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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Substituição parcial de farinha de trigo por farinha de amaranto (Amaranthus cruentus L.), quinoa (Chenopodium quinoa W.) e maca (Lepidium meyenii W.) na elaboração de panetone / Partial substitution of wheat flour by amaranth (Amaranthus cruentus L.), quinoa (Chenopodium quinoa W.) and maca (Lepidium meyenii W.) flours in the preparation of panettone

Valcarcel Yamani, Beatriz 02 June 2015 (has links)
O aumento da demanda por alimentos saudáveis está estimulando inovações e o desenvolvimento de novos produtos na indústria de alimentos. O amaranto (Amaranthus cruenthus L.) e a quinoa (Chenopodium quinoa W.) são pseudocereais que apresentam proteínas de elevado valor biológico e ácidos graxos insaturados além de outros compostos que atuam como antioxidantes. A maca (Lepidium meyenii W.), uma raiz anual ou bienal, é usada como ingrediente alimentar devido ao seu valor nutricional e conteúdo de fitoquímicos. Neste trabalho, objetivou-se avaliar o efeito da adição das farinhas destas cullturas em diferentes níveis sobre as propriedades físico-químicas, reológicas e sensoriais de panetone. Farinhas mistas de trigo e amaranto, quinoa ou maca nas porcentagens de 10 %, 20 %, 30 % e 40 % de adição, foram avaliadas durante as diferentes etapas de produção: misturas de farinhas, massa fermentada, massa assada e produto acabado. A adição favoreceu o escurecimento gradual das farinhas e variação no tamanho médio das partículas. Nas massas, foi observada a diminuição gradativa dos valores de estabilidade ao amassamento e tempo de desenvolvimento com diminuição da extensibilidade e aumento da resistência das massas. Nas massas fermentadas, a adição de 10 e 20 % de farinha de amaranto ou quinoa e 30 % de farinha de amaranto, não incrementou significativamente (p > 0,05) a firmeza da massa. No entanto, as formulações contendo farinha de maca mostraram aumento significativo (p < 0,05) no ponto de quebra, firmeza, consistência, coesividade e viscosidade da massa. O aumento da resistência com diminuição gradativa da extensibilidade das massas também foi observado. Nas massas assadas, houve diminuição da área total de células com aumento no número de células de gás de menor tamanho em amostras com adição de farinha de maca e amaranto. As formulações com 10 % de farinha de maca, 10 e 20 % de farinha de amaranto ou quinoa e 30 % de farinha de amaranto, apresentaram os melhores resultados, com valores de volume, altura, cor e firmeza próximos à formulação controle. A análise sensorial mostrou que o produto elaborado com adição de 30 % de farinha de amaranto apresentou a melhor aceitabilidade e intenção de compra. Dentro das condições experimentais, o panetone contendo 30 % de farinha de amaranto foi o mais promissor pela boa aceitabilidade do consumidor, podendo contribuir para incrementar a qualidade do produto. O panetone com 10 % de adição de farinha de maca também apresentou valores interessantes com pouca diferença se comparado com aquele enriquecido com farinha de amaranto. Na amostra contendo farinha de quinoa, a substituição com menos de 20 % de adição melhoraria a aceitabilidade do panetone enriquecido. / The increased demand for healthy foods is stimulating innovation and new product development in the food industry. Amaranth (Amaranthus cruenthus L.) and quinoa (Chenopodium quinoa W.) are pseudocereals which have proteins with high biological value and unsaturated fatty acids, as well as other compounds which act as antioxidants. Maca (Lepidium meyenii W.), an annual or biennial root, is used as a food ingredient for human consumption due to its nutritional value and phytochemical content. The objective of this study was to evaluate the effect of amaranth, quinoa and maca flour addition at different levels on the physical-chemical, rheological and sensory properties of panettone. Composite flours of wheat and amaranth, quinoa or maca flours in percentages of 10 %, 20 %, 30 % and 40 % addition were evaluated during the different stages of production: flour blends, fermented dough, baked dough and finished product. The addition promoted a gradual flour darkening and tendency to yellow and red colors. In the dough, the gradual decrease in stability values to kneading and development time with decreased extensibility and increased dough resistance, were observed. In fermented doughs, the addition of 10 % - 20 % amaranth or quinoa flour and 30 % amaranth flour, did not increased significantly (p > 0.05) the dough firmness. However, formulations containing maca flour showed a significant increase (p < 0.05) of break point, firmness, consistency, cohesiveness and viscosity of the dough. Furthermore, it was also observed an increase in dough resistance with a gradual decrease in extensibility. In baked samples, there was a decrease of the total cell area with increased number of smaller gas cells in samples with maca and amaranth flour addition. Better results were observed in formulations with 10% maca flour, 10 - 20 % amaranth or quinoa flour and 30 % amaranth flour with values of volume, height, color and firmness close to the control. Sensorial analysis showed that sample containing 30 % addition of amaranth flour showed the better acceptability and purchase intention by consumers. Within these experimental conditions, panettone containing 30 % amaranth flour was the most promising for the good acceptability of the consumer and may contribute to improve the quality of the product. Sample with 10 % maca flour addition also showed interesting values with few differences when compared to that enriched with amaranth flour. In sample containing quinoa flour, wheat flour substitution with less than 20 % would improve the acceptability of the enriched panettone.
2

Substituição parcial de farinha de trigo por farinha de amaranto (Amaranthus cruentus L.), quinoa (Chenopodium quinoa W.) e maca (Lepidium meyenii W.) na elaboração de panetone / Partial substitution of wheat flour by amaranth (Amaranthus cruentus L.), quinoa (Chenopodium quinoa W.) and maca (Lepidium meyenii W.) flours in the preparation of panettone

Beatriz Valcarcel Yamani 02 June 2015 (has links)
O aumento da demanda por alimentos saudáveis está estimulando inovações e o desenvolvimento de novos produtos na indústria de alimentos. O amaranto (Amaranthus cruenthus L.) e a quinoa (Chenopodium quinoa W.) são pseudocereais que apresentam proteínas de elevado valor biológico e ácidos graxos insaturados além de outros compostos que atuam como antioxidantes. A maca (Lepidium meyenii W.), uma raiz anual ou bienal, é usada como ingrediente alimentar devido ao seu valor nutricional e conteúdo de fitoquímicos. Neste trabalho, objetivou-se avaliar o efeito da adição das farinhas destas cullturas em diferentes níveis sobre as propriedades físico-químicas, reológicas e sensoriais de panetone. Farinhas mistas de trigo e amaranto, quinoa ou maca nas porcentagens de 10 %, 20 %, 30 % e 40 % de adição, foram avaliadas durante as diferentes etapas de produção: misturas de farinhas, massa fermentada, massa assada e produto acabado. A adição favoreceu o escurecimento gradual das farinhas e variação no tamanho médio das partículas. Nas massas, foi observada a diminuição gradativa dos valores de estabilidade ao amassamento e tempo de desenvolvimento com diminuição da extensibilidade e aumento da resistência das massas. Nas massas fermentadas, a adição de 10 e 20 % de farinha de amaranto ou quinoa e 30 % de farinha de amaranto, não incrementou significativamente (p > 0,05) a firmeza da massa. No entanto, as formulações contendo farinha de maca mostraram aumento significativo (p < 0,05) no ponto de quebra, firmeza, consistência, coesividade e viscosidade da massa. O aumento da resistência com diminuição gradativa da extensibilidade das massas também foi observado. Nas massas assadas, houve diminuição da área total de células com aumento no número de células de gás de menor tamanho em amostras com adição de farinha de maca e amaranto. As formulações com 10 % de farinha de maca, 10 e 20 % de farinha de amaranto ou quinoa e 30 % de farinha de amaranto, apresentaram os melhores resultados, com valores de volume, altura, cor e firmeza próximos à formulação controle. A análise sensorial mostrou que o produto elaborado com adição de 30 % de farinha de amaranto apresentou a melhor aceitabilidade e intenção de compra. Dentro das condições experimentais, o panetone contendo 30 % de farinha de amaranto foi o mais promissor pela boa aceitabilidade do consumidor, podendo contribuir para incrementar a qualidade do produto. O panetone com 10 % de adição de farinha de maca também apresentou valores interessantes com pouca diferença se comparado com aquele enriquecido com farinha de amaranto. Na amostra contendo farinha de quinoa, a substituição com menos de 20 % de adição melhoraria a aceitabilidade do panetone enriquecido. / The increased demand for healthy foods is stimulating innovation and new product development in the food industry. Amaranth (Amaranthus cruenthus L.) and quinoa (Chenopodium quinoa W.) are pseudocereals which have proteins with high biological value and unsaturated fatty acids, as well as other compounds which act as antioxidants. Maca (Lepidium meyenii W.), an annual or biennial root, is used as a food ingredient for human consumption due to its nutritional value and phytochemical content. The objective of this study was to evaluate the effect of amaranth, quinoa and maca flour addition at different levels on the physical-chemical, rheological and sensory properties of panettone. Composite flours of wheat and amaranth, quinoa or maca flours in percentages of 10 %, 20 %, 30 % and 40 % addition were evaluated during the different stages of production: flour blends, fermented dough, baked dough and finished product. The addition promoted a gradual flour darkening and tendency to yellow and red colors. In the dough, the gradual decrease in stability values to kneading and development time with decreased extensibility and increased dough resistance, were observed. In fermented doughs, the addition of 10 % - 20 % amaranth or quinoa flour and 30 % amaranth flour, did not increased significantly (p > 0.05) the dough firmness. However, formulations containing maca flour showed a significant increase (p < 0.05) of break point, firmness, consistency, cohesiveness and viscosity of the dough. Furthermore, it was also observed an increase in dough resistance with a gradual decrease in extensibility. In baked samples, there was a decrease of the total cell area with increased number of smaller gas cells in samples with maca and amaranth flour addition. Better results were observed in formulations with 10% maca flour, 10 - 20 % amaranth or quinoa flour and 30 % amaranth flour with values of volume, height, color and firmness close to the control. Sensorial analysis showed that sample containing 30 % addition of amaranth flour showed the better acceptability and purchase intention by consumers. Within these experimental conditions, panettone containing 30 % amaranth flour was the most promising for the good acceptability of the consumer and may contribute to improve the quality of the product. Sample with 10 % maca flour addition also showed interesting values with few differences when compared to that enriched with amaranth flour. In sample containing quinoa flour, wheat flour substitution with less than 20 % would improve the acceptability of the enriched panettone.
3

Otimização de propriedades nutricionais e sensoriais de produtos à base de amaranto enriquecidos com frutanos, para intervenção em celíacos / Nutritional and sensory optimization of amaranth based products enriched with fructans, for nutritional intervention in celiac

Capriles, Vanessa Dias 17 December 2009 (has links)
Introdução: A doença celíaca não tem cura e apresenta como único tratamento a dieta isenta de glúten. Frequentemente observa-se a má absorção de cálcio em celíacos, consequência dos menores níveis de transportadores de cálcio no enterócito desses indivíduos. Os celíacos têm dificuldade em dar sequência ao tratamento dietético devido à escassez de produtos isentos de glúten, tornando fundamental o desenvolvimento de produtos para esta população. Isso pode ser feito por meio do uso de matérias primas isentas de glúten e com valor nutritivo agregado, como o grão de amaranto, e de ingredientes que contribuem para o aumento da absorção de cálcio através de absorção passiva nos colonócitos, como os frutanos inulina e oligofrutose. Objetivo: Desenvolver e otimizar as propriedades nutricionais e sensoriais de produtos à base de amaranto enriquecidos com frutanos, para intervenção nutricional em celíacos. Metodologia: Foram elaborados snacks à base de milho e amaranto (50, 75 e 100%), barras e pães sem glúten, enriquecidos com 4 gramas de frutanos/ porção. Para maximizar a aceitabilidade das barras foi utilizado um planejamento experimental para misturas de amaranto extrusado, estourado e laminado. Para maximizar o valor nutritrivo e a aceitabilidade do pão sem glúten foi utilizado o planejamento experimental para misturas de farinha de arroz, fécula de batata e farinha de amaranto. Os produtos foram caracterizados quanto a composição centesimal, o índice glicêmico (IG) e a carga glicêmica (CG). Também foram avaliadas as propriedades físicas e a aceitabilidade (escala hedônica estruturada de nove pontos) durante o período de armazenamento. Resultados e discussão: Os snacks foram aceitos e apresentaram estabilidade de suas características físicas e da aceitabilidade durante os 135 dias de armazenamento. O efeito combinado do amaranto e dos frutanos gerou redução de 19% do IG e de 56% da CG dos snacks. O amaranto estourado e laminado apresentaram interações sinérgicas para a aceitabilidade das barras (R2(aj)>92%, p=0,00). A formulação à base de amaranto estourado e laminado (½,½) foi diversificada em seis diferentes sabores e apresentou estabilidade de suas propriedades físicas e da aceitabilidade durante os seis meses de armazenamento. A estimativa da resposta glicêmica revelou IG moderado e CG baixa das barras. Pães com 33 e 45% de farinha de amaranto apresentaram destacado valor nutritivo e aceitabilidade. A incorporação de amaranto e de frutanos ocasionou redução de 20% do IG e de até 53% da CG do pão sem glúten. Conclusão: Os produtos desenvolvidos (snacks, barras e pães sem glúten) apresentaram destacado valor nutritivo em relação aos produtos convencionais, atenuação da resposta glicêmica e alta aceitabilidade pelo consumidor, podendo contribuir para uma maior variação e adequação da dieta dos celíacos e também para auxiliar no aumento da absorção de cálcio / Introduction: Celiac disease does not have a cure and the only scientifically proven treatment is strict lifelong adherence to a gluten-free diet. Calcium malabsorption is frequently found in celiac, possibly due to negligible amounts of calcium-binding protein in their enterocytes. Compliance with dietary treatment is often difficult due to the lack of gluten-free products, so it is essential to develop specific products for this population. This can be done through the use of gluten-free raw materials of great nutritional value, such as amaranth grain, and ingredients that contribute to the calcium absorption increasement through passive absorption in colonocytes, such as the fructans inulin and oligofructose. Objective: Develop and optimize the nutritional and sensory properties of amaranth based products enriched with fructans, for nutritional intervention in celiac. Methods: Snacks from blends of corn and amaranth (50, 75 and 100%), amaranth bars and gluten-free bread, all enriched with 4 grams of fructans/ portion, were prepared. A mixture experiment of extruded, popped and flaked amaranth was used to optimize the sensory acceptability of the bars. A mixture experiment of rice flour, potato starch and amaranth flour was used to maximize the nutritional value and sensory acceptability of gluten-free bread. Products chemical composition, glycemic index (GI) and glycemic load (GL), were evaluated. The physical properties and sensory acceptability (nine point hedonic scale) were assessed during the storage time. Results and discussion: Snacks were sensory accepted and maintained their physical characteristics and sensory acceptability during the 135 days of storage. The combined effect of amaranth and fructans resulted in 19% reduction of GI and 56% of GL of snacks. Popped and flaked amaranth present synergistic interactions to sensory acceptability of the bars (R2(adj)>92%, p=0,00). Bars were produced with popped and flaked amaranth (½,½) in six different flavors and its physical properties and sensory acceptability were stable during the six months of storage. The predicted glycemic response showed moderate GI and low GL bars. Breads with 33 and 45% of amaranth flour had higher nutritional value and sensory acceptability. Amaranth and fructans addition led to a reduction of approximately 20% of GI and up to 53% of the GL of gluten-free breads. Conclusion: The developed products (snacks, bars and gluten-free breads) had superior nutritional composition than conventional products, reduced glycemic response, high consumer sensory acceptability, great potential to contribute to variation and adequacy of celiac diet and also help to increase calcium absorption.
4

Otimização de propriedades nutricionais e sensoriais de produtos à base de amaranto enriquecidos com frutanos, para intervenção em celíacos / Nutritional and sensory optimization of amaranth based products enriched with fructans, for nutritional intervention in celiac

Vanessa Dias Capriles 17 December 2009 (has links)
Introdução: A doença celíaca não tem cura e apresenta como único tratamento a dieta isenta de glúten. Frequentemente observa-se a má absorção de cálcio em celíacos, consequência dos menores níveis de transportadores de cálcio no enterócito desses indivíduos. Os celíacos têm dificuldade em dar sequência ao tratamento dietético devido à escassez de produtos isentos de glúten, tornando fundamental o desenvolvimento de produtos para esta população. Isso pode ser feito por meio do uso de matérias primas isentas de glúten e com valor nutritivo agregado, como o grão de amaranto, e de ingredientes que contribuem para o aumento da absorção de cálcio através de absorção passiva nos colonócitos, como os frutanos inulina e oligofrutose. Objetivo: Desenvolver e otimizar as propriedades nutricionais e sensoriais de produtos à base de amaranto enriquecidos com frutanos, para intervenção nutricional em celíacos. Metodologia: Foram elaborados snacks à base de milho e amaranto (50, 75 e 100%), barras e pães sem glúten, enriquecidos com 4 gramas de frutanos/ porção. Para maximizar a aceitabilidade das barras foi utilizado um planejamento experimental para misturas de amaranto extrusado, estourado e laminado. Para maximizar o valor nutritrivo e a aceitabilidade do pão sem glúten foi utilizado o planejamento experimental para misturas de farinha de arroz, fécula de batata e farinha de amaranto. Os produtos foram caracterizados quanto a composição centesimal, o índice glicêmico (IG) e a carga glicêmica (CG). Também foram avaliadas as propriedades físicas e a aceitabilidade (escala hedônica estruturada de nove pontos) durante o período de armazenamento. Resultados e discussão: Os snacks foram aceitos e apresentaram estabilidade de suas características físicas e da aceitabilidade durante os 135 dias de armazenamento. O efeito combinado do amaranto e dos frutanos gerou redução de 19% do IG e de 56% da CG dos snacks. O amaranto estourado e laminado apresentaram interações sinérgicas para a aceitabilidade das barras (R2(aj)>92%, p=0,00). A formulação à base de amaranto estourado e laminado (½,½) foi diversificada em seis diferentes sabores e apresentou estabilidade de suas propriedades físicas e da aceitabilidade durante os seis meses de armazenamento. A estimativa da resposta glicêmica revelou IG moderado e CG baixa das barras. Pães com 33 e 45% de farinha de amaranto apresentaram destacado valor nutritivo e aceitabilidade. A incorporação de amaranto e de frutanos ocasionou redução de 20% do IG e de até 53% da CG do pão sem glúten. Conclusão: Os produtos desenvolvidos (snacks, barras e pães sem glúten) apresentaram destacado valor nutritivo em relação aos produtos convencionais, atenuação da resposta glicêmica e alta aceitabilidade pelo consumidor, podendo contribuir para uma maior variação e adequação da dieta dos celíacos e também para auxiliar no aumento da absorção de cálcio / Introduction: Celiac disease does not have a cure and the only scientifically proven treatment is strict lifelong adherence to a gluten-free diet. Calcium malabsorption is frequently found in celiac, possibly due to negligible amounts of calcium-binding protein in their enterocytes. Compliance with dietary treatment is often difficult due to the lack of gluten-free products, so it is essential to develop specific products for this population. This can be done through the use of gluten-free raw materials of great nutritional value, such as amaranth grain, and ingredients that contribute to the calcium absorption increasement through passive absorption in colonocytes, such as the fructans inulin and oligofructose. Objective: Develop and optimize the nutritional and sensory properties of amaranth based products enriched with fructans, for nutritional intervention in celiac. Methods: Snacks from blends of corn and amaranth (50, 75 and 100%), amaranth bars and gluten-free bread, all enriched with 4 grams of fructans/ portion, were prepared. A mixture experiment of extruded, popped and flaked amaranth was used to optimize the sensory acceptability of the bars. A mixture experiment of rice flour, potato starch and amaranth flour was used to maximize the nutritional value and sensory acceptability of gluten-free bread. Products chemical composition, glycemic index (GI) and glycemic load (GL), were evaluated. The physical properties and sensory acceptability (nine point hedonic scale) were assessed during the storage time. Results and discussion: Snacks were sensory accepted and maintained their physical characteristics and sensory acceptability during the 135 days of storage. The combined effect of amaranth and fructans resulted in 19% reduction of GI and 56% of GL of snacks. Popped and flaked amaranth present synergistic interactions to sensory acceptability of the bars (R2(adj)>92%, p=0,00). Bars were produced with popped and flaked amaranth (½,½) in six different flavors and its physical properties and sensory acceptability were stable during the six months of storage. The predicted glycemic response showed moderate GI and low GL bars. Breads with 33 and 45% of amaranth flour had higher nutritional value and sensory acceptability. Amaranth and fructans addition led to a reduction of approximately 20% of GI and up to 53% of the GL of gluten-free breads. Conclusion: The developed products (snacks, bars and gluten-free breads) had superior nutritional composition than conventional products, reduced glycemic response, high consumer sensory acceptability, great potential to contribute to variation and adequacy of celiac diet and also help to increase calcium absorption.
5

Effect of agronomic management on growth and yield of selected leafy vegetables

Maseko, Innocent 06 1900 (has links)
African leafy vegetables have been shown and suggested to have potential to contribute to human diets and alleviate malnutrition; however, their levels of utilisation are currently low especially in South Africa. This is because there is limited access to these crops due to low availability in the market. Limited access is attributed, in part, to the lack of commercialisation as a result of limited agronomic information describing optimum management options for these leafy vegetables. Availability of such information would contribute to successful commercialisation of these crops. The primary objective of this study was to establish optimum agronomic management factors for Amaranthus cruentus, Corchorus olitorius, Vigna unguiculata and Brassica juncea for irrigated commercial production in South Africa. Seeds of Amaranthus cruentus, Corchorus olitorius were obtained from the Agricultural Research Council seed bank; Vigna unguiculata were obtained from Hydrotech and Brassica juncea seeds were obtained from Stark Ayres. The project consisted of three field studies whose overall objective was to evaluate growth and yield responses of the selected African leafy vegetables to agronomic factors under irrigated commercial production. These field studies comprised of two single factors; summer trials (planting density and nitrogen on three selected crops) and a combined winter trial (nitrogen, irrigation, plant density and planting date on a winter crop). Chapter three (3) investigated the effect of plant density on growth, physiology and yield responses of Amaranthus cruentus, Corchorus olitorius and Vigna unguiculata to three plant densities under drip irrigated commercial production. The plant density levels of 100 000, 66 666 and 50 000 plants/ha were used in the 2011/12 and 2012/13 summer seasons. Parameters measured included chlorophyll content index (CCI), chlorophyll fluorescence (CF), stomatal conductance (SC), leaf number, leaf area index (LAI) and biomass. Amaranthus cruentus and Corchorus olitorius showed better leaf quality at lower plant density of 50 000 plants ha-1 than at 66 666 plants ha-1 and 100 000 plants ha-1. These results are based on bigger leaves expressed as leaf area index (LAI), better colour expressed as chlorophyll (CCI) and higher biomass per plant observed in these crops at 50 000 plants ha-1 in comparison to 66 666 plants ha-1 and 100 000 plants ha-1. In Vigna unguiculata there were no responses observed in LAI and CCI. In Amaranthus cruentus, Corchorus olitorius and Vigna unguiculata fresh and dry mass yield of leaves were higher at 100 000 plants ha-1 compared to other treatments. In A. cruentus and C. olitorius, higher leaf quality parameters (CCI, plant height, leaf number, biomass per plant and LAI) indicated that these crops can perform better at lower densities of 50 000 than at 66 666 plants ha-1 and 100 000 plants ha-1 Therefore, using 50 000 plants ha- 1 is suitable for commercial production of A. cruentus and C. olitorius. In Vigna unguiculata, a plant density of 100 000 plants ha-1 produced the highest fresh and dry mass per unit area without compromising quality in terms of the leaf size (LAI) and colour (CCI). Therefore 100 000 plants ha-1 is a density recommended for commercial production in V. unguiculata.Chapter four (4) was conducted to investigate growth, physiology and yield responses of A. cruentus, C. olitorius and V unguiculata to nitrogen application under drip irrigated commercial production. Three nitrogen treatments levels were used viz. 0, 44 and 88 kg N ha- 1 in 2011/12 season and four nitrogen treatments levels viz. 0, 50, 100 and 125 kg N ha-1 were used in 2012/13 summer season. The nitrogen levels selected for each season were based on recommendations for Amaranthaceae species, Swiss chard (Beta vulgaris L.var cicla) derived from soil analysis of the trial (field) site. Parameters measured included chlorophyll content index (CCI), chlorophyll fluorescence (CF), stomatal conductance (SC), leaf number, leaf area index (LAI) and biomass. Results showed that application of nitrogen at 44 kg N ha- 1 in 2011/12 summer season and 100 kg N ha-1 in 2012/13 summer season improved LAI, CCI, biomass per plants and yield in A. cruentus. A similar trend was observed in C. olitorius except that 44 kg N ha-1 improved stem fresh yield. Further increase in nitrogen fertiliser above 44 kg N ha-1 during the 2011/12 season and above 100 kg N ha-1 in 2012/13 summer season reduced leaf quality and yield in both crops. In V. unguiculata, nitrogen application showed a slight increase in yield values from 0 to 44 kg N ha-1 followed by decrease at 88 kg N ha-1 in 2011/12 summer season; however, this increase in yield was not significant. During the 2012/13 summer season, yield in terms of fresh weight was significantly (P<.001) reduced by applying nitrogen at various levels. However, leaf dry matter content increased significantly (P<.001) with increase in nitrogen from 0 kg up to 100 kg N ha-1, then remained unchanged at 125 kg N ha-1. Therefore, the current study recommends that C. olitorius and A. cruentus could be commercialised at 44 kg N ha-1 and 100 kg N ha-1 which were lower nitrogen application rates than those recommended for Amaranthaceae species. In V. unguiculata, 50 kg N ha-1 improved leaf number; however, this did not translate to any fresh yield advantage, implying that the optimum rate for nitrogen application might be lower than 50 kg N ha-1. Therefore, nitrogen rates less than the ones used in the current study are recommended for V. unguiculata. Chapter five (5) was conducted in winter and it was necessitated by observations made primarily in the previous studies which focused on the effects of single factors such as plant density, planting date and nitrogen deficits. Therefore, there was a need to address interactions between irrigation, nitrogen, spacing and planting date. The objective of this study was to evaluate growth, physiology and yield responses of Brassica juncea to different agronomic and management factors in the 2012 and 2013 seasons. The treatments were as follows: two planting dates in main plot (1 June and 18 July, 2012); two irrigation frequency in sub main plot (once and three times a week); three nitrogen levels (0, 50, 100 kg N ha-1) and three plant densities (133 333, 80 000, 50 000 plants ha-1) as subplots. Parameters measured included chlorophyll content index (CCI), chlorophyll fluorescence (CF), stomatal conductance (SC), leaf number, leaf area index (LAI) and biomass. Results from this study showed a significant interaction effect on plant height, LAI, CCI and CF. Crops irrigated thrice or once a week with 50 kg N ha-1 combined with 50 000 plants ha-1 produced tall plants and bigger leaves (LAI) in the early planting date (1 June) compared to other combinations. Irrigating three times a week combined with nitrogen application at 100 or 50 kg N ha-1 improved CF for late planting date (18 July) in comparison to other combinations. Irrigating once a week combined with nitrogen application at 100 kg N ha-1 increased CCI. There was no significant interaction effect on yield. Application of nitrogen at 50 and 100 kg N ha-1 significantly (P>0.05) increased yield in early and late planting dates compared to the control (0 kg N ha-1), in 2012 and 2013 winter season. Irrigating three times a week led to a significant (P<0.05) increase in yield in the late planting date (18th July) and early planting date (1st June) in 2013 season. Higher plant density of 133 333 plants ha-1 resulted in significantly (P<0.05) higher yield in terms of fresh mass and leaf number in the late planting date 18 July in 2012 and 2013 seasons. However, leaf quality parameters such as leaf size and colour was compromised at 133 333 plants ha-1 relative to 50 000 plants ha-1. Therefore, farmers are recommended to plant early, apply 50 kg N ha-1, irrigate thrice a week and utilise a spacing of 50 000 plants ha-1. The current study indicates that growth and yield of traditional leaf vegetables can be optimised through improved agronomic practise. / Agriculture and Life Sciences / D. Litt. et. Phil. (Agriculture)
6

Effect of agronomic management on growth and yield of selected leafy vegetables

Maseko, Innocent 06 1900 (has links)
African leafy vegetables have been shown and suggested to have potential to contribute to human diets and alleviate malnutrition; however, their levels of utilisation are currently low especially in South Africa. This is because there is limited access to these crops due to low availability in the market. Limited access is attributed, in part, to the lack of commercialisation as a result of limited agronomic information describing optimum management options for these leafy vegetables. Availability of such information would contribute to successful commercialisation of these crops. The primary objective of this study was to establish optimum agronomic management factors for Amaranthus cruentus, Corchorus olitorius, Vigna unguiculata and Brassica juncea for irrigated commercial production in South Africa. Seeds of Amaranthus cruentus, Corchorus olitorius were obtained from the Agricultural Research Council seed bank; Vigna unguiculata were obtained from Hydrotech and Brassica juncea seeds were obtained from Stark Ayres. The project consisted of three field studies whose overall objective was to evaluate growth and yield responses of the selected African leafy vegetables to agronomic factors under irrigated commercial production. These field studies comprised of two single factors; summer trials (planting density and nitrogen on three selected crops) and a combined winter trial (nitrogen, irrigation, plant density and planting date on a winter crop). Chapter three (3) investigated the effect of plant density on growth, physiology and yield responses of Amaranthus cruentus, Corchorus olitorius and Vigna unguiculata to three plant densities under drip irrigated commercial production. The plant density levels of 100 000, 66 666 and 50 000 plants/ha were used in the 2011/12 and 2012/13 summer seasons. Parameters measured included chlorophyll content index (CCI), chlorophyll fluorescence (CF), stomatal conductance (SC), leaf number, leaf area index (LAI) and biomass. Amaranthus cruentus and Corchorus olitorius showed better leaf quality at lower plant density of 50 000 plants ha-1 than at 66 666 plants ha-1 and 100 000 plants ha-1. These results are based on bigger leaves expressed as leaf area index (LAI), better colour expressed as chlorophyll (CCI) and higher biomass per plant observed in these crops at 50 000 plants ha-1 in comparison to 66 666 plants ha-1 and 100 000 plants ha-1. In Vigna unguiculata there were no responses observed in LAI and CCI. In Amaranthus cruentus, Corchorus olitorius and Vigna unguiculata fresh and dry mass yield of leaves were higher at 100 000 plants ha-1 compared to other treatments. In A. cruentus and C. olitorius, higher leaf quality parameters (CCI, plant height, leaf number, biomass per plant and LAI) indicated that these crops can perform better at lower densities of 50 000 than at 66 666 plants ha-1 and 100 000 plants ha-1 Therefore, using 50 000 plants ha- 1 is suitable for commercial production of A. cruentus and C. olitorius. In Vigna unguiculata, a plant density of 100 000 plants ha-1 produced the highest fresh and dry mass per unit area without compromising quality in terms of the leaf size (LAI) and colour (CCI). Therefore 100 000 plants ha-1 is a density recommended for commercial production in V. unguiculata.Chapter four (4) was conducted to investigate growth, physiology and yield responses of A. cruentus, C. olitorius and V unguiculata to nitrogen application under drip irrigated commercial production. Three nitrogen treatments levels were used viz. 0, 44 and 88 kg N ha- 1 in 2011/12 season and four nitrogen treatments levels viz. 0, 50, 100 and 125 kg N ha-1 were used in 2012/13 summer season. The nitrogen levels selected for each season were based on recommendations for Amaranthaceae species, Swiss chard (Beta vulgaris L.var cicla) derived from soil analysis of the trial (field) site. Parameters measured included chlorophyll content index (CCI), chlorophyll fluorescence (CF), stomatal conductance (SC), leaf number, leaf area index (LAI) and biomass. Results showed that application of nitrogen at 44 kg N ha- 1 in 2011/12 summer season and 100 kg N ha-1 in 2012/13 summer season improved LAI, CCI, biomass per plants and yield in A. cruentus. A similar trend was observed in C. olitorius except that 44 kg N ha-1 improved stem fresh yield. Further increase in nitrogen fertiliser above 44 kg N ha-1 during the 2011/12 season and above 100 kg N ha-1 in 2012/13 summer season reduced leaf quality and yield in both crops. In V. unguiculata, nitrogen application showed a slight increase in yield values from 0 to 44 kg N ha-1 followed by decrease at 88 kg N ha-1 in 2011/12 summer season; however, this increase in yield was not significant. During the 2012/13 summer season, yield in terms of fresh weight was significantly (P<.001) reduced by applying nitrogen at various levels. However, leaf dry matter content increased significantly (P<.001) with increase in nitrogen from 0 kg up to 100 kg N ha-1, then remained unchanged at 125 kg N ha-1. Therefore, the current study recommends that C. olitorius and A. cruentus could be commercialised at 44 kg N ha-1 and 100 kg N ha-1 which were lower nitrogen application rates than those recommended for Amaranthaceae species. In V. unguiculata, 50 kg N ha-1 improved leaf number; however, this did not translate to any fresh yield advantage, implying that the optimum rate for nitrogen application might be lower than 50 kg N ha-1. Therefore, nitrogen rates less than the ones used in the current study are recommended for V. unguiculata. Chapter five (5) was conducted in winter and it was necessitated by observations made primarily in the previous studies which focused on the effects of single factors such as plant density, planting date and nitrogen deficits. Therefore, there was a need to address interactions between irrigation, nitrogen, spacing and planting date. The objective of this study was to evaluate growth, physiology and yield responses of Brassica juncea to different agronomic and management factors in the 2012 and 2013 seasons. The treatments were as follows: two planting dates in main plot (1 June and 18 July, 2012); two irrigation frequency in sub main plot (once and three times a week); three nitrogen levels (0, 50, 100 kg N ha-1) and three plant densities (133 333, 80 000, 50 000 plants ha-1) as subplots. Parameters measured included chlorophyll content index (CCI), chlorophyll fluorescence (CF), stomatal conductance (SC), leaf number, leaf area index (LAI) and biomass. Results from this study showed a significant interaction effect on plant height, LAI, CCI and CF. Crops irrigated thrice or once a week with 50 kg N ha-1 combined with 50 000 plants ha-1 produced tall plants and bigger leaves (LAI) in the early planting date (1 June) compared to other combinations. Irrigating three times a week combined with nitrogen application at 100 or 50 kg N ha-1 improved CF for late planting date (18 July) in comparison to other combinations. Irrigating once a week combined with nitrogen application at 100 kg N ha-1 increased CCI. There was no significant interaction effect on yield. Application of nitrogen at 50 and 100 kg N ha-1 significantly (P>0.05) increased yield in early and late planting dates compared to the control (0 kg N ha-1), in 2012 and 2013 winter season. Irrigating three times a week led to a significant (P<0.05) increase in yield in the late planting date (18th July) and early planting date (1st June) in 2013 season. Higher plant density of 133 333 plants ha-1 resulted in significantly (P<0.05) higher yield in terms of fresh mass and leaf number in the late planting date 18 July in 2012 and 2013 seasons. However, leaf quality parameters such as leaf size and colour was compromised at 133 333 plants ha-1 relative to 50 000 plants ha-1. Therefore, farmers are recommended to plant early, apply 50 kg N ha-1, irrigate thrice a week and utilise a spacing of 50 000 plants ha-1. The current study indicates that growth and yield of traditional leaf vegetables can be optimised through improved agronomic practise. / Agriculture and Life Sciences / D. Litt. et. Phil. (Agriculture)

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