61 resultados para Fitotecnia
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Nitrogen requirements at bulb initiation for production of intermediate-day onions Article in Acta horticulturae · October 2016 DOI: 10.17660/ActaHortic.2016.1142.11 1st Rui Machado 16.44 · Universidade de Évora 2nd David R. Bryla 30.16 · United States Department of Agriculture Abstract Nitrogen requirements at bulb initiation for production of intermediate-day onions Authors: R.M.A. Machado, D.R. Bryla Keywords: Allium cepa, crop growth, nitrogen uptake, soil nitrate Abstract: The effect of nitrogen application on growth, nitrogen (N) uptake, yield, and quality of intermediate-day onion (Allium cepa 'Guimar') was evaluated in the field in southern Portugal. Plants were fertilized with 30 kg ha-1 N at transplanting, 10 kg ha-1 N at 29 days after transplanting (DAT) during early leaf growth, and with 0, 20, 40 and 60 kg ha-1 N at 51 DAT at the initiation of bulbing. The root system of plants in each treatment were concentrated in the top 0.1 m of soil and limited to 0.3 m depth but neither root length density nor rooting depth were affected by N application during later stages of bulb development. Leaf and bulb dry matter, on the other hand, increased linearly with N rate during bulb growth (85 DAT) and at harvest (114 DAT), respectively. Soil nitrate-N (NO3-N) at 0-0.3 m depth likewise increased linearly with N rate during bulb growth but declined from 15-30 mg kg-1 at bulbing to >10 mg kg-1 in each treatment by harvest. A substantial amount of N in the plants, which ranged from 302-525 mg, was taken up from the soil. Application of 60 kg ha-1 N resulted in luxury consumption. Yield (fresh bulb weight) increased from 0.19 kg plant-1 with no N at bulbing to as much as 0.28 kg plant-1 with 60 kg ha-1 N. Bulbs harvested from plants fertilized 40-60 kg ha-1 N averaged 8.2-8.5 cm in diameter, while those from plants with no N at bulbing averaged only 7.2 cm in diameter. Application of N fertilizer is thus recommended at bulbing to increase N uptake, yield, and bulb size of intermediate-day onions, particularly in dry Mediterranean climates where many onions are produced. Other components of quality, including neck diameter, bulb water content, total soluble solids, and juice pH, were not affect by N applied at bulbing.
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Purslane (Portulaca oleracea) is widely used for culinary purposes throughout Mediterranean region, and the interest in this plant increased due to it being a source of bio-protective compounds, such as fatty acids and antioxidants. However, the use of purslane could be limited by accumulation of high levels of compounds harmful to human health, such as nitrate and oxalic acid. The main objective of present study was to evaluate the influence of nitrogen fertilization on growth and yield parameters and on nitrate and oxalic acid concentrations in leaves and stems. Plants of golden-leafed purslane of sativa subspecies were grown in styro-foam boxes with substrate and fertilized two times per week during four weeks with ammonium-nitrate solution (16.9% NO3--N and 17.6% NH4+-N), for testing of four nitrogen levels (0, 30, 60 and 90 kg N ha-1). Plant growth, yield, nitrate and oxalic acid concentrations were significantly affected by nitrogen application. The best quantity/quality ratio was achieved at fertilization level of 60 kg N ha-1, which gave a yield of 5.1 kg m-2 FW, while nitrate concentration was 48.98 and 43.90 mg g-1 DW in leaf and stem, respectively, and oxalic acid concentration was 1.27 and 0.55 mg g-1 DW, in leaf and stem, respectively: values which are not harmful for consumer health.
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Conservation Agriculture is an ecosystem approach to farming capable of providing solutions for numerous of the agri-environmental concerns in Europe. Certainly, most of the challenges addressed in the Common Agriculture Policy (CAP) could be tackled through Conservation Agriculture (CA). Not only the agri-environmental ones, but also those concerning farmer and rural communities’ prosperity. The optimisation of inputs and similar yields than conventional tillage, make Conservation Agriculture a profitable system compared to the tillage based agriculture. Whereas this sustainable agricultural system was conceived for protecting agrarian soils from its degradation, the numerous collateral benefits that emanate from soil conservation, i.e., climate change mitigation and adaptation, have raised Conservation Agriculture as one of the global emerging agrosciences, being adopted by an increasing number of farmers worldwide, including Europe.
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As the world population and food production demands rise, keeping agricultural soils and landscapes healthy and productive are of paramount importance to sustaining local and global food security and the flow of ecosystem services to society. The global population, expected to reach 9.7 billion people by 2050, will put additional pressure on the available land area and resources for agricultural production. Sustainable production intensification for food security is a major challenge to both industrialized and developing countries. The paper focuses on the results from long-term multi-factorial experiments involving tillage practices, crop rotations and fertilization to study the interactions amongst the treatments in the context of sustainable production intensification. The paper discusses the results in relation to reported performance of crops and soil quality in Conservation Agriculture systems that are based on no or minimum soil disturbance (no-till seeding and weeding), maintenance of soil mulch cover with crop biomass and cover crops, and diversified cropping systems involving annuals and perennials. Conservation Agriculture also emphasizes the necessity of an agro-ecosystems approach to the management of agricultural land for sustainable production intensification, as well as to the site-specificity of agricultural production. Arguments in favor of avoiding the use of soil tillage are discussed together with agro-ecological principles for sustainable intensification of agriculture. More interdisciplinary systems research is required to support the transformation of agriculture from the conventional tillage agriculture to a more sustainable agriculture based on the principles and practices of Conservation Agriculture, along with other complementary practices of integrated crop, nutrient, water, pest, energy and farm power management.
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Soil is a key resource that provides the basis of food production and sustains and delivers several ecosystems services including regulating and supporting services such as water and climate regulation, soil formation and the cycling of nutrients carbon and water. During the last decades, population growth, dietary changes and the subsequent pressure on food production, have caused severe damages on soil quality as a consequence of intensive, high input-based agriculture. While agriculture is supposed to maintain and steward its most important resource base, it compromises soil quality and fertility through its impact on erosion, soil organic matter and biodiversity decline, compaction, etc., and thus the necessary yield increases for the next decades. New or improved cropping systems and agricultural practices are needed to ensure a sustainable use of this resource and to fully take the advantages of its associated ecosystem services. Also, new and better soil quality indicators are crucial for fast and in-field soil diagnosis to help farmers decide on the best management practices to adopt under specific pedo-climatic conditions. Conservation Agriculture and its fundamental principles: minimum (or no) soil disturbance, permanent organic soil cover and crop rotation /intercropping certainly figure among the possibilities capable to guarantee sustainable soil management. The iSQAPER project – Interactive Soil Quality Assessment in Europe and China for Agricultural Productivity and Environmental Resilience – is tackling this problem with the development of a Soil Quality application (SQAPP) that links soil and agricultural management practices to soil quality indicators and will provide an easy-to-use tool for farmers and land managers to judge their soil status. The University of Évora is the leader of WP6 - Evaluating and demonstrating measures to improve Soil Quality. In this work package, several promising soil and agricultural management practices will be tested at selected sites and evaluated using the set of soil quality indicators defined for the SQAPP tool. The project as a whole and WP6 in specific can contribute to proof and demonstrate under different pedoclimatic conditions the impact of Conservation Agriculture practices on soil quality and function as was named the call under which this project was submitted.
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The supply side of the food security engine is the way we farm. The current engine of conventional tillage farming is faltering and needs to be replaced. This presentation will address supply side issues of agriculture to meet future agricultural demands for food and industry using the alternate no-till Conservation Agriculture (CA) paradigm (involving no-till farming with mulch soil cover and diversified cropping) that is able to raise productivity sustainably and efficiently, reduce inputs, regenerate degraded land, minimise soil erosion, and harness the flow of ecosystem services. CA is an ecosystems approach to farming capable of enhancing not only the economic and environmental performance of crop production and land management, but also promotes a mindset change for producing ‘more from less’, the key attitude towards sustainable production intensification. CA is now spreading globally in all continents at an annual rate of 10 Mha and covers some 157 Mha of cropland. Today global agriculture produces enough food to feed three times the current population of 7.21 billion. In 1976, when the world population was 4.15 billion, world food production far exceeded the amount necessary to feed that population. However, our urban and industrialised lifestyle leads to wastage of food of some 30%-40%, as well as waste of enormous amount of energy and protein while transforming crop-based food into animal-derived food; we have a higher proportion of people than ever before who are obese; we continue to degrade our ecosystems including much of our agricultural land of which some 400 Mha is reported to be abandoned due to severe soil and land degradation; and yields of staple cereals appear to have stagnated. These are signs of unsustainability at the structural level in the society, and it is at the structural level, for both supply side and demand side, that we need transformed mind sets about production, consumption and distribution. CA not only provides the possibility of increased crop yields for the low input smallholder farmer, it also provides a pro-poor rural and agricultural development model to support agricultural intensification in an affordable manner. For the high output farmer, it offers greater efficiency (productivity) and profit, resilience and stewardship. For farming anywhere, it addresses the root causes of agricultural land degradation, sub-optimal ecological crop and land potentials or yield ceilings, and poor crop phenotypic expressions or yield gaps. As national economies expand and diversify, more people become integrated into the economy and are able to access food. However, for those whose livelihoods continue to depend on agriculture to feed themselves and the rest of the world population, the challenge is for agriculture to produce the needed food and raw material for industry with minimum harm to the environment and the society, and to produce it with maximum efficiency and resilience against abiotic and biotic stresses, including those arising from climate change. There is growing empirical and scientific evidence worldwide that the future global supplies of food and agricultural raw materials can be assured sustainably at much lower environmental and economic cost by shifting away from conventional tillage-based food and agriculture systems to no-till CA-based food and agriculture systems. To achieve this goal will require effective national and global policy and institutional support (including research and education).
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Conservation Agriculture (CA) is mostly referred to in the literature as having three principles at the core of its identity: minimum soil disturbance, permanent organic soil cover and crop diversity. This farming package has been described as suitable to improve yields and livelihoods of smallholders in semi-arid regions of Kenya, which since the colonial period have been heavily subjected to tillage. Our study is based on a qualitative approach that followed local meanings and understandings of soil fertility, rainfall and CA in Ethi and Umande located in the semi-arid region of Laikipia, Kenya. Farm visits, 53 semistructured interviews, informal talks were carried out from April to June 2015. Ethi and Umande locations were part of a resettlement programme after the independence of Kenya that joined together people coming from different farming contexts. Since the 1970–80s, state and NGOs have been promoting several approaches to control erosion and boost soil fertility. In this context, CA has also been promoted preferentially since 2007. Interviewees were well acquainted with soil erosion and the methods to control it. Today, rainfall amount and distribution are identified as major constraints to crop performance. Soil fertility is understood as being under control since farmers use several methods to boost it (inorganic fertilisers, manure, terraces, agroforestry, vegetation barriers). CA is recognised to deliver better yields but it is not able to perform well under severe drought and does not provide yields as high as ‘promised’ in promotion campaigns. Moreover, CA is mainly understood as “cultivating with chemicals”, “kulima na dawa”, in kiswahili. A dominant view is that CA is about minimum tillage and use of pre-emergence herbicides. It is relevant to reflect about what kind of CA is being promoted and if elements like soil cover and crop rotation are given due attention. CA based on these two ideas, minimum tillage and use of herbicides, is hard to stand as a programme to be promoted and up-scaled. Therefore CA appears not to be recognised as a convincing approach to improve the livelihoods in Laikipia.
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Qual é a perspetiva europeia? Quais são os desafios? A PAC e a gestão sustentável do solo e da água Os “deliverables” da Agricultura de Conservação (AC) em relação à gestão sustentável do solo e da água, e não só! A Agricultura de Conservação na Europa e no Mundo A Agricultura de Conservação e a PAC Mensagens
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What is No-till? From No-till to Conservation Agriculture (CA) Why use No-till/CA? Where is No-till/CA practiced? The Bulgarian context The Ups The challenges No-till/CA in the context of CAP
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Policy and Institutional Support for CA Development (Examples from Europe, Africa, Asia)
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A oliveira tem sido multiplicada ao longo dos tempos por métodos convencionais de propagação vegetativa como a enxertia e a estacaria lenhosa e semilenhosa. No entanto, estes métodos revelam-se lentos ou ineficientes para determinadas cultivares. No caso da cv. ‘Galega Vulgar’, ainda com grande expressão no olival português, e de difícil enraizamento por estacaria semilenhosa, tem sido usada a micropropagação de modo a contornar essas limitações e assim obter um elevado número de plantas em curto período de tempo. O custo final de produção por este processo ainda é elevado, podendo comprometer a sua aplicação a nível comercial. Grande parte dos custos estão relacionados com a fase de enraizamento in vitro que carece de ambiente estéril e condições de assépsia para a sua execução. Com vista a uma redução de custos associados a esta fase de produção, pretendeu-se com este trabalho testar a viabilidade do enraizamento ex vitro, na ausência de condições de assépsia. Este método poderá permitir uma significativa redução da mão-de-obra, ao mesmo tempo que facilitará a aclimatização das plantas e a obtenção de um sistema radicular de melhor qualidade. Compararam-se as taxas de enraizamento in vitro (controlo), com as obtidas ex vitro. Foram utilizados explantes provenientes de dois clones da cv. ‘Galega Vulgar’, (cl. 1441 e cl. 2022) cultivados e mantidos in vitro há vários anos no Laboratório de Melhoramento e Biotecnologia da Universidade de Évora. Para além do clone foi avaliada a influência do tipo de estaca (basal e apical), da hormona de enraizamento (AIB e ANA), da sua concentração (540 e 3000 ppm) e ainda de dois substratos, Preformas Jiffy® e pastilhas de fibra coco. Os melhores resultados foram obtidos com o clone 1441 em pastilhas de fibra de coco prensada, com o uso de estacas basais. Quanto à auxina, não se observaram diferenças significativas entre a utilização de ANA na concentração de 540 ppm e AIB na concentração de 3000 ppm. A aclimatização das plantas foi conseguida com taxas elevadas de sucesso, independentemente do tratamento utilizado. Conclui-se que a aplicação do método de enraizamento ex vitro simplifica procedimentos e mantém taxas de enraizamento elevadas, conduzindo assim a uma efetiva redução de tempo e custos associados; Simplifying procedures for in vitro propagation of olive “Olea europaea L.” Abstract: The olive tree has been multiplied throughout the ages by conventional methods of vegetative propagation such as grafting and wood or softwood cuttings. These propagation methods are somehow inefficient for certain cultivars. For the CV. ‘Galega Vulgar‘, still with great expression in Portuguese olive orchards, propagation has been attempted by in vitro culture in order to circumvent these limitations and so obtain a large number of plants in short time period. The final production fees associated to this process are still high which may compromise its application to a commercial level. Most of this process fees are related to the in vitro rooting phase which lacks sterile and aseptic conditions for its implementation. Aiming to reduce the costs associated with this production phase, this work tested the feasibility of the ex vitro rooting in the absence of aseptic conditions, which can allow a significant reduction of the manpower involved and an easier plant acclimatization due to its transplant with a balled-root system. In vitro rooting rates (control) were compared with those obtained with the ex vitro experiments. Explants from two clones of the cv. ‘Galega Vulgar‘ (cl. 1441 and cl. 2022), grown and maintained in vitro for several years in the Laboratory of Biotechnology and Plant Breeding of the University of Évora, were used in the trials. In addition to the clone, the effect of the cutting type (basal and apical), the rooting hormone (AIB and ANA), their concentration (540 and 3000 ppm) and two substrates, Preformas Jiffy ® and pressed coco fiber pellets, were also evaluated. The best results were obtained with the clone 1441, when rooted in pressed coco fiber pellets, using basal cuttings. Under this conditions no significant differences were observed between the use of ANA at 540 ppm or AIB in the 3000 ppm. Acclimatization of plants was achieved with high rates of success, regardless of the treatment used. It can be concluded that the application of the ex vitro rooting method allows to maintain high rooting rates, contributing for an effective reduction of time and fees of the rooting process.
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2015
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A vitivinicultura no Rio Grande do Sul tem reconhecimento no cenário enológico nacional e a Campanha Gaúcha tem sua participação neste processo. Com vinhedos implantados na década de 70, no município de Santana do Livramento- RS, para produção de uvas finas, a região tem apresentado crescente desenvolvimento com instalação de novas vinícolas. Apesar dos benefícios climáticos, a Campanha apresenta invernos irregulares, tanto na distribuição como na qualidade do frio, provocando brotações irregulares, baixa produtividade e desuniformidade na produção dos vinhedos. Buscando novas tecnologias para melhorar a qualidade de brotação e consequente qualidade produtiva, o presente trabalho objetivou avaliar o comportamento de brotação de diferentes cultivares de Vitis vinifera em relação às diferentes épocas de poda com a interação de indutores químicos de brotação.
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2016
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A Campanha Gaúcha vem sendo classificada entre as regiões vitivinícolas mais promissoras no Rio Grande do Sul, especialmente pelas suas condições edafoclimáticas com maior restrição hídrica e drenagem do solo. Apesar do início da vitivinicultura nesta região datar da década de 70, a maior intensificação dos plantios e produção ocorreu nos últimos dez anos, porém sem muitos subsídios técnicos. Os objetivos deste trabalho foram avaliar os efeitos da antecipação da poda hibernal e concentrações de cianamida hidrogenada (CH) sobre o potencial produtivo da uva ?Merlot?/SO4 conduzida nos sistemas de poda Guyot Duplo (DG) e Cordão Esporonado (CE).
