The influence of diets containing dried bivalve feces and/or powdered algae on growth and energy distribution in sea cucumber Apostichopus japonicus (Selenka) (Echinodermata : Holothuroidea)

In recent years, bivalve feces and powdered algae have been used as the food sources of holothurians in China. In this study, growth and energy budget for sea cucumber Apostichopus japonicus (Selenka) with initial wet body,veights of 32.5 1.0 g (mean +/- SE, n=45) when fed with five different granule diets containing dried bivalve feces and/or powdered algae in water temperature 13.2-19.8 degrees C and salinity 30-32ppt were quantified in order to investigate how diets influence growth and energy distribution and to find out the proper diet for land-based intensive culture of this species. Results showed that diets affected the food ingestion, feces production, food conversion efficiency and apparent digestive ratios, hence the growth and energy budget. Sea cucumbers fed with dried feces of bivalve showed poorer energy absorption, assimilation and growth than individuals fed with other four diets; this could be because feces-drying process removed much of the benefits. Dried bivalve feces alone, therefore, were not a suitable diet for sea cucumbers in intensive cultivation. The mixed diets of feces and powered algae showed promising results for cultivation of sub-adult Apostichopus japonicus, while animals fed with powdered algae alone, could not obtain the best growth. According to SGR of tested animals, a formula of 75% feces and 25% powdered algae is the best diet for culture of this species. Extruded diets were used in the present experiment to overcome shortcomings of the traditional powdered feeds, however, it seems a conflict exists between drying bivalve feces to form extruded diets and feeding sea cucumbers with fresh feces which contain beneficial bacteria. Compared with other echinoderms, in holothurians the energy deposited in growth is lower and the energy loss in feces accounts for the majority of the ingested energy. Such detailed information could be helpful in further development of more appropriate diets for culture of holothurians. (c) 2006 Elsevier B.V. All rights reserved.

Uso agrícola de composto de lixo: estudo da transferência de metal pesado no sistema solo-cana-de-açúcar.

Este estudo buscou avaliar uma solução agronômica para a destinação do lixo urbano com a utilização de sua compostagem na adubação da cana-de-açúcar. A utilização de composto de lixo (CL) altera a dinâmica de matéria orgânica do solo, tendo um impacto sobre seus processos físicos, químicos, mineralógicos e biológicos, podendo ser benéfica, pois constitui uma importante fonte de nutrientes, mas pode também causar problemas, em médio e longo ´prazos por conter metais pesados, que podem contaminar os solos e até entrar na cadeia alimentar.

Uso agrícola de composto de lixo: efeito do tempo de incubação solo/resíduo na disponibilidade de metal pesado.

O uso agrícola dos compostos de lixo (CL) urbano constitui a alternativa de maior visibilidade técnico-científica-econômica, pois estes são fontes de nutrientes e de matéria orgânica. Entretanto, é importante esclarecer que o uso do CL deve ser regulamentado, disciplinado e orientado tecnicamente por protocolos que definam a sua disposição final prevista em legislação, pois estes materiais podem conter metais pesados, que podem acumular-se nos alimentos e serem ingeridos pelo homem. Dentro desse contexto o trabalho buscou supror a deficiência de conhecimento relativo ao tempo que os metais pesados (Cádmio - Cd, Crômio - Cr, Cobalto- Co, Níquel - Ni e Chumbo - Pb), permanecem disponíveis nos solos após a adição do CL. A estração foi feita pelo método Mehlich-1, quando adicionado o CL incubado em cinco tipos de solos (Latossolo Vermelho-Amarelo, Podzólico Vermelho-Amarelo, Brunizem, planossolo e TerraRoxa Estruturada) de duas profundidades (0-20 e 20-40 cm), utilizando-se quatro doses de CL (0, 25, 50 e 100 t ha -1, em base úmida) e quatro períodos de incubação: 16, 32, 64 e 150 dias. A maioria dos metais pesados teve sua disponibilidade reduzida nos primeiros tempos de incubalção, sendo esse efeito dependente da textura, pH e teor de matéria orgânica do solo. Os dados relativos aos teores totais de metais pesados evidenciaram que o uso continuado de composto de lixo, principalmente nas doses mais elevadas, e em especial para o Cd, pode resultar riscos de contaminação do ambiente pelo efeito cumulativo.

Modelo de balanço de nitrogênio para a cana-de-açúcar fase II - construção de modelo software STELLA.

A cultura da cana-de-açúcar vem sofrendo mudanças, de âmbitos tecnológicos e sociais, profundas nesta década, procurando se adaptar às demandas de produção com alta produtividade, competitividade e respeito ao meio ambiente. Apesar de o Brasil ser o maior produtor mundial de cana-de-açúcar, ainda pratica a queima da palha do canavial para facilitar a colheita, o que gera prejuízos econômicos, sociais e ambientais. Sem essa queima (Decreto n.° 42056 do Estado de SP), a cobertura do solo pela palhada irá provocar significativas mudanças no manejo da cultura e na dinâmica do nitrogênio. Dada a complexibilidade do ciclo de nitrogênio no solo, seus vários caminhos de transformação, e as variações climáticas, é difícil a determinação do melhor manejo do nitrogênio em sistemas de cultivo, pois não há análise de solo para apoiar o agricultor no seu manejo. Modelos de Simulação que descrevem as transformações do nitrogênio do solo podem prever valores e direcionar o melhor manejo do nitrogênio, tanto do ponto de vista da produtividade da cana como da qualidade ambiental. Assim, o modelo preliminar proposto na Fase I deste estudo em Relatório Técnico 22, da Embrapa informática Agropecuária, foi, nesta Fase II do projeto, ajustado com valores para solos tropicais e reconstruído no software de Simulação STELLA, agregando-se todo o conhecimento disponível em expressões matemáticas sobre esse assunto. Procedendo-se a simulação numérica em situações usuais, geraram-se como resultados, cenários que permitiram discussões técnicas sobre o melhoria do manejo do fertilizante nitrogenado. Concluiu-se que, apesar da complexa dinâmica do nitrogênio no sistema solo-planta e das dificuldades inerentes à medida de formas disponíveis de N, o modelo ajustado apresentou-se como uma alternativa para pesquisadores, técnicos e produtores no entendimento dos processos que envolvem o nitrogênio no sistema, auxiliando na busca por soluções para o melhor manejo de fertilizantes nitrogenados à cultura da cana-de-açúcar para manutenção de produtividades adequadas.

Monitoramento espaço-temporal da cana-de-açúcar a partir de índices espectrais de vegetação.

Para culturas agrícolas que abrangem grandes áreas, como é o caso da cana-de-açúcar no Brasil, técnicas de geoprocessamento aplicadas a imagens orbitais de alta resolução temporal apresentam grande potencial de mapear e monitorar os ciclos fenológicos/agronômicos das lavouras. Para essa finalidade, destaca-se o uso de séries temporais de índices espectrais de vegetação (IV) como NDVI (Normalized Difference Vegetation Index) e EVI (Enhanced Vegetation Index) calculados a partir das imagens orbitais de reflectância. Este documento apresenta resultados de uma pesquisa que avaliou a utilização de um método de suavização de perfis temporais de IV e a posterior derivação de parâmetros do ciclo fenológico/agrícola de talhões de cana-de-açúcar, com o objetivo de monitorar e mapear áreas ocupadas por cana-de-açúcar e de distinguir áreas de cana-planta e cana-soca. Foram utilizadas séries temporais de NDVI e EVI do sensor MODIS (Moderate Resolution Imaging Spectroradiometer) a bordo do satélite Terra referentes a uma região do Nordeste do Estado de São Paulo, densamente ocupada por cana-de-açúcar. Os resultados obtidos mostraram grande utilidade das séries temporais de IV do MODIS para monitorar o ciclo agronômico/fenológico de talhões de cana-de-açúcar. Foi possível acompanhar o desenvolvimento da cana-de-açúcar e identificar a ocorrência de cana-planta ou cana-soca para um determinado talhão. O cultivo de uma cultura de ciclo mais curto, ao fazer a reforma do talhão de cana-de-açúcar, também foi identificado nos perfis temporais. A metodologia desenvolvida para classificação de áreas de cana-de-açúcar obteve erro de comissão relativamente pequeno (<10%), mas ao custo de erro de emissão mais elevado (>40%). A classificação realizada para distinção entre áreas de cana-planta e cana-soca também apresentou resultados interessantes, com erro de emissão em torno de 4% e erro de comissão >30%.

Distribuição do sistema radicular da cana-de-açúcar em solo de tabuleiro costeiro submetido a três métodos de preparo de solo.

Objetiva avaliar a influencia do adensamento, coesão, e da compactação nas caracteriísticas do solo e, consequentemente, na distribuição do sistema radicular.

Rubisco small subunit, chlorophyll a/b-binding protein and sucrose : fructan-6-fructosyl transferase gene expression and sugar status in single barley leaf cells in situ. Cell type specificity and induction by light

Chungui Lu, Olga A. Koroleva, John F. Farrar, Joe Gallagher, Chris J. Pollock, and A. Deri Tomos (2002). Rubisco small subunit, chlorophyll a/b-binding protein and sucrose : fructan-6-fructosyl transferase gene expression and sugar status in single barley leaf cells in situ. Cell type specificity and induction by light. Plant Physiology, 130 (3) pp.1335-1348 Sponsorship: BBSRC RAE2008

Sugar matrices in stabilization of bioactives by dehydration

Development of functional foods with bioactive components requires component stability in foods and ingredients. Stabilization of sensitive bioactive components can be achieved by entrapment or encapsulation of these components in solid food matrices. Lactose or trehalose was used as the structure-forming material for the entrapment of hydrophilic ascorbic acid and thiamine hydrochloride or the encapsulation of oil particles containing hydrophobic α-tocopherol. In the delivery of hydrophobic components, milk protein isolate, soy protein isolate, or whey protein isolate were used as emulsifiers and, in some cases, applied in excess amount to form matrices together with sugars. Dehydrated amorphous structures with bioactives were produced by freezing and freeze-drying. Experimental results indicated that: (i) lactose and trehalose showed similar water sorption and glass transition but very different crystallization behavior as pure sugars; (ii) the glass transition of sugar-based systems was slightly affected by the presence of other components in anhydrous systems but followed closely that of sugar after water plasticization; (iii) sugar crystallization in mixture systems was composition-dependent; (iv) the stability of bioactives was better retained in the amorphous matrices, although small losses of stability were observed for hydrophilic components above glass transition and for hydrophobic components as a function of water activity; (v) sugar crystallization caused significant loss of hydrophilic bioactives as a result of the exclusion from the continuous crystalline phase; (vi) loss of hydrophobic bioactives upon sugar crystallization was a result of dramatic change of emulsion properties and the exclusion of oil particles from the protecting structure; (vii) the double layers at the hydrophilic-hydrophobic interfaces improved the stability of hydrophobic bioactives in dehydrated systems. The present study provides information on the physical and chemical stability of sugar-based dehydrated delivery systems, which could be helpful in designing foods and ingredients containing bioactive components with improved storage stability.

A computational model of coupled heat and moisture transfer with phase change in granular sugar during varying environmental conditions

As part of a comprehensive effort to predict the development of caking in granular materials, a mathematical model is introduced to model simultaneous heat and moisture transfer with phase change in porous media when undergoing temperature oscillations/cycling. The resulting model partial differential equations were solved using finite-volume procedures in the context of the PHYSICA framework and then applied to the analysis of sugar in storage. The influence of temperature on absorption/desorption and diffusion coefficients is coupled into the transport equations. The temperature profile, the depth of penetration of the temperature oscillation into the bulk solid, and the solids moisture content distribution were first calculated, and these proved to be in good agreement with experimental data. Then, the influence of temperature oscillation on absolute humidity, moisture concentration, and moisture migration for different parameters and boundary conditions was examined. As expected, the results show that moisture near boundary regions responds faster than farther away from them with surface temperature changes. The moisture absorption and desorption in materials occurs mainly near boundary regions (where interactions with the environment are more pronounced). Small amounts of solids moisture content, driven by both temperature and vapour concentration gradients, migrate between boundary and center with oscillating temperature.

Characterisation of freeze-dried wafers and solvent evaporated films as potential drug delivery systems to mucosal surfaces

Freeze-dried (lyophilised) wafers and solvent cast films from sodium alginate (ALG) and sodium carboxymethylcellulose (CMC) have been developed as potential drug delivery systems for mucosal surfaces including wounds. The wafers (ALG, CMC) and films (CMC) were prepared by freeze-drying and drying in air (solvent evaporation) respectively, aqueous gels of the polymers containing paracetamol as a model drug. Microscopic architecture was examined using scanning electron microscopy, hydration characteristics with confocal laser scanning microscopy and dynamic vapour sorption. Texture analysis was employed to investigate mechanical characteristics of the wafers during compression. Differential scanning calorimetry was used to investigate polymorphic changes of paracetamol occurring during formulation of the wafers and films. The porous freeze-dried wafers exhibited higher drug loading and water absorption capacity than the corresponding solvent evaporated films. Moisture absorption, ease of hydration and mechanical behaviour were affected by the polymer and drug concentration. Two polymorphs of paracetamol were observed in the wafers and films, due to partial conversion of the original monoclinic to the orthorhombic polymorph during the formulation process. The results showed the potential of employing the freeze-dried wafers and solvent evaporated films in diverse mucosal applications due to their ease of hydration and based on different physical mechanical properties exhibited by both type of formulations.

Spectroscopic studies of oligomers containing 2,5-trans furanoid sugar amino acids

Sugar amino acids and their oligomers, known as carbopeptoids, are commonly studied as foldamers. However, study of their conformational preference is often challenging when the adopted conformations are extended and/or disordered. This study is the first to explore the disordered nature of such carbopeptoids by utilizing a family of 2,5-trans carbopeptoids. An array of spectroscopic techniques has been used to investigate the conformational preference of these carbopeptoids. However, using this data alone it has not been possible to assign conformational preference as an ordered extended conformation or as a disordered family of closely related conformations. Computational methods need to be employed to achieve reliable interpretation of the spectroscopic data. Chirality, 2008. © 2008 Wiley-Liss, Inc.

In vitro drug release studies of polymeric freeze-dried wafers and solvent-cast films using paracetamol as a model soluble drug

Drug dissolution and release characteristics from freeze-dried wafers and solvent-cast films prepared from sodium carboxymethylcellulose (CMC) have been investigated to determine the mechanisms of drug release from the two systems. The formulations were prepared by freeze-drying (wafers) or drying in air (films), the hydrated gel of the polymer containing paracetamol as a model soluble drug. Scanning electron microscopy (SEM) was used to examine differences between the physical structure of the wafers and films. Dissolution studies were performed using an exchange cell and drug release was measured by UV spectroscopy at 242 nm. The effects of drug loading, polymer content and amount of glycerol (films) on the release characteristics of paracetamol were investigated. The release profiles of paracetamol from the wafers and films were also compared. A digital camera was used to observe the times to complete hydration and dissolution of the wafers containing different amounts of CMC and how that impacts on drug release rates. Both formulations showed sustained type drug release that was modelled by the Korsmeyer–Peppas equation. Changes in the concentration of drug and glycerol (films) did not significantly alter the rate of drug release while increasing polymer content significantly decreased the rate of drug release from both formulations. The results show that the rate of paracetamol release was faster from the wafers than the corresponding films due to differences in their physical structures. The wafers which formed a porous network, hydrated faster than the more dense and continuous, (non-porous) sheet-like structure of the films.