Du «Home sweet home» à la maison hantée : représentation de la maison dans les romans québécois des années 2000

Astier-Perret, Sandrine

04 1900

S’inscrivant parmi les travaux actuels sur le lieu, le présent mémoire s'intéresse à la représentation de la maison dans les romans québécois contemporains, notamment chez Catherine Mavrikakis, Élise Turcotte et Ying Chen. Dans le cadre de cette lecture sociocritique, le sociogramme de la Maison est la notion opératoire retenue, les deux composantes conflictuelles du noyau étant le « Home sweet home » et la « maison hantée ». Le travail de déchiffrement s'appuie ainsi sur les caractéristiques de ce binôme réfractées par les textes. À une époque caractérisée par un « hyper-investissement de l'espace privé », pour reprendre l'expression de Gilles Deleuze, la maison dans les romans québécois des années 2000 se révèle plutôt comme un espace marqué par la hantise, loin de l'image rassurante de la maison-nid véhiculée par certains discours en circulation dans la société. Fantômes et spectres envahissent ce lieu de l'intimité et deviennent des figures du quotidien, révélant ainsi le profond malaise des habitants et le refoulement d'un passé problématique. Le sujet se trouve alors confronté à une « inquiétante étrangeté » à l'intérieur même de son foyer. / As part of the topical writings on the concept of place, this Master’s thesis applies the sociocriticism tools to the analysis of the representation of the home in contemporary Quebec novels, especially those of Catherine Mavrikakis, Elise Turcotte and Ying Chen. This analysis focuses on the Home sociogram as the core operational concept, its two main conflicting components being the "Home Sweet Home" and the "Haunted House". The deciphering work leans on the characteristics of this couple as expressed in the selected writings. While our time is defined by a "private space hyper-investment", as expressed by Gilles Deleuze, the house in the Quebec novels of the 2000's appears more as a location imprinted by the haunting, far from the reassuring image of the home sweet home as advertised in our society. Ghosts and wraiths invade this intimate space and become actors of the everyday life, revealing the profound unease of the occupants and the repression of a problematic past. The subject is therefore confronted to a "disturbing strangeness" in the heart of its home.

Roman contemporain québécois

Sociocritique

Sociogramme

Maison hantée

Spectralité

« Home sweet home »

Quebec contemporary novel

Sociocriticism

Sociogram

Haunted house

Spectrality

« Home sweet home »

Descascamento de frutas cítricas pelo uso do tratamento hidrotérmico / Peeling of citric fruits by using Hydrothermal Treatment

Pinheiro, Ana Luiza

16 May 2008

O processamento de citros se justifica pela dificuldade de descascamento destes frutos. Estudos de descascamento de laranja \'Pêra\' realizados na ESALQ-USP vêm mostrando o potencial do uso do tratamento hidrotérmico para facilitar o descascamento desta variedade. As laranjas são imersas em água a 50ºC por 8 minutos, isto facilita o descascamento e não afeta a qualidade da fruta. Entretanto, é necessário estudar outros tempos de imersão para flexibilizar o uso desta técnica em escala industrial, bem como estendê-la a outras variedades. O objetivo deste trabalho foi adequar a tecnologia de descascamento de frutas cítricas pelo uso do tratamento hidrotérmico, bem como avaliar sua influência na qualidade fisiológica, físico-química, microbiológica e sensorial de laranjas \'Pêra\', laranjas \'Valência\' e tangores \'Murcott\'. Também foram avaliados o tempo de descascamento, o rendimento em frutos comercializáveis e a temperatura interna dos frutos durante o tratamento. Os frutos foram lavados, sanitizados, resfriados a 5ºC por 12 horas, submetidos ao tratamento hidrotérmico e descascados. O tratamento hidrotérmico consistiu em colocar os frutos em banho-maria a 50ºC por 5 (somente para o tangor \'Murcott\'), 10, 15, 20, 25 e 30 minutos. Posteriormente, os frutos foram descascados retirando-se a parte peduncular com a faca e, em seguida, o flavedo foi retirado, manualmente, junto com o albedo. Os frutos sem tratamento hidrotérmico (controle) foram descascados retirando-se primeiramente o flavedo, e depois o albedo cuidadosamente para causar o mínimo de injúria possível. Os frutos foram analisados durante seis dias de armazenamento a 5ºC. Os experimentos foram conduzidos separadamente para cada fruta cítrica e de acordo com cada tipo de análise. Foram utilizados delineamentos inteiramente ao acaso e em blocos casualizados, adequados para cada variável analisada. O tratamento hidrotérmico provocou alterações na atividade respiratória dos frutos somente nas primeiras horas após o processamento. A temperatura interna dos frutos (medida a 2 cm de profundidade em relação ao epicarpo) após 30 minutos de tratamento atingiu aproximadamente 35ºC, temperatura comumente observada em algumas etapas da cadeia de comercialização dos frutos. A coloração externa das laranjas sem tratamento apresentou maior valor de luminosidade (L) quando comparadas às frutas tratadas. Não houve alterações nas outras características físico-químicas e nas características microbiológicas dos frutos. O tratamento não alterou o sabor e melhorou a aparência em relação aos frutos sem tratamento devido à ausência de resquícios de albedo nos frutos. Além disso, o tratamento diminuiu em até 78% o tempo de descascamento dos frutos tratados para a laranja \'Pêra\', em até 75% para a laranja \'Valência\' e em até 57% para o tangor \'Murcott\', quando comparados aos frutos sem tratamento, e aumentou o rendimento em frutos comercializáveis. O tratamento hidrotérmico realizado até 30 minutos a 50ºC pode ser utilizado como técnica de descascamento para laranja \'Pêra\', laranja \'Valência\' e tangor \'Murcott\'. / The citrus fruit processing is justified for the difficulty of peeling of these fruits. Studies of peeling of \'Pera\' sweet orange fruit accomplished at ESALQ-USP are showing the potential of the use of the hydrothermal treatment to facilitate the peeling of this variety. The oranges are immersed in hot water at 50ºC for 8 minutes. This process to make easy the peeling and it doesn\'t affect the quality of the fruit. However, it is necessary to study other immersion times to make flexible the use of this technique in industrial scale, as well as to extend it for other varieties. The purpose of this work was to adapt the technology of peeling of citric fruits for the use of the hydrothermal treatment, as well as to evaluate the influence of the hydrothermal treatment in the physiological, physicochemical, microbiologic and sensorial qualities of \'Pera\' sweet orange, \'Valencia\' sweet orange and \'Murcott\' tangor. The peeling time, the yield of marketable fruits and the internal fruit temperature were also evaluated during the treatment. Fruits were washed, sanitized, cooled at 5ºC for 12 hours, submitted to hydrothermal treatment and peeled. The hydrothermal treatment consisted of putting fruits in water-bath at 50ºC for 5 (only for \'Murcott\' tangor), 10, 15, 20, 25 and 30 minutes. Then, fruits were peeled by first opening a gap on the peduncular region with a knife and then, the flavedo was removed, manually, with the albedo. Fruits with no hydrothermal treatment (control) were peeled by first removing the flavedo and then, the albedo was removed carefully to cause the less of injuries possible. The fruits were analyzed for six days of storage at 5ºC. The experiments were carried out separately for each citric fruit and in agreement with each analysis type. The experimental designs used were completely randomized and in randomized blocks, appropriate for each analyzed variable. Hydrothermal treatment caused changes in respiratory activity just in first hours after treatment. Internal fruit temperature (evaluated at 2 cm depth in relation to the epicarp) after 30 minutes of treatment reached 35ºC approximately, temperature commonly observed in some stages of the commercialization\'s chain of the fruits. The external coloration of the oranges without treatment presented larger value of brightness (L) when compared to the treated fruits. There were no changes in the others physicochemicals and microbiologics characteristics of the fruits. The treatment did not change the flavor and it improved the appearance in relation to the fruits without treatment due to the lower albedo residue in the fruits. Besides, the treatment decreased in up to 78% the peeling time of the treated fruits for the \'Pera\' sweet orange, in up to 75% for the \'Valencia\' sweet orange and in up to 57% for the \'Murcott\' tangor, when compared to the fruits without treatment, and it increased the yield of marketable fruits. The hydrothermal treatment accomplished up to 30 minutes at 50ºC can be used as peeling technique for \'Pera\' sweet orange, \'Valencia\' sweet orange and \'Murcott\' tangor.

Aquecimento

Descascamento

Fresh-cut

Frutas cítricas

Heat

Processamento de alimentos

Qualidade dos alimentos.

Quality.

\'Murcott\' tangor

\'Pera\' sweet orange

\'Valencia\' sweet orange

Unconventional oil and natural gas supplies and the mitigation of climate change / Pétrole et gaz naturel non conventionnels et l'atténuation du changement climatique

Pougy, Roberto

30 June 2017

Cette thèse en économie de l'énergie et de l'environnement étend le modèle de Hotelling du type exploration-extraction avec contraintes géologiques d’Okullo, Reynes et Hofkes (2015), afin de prendre en compte des trajectoires en forme de cloche pour l’ajout de réserves empiriquement observées par Laherrère (2003). Le modèle LOGIMA proposé (Images à Long terme sur le Pétrole et le Gaz) explique qu’elles sont la conséquence de « sweet spots » géologiques : des zones privilégiées où la concentration d’hydrocarbures est la plus élevée. Le modèle LOGIMA a été calibré sur une base de données issues couvrant les sept principaux bassins de pétrole et de gaz non-conventionnels du pays. Les résultats indiquent que la nécessité d’apprentissage par la pratique pour découvrir l’emplacement des sweet spots conduit à une mise en œuvre d’un effort d’exploration également en forme de cloche, ce qui permet de réduire le risque des activités d’exploration. Par conséquent, la réponse en termes des volumes offerts par les producteurs à des chocs sur les prix dévient fonction de l’ensemble des ressources mondiales antérieurement découvertes. Ensuite, nous appliquons le modèle LOGIMA pour étudier l’impact causé par l’offre de pétrole et de gaz naturel « non-conventionnels » aux États-Unis, sur les efforts mondiaux d’atténuation du changement climatique. Nous y parvenons en associant les scénarios à long-terme générés par LOGIMA avec le modèle d’évaluation intégrée, IMACLIM-R. Cette étude analyse comment des différentes cibles de prix de pétrole affecteraient son offre aux États-Unis. Nous estimons cette interaction au moyen de trois cadres de politiques en matière de climat : le cadre « business as usual » (BAU), les contributions décidées à l’échelle nationale (NDC) et les scénarios de 2°C (2DS). Les résultats de l’exercice indiquent que les approvisionnements non-conventionnels sont fortement susceptibles d’affecter les marchés énergétiques mondiaux, mais leur impact sur les émissions mondiales de gaz à effet de serre serait limité, car les différents effets déclenchés dans des différents secteurs viendraient les équilibrer approximativement. / This thesis in energy and environmental economics extends the geological Hotelling-type extraction-exploration model from Okullo, Reynes and Hofkes (2015) in order to account for the bell-shaped reserve additions that were empirically observed by Laherrère (2003). The proposed model explains them as the result of geological “sweet spots”: premium areas within geological formations where the concentration of hydrocarbons is highest. The proposed theoretical formulation was programmed into the mathematical model LOGIMA – “Long-term Oil and Gas Images” – and calibrated on data covering the seven main unconventional oil and gas plays in the United States. Results indicate the need to learn the location of sweet spots through trial and error drillings leads to schedules of exploratory effort that allow the optimal “de-risking” of exploratory activities. As a result, the optimal response of producers to price shocks becomes contingent on the prevailing level of cumulative discoveries.We apply LOGIMA to investigate the impact, caused by the recent advent of large-scale supplies of unconventional oil and gas, in the United States, on the ongoing efforts to mitigate climate change. We do so by soft coupling long-term scenarios from LOGIMA with the integrated assessment model, IMACLIM-R, a recursive, computable general equilibrium model of integrated global energy, economy and environment systems. We analyze how different price targets, potentially pursued by the Organization of Petroleum Exporting Countries (OPEC), would affect supplies of unconventional oil and gas from the United States. We control this interplay under three climate policy frameworks: business as usual (BAU), nationally determined contributions (NDCs) and 2°C scenario (2DS). The results of the exercise show that, despite having a significant potential to affect global energy markets, unconventional oil and gas supplies would have a limited potential to affect global cumulative greenhouse gas emissions to 2040, as the different effects triggered in different sectors approximately balanced each other out.

Règle de Hotelling

Contraintes Géologiques

Sweet spots géologiques

Changement climatique

Hotelling Rule

Geological constraints

Geological sweet spots

Unconventional oil and gas

Climate change

Evaluation of selected sweetpotato (Ipomoea batatas) accessions for drought tolerance

Omotobora, Babajide Olusegun

06 1900

Sweetpotato (Ipomoea batatas) is a major staple food in Africa and the rest of the world where they are discovered to be a good source of carbohydrates, vitamin A, vitamin C and protein. The maximum production potential of the crop is being hampered by severe drought which ravages most parts of Africa. The main aim of this project therefore is to screen collected accessions of sweetpotatofor drought tolerance in a quick screening method with a view to identify cultivars that can perform well under water stress conditions. Fifty selected sweetpotato accessions consisting of cultivars and breeding lines collected from the ARC-VOPI gene bank were planted for drought screening in the glass house for 6 weeks during which water was withheld to induce stress. Observations were made on number of dead plants and days to wilting point, the results were analyzed and 12 best performing cultivars were selected for field trials. The field trial was carried out in Lwamondo, Thohoyandou for 6months under rain-fed conditions. The experiment was conducted in a complete randomized block design with 6 replicates.Yield data and growth parameters were collected every 8 weeks during the trial period and the data collected was analyzed using ANOVA. The best performing cultivars were Zapallo, Tacna, Ejumula, 2004-9-2 and Ndou. They were therefore recommended for further evaluation in other drought prone areas of the country. / Agriculture and  Animal Health / M. Sc. (Agriculture)

Sweetpotato

Drought tolerance

Dry matter

Yield

635.229120968257

Microusinas de etanol de batata-doce : viabilidade econômica e técnica

Masiero, Sara Scomazzon

January 2012

Fatores ambientais e econômicos impulsionam mundialmente a produção de biocombustíveis. No Brasil, o etanol, produzido da cana-de-açúcar, já é um biocombustível estabelecido e substitui ca. 40% da gasolina, representando 13% do total de energia necessária para transportes. Nesse cenário, o Rio Grande do Sul (RS) é um grande comprador de etanol, tendo produzido nos últimos anos apenas 2% do consumo estadual de etanol hidratado combustível. O estado também consome em média 600 milhões de litros de etanol anidro por ano, adicionados na proporção de 25% à gasolina comum, e, a partir de 2010, 460 milhões de litros de etanol por ano para a produção de polietileno verde. Essa conjuntura demonstra uma oportunidade para aumentar a produção local de etanol. O presente trabalho buscou primeiramente avaliar a viabilidade da produção de etanol no Rio Grande do Sul em um modelo de microusinas descentralizadas (ca. 1.000 L.dia-1). Para tanto, foram empregados os indicadores econômicos, como valor presente líquido, taxa interna de retorno de investimento e tempo de retorno de investimento. Foram comparados cenários que empregaram apenas cana-de-açúcar e combinações de cana-de-açúcar, sorgo sacarino, mandioca e batata-doce. A utilização de cana-de-açúcar sem o consórcio com outra cultura se mostrou inviável, exceto quando mais de 40% ou 80% da produção, para as produtividades de 80 e 50 t.ha-1 respectivamente, é destinada ao consumo próprio. Entre os cenários com combinação de culturas, aqueles que combinaram sorgo com cana-de-açúcar e sorgo com batata-doce foram os únicos que se mostraram viáveis quando toda a produção foi destina à venda para terceiros. Quando produtividades médias de cana-de-açúcar próximas a 80 t.ha-1 podem ser alcançadas, verificou-se que a combinação dessa cultura com sorgo sacarino apresentou o melhor potencial entre os cenários avaliados. Já para regiões onde esses valores não são atingidos, o consórcio de sorgo sacarino e batata-doce se mostrou a melhor opção. Posteriormente, foram realizados experimentos em shaker para estudar a influência da concentração de substrato e da proporção de enzima na hidrólise a frio da batata-doce, determinar o melhor pré-tratamento, verificar a necessidade de suplementação do meio e do controle de pH na condução das hidrólises e fermentações simultâneas e finalmente testar a melhor condição em biorreator. Para hidrolisar o amido, empregou a mistura de enzimas Stargen™ 002 e, para suplementar o meio, o fertilizante NITROFOS KL. Em todos os experimentos, usou-se a cultivar BRS Cuia, cuja caracterização indicou teor de carboidratos de 28,7%, possibilitando a produção de 185 L.t-1 de etanol e 7.400 L. ha-1. A metodologia de superfície de resposta indicou a condição 200 g.L-1 de batata-doce e 45 GAU.g de batata–doce-1 como a que apresentou o melhor compromisso entre alta taxa de formação de glicose na primeira hora (8,3 g.L-1.h-1) e baixo consumo de enzimas. O pré-tratamento de uma hora que levou a maior concentração de glicose (14,3 g.L-1) foi na temperatura de 52°C na presença da mistura de enzimas. O estudo da hidrólise e fermentação simultâneas mostrou que a suplementação do meio não apresenta influência significativa, enquanto o controle de pH aumentou em aproximadamente 40% a produção de etanol. Os testes em biorreator reproduziram os resultados anteriores mesmo sendo realizados em ambiente semiestéril, que se aproxima da condição industrial. / In Brazil, sugarcane ethanol is already a reality as a biofuel and replaces 40% of gasoline, meaning 13% of energy for transportation. In this scenario, Rio Grande do Sul has produced only 2% of the annual demand for hydrate ethanol in the last years; therefore it is a big importer of ethanol from other states. Additionally, it consumes every year 600 million liters of anhydrous ethanol mixed in the gasoline and 460 million liters for production of green plastic. These numbers highlight the opportunity of producing ethanol locally. In regard to these facts, the present work aimed to evaluate the feasibility of producing ethanol in small scale plants (ca. 1 000 L.dia-1) in Rio Grande do Sul. For this purpose, economic indicators, such as net present value, internal rate of return and payback period were employed. The compared scenarios involved combinations of sugar cane, sweet sorghum, cassava and sweet potato. When only sugarcane was used, the scenarios for 80 and 50 t.ha-1 were unfeasible if less than 40% or 80% of the production, respectively, was used by the own producer. Regarding the scenarios with mix of crops, the mix of sweet sorghum with sugar cane and sweet sorghum with sweet potato presented the best performances. For regions, where 80 t.ha-1 of sugar cane productivity can be achieved, it was verified that the first combination leads to the best result. For other regions, the combination of sweet sorghum and sweet potato presented itself as the more feasible scenario. As a consequence, in the second part of this work, the cold hydrolysis and fermentation of sweet potato was experimentally studied. For that, it was employed the sweet potato strain BRS Cuia, whose carbohydrate level reaches 28,7%. What it can be translated into a potential to produce 185 L.t-1 ethanol, or equivalently 7 400 L. ha-1. The enzymes blend adopted for the hydrolysis stage was Stargen™ 002, while the fertilizer NITROFOS KL was used for fermentation medium supplementation. The surface response method indicated 200 g.L-1 of sweet potato and 45 GAU.g of sweet potato-1 as the best balance between high glucose formation rate in the first hour (8,3 g.L-1.h-1) and low enzyme consume. The one hour pre-treatment that achieved the highest glucose concentration (14,3 g.L-1) was at 52°C in the presence of the enzymes blend. The study of the simultaneous hydrolysis and fermentation showed that the medium supplementation has no significant effect over the fermentation performance, while the pH control is beneficial, improving the ethanol production in 40%. Finally, the tests in bioreactor could reproduce the previous results, even though the experiments were carried out non-sterilely.

Viabilidade econômica

Biocombustíveis

Batata doce

Etanol

Ethanol production

Sweet sorghum

Cassava

Sweet potato

Economic feasibility

Hydrolysis of granular starch

Stargen™ 002

Simultaneous hydrolysis

Fermentation

Microusinas de etanol de batata-doce : viabilidade econômica e técnica

Masiero, Sara Scomazzon

January 2012

Fatores ambientais e econômicos impulsionam mundialmente a produção de biocombustíveis. No Brasil, o etanol, produzido da cana-de-açúcar, já é um biocombustível estabelecido e substitui ca. 40% da gasolina, representando 13% do total de energia necessária para transportes. Nesse cenário, o Rio Grande do Sul (RS) é um grande comprador de etanol, tendo produzido nos últimos anos apenas 2% do consumo estadual de etanol hidratado combustível. O estado também consome em média 600 milhões de litros de etanol anidro por ano, adicionados na proporção de 25% à gasolina comum, e, a partir de 2010, 460 milhões de litros de etanol por ano para a produção de polietileno verde. Essa conjuntura demonstra uma oportunidade para aumentar a produção local de etanol. O presente trabalho buscou primeiramente avaliar a viabilidade da produção de etanol no Rio Grande do Sul em um modelo de microusinas descentralizadas (ca. 1.000 L.dia-1). Para tanto, foram empregados os indicadores econômicos, como valor presente líquido, taxa interna de retorno de investimento e tempo de retorno de investimento. Foram comparados cenários que empregaram apenas cana-de-açúcar e combinações de cana-de-açúcar, sorgo sacarino, mandioca e batata-doce. A utilização de cana-de-açúcar sem o consórcio com outra cultura se mostrou inviável, exceto quando mais de 40% ou 80% da produção, para as produtividades de 80 e 50 t.ha-1 respectivamente, é destinada ao consumo próprio. Entre os cenários com combinação de culturas, aqueles que combinaram sorgo com cana-de-açúcar e sorgo com batata-doce foram os únicos que se mostraram viáveis quando toda a produção foi destina à venda para terceiros. Quando produtividades médias de cana-de-açúcar próximas a 80 t.ha-1 podem ser alcançadas, verificou-se que a combinação dessa cultura com sorgo sacarino apresentou o melhor potencial entre os cenários avaliados. Já para regiões onde esses valores não são atingidos, o consórcio de sorgo sacarino e batata-doce se mostrou a melhor opção. Posteriormente, foram realizados experimentos em shaker para estudar a influência da concentração de substrato e da proporção de enzima na hidrólise a frio da batata-doce, determinar o melhor pré-tratamento, verificar a necessidade de suplementação do meio e do controle de pH na condução das hidrólises e fermentações simultâneas e finalmente testar a melhor condição em biorreator. Para hidrolisar o amido, empregou a mistura de enzimas Stargen™ 002 e, para suplementar o meio, o fertilizante NITROFOS KL. Em todos os experimentos, usou-se a cultivar BRS Cuia, cuja caracterização indicou teor de carboidratos de 28,7%, possibilitando a produção de 185 L.t-1 de etanol e 7.400 L. ha-1. A metodologia de superfície de resposta indicou a condição 200 g.L-1 de batata-doce e 45 GAU.g de batata–doce-1 como a que apresentou o melhor compromisso entre alta taxa de formação de glicose na primeira hora (8,3 g.L-1.h-1) e baixo consumo de enzimas. O pré-tratamento de uma hora que levou a maior concentração de glicose (14,3 g.L-1) foi na temperatura de 52°C na presença da mistura de enzimas. O estudo da hidrólise e fermentação simultâneas mostrou que a suplementação do meio não apresenta influência significativa, enquanto o controle de pH aumentou em aproximadamente 40% a produção de etanol. Os testes em biorreator reproduziram os resultados anteriores mesmo sendo realizados em ambiente semiestéril, que se aproxima da condição industrial. / In Brazil, sugarcane ethanol is already a reality as a biofuel and replaces 40% of gasoline, meaning 13% of energy for transportation. In this scenario, Rio Grande do Sul has produced only 2% of the annual demand for hydrate ethanol in the last years; therefore it is a big importer of ethanol from other states. Additionally, it consumes every year 600 million liters of anhydrous ethanol mixed in the gasoline and 460 million liters for production of green plastic. These numbers highlight the opportunity of producing ethanol locally. In regard to these facts, the present work aimed to evaluate the feasibility of producing ethanol in small scale plants (ca. 1 000 L.dia-1) in Rio Grande do Sul. For this purpose, economic indicators, such as net present value, internal rate of return and payback period were employed. The compared scenarios involved combinations of sugar cane, sweet sorghum, cassava and sweet potato. When only sugarcane was used, the scenarios for 80 and 50 t.ha-1 were unfeasible if less than 40% or 80% of the production, respectively, was used by the own producer. Regarding the scenarios with mix of crops, the mix of sweet sorghum with sugar cane and sweet sorghum with sweet potato presented the best performances. For regions, where 80 t.ha-1 of sugar cane productivity can be achieved, it was verified that the first combination leads to the best result. For other regions, the combination of sweet sorghum and sweet potato presented itself as the more feasible scenario. As a consequence, in the second part of this work, the cold hydrolysis and fermentation of sweet potato was experimentally studied. For that, it was employed the sweet potato strain BRS Cuia, whose carbohydrate level reaches 28,7%. What it can be translated into a potential to produce 185 L.t-1 ethanol, or equivalently 7 400 L. ha-1. The enzymes blend adopted for the hydrolysis stage was Stargen™ 002, while the fertilizer NITROFOS KL was used for fermentation medium supplementation. The surface response method indicated 200 g.L-1 of sweet potato and 45 GAU.g of sweet potato-1 as the best balance between high glucose formation rate in the first hour (8,3 g.L-1.h-1) and low enzyme consume. The one hour pre-treatment that achieved the highest glucose concentration (14,3 g.L-1) was at 52°C in the presence of the enzymes blend. The study of the simultaneous hydrolysis and fermentation showed that the medium supplementation has no significant effect over the fermentation performance, while the pH control is beneficial, improving the ethanol production in 40%. Finally, the tests in bioreactor could reproduce the previous results, even though the experiments were carried out non-sterilely.

Viabilidade econômica

Biocombustíveis

Batata doce

Etanol

Ethanol production

Sweet sorghum

Cassava

Sweet potato

Economic feasibility

Hydrolysis of granular starch

Stargen™ 002

Simultaneous hydrolysis

Fermentation

Microusinas de etanol de batata-doce : viabilidade econômica e técnica

Masiero, Sara Scomazzon

January 2012

Fatores ambientais e econômicos impulsionam mundialmente a produção de biocombustíveis. No Brasil, o etanol, produzido da cana-de-açúcar, já é um biocombustível estabelecido e substitui ca. 40% da gasolina, representando 13% do total de energia necessária para transportes. Nesse cenário, o Rio Grande do Sul (RS) é um grande comprador de etanol, tendo produzido nos últimos anos apenas 2% do consumo estadual de etanol hidratado combustível. O estado também consome em média 600 milhões de litros de etanol anidro por ano, adicionados na proporção de 25% à gasolina comum, e, a partir de 2010, 460 milhões de litros de etanol por ano para a produção de polietileno verde. Essa conjuntura demonstra uma oportunidade para aumentar a produção local de etanol. O presente trabalho buscou primeiramente avaliar a viabilidade da produção de etanol no Rio Grande do Sul em um modelo de microusinas descentralizadas (ca. 1.000 L.dia-1). Para tanto, foram empregados os indicadores econômicos, como valor presente líquido, taxa interna de retorno de investimento e tempo de retorno de investimento. Foram comparados cenários que empregaram apenas cana-de-açúcar e combinações de cana-de-açúcar, sorgo sacarino, mandioca e batata-doce. A utilização de cana-de-açúcar sem o consórcio com outra cultura se mostrou inviável, exceto quando mais de 40% ou 80% da produção, para as produtividades de 80 e 50 t.ha-1 respectivamente, é destinada ao consumo próprio. Entre os cenários com combinação de culturas, aqueles que combinaram sorgo com cana-de-açúcar e sorgo com batata-doce foram os únicos que se mostraram viáveis quando toda a produção foi destina à venda para terceiros. Quando produtividades médias de cana-de-açúcar próximas a 80 t.ha-1 podem ser alcançadas, verificou-se que a combinação dessa cultura com sorgo sacarino apresentou o melhor potencial entre os cenários avaliados. Já para regiões onde esses valores não são atingidos, o consórcio de sorgo sacarino e batata-doce se mostrou a melhor opção. Posteriormente, foram realizados experimentos em shaker para estudar a influência da concentração de substrato e da proporção de enzima na hidrólise a frio da batata-doce, determinar o melhor pré-tratamento, verificar a necessidade de suplementação do meio e do controle de pH na condução das hidrólises e fermentações simultâneas e finalmente testar a melhor condição em biorreator. Para hidrolisar o amido, empregou a mistura de enzimas Stargen™ 002 e, para suplementar o meio, o fertilizante NITROFOS KL. Em todos os experimentos, usou-se a cultivar BRS Cuia, cuja caracterização indicou teor de carboidratos de 28,7%, possibilitando a produção de 185 L.t-1 de etanol e 7.400 L. ha-1. A metodologia de superfície de resposta indicou a condição 200 g.L-1 de batata-doce e 45 GAU.g de batata–doce-1 como a que apresentou o melhor compromisso entre alta taxa de formação de glicose na primeira hora (8,3 g.L-1.h-1) e baixo consumo de enzimas. O pré-tratamento de uma hora que levou a maior concentração de glicose (14,3 g.L-1) foi na temperatura de 52°C na presença da mistura de enzimas. O estudo da hidrólise e fermentação simultâneas mostrou que a suplementação do meio não apresenta influência significativa, enquanto o controle de pH aumentou em aproximadamente 40% a produção de etanol. Os testes em biorreator reproduziram os resultados anteriores mesmo sendo realizados em ambiente semiestéril, que se aproxima da condição industrial. / In Brazil, sugarcane ethanol is already a reality as a biofuel and replaces 40% of gasoline, meaning 13% of energy for transportation. In this scenario, Rio Grande do Sul has produced only 2% of the annual demand for hydrate ethanol in the last years; therefore it is a big importer of ethanol from other states. Additionally, it consumes every year 600 million liters of anhydrous ethanol mixed in the gasoline and 460 million liters for production of green plastic. These numbers highlight the opportunity of producing ethanol locally. In regard to these facts, the present work aimed to evaluate the feasibility of producing ethanol in small scale plants (ca. 1 000 L.dia-1) in Rio Grande do Sul. For this purpose, economic indicators, such as net present value, internal rate of return and payback period were employed. The compared scenarios involved combinations of sugar cane, sweet sorghum, cassava and sweet potato. When only sugarcane was used, the scenarios for 80 and 50 t.ha-1 were unfeasible if less than 40% or 80% of the production, respectively, was used by the own producer. Regarding the scenarios with mix of crops, the mix of sweet sorghum with sugar cane and sweet sorghum with sweet potato presented the best performances. For regions, where 80 t.ha-1 of sugar cane productivity can be achieved, it was verified that the first combination leads to the best result. For other regions, the combination of sweet sorghum and sweet potato presented itself as the more feasible scenario. As a consequence, in the second part of this work, the cold hydrolysis and fermentation of sweet potato was experimentally studied. For that, it was employed the sweet potato strain BRS Cuia, whose carbohydrate level reaches 28,7%. What it can be translated into a potential to produce 185 L.t-1 ethanol, or equivalently 7 400 L. ha-1. The enzymes blend adopted for the hydrolysis stage was Stargen™ 002, while the fertilizer NITROFOS KL was used for fermentation medium supplementation. The surface response method indicated 200 g.L-1 of sweet potato and 45 GAU.g of sweet potato-1 as the best balance between high glucose formation rate in the first hour (8,3 g.L-1.h-1) and low enzyme consume. The one hour pre-treatment that achieved the highest glucose concentration (14,3 g.L-1) was at 52°C in the presence of the enzymes blend. The study of the simultaneous hydrolysis and fermentation showed that the medium supplementation has no significant effect over the fermentation performance, while the pH control is beneficial, improving the ethanol production in 40%. Finally, the tests in bioreactor could reproduce the previous results, even though the experiments were carried out non-sterilely.

Viabilidade econômica

Biocombustíveis

Batata doce

Etanol

Ethanol production

Sweet sorghum

Cassava

Sweet potato

Economic feasibility

Hydrolysis of granular starch

Stargen™ 002

Simultaneous hydrolysis

Fermentation

Diversidade morfológica, agronômica e potencial para produção de etanol de germoplasma de batata-doce

Alves, Rodrigo Pereira

24 February 2014

The sweet potato (Ipomoea batatas L.) is a dicotyledonous species of Convolvulaceae family, cultivated worldwide, with a low production cost and high economic return. Can be utilized in food and feed and ethanol production. The present study aimed, morphological, agronomic and biochemical characterization of sweet potato from the Active Germplasm Bank of UFS access. The experiment was conducted at the Experimental Farm " Rural Campus " UFS, located in the municipality of São Cristóvão - SE, using a randomized block design with 73 treatments (accessions of sweet potato), and two repetitions. In morpho-agronomic characterization it was found that descriptors sheet provided the variability among accessions. It was also observed that most accessions showed resistance to soil insects. The fresh and dry weight of shoots showed results ranging from 0,45 t ha-1 to 12,16 t ha-1 and 0,17 t ha-1 to 2,71 t ha-1, respectively. For total root yield variable, the values ranged from 1,20 to 10,89 t ha-1. The accessions showed excellent results for the dry root mass averaging 30,77 %. The starch content varied between 11,56 and 27,07 % , the yield of starch per hectare ranged from 0,30 to 2,39 t ha-1 and amylose content showed values between 11,57 to 32,72 %. While the ethanol yield in L ha-1 ranged from 198-1576 L h-1, the ethanol yield on L t-1 had an average of 142,67 L t-1. The results showed that the Active Germplasm Bank of UFS presents a wide phenotypic and genotypic variability, with different skills. / A batata-doce (Ipomoea batatas L.) é uma espécie dicotiledônea da família Convolvulaceae, cultivada em todo o mundo, apresentando um baixo custo de produção e retorno econômico elevado. Pode ser aproveitada na alimentação humana e animal e na produção de etanol. O presente trabalho teve como objetivo, a caracterização morfológica, agronômica e bioquímica de acessos de batata-doce do Banco Ativo de Germoplasma da UFS. O experimento foi conduzido na Fazenda Experimental Campus Rural da UFS, localizada no município de São Cristovão SE, utilizando o delineamento em blocos casualizados, com 73 tratamentos (acessos de batata-doce), e duas repetições. Na caracterização morfo-agronômica verificou-se que os descritores de folha proporcionaram a variabilidade entre os acessos. Observou-se também que a maioria dos acessos apresentou resistência a insetos de solo. A massa fresca e seca de parte aérea apresentou resultados variando de 0,45 t ha-1 a 12,16 t ha-1 e 0,17 t ha-1 a 2,71 t ha-1, respectivamente. Para a variável produtividade total de raízes, os valores variaram de 1,20 a 10,89 t ha-1. Os acessos demonstraram resultados excelentes para o teor de massa seca de raiz com média de 30,77%. O teor de amido variou entre 11,56 e 27,07%, o rendimento de amido por hectare ficou entre 0,30 a 2,39 t ha-1 e o teor de amilose apresentou valores entre 11,57 a 32,72 %. Enquanto que o rendimento de etanol em L ha-1 variou entre 198 a 1.576 L ha-1, o rendimento de etanol em L t-1 apresentou média de 142,67 L t-1. Os resultados mostraram que o Banco Ativo de Germoplasma da UFS apresenta uma grande variabilidade fenotípica e genotípica, com diferentes aptidões.

Batata-doce

Álcool

Batata-doce

Produtividade agrícola

Amido

Ipomoea

Descritor molecular

Amilose

Etanol

Morfologia vegetal

Agricultural productivity

Alcohol

Morphology

Sweet potatoes

Sweet potatoes

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

Descascamento de frutas cítricas pelo uso do tratamento hidrotérmico / Peeling of citric fruits by using Hydrothermal Treatment

Ana Luiza Pinheiro

16 May 2008

O processamento de citros se justifica pela dificuldade de descascamento destes frutos. Estudos de descascamento de laranja \'Pêra\' realizados na ESALQ-USP vêm mostrando o potencial do uso do tratamento hidrotérmico para facilitar o descascamento desta variedade. As laranjas são imersas em água a 50ºC por 8 minutos, isto facilita o descascamento e não afeta a qualidade da fruta. Entretanto, é necessário estudar outros tempos de imersão para flexibilizar o uso desta técnica em escala industrial, bem como estendê-la a outras variedades. O objetivo deste trabalho foi adequar a tecnologia de descascamento de frutas cítricas pelo uso do tratamento hidrotérmico, bem como avaliar sua influência na qualidade fisiológica, físico-química, microbiológica e sensorial de laranjas \'Pêra\', laranjas \'Valência\' e tangores \'Murcott\'. Também foram avaliados o tempo de descascamento, o rendimento em frutos comercializáveis e a temperatura interna dos frutos durante o tratamento. Os frutos foram lavados, sanitizados, resfriados a 5ºC por 12 horas, submetidos ao tratamento hidrotérmico e descascados. O tratamento hidrotérmico consistiu em colocar os frutos em banho-maria a 50ºC por 5 (somente para o tangor \'Murcott\'), 10, 15, 20, 25 e 30 minutos. Posteriormente, os frutos foram descascados retirando-se a parte peduncular com a faca e, em seguida, o flavedo foi retirado, manualmente, junto com o albedo. Os frutos sem tratamento hidrotérmico (controle) foram descascados retirando-se primeiramente o flavedo, e depois o albedo cuidadosamente para causar o mínimo de injúria possível. Os frutos foram analisados durante seis dias de armazenamento a 5ºC. Os experimentos foram conduzidos separadamente para cada fruta cítrica e de acordo com cada tipo de análise. Foram utilizados delineamentos inteiramente ao acaso e em blocos casualizados, adequados para cada variável analisada. O tratamento hidrotérmico provocou alterações na atividade respiratória dos frutos somente nas primeiras horas após o processamento. A temperatura interna dos frutos (medida a 2 cm de profundidade em relação ao epicarpo) após 30 minutos de tratamento atingiu aproximadamente 35ºC, temperatura comumente observada em algumas etapas da cadeia de comercialização dos frutos. A coloração externa das laranjas sem tratamento apresentou maior valor de luminosidade (L) quando comparadas às frutas tratadas. Não houve alterações nas outras características físico-químicas e nas características microbiológicas dos frutos. O tratamento não alterou o sabor e melhorou a aparência em relação aos frutos sem tratamento devido à ausência de resquícios de albedo nos frutos. Além disso, o tratamento diminuiu em até 78% o tempo de descascamento dos frutos tratados para a laranja \'Pêra\', em até 75% para a laranja \'Valência\' e em até 57% para o tangor \'Murcott\', quando comparados aos frutos sem tratamento, e aumentou o rendimento em frutos comercializáveis. O tratamento hidrotérmico realizado até 30 minutos a 50ºC pode ser utilizado como técnica de descascamento para laranja \'Pêra\', laranja \'Valência\' e tangor \'Murcott\'. / The citrus fruit processing is justified for the difficulty of peeling of these fruits. Studies of peeling of \'Pera\' sweet orange fruit accomplished at ESALQ-USP are showing the potential of the use of the hydrothermal treatment to facilitate the peeling of this variety. The oranges are immersed in hot water at 50ºC for 8 minutes. This process to make easy the peeling and it doesn\'t affect the quality of the fruit. However, it is necessary to study other immersion times to make flexible the use of this technique in industrial scale, as well as to extend it for other varieties. The purpose of this work was to adapt the technology of peeling of citric fruits for the use of the hydrothermal treatment, as well as to evaluate the influence of the hydrothermal treatment in the physiological, physicochemical, microbiologic and sensorial qualities of \'Pera\' sweet orange, \'Valencia\' sweet orange and \'Murcott\' tangor. The peeling time, the yield of marketable fruits and the internal fruit temperature were also evaluated during the treatment. Fruits were washed, sanitized, cooled at 5ºC for 12 hours, submitted to hydrothermal treatment and peeled. The hydrothermal treatment consisted of putting fruits in water-bath at 50ºC for 5 (only for \'Murcott\' tangor), 10, 15, 20, 25 and 30 minutes. Then, fruits were peeled by first opening a gap on the peduncular region with a knife and then, the flavedo was removed, manually, with the albedo. Fruits with no hydrothermal treatment (control) were peeled by first removing the flavedo and then, the albedo was removed carefully to cause the less of injuries possible. The fruits were analyzed for six days of storage at 5ºC. The experiments were carried out separately for each citric fruit and in agreement with each analysis type. The experimental designs used were completely randomized and in randomized blocks, appropriate for each analyzed variable. Hydrothermal treatment caused changes in respiratory activity just in first hours after treatment. Internal fruit temperature (evaluated at 2 cm depth in relation to the epicarp) after 30 minutes of treatment reached 35ºC approximately, temperature commonly observed in some stages of the commercialization\'s chain of the fruits. The external coloration of the oranges without treatment presented larger value of brightness (L) when compared to the treated fruits. There were no changes in the others physicochemicals and microbiologics characteristics of the fruits. The treatment did not change the flavor and it improved the appearance in relation to the fruits without treatment due to the lower albedo residue in the fruits. Besides, the treatment decreased in up to 78% the peeling time of the treated fruits for the \'Pera\' sweet orange, in up to 75% for the \'Valencia\' sweet orange and in up to 57% for the \'Murcott\' tangor, when compared to the fruits without treatment, and it increased the yield of marketable fruits. The hydrothermal treatment accomplished up to 30 minutes at 50ºC can be used as peeling technique for \'Pera\' sweet orange, \'Valencia\' sweet orange and \'Murcott\' tangor.

Aquecimento

Descascamento

Frutas cítricas

Processamento de alimentos

Qualidade dos alimentos.

Fresh-cut

Heat

Quality.

\'Murcott\' tangor

\'Pera\' sweet orange

\'Valencia\' sweet orange

Variation B-carotene content and physicochemical properties of orange-fleshed sweet potato (Ipomoea batatas (L.) Lam) cultivars grown in Limpopo Province, South Africa

Silungwe, Henry

18 September 2017

PhD (Agric) (Food Science and Technology) / Department Food Science and Technology / In recent years, there has been a lot of interest in orange fleshed sweet potato (OFSP) [Ipomoea batatas (L.) Lam] cultivar, as a cheaper source of vitamin A. In Southern Africa, reports have shown that one in every three children has deficiency in vitamin A. This study investigated the variations in β-carotene (vitamin A precursor) content among selected OFSP cultivars grown in Limpopo Province, South Africa. In addition, the study investigated the effects of location on functional properties, total carotenoids and antioxidant profile of the sweet potato flour as well as their physicochemical, functional and nutritional properties. Four (4) sweet potato cultivars [Dagga, Bophelo, Impilo (orange fleshed) and Mvuvhelo (cream fleshed)] were obtained from two locations, namely, University of Venda (Univen) agricultural experimental farm and Tshiombo irrigation scheme (Tshiombo) and analysed for pasting, functional, physicochemical and nutritional properties. The sweet potato flours from these two locations were also analysed by computed tomographic (CT) scans for flour particle density. Mineral and microstructure of OFSP flours were analysed by scanning electron microscope (SEM). All measurements, except the tristimulus L* a* b* and other colour parameters from five replicates, were performed in triplicate. Statistical analysis was performed using a one-way analysis of variance and means were separated using Duncan’s multiple range test; P < 0.05 was considered to be statistically significant. Pearson’s correlation coefficients were used to determine the correlation among functional, physicochemical, nutritional and pasting properties of sweet potato flour. β-carotene content varied significantly between the two locations from 70.98 ± 0.8 μg/g (Tshiombo) to 86.09 ± 2.0 μg/g (Univen), among cultivars from 1.71 ± 0.0 μg/g (Mvuvhelo) to 201.50 ± 1.0 μg/g (Dagga) and among orange fleshed (Dagga, Bophelo and Impilo) flours from 28.38 ± 0.2 μg/g (Impilo) to 201.50 ± 1.0 μg/g (Dagga). There was a similar trend in the contents of α-carotene to that of β-carotene from the two locations, which ranged from 0.63 ± 0.0 mol/L (Tshiombo) to 1.01 ± 0.0 mol/L (Univen). Mvuvhelo had significantly the lowest α-carotene content (0.50 ± 0.0 mol/L) and Impilo the highest (1.28 ± 0.0 mol/L). The total carotenoids was highest for Impilo (7.56 μg/g) and lowest for Mvuvhelo (1.33 ± 0.1 μg/g) but did not vary significantly (P > 0.05) between ii the locations. The antioxidant activity, based on 2, 2-diphenyl-1picrylhydrazyl (DPPH) free radical scavenging activity, was significantly highest in Bophelo (63.37 ± 0.8 mMAAE ml-1) and lowest in Dagga (26.93 ± 1.4 mMAAE ml-1) flours. The ferric reducing antioxidant power (FRAP) varied significantly across the locations and among the cultivars and ranged from 14.45 ± 0.3 μMTE ml-1 (Tshiombo) to 17.40 ± 1.1 μMTE ml-1 (Univen). FRAP was significantly highest in Impilo (21.12 ± 2.1 μMTE ml-1) and lowest in Mvuvhelo (8.16 ± 2.0 μMTE ml-1). Total carotenoid content positively correlated with DPPH (0.486*), FRAP (0.830**), β-carotene (0.370*), and α-carotene (0.424*). The antioxidant content and the radical scavenging activity were significantly correlated (0.563**). Vitamin A content was significantly lowest (6.88 ± 0.38 μg/g retinol) in Dagga flour and highest (7.97 ± 0.25 μg/g) in Impilo flour. Protein content varied significantly across the two locations and ranged from 4.23% (Tshiombo) to 7.16% (Univen). Dagga had significantly the lowest (3.47%) protein content while Impilo had the highest (7.53%). The fat content of the flours varied significantly between the two locations ranging from 0.63% (Tshiombo) to 1.01% (Univen). The protein content was positively correlated 0.594** and 0.421* to vitamin A and fat contents respectively. The Bophelo colour luminosity was significantly lower (L* 76.2) than the other two OFSP, Dagga (L* 83.51) and Impilo (L* 82.07). Bophelo a* (14.09) also differed significantly across all sweet potato cultivars. All cultivars differed significantly in b* values. Colour intensity (ΔE*) ranged from 15.87 to 38.48 for Mvuvhelo and Bophelo, respectively. Chroma ranged from 87.52 to 84.95 for Dagga and Mvuvhelo respectively. Total starch content was significantly different in all sweet potato cultivars and ranged from 244.07 μg/100 g (Bophelo) to 325.04 mg/g (Dagga). Resistant starch differed significantly in all sweet potato cultivars ranging from 1.21 μg/100 g dwb (Bophelo) to 7.07 μg/100 g dwb (Impilo). Ash content was significantly different in all cultivars and ranged from 3.17% (Dagga) to 3.79% (Bophelo). Water holding capacity (WHC) varied significantly across the two locations and ranged from 1.44 g H2O/g DM (Tshiombo) to 1.72 g H2O/g DM (Univen). Bophelo had significantly the lowest (1.27 g H2O/g DM) WHC and Impilo the highest (1.99 g H2O/g DM). The ash content negatively correlated to total starch (-0.928**) but positively iii correlated to WHC (0.654**). Peak viscosity differed significantly across all cultivars under study and ranged from 126.54 RVU (Bophelo) to 302.36 RVU. (Dagga). There was significant difference in trough viscosity across all cultivars ranging from 55.97 RVU (Impilo) to 280.78 RVU (Dagga). There were significant differences in the final viscosity across all cultivars ranging from 78.99 RVU (Impilo) to 319.26 (Dagga). Peak time viscosity varied significantly across all cultivars ranging from 3.87 min (Impilo) to 8.47 min. (Bophelo). Dagga cultivar had significantly the highest pasting temperature (94.16oC) and Bophelo the lowest (77.75oC). The setback viscosity was significantly highest 51.10 RVU (Mvuvhelo) and lowest 23.01 RVU (Impilo). All cultivars from the two locations consistently showed high potassium content ranging from 0.46% (Impilo) to 1.38% (Dagga) as compared to other minerals such as magnesium, calcium and chlorine which ranged from 0.16% (Impilo) to 0.34%. (Dagga). The CT scans revealed that there was a possibility of evaluating the effect of location on the density of granules of sweet potato flour and also the inherent differences in granular distribution of various sweet potato cultivars. SEM revealed high amounts of potassium, magnesium and chlorine. A profile of physicochemical and functional properties of flour of some of the OFSP cultivars produced in Limpopo province, South Africa has been drawn. This study also highlights the nutritional quality of the flour from four sweet potato cultivars and provides a ranking of flour to help the producers in the selection process. Bophelo flour was ranked the highest in terms of β- and, α-carotenes, total carotenoids and antioxidant capacity while Impilo was ranked highest in terms of functional properties and ash content. This study has highlighted significant differences in a number of parameters measured among the sweet potato cultivars. Therefore, in order to derive the maximum benefit from aIn recent years, there has been a lot of interest in orange fleshed sweet potato (OFSP) [Ipomoea batatas (L.) Lam] cultivar, as a cheaper source of vitamin A. In Southern Africa, reports have shown that one in every three children has deficiency in vitamin A. This study investigated the variations in β-carotene (vitamin A precursor) content among selected OFSP cultivars grown in Limpopo Province, South Africa. In addition, the study investigated the effects of location on functional properties, total carotenoids and antioxidant profile of the sweet potato flour as well as their physicochemical, functional and nutritional properties. Four (4) sweet potato cultivars [Dagga, Bophelo, Impilo (orange fleshed) and Mvuvhelo (cream fleshed)] were obtained from two locations, namely, University of Venda (Univen) agricultural experimental farm and Tshiombo irrigation scheme (Tshiombo) and analysed for pasting, functional, physicochemical and nutritional properties. The sweet potato flours from these two locations were also analysed by computed tomographic (CT) scans for flour particle density. Mineral and microstructure of OFSP flours were analysed by scanning electron microscope (SEM). All measurements, except the tristimulus L* a* b* and other colour parameters from five replicates, were performed in triplicate. Statistical analysis was performed using a one-way analysis of variance and means were separated using Duncan’s multiple range test; P < 0.05 was considered to be statistically significant. Pearson’s correlation coefficients were used to determine the correlation among functional, physicochemical, nutritional and pasting properties of sweet potato flour. β-carotene content varied significantly between the two locations from 70.98 ± 0.8 μg/g (Tshiombo) to 86.09 ± 2.0 μg/g (Univen), among cultivars from 1.71 ± 0.0 μg/g (Mvuvhelo) to 201.50 ± 1.0 μg/g (Dagga) and among orange fleshed (Dagga, Bophelo and Impilo) flours from 28.38 ± 0.2 μg/g (Impilo) to 201.50 ± 1.0 μg/g (Dagga). There was a similar trend in the contents of α-carotene to that of β-carotene from the two locations, which ranged from 0.63 ± 0.0 mol/L (Tshiombo) to 1.01 ± 0.0 mol/L (Univen). Mvuvhelo had significantly the lowest α-carotene content (0.50 ± 0.0 mol/L) and Impilo the highest (1.28 ± 0.0 mol/L). The total carotenoids was highest for Impilo (7.56 μg/g) and lowest for Mvuvhelo (1.33 ± 0.1 μg/g) but did not vary significantly (P > 0.05) between ii the locations. The antioxidant activity, based on 2, 2-diphenyl-1picrylhydrazyl (DPPH) free radical scavenging activity, was significantly highest in Bophelo (63.37 ± 0.8 mMAAE ml-1) and lowest in Dagga (26.93 ± 1.4 mMAAE ml-1) flours. The ferric reducing antioxidant power (FRAP) varied significantly across the locations and among the cultivars and ranged from 14.45 ± 0.3 μMTE ml-1 (Tshiombo) to 17.40 ± 1.1 μMTE ml-1 (Univen). FRAP was significantly highest in Impilo (21.12 ± 2.1 μMTE ml-1) and lowest in Mvuvhelo (8.16 ± 2.0 μMTE ml-1). Total carotenoid content positively correlated with DPPH (0.486*), FRAP (0.830**), β-carotene (0.370*), and α-carotene (0.424*). The antioxidant content and the radical scavenging activity were significantly correlated (0.563**). Vitamin A content was significantly lowest (6.88 ± 0.38 μg/g retinol) in Dagga flour and highest (7.97 ± 0.25 μg/g) in Impilo flour. Protein content varied significantly across the two locations and ranged from 4.23% (Tshiombo) to 7.16% (Univen). Dagga had significantly the lowest (3.47%) protein content while Impilo had the highest (7.53%). The fat content of the flours varied significantly between the two locations ranging from 0.63% (Tshiombo) to 1.01% (Univen). The protein content was positively correlated 0.594** and 0.421* to vitamin A and fat contents respectively. The Bophelo colour luminosity was significantly lower (L* 76.2) than the other two OFSP, Dagga (L* 83.51) and Impilo (L* 82.07). Bophelo a* (14.09) also differed significantly across all sweet potato cultivars. All cultivars differed significantly in b* values. Colour intensity (ΔE*) ranged from 15.87 to 38.48 for Mvuvhelo and Bophelo, respectively. Chroma ranged from 87.52 to 84.95 for Dagga and Mvuvhelo respectively. Total starch content was significantly different in all sweet potato cultivars and ranged from 244.07 μg/100 g (Bophelo) to 325.04 mg/g (Dagga). Resistant starch differed significantly in all sweet potato cultivars ranging from 1.21 μg/100 g dwb (Bophelo) to 7.07 μg/100 g dwb (Impilo). Ash content was significantly different in all cultivars and ranged from 3.17% (Dagga) to 3.79% (Bophelo). Water holding capacity (WHC) varied significantly across the two locations and ranged from 1.44 g H2O/g DM (Tshiombo) to 1.72 g H2O/g DM (Univen). Bophelo had significantly the lowest (1.27 g H2O/g DM) WHC and Impilo the highest (1.99 g H2O/g DM). The ash content negatively correlated to total starch (-0.928**) but positively iii correlated to WHC (0.654**). Peak viscosity differed significantly across all cultivars under study and ranged from 126.54 RVU (Bophelo) to 302.36 RVU. (Dagga). There was significant difference in trough viscosity across all cultivars ranging from 55.97 RVU (Impilo) to 280.78 RVU (Dagga). There were significant differences in the final viscosity across all cultivars ranging from 78.99 RVU (Impilo) to 319.26 (Dagga). Peak time viscosity varied significantly across all cultivars ranging from 3.87 min (Impilo) to 8.47 min. (Bophelo). Dagga cultivar had significantly the highest pasting temperature (94.16oC) and Bophelo the lowest (77.75oC). The setback viscosity was significantly highest 51.10 RVU (Mvuvhelo) and lowest 23.01 RVU (Impilo). All cultivars from the two locations consistently showed high potassium content ranging from 0.46% (Impilo) to 1.38% (Dagga) as compared to other minerals such as magnesium, calcium and chlorine which ranged from 0.16% (Impilo) to 0.34%. (Dagga). The CT scans revealed that there was a possibility of evaluating the effect of location on the density of granules of sweet potato flour and also the inherent differences in granular distribution of various sweet potato cultivars. SEM revealed high amounts of potassium, magnesium and chlorine. A profile of physicochemical and functional properties of flour of some of the OFSP cultivars produced in Limpopo province, South Africa has been drawn. This study also highlights the nutritional quality of the flour from four sweet potato cultivars and provides a ranking of flour to help the producers in the selection process. Bophelo flour was ranked the highest in terms of β- and, α-carotenes, total carotenoids and antioxidant capacity while Impilo was ranked highest in terms of functional properties and ash content. This study has highlighted significant differences in a number of parameters measured among the sweet potato cultivars. Therefore, in order to derive the maximum benefit from a given cultivar careful selection of sweet potato cultivars would be necessary.

Ipomoea batatas

B-carotene

Vitamin A flour

Carotenoids content

Colour

Functional properties

Antioxidants

Physicochemical

Sweet potato

Cultivars

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Vitamin A

Carotenes.