11 resultados para Self sustainable agriculture
em Repositório Alice (Acesso Livre à Informação Científica da Embrapa / Repository Open Access to Scientific Information from Embrapa)
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1994
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2009
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2009
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The process of modernization of Brazilian agriculture aimed at increasing the productivity in response to the high demand for agricultural products in the world market and it was based on the intensive use of inputs such as agrochemicals, intense mechanisation and breeding of new varieties. Among these, pesticides were incorporated in almost all production systems. Over reliance on pesticide use has produced many negative effects on both biotic and abiotic components of the environment, generating chemical contamination of soil and water, decrease in biological diversity of agroecosystems, disruption of natural cycles, pest resistance, intoxication of growers, among others. The consumption of pesticides in Brazil was 151.8 thousand tonnes in 1989, and today the country is the fifth world market of these products. The use of pesticides increased from 16 thousand tonnes (a.i.) in 1964 to 60.2 thousand tonnes in 1991, while the area planted to crops grew from 28.4 to 50.0 million ha in the same period. This means an increase of 276.2% in consumption of pesticides compared to an increase of 76% in planted area. Even with this large increase in the use of pesticides, the losses caused by pests have not been significantly reduced, and the net gain in crop productivity has been low. On the other hand, problems with food contamination, environmental degradation of growers have considerably mounted. It is possible to define two classes of crops regarding intense use of pesticides. One is represented by those crops that occupy large areas, and therefore contribute to a large amont of pesticides used for pest control in a country basis. The other class comprises crops that require large amounts of pesticides per unit of area, but not necessarily represent large amounts of pesticides used coutry-wide. Based on the classes proposed, citrus, soybean and sugarcane stand as crops with a nationally great consumption of pesticides, while tomato, potato and citrus are important as intensive users of pesticides. In this paper the biotechnologies in use, the biotechnologies in advanced stages of development, the main constraints to the development and use of biotechnlology and the impact of pesticed on the environment are discussed.
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Coffea sp. is cultivated in large areas, using both conventional and organic management. However, information about the sustainability of these two management systems is still deficient. The objective of the present study was to evaluate the physical properties of soil cultivated with Conilon coffee (C. canephora) under organic and conventional management. Two areas cultivated with Conilon coffee (under organic and conventional management) and a fragment of Atlantic forest, used as a reference, were selected for the experiment. Soil granulometry, hydraulic conductivity, water retention curve, resistance to penetration, porosity, optimal hydric interval, and other physical characteristics were measured at depths of 0 to 10 and 10 to 20 cm. The data was submitted to multivariate and descriptive statistical analyses. Higher similarity was observed between the soil cultivated with Conilon coffee under organic management and the Atlantic forest soil. Soil resistance to penetration at 10, 30, 100, 500 and 1500 kPa, macro porosity, density and total porosity were the main physical properties that differentiated both management systems studied. The non-use of agricultural machinery and the addition of organic matter may be the main reasons for higher soil sustainability observed under organic management when compared with the conventional system.
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Resumo: Para execução do processo de raleamento na Caatinga é importante utilizar máquinas do tipo rotores trituradores acoplados em tratores de baixa potência, visando a diminuição de tempo e mão-de-obra dos agricultores familiares na, implantação de sistemas de exploração sustentáveis, sistemas agrossilvipastoris. Para o projeto de uma máquina que seja acessível a estes produtores, o primeiro passo é se conhecer a potência de corte necessária para a operação de raleamento. O objetivo deste trabalho foi desenvolver e avaliar uma metodologia de ensaio para medir a potência durante o corte de uma espécie arbórea, podendo assim avaliar os parâmetros a serem utilizados futuramente no projeto da máquina. Como espécie teste, utilizou-se o eucalyptus citriodora, por ser uma madeira que apresenta resistência de corte elevada e similar ao das espécies da Caatinga. Observou-se que a metodologia proposta, ao padronizar os procedimentos, permitiu adquirir de forma rápida e precisa os valores dos parâmetros de importância no projeto de máquinas destinadas a cortar e triturar espécies arbóreas. Também a utilização dos dados obtidos por meio da aplicação da metodologia, possibilitam maior confiabilidade e precisão no projeto de máquinas destinadas a este tipo de trabalho. [Methodology for obtaining the cutting power of a forest crusher]. Abstract: For executions the thinning process in Caatinga is important to use machines as Rotors Crushers coupled in low- power tractors, aimed at decrease of time and hand labor of Family Farmers in the implementation of sustainable exploration systems, agrosylvopastoral Systems. For the project for the design of a machine that is accessible these producers, the first step is knowing the cut power needed for a thinning operation. The objective of this study was to develop and evaluate a test methodology to measure the power during the cutting of a tree species and can evaluate the cutting parameters used in the future in machine design. As a test species, we used the eucalyptus citriodora, as this wood has cut high resistance and similar to Species of Caatinga. It was observed that the methodology proposal, to the standardize procedures, allows to get quickly and accurately the values of importance parameters in the design of machines designed to cut and grind tree species. Also the use of data obtained through the application of the methodology , enable greater reliability and precision in machine design intended for this type of work.
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Embora a prática do uso do carvão vegetal no solo visando a melhoria do desenvolvimento das plantas seja milenar, pouco se sabe sobre os efeitos técnicos de sua aplicação, sobretudo em longo prazo. Assim, tendo as terras pretas de índio (TPIs) como modelo de sustentabilidade do solo em função da presença de carbono pirogênico (C-pyr), na última década os estudos acerca do uso de materiais ricos nessa forma de carbono (biocarvão) se intensificaram. Diversos estudos têm abordado os efeitos da aplicação de biocarvão no solo e seus efeitos sobre os atributos físicos, químicos e biológicos do solo, sobre a matéria orgânica, ciclos biogeoquímicos do carbono, desempenho agronômico de culturas anuais, espécies florestais, olerículas, emissão de gases de efeito estufa (N2O, CO2 e CH4) e mais recentemente os efeitos sobre a dinâmica de pesticidas no solo. Nesse sentido, esse trabalho aborda algumas características do uso do biocarvão no solo, com enfoque na sua produção, matéria prima, características físicas e químicas, aspectos agronômicos e ambientais do uso em solos e como substratos agrícolas.
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O uso da fotogrametria digital a partir de Aeronaves Remotamente Pilotadas (ARP/RPA) surge como uma alternativa viável para realização do planejamento florestal em distintas tipologias de nativa ou em sistemas de plantios florestais, além de ser uma importante ferramenta de monitoramento.
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Large-scale agriculture is increasing in anthropogenically modified areas in the Amazon Basin. Crops such as soybean, maize, oil palm, and others are being introduced to supply the world demand for food and energy. However, the current challenge is to enhance the sustainability of these areas by increasing efficiency of production chains and to improve environmental services. The Amazon Basin has experienced a paradigm shift away from the traditional slash-and-burn agricultural practices, which offers decision makers the opportunity to make innovative interventions to enhance the productivity in previously degraded areas by using trees to ecological advantage. This study describes a successful experiment integrating the production of soybean and paricá (Glycine max L. and Schizolobium amazonicum) based on previous research that indicated potential topoclimatic zones for planting paricá in the Brazilian state of Pará. This paper shows that a no-tillage system reduces the effects of drought compared to conventional tillage still used by many farmers in the region. The integrated system was implemented during the 2014/2015 season in 234.6 ha in the high-potential zone in the municipality of Ulianópolis, Pará. Both soybean and paricá were planted simultaneously. Paricá was planted in 5 m x 2 m inter-tree spacing totaling 228x103 trees per hectare and soybean, in 4 m x 100 m spacing, distributed in nine rows with a 0.45 m inter-row distance, occupying 80% of the area. The harvested soybean production was 3.4 t ha-1, higher than other soybean monocultures in eastern Pará. Paricá benefited from soybean fertilization in the first year: It exhibited rapid development in height (3.26 m) and average diameter (3.85 cm). Trees and crop rotation over the following years is six years for forest species and one year for each crop. Our results confirm there are alternatives to the current production systems able to diminish negative impacts resulting from monoculture. In addition, the system provided environmental services such as reduced soil erosion and increased carbon stock by soil cover with no-tillage soybean cultivation. The soybean cover contributes to increased paricá thermal regulation and lower forestry costs. We concluded that innovative interventions are important to show local farmers that it is possible to adapt an agroforest system to large-scale production, thus changing the Amazon.
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ABSTRACT: Global support for Conservation Agriculture (CA) as a pathway to Sustainable Intensification is strong. CA revolves around three principles: no-till (or minimal soil disturbance), soil cover, and crop rotation. The benefits arising from the ease of crop management, energy/cost/time savings, and soil and water conservation led to widespread adoption of CA, particularly on large farms in the Americas and Australia, where farmers harness the tools of modern science: highly-sophisticated machines, potent agrochemicals, and biotechnology. Over the past 10 years CA has been promoted among smallholder farmers in the (sub-) tropics, often with disappointing results. Growing evidence challenges the claims that CA increases crop yields and builds-up soil carbon although increased stability of crop yields in dry climates is evident. Our analyses suggest pragmatic adoption on larger mechanized farms, and limited uptake of CA by smallholder farmers in developing countries. We propose a rigorous, context-sensitive approach based on Systems Agronomy to analyze and explore sustainable intensification options, including the potential of CA. There is an urgent need to move beyond dogma and prescriptive approaches to provide soil and crop management options for farmers to enable the Sustainable Intensification of agriculture.
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Brazil's Low Carbon Agriculture is one the initiatives that puts the climate in the agricultural agenda towards a more sustainable and adapted agriculture under global changes. Among the several practices listed and supported by the ABC Plan, zero tillage and integrated crop-livestock-forestry systems including the recovery of degraded pasture are the most relevant ones. The objective of this paper is to present the Geo-ABC Project, a procedure to monitor the implementation of the Brazil?s Low Carbon Agriculture (ABC Plan) and aiming at the development of remote sensing methods to monitor agricultural systems listed in the ABC Plan and adopted at local scale.