211 resultados para Bananas.
Resumo:
Most Australian banana production occurs on the north-eastern tropical coast between latitudes 15-18°S, and can experience summer cyclone activity. Damage from severe tropical cyclones has serious impact on banana-based livelihoods. The most significant impacts include immediate loss of production and income for several months, the region-wide synchronization of cropping and the expense of rehabilitating affected plantations. Severe tropical cyclones have directly affected the main production region twice in recent years Tropical Cyclone (TC) Larry (Category 4) in March 2006 and TC Yasi (Category 5) in February 2011. Based on TC Larry experiences, pre- and post-cyclone farm practices were developed to reduce these impacts in future cyclonic events. The main pre-cyclone farm practice focused on maintaining production units and an earlier return to fruit production by partially or completely removing the plant canopy to reduce wind resistance. Post-cyclone farm practices focused on managing the industry-wide crop synchronization using crop timing techniques to achieve a staggered return to cropping by scheduling production to provide continuous fruit supply. With TC Yasi in 2011, some banana producers implemented these practices, allowing them to examine their effectiveness in reducing cyclonic impacts. Additional research and development activities were conducted to refine our understanding of their effectiveness and improve their application for future cyclonic events. Based on these activities and farm-based observations, suggested practice-based management strategies can be developed to help reduce the impact of severe tropical cyclones in the future. Canopy removal maintained banana plants as productive units, and provided earlier but smaller bunches, generating earlier-than-expected income. Queensland producers expressed willingness to adopt canopy removal for future cyclone threats where appropriate, despite its labor-intensiveness. Mechanization would allow larger scale adoption. Implementing a staggered cropping program successfully achieved a consistent, continuous fruit supply after a cyclone impact. Both techniques should be applicable to other cyclone-prone regions.
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Unravelling the Musa genome allows genes and alleles linked to desired traits to be identified. Short stature and early flowering are desirable agronomic features of banana, as they are of bread wheat (Triticum aestivum). In wheat they were achieved through knowledge of the physiology and genetics of vernalization and photoperiod during development. Bananas and plantains have a facultative long-day response to photoperiod, as do wheat and wall cress (Arabidopsis thaliana). Using keyword searches of the genome of Musa acuminata 'Pahang' we found homologues of the genes of either T. aestivum or Arabidopsis that govern responses to vernalization and photoperiod. This knowledge needs to be interpreted in the context of plant development. Bananas have juvenile, mid-vegetative and reproductive phases of development. Leaf and bunch 'clocks' operate concurrently throughout the juvenile and mid-vegetative phases. In the mid-vegetative phase the plant becomes sensitive to photoperiod. Increased sensitivity to photoperiod reduces the overall pace of the bunch clock without affecting the leaf clock. Separation of the clocks changes the link between leaf number and time of flowering. The 'critical' quantitative trait for the time of flowering is the pace of the bunch clock up to bunch initiation. For bunch size it is the duration of the subsequent phase of female hand formation. Plants with either a short juvenile phase or a faster bunch clock in the mid-vegetative phase will produce fewer leaves and bunch early. In turn, independent manipulation of hand number per bunch and/or fruit per hand will provide manageable bunches with appropriate fruit size. Using published data we explore relationships between plant height, leaf number, bunch weight and hand number among bananas and plantains. Identifying and then manipulating the appropriate genes in Musa opens opportunities for earlier flowering, leading to plants with desirable agronomic qualities.
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This chapter discusses the botany and history, importance, breeding and genetics, molecular genetics, micropropagation (to control viruses), somatic cell genetics, genetic manipulation and cryopreservation of banana and plantain.
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Fusarium wilt of banana, caused by the fungal pathogen Fusarium oxysporum f. sp. cubense (Foc), is one of the most destructive diseases of banana. A particularly virulent strain of the pathogen, tropical race 4 (TR4), presents an emerging threat to banana producing regions throughout the world. No commercially acceptable banana cultivar is resistant to TR4 and, as with all strains of the Fusarium wilt pathogen, there is no effective chemical control. Genetic resistance to TR4 has been observed in the diploid wild banana Musa acuminata subsp. malaccensis, which has consequently received attention as a potential source of Fusarium resistance genes. The aim of this research was to determine the pattern of inheritance of the resistance trait by screening plants for resistance to Foc subtropical race 4 (SR4) and TR4. Our results showed that the F1 progeny of self-fertilized malaccensis plants challenged in pot trials against SR4 (VCGs 0120, 0129, 01211) and TR4 (VCG 01213/16) segregated for resistance according to a Mendelian ratio of 3:1 which is consistent with a single dominant gene hypothesis.
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Major diseases, including Fusarium wilt tropical race 4, threaten banana production systems worldwide. New sources of genetic resistance are considered necessary in the fight against such diseases. The triangular region of Indonesia taking in Sulawesi, the Maluku Islands and Lesser Sunda Islands was prioritized by the Global Musa Genetic Resources Network, MusaNet for exploration and collecting. It is just east of the Wallace Line, which is recognized as a transition zone for flora in southeast Asia, and had been little explored. Bioversity International funded a team of scientists from Indonesia and Australia to make collecting missions in the triangle in October 2012 and February 2013. Suckers and seeds of 35 promising new accessions were collected. About 90% of these are either wild species or diploid cultivars of more direct use to breeding programs. These were morphologically characterized during the collecting missions and included a set of photographs recommended by Bioversitys Taxonomic Advisory Group. Cigar leaf samples were also collected and sent as fresh samples to the International Banana Genotyping Centre in the Czech Republic. Ploidy and DNA (SSR) genotyping determinations from these samples have been invaluable in quickly interpreting and better appreciating what has been discovered. The new accessions have been grown on at Solok field collection, West Sumatra and will be made available by Indonesia to the international community, including breeding programs, for evaluation and utilization. Information on wild Eumusa prompts a rethinking of the phytogeography of Musa acuminata. The variation within the Australimusa species M. lolodensis highlights the need for broader study of this Musa section. French Plantain-like edible AAs and prospects for the generation of African plantains in the region were identified. The mission indicated existence of local edible ABs in eastern Indonesia in association with balbisiana hybrids origins in the region. Further explorations in the region should add to Musa diversity knowledge.
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Trichoderma isolates were obtained from diseased leaves and fruit collected from plantations in the main banana production area in Northern Queensland. Phylogenetic analyses identified the Trichoderma isolates as T. harzianum and T. virens. The Trichoderma spp. were found to be antagonistic against the banana leaf pathogens Mycosphaerella musicola, Cordana musae, and Deight-oniella torulosa in vitro. Several products used by the banana industry to increase production, including molasses, Fishoil and Seasol, were tested as food source for the Trichoderma isolates. The optimal food substrate was found to be molasses at a concentration of 5 %, which when used in combination with a di-1-p-menthene spreader-sticker enhanced the survivability of Trichoderma populations under natural conditions. This formulation suppressed D. torulosa development under glasshouse conditions. Furthermore, high sensitivity was observed towards the protectant fungicide Mancozeb but Biopest oil (R), a paraffinic oil, only marginally suppressed the growth of Trichoderma isolates in vitro. Thus, this protocol represents a potential to manage banana leaf pathogens as a part of an integrated disease approach.
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Helcystogramma sp., es una nueva especie de microlepidóptero que afecta desde la siembra hasta la cosecha del boniato o camote (Ipomoea batatas L. Lam.) en Cuba. Debido a la falta de conocimientos y a la escasa bibliografía relacionada con las especies del género Helcystogramma en nuestro país, nos propusimos como objetivo conocer aspectos bio-ecológicos de este microlepidóptero, con la finalidad de proporcionar nuevos conocimientos para un futuro manejo de esta plaga. El trabajo se realizó desde septiembre 2013 a septiembre de 2014, en el Instituto de Investigaciones de Viandas Tropicales (INIVIT), Santo Domingo, Villa Clara, Cuba. Los insectos se estudiaron por observación directa en campos de I. batatas. La larva de este microlepidóptero es muy ágil, dobla la hoja, la cual pega con hilos de seda, creando una protección para su desarrollo hasta el estado de pupa, se alimenta dentro de esta cavidad a partir de la misma hoja, sin afectar la epidermis inferior. Sus poblaciones han aumentado considerablemente, llegando a 20 larvas/m2 en verano. La especies Helcystogramma sp., se cita por primera vez para Cuba y además se registra como una nueva especie de insecto que se alimenta del boniato. ABSTRACT. Primer registro de Helcystogramma sp. (Lepidoptera: Gelechiidae) en Cuba. Helcystogramma sp. is a new species of microlepidoptera affecting from planting to sweet potato (I. batatas L. Lam.) harvest crop in Cuba. Due to the lack of knowledgze and limited literature relate with the Helcystogramma genus in our country, the goal of this study was to know the bioecological aspects of such microlepidoptera, in order to provide new insights for future management of this pest. The study was conducted from September 2013 to September 2014 at the Research Institute of Tropical Root and Tuber Crops, Bananas and Plantains (INIVIT), Santo Domingo, Villa Clara, Cuba. Insects were studied by direct observation in sweet potato (I. batatas) fields. The microlepidoptera larvae is very agile, folds the sheet which sticks with silk threads, creating a protection for its development to the pupal stage. The larvae will feed in the cavity from the same leaf without affecting the lower epidermis. Their populations have increased significantly, reaching 20 larvae / m2 in summer. The species Helcystogramma sp., is cited for the first time in Cuba and it is reported as a new species of insect that feeds on sweet potato leaves.
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The soil resistance to penetration and shear can be used as indicators of soil compaction and to indicate the susceptibility of a soil to erosion. The objective of this study was to quantify and compare the impact provided by different land uses in a haplic cambissol in areas of permanent preservation, from the soil resistance to penetration and shear. The experimental area was located in an area of permanent preservation, the sub-basin of the Ribeira Iguape River - SP, with different land uses: banana cultivation - CBAN, degraded pasture - PDEG, silvopastoral system - MPIS and native forest - MNAT. The test for resistance to penetration was accomplished with a digital penetrometer compaction of manual effort, to a depth of 40 cm. The soil shear strength was determined by Vane Test at a depth between 0 and 5 cm. The degraded pasture was similar to native forest, with less resistance to penetration. The banana cultivation and silvopastoral system were the land uses with the highest resistance to penetration, bringing serious risk of erosion in areas of permanent preservation. The soil under native forest had lower shear strength. The cultivation of bananas, degraded pasture and silvopastoral system were the land uses with higher shear strength of soil, indicating that the use of these soils in areas of permanent preservation is promoting the same compression.
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El aumento mundial en la demanda de alimentos, especialmente proteína, plantea la necesidad de aplicar estrategias más eficientes y sostenibles de alimentación animal. La capacidad de los rumiantes de utilizar eficientemente la fibra hace posible aprovechar subproductos y residuos agrícolas provenientes de cultivos tropicales como la palma aceitera, banano y mango, los cuales también aportan energía y proteína. Al respecto, Cuenca et al. (2015) mencionan que la harina de almendra de palma posee un valor aproximado de 14.8% de proteína cruda y 8.9% de grasa. Por su parte, Silva et al. (2014) reportan que el uso de harina integral de mango reduce las emisiones de gas y aumenta el contenido de grasa en la leche de cabras Saanen, aunque concentraciones crecientes disminuyen linealmente el volumen de producción. En cuanto a la digestibilidad de estos productos, DiLorenzo et al. (datos no publicados) mencionan que la cascara y fruto maduro del banano presentan una alta digestibilidad in vitro de la materia orgánica (90.45%), superior a la de otros productos del banano, kikuyo y palmiste. Un alimento menos tradicional, el ensilado de pez diablo (EPD) fue incluido en diferentes niveles por Tejeda-Arroyo et al. (2015), en dietas de corderos en crecimiento, obteniendo ganancias de peso de 211.5 g/día (18% EPD) y conversión alimenticia de 6.6 y 6.4 kilogramo de alimento por kilogramo de ganancia de peso (27% EPD y 9% EPD). Se requiere avanzar en la investigación del potencial nutritivo de estos y otros alimentos no tradicionales, así como de las técnicas adecuadas para su mejor utilización, almacenamiento y transporte. El uso de estos subproductos podría reducir los costos de producción y contribuir a disminuir el impacto ambiental de las actividades agrícolas y ganaderas.
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O objetivo deste estudo foi avaliar o efeito da termoterapia (56 ºC por 6 min) e quimioterapia (propiconazole 250 ml.l-1) associado com temperatura de armazenamento (temperatura ambiente, 18 ºC e 13 ºC) no controle de podridões de bananas (Musa spp.) 'Prata-Anã' (AAB) em pós-colheita. Os tratamentos apresentaram diferenças significativas na percentagem de área lesionada por fruto, perda de peso e coloração externa da casca em todas as temperaturas de armazenamento. A quimioterapia e a combinação termoterapia e quimioterapia evitaram a manifestação de podridões nas três condições de armazenamento, enquanto a termoterapia reduziu a percentagem de área lesionada por fruto de 98% para 11% em temperatura ambiente, de 8% para 7% em 18 ºC e de 10% para 0% em 13 ºC, sendo mais eficiente sob a temperatura de 13 ºC. Frutos não tratados perderam 25%, 10% e 3% de peso e atingiram a cor 7, 5 e 1 em temperatura ambiente, 18 ºC e 13 ºC, respectivamente. Frutos tratados com termoterapia e quimioterapia perderam 24, 11 e 5% e 20, 10 e 3%, e atingiram índice médio de cor 4 e 3,5, respectivamente. O período de conservação foi estendido para 18, 24 e 45 dias em temperatura ambiente, 18 ºC e 13 ºC, respectivamente. A combinação dos métodos evitou a manifestação de podridões, reduziu a perda de peso e manteve a cor da casca e a qualidade dos frutos.
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Introduction: Large nutritional surveys in Peru have identified the magnitude and location of the different types of malnutrition. The chronic type is the most prevalent one. However, although rates may be considered as alarming (even more in rural areas), only one of these studies contains information about intake characteristics, using 24-hour recalls (R24). That is, it lacks some other systems, adapted to the gastronomical characteristics of their regions and to the bioavailability of food in each area, in order to locate the origin of this situation and, thus, propose truly effective and efficient solutions. Aim: To determine the nutritional value of the main dishes consumed by the residents of a slum in Peruvian Amazon. Methods: Ninety-eight participants completed three 24-h recalls. Based on these data, we selected the 25 most commonly eaten dishes and evaluated their nutritional composition. We took note of the homemade recipes, weights and measures. In addition, we observed preparation and cooking. The mean nutritional composition of each dish was calculated per 100 g using the Nutriplato 4.6. software. We also calculated gains or losses resulting from culinary treatments. Results: Within those which include milk, the highest energy density is the mingado de arroz. In the group of fish, the most energetic is pescado frito, while within meat-based recipes tallarín con pollo, res asada and chancho frito are the most energetic ones. Regarding prepared dishes, the juane is the highest energy density of all recipes. Inside garnish, using bananas as the main ingredient, plátano frito and madurito are the most energetic. Fats are higher in fried dishes and those which contribute most fat ratio. The same thing happens with garnish as 100 grams of plátano frito or madurito contain more than 70% of the RDA. Res asada and juane present the highest sodium level. Conclusions: If we wish to offer healthier dishes, it is necessary to change their composition and/or cooking methods, reducing the consumption of fried foods. Sodium intake should also be reduced. Two foods could be important to that aim: menudencia de pollo, rich in B vitamins and low in fat, and frijol hervido, which is rich in vegetable protein and, with rice dishes ubiquitous in this area, increases the biological value of ingested proteins.
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Na bananicultura orgânica, uma das práticas mais importantes é o manejo do solo, pois este deve ser mantido com cobertura viva e/ou morta. Os nutrientes podem ser supridos por fontes orgânicas (plantas melhoradoras do solo ? leguminosas e não leguminosas, estercos animais, tortas vegetais, resíduos agrícolas) ou fontes minerais naturais (calcários, fosfatos naturais, pós de rocha e cinzas de madeira). O manejo de pragas em sistemas orgânicos de produção, visando à proteção das plantas, baseia-se no uso de variedades resistentes e mais adaptadas às condições da região e também na utilização de controle biológico de pragas e doenças. São várias as opções de variedades resistentes às três principais doenças da bananeira (sigatoka-negra; sigatoka-amarela e mal-do-panamá), as quais constituem importante alternativa para o cultivo orgânico. Práticas culturais, como o uso de matéria orgânica (MO), rotação de culturas e adubação verde, contribuem para diminuir o estresse nas plantas, reduzindo os problemas com pragas e doenças. O mercado brasileiro para produtos orgânicos tem sido crescente. Assim, a demanda por bananas orgânicas visa não só produtos saudáveis, isentos de qualquer tipo de contaminantes que ponham em risco a saúde do consumidor e do agricultor e o meio ambiente, mas também a preservação e a ampliação da biodiversidade dos ecossistemas e a conservação das condições físicas, químicas e biológicas do solo, da água e do ar, atendendo assim ao tripé: ambientalmente correto, socialmente justo e economicamente viável. Espera-se, com a bananicultura orgânica, que o agricultor tenha mercado distinto com um produto diferenciado e competitivo
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O Laboratório de Biotecologia da EPAMIG - Empresa de Pesquisa Agropecuária de Minas Gerais no Norte de Minas utiliza técnicas de criopreservação dos cultivares de bananas para multiplicação de mudas e de conservação de material para pesquisas e estudos, com o objetivo de incentivar o produtor a utilizar mudas de qualidade. As pesquisadoras da Epamig Maria Geralda Rodrigues, agrônoma e Luciana Londe, bióloga trazem mais informações sobre a bananicultura na região Norte de Minas e falam sobre a importância de se plantar mudas de qualidade.
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Como resultado de la Misión Empresarial Caribe realizada por la Escuela de Administración de la Universidad del Rosario en abril de 2016, se realizó el presente documento donde se plantea una propuesta de mejora para el proceso de empaque de BanaFruts S.A.S. mediante el uso de teorías administrativas enfocadas a la gestión de calidad del producto como: Teoría de Restricciones, Kaizen y Cero defectos. La propuesta consiste en tener un proceso de control de calidad mucho menos repetitivo y más eficiente a lo largo del empaque del producto, donde solo los operarios de desmane se deberán encargar de definir cuáles bananos cumplen o no con las especificaciones de DOLE en esa etapa y además se aseguren de cumplir con nuevos límites de saturación de los frutos en las piscinas. Éstos se encontrarán en donde se alcanza el 90% de la capacidad de cada tanque. Para el de desmane estará a una altura de 0.54m; y para el de saneo estará a una altura de 0.49m. Así se actuará der manera preventiva y no reactiva como sucede actualmente, garantizando que los bananos no se lastimen y se reduzca el exceso de revisión a lo largo del proceso. Este cambio de gestión de calidad permitirá en primera instancia que los trabajadores en etapas diferentes a las de desmane se enfoquen en una sola tarea y no tengan que volver a verificar los aspectos de calidad del producto, seguido de un aumento de productividad en el procesamiento de los bananos por parte de éstos. Adicionalmente, se hace énfasis en la importancia de la mejora continua del proceso en general para asegurar un incremento gradual en la productividad. Para esto se propone un nuevo modelo de gestión de los recursos humanos donde los operarios serán más proactivos, tendrán una mayor participación en la identificación y solución de problemas y se encargarán de llevar a cabo sus labores de manera más eficiente. En este sentido, las acciones a tomar serán: seleccionar, organizar, limpiar y estandarizar. Finalmente, hay que estandarizar el proceso, es decir que debe existir una revisión continua para no permitir que los errores se repitan. Todas estas acciones estarán a cargo de un equipo líder llamado “Equipo BanaFruts”. Éste tendrá la responsabilidad de acompañar a los trabajadores en la realización de las actividades mencionadas y medir sus resultados.
