CONT) exibiu uma quantidade maior de formas juvenis. O teste de densidade e viabilidade celular mostrou ser indicador sensível para toxicidade crônica apresentando queda nos solos BIOS e OLU em relação ao CONT com diferenças significativas (p <0.05). Não foram observados micronúcleos nos solos em estudo. Tal observação reforça a necessidade de testes de ecotoxicidade para avaliar a real eficácia de tecnologias de tratamento.

A pilot plant for fish protein concentrate

This communication deals with the design aspect and functions of individual pieces of equipment of a pilot plant of fifty kg capacity for the production of fish protein concentrate (FPC) per day. Design is based on a solvent extraction process of wet pressed cake with an azeotropic mixture of hexane and ethyl alcohol. A flow sheet for the process and equipment layout has been indicated.