José Henrique da Silva Taveira scite author profile

During coffee drying, different temperatures applied to the beans with varied humidity content levels can interfere in the membranes integrity, germination, organic acid and carbohydrate content resulting in coffees with distinct flavors. The quality control of the beans will be much more effective the earlier the alterations provoked in the postharvest are detected. This work has an objective to study alternative methods for the dehydration of the coffee beans using ultra-drying followed by slow drying and its impact on the sensorial quality, chemical composition and physiology. For that purpose, coffee lots were processed by the methods, dry (natural coffee) and wet (fully washed coffee); and sun-dried and machine-dried at a constant 60°C temperature and alternating 60/40°C. The sensory quality of the samples was assessed by the Specialty Coffee Association of America (SCAA) analysis protocol. The sugar, total titratable acidity and the phenolic compound content was also analyzed. The physiological alterations of the coffee beans were analyzed by germination tests, emergence speed index, electrical conductivity and potassium leaching. The temperature of the drying air significantly altered the sensorial quality of the coffee beans. The processing way associated to drying methods causes many physiological alterations with the highest damage observed in the natural coffees. For the first time, we are showing that drying with heated air at 60/40ºC is promising for the fully washed coffee beans, which are more tolerant to dehydration than the natural coffee beans. Conversely, the natural coffee beans were much more sensitive to drying regardless the temperature, with very low performance in the physiological analyses. The drying at the constant 60ºC temperature is inappropriate for the natural coffee as well as for the fully washed coffee beans. In addition, the physiological tests used were shown effective for the early evaluation of coffee beans quality.

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Microscopia eletrônica de varredura do endosperma de café (Coffea arabica L.) durante o processo de secagem

Saath

Borém

Alves

et al. 2010

Ciênc. agrotec.

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RESUMOA manutenção da integridade das membranas celulares, entre outros eventos, é um forte indicativo de que a qualidade do café foi preservada na pós-colheita. Objetivou-se neste trabalho, analisar o efeito de diferentes métodos de secagem na manutenção da integridade da parede celular e da membrana plasmática de café natural e café despolpado, buscando determinar as condições e o momento em que ocorrem as rupturas microscópicas. Os cafés foram submetidos a um período de pré-secagem em terreiro. Após este, uma parcela de cada tipo de café foi desidratada no terreiro e, outra, à temperatura de 40ºC e 60ºC em secadores de camada fixa, monitorando-se a temperatura e o teor de água até 11% (bu). Nesse período, grãos foram aleatoriamente amostrados e fragmentos do endosperma preparados para a microscopia eletrônica de varredura, registrandose diversas eletromicrografias, avaliando-se as alterações na membrana plasmática da célula do endosperma dos grãos de cafés em função do teor de água e tempo de secagem. O citoplasma das células a 11% (bu) de teor de água não foi comprometido na secagem em terreiro e a 40°C; na secagem a 60°C, observou-se comprometimento nas estruturas celulares nos cafés com teor de água de 20% (bu).Termos para indexação: Café, processamento, secagem, microestrutura. ABSTRACTThe maintenance of the integrity of cellular membranes, among other events, is a strong indicator that the quality of the coffee was preserved in the post-harvesting process. Therefore, this work aimed to analyze the effect of different drying methods on the maintenance of the integrity of cell walls and plasma membrane of natural and de-pulped coffee in order to determine the conditions and the moment that microscopic ruptures take place. The coffee was submitted to a pre-drying period on a concrete patio. After this, a sample of each type of coffee was dehydrated outdoors and another, with heated air at 40ºC and 60ºC in fixed-layer dryers, controlling the grain temperature and the moisture content to 11% (bu). During the drying process the coffee grains were randomly sampled and fragments of the endosperm were prepared for scanning electron microscopy and eletromicrographs were taken. Measurements of the cells were taken for evaluating changes in the plasma membrane of the endosperm cells in relation to the moisture content and drying period. The cell cytoplasm of the coffee grains with 11% moisture content was not affected when dried under sun light and at the temperature of 40°C. When dried at 60°C, changes in the cellular structures of the cytoplasm were observed for coffees with moisture content of 20%.

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Potential markers of coffee genotypes grown in different Brazilian regions: A metabolomics approach

Taveira

Borém

Figueiredo

et al. 2014

Food Research International

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Fatty acid profiles and parameters of quality of specialty coffees produced in different Brazilian regions

Figueiredo¹,

Borém²,

Ribeiro³

et al. 2015

Afr. J. Agric. Res.

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Interaction of genotype, environment and processing in the chemical composition expression and sensorial quality of Arabica coffee

Ribeiro¹,

Borém²,

Cirillo³

et al. 2016

Afr. J. Agric. Res.

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The present study was carried out to analyze chemical descriptors present in the raw coffee bean and to establish an association of these descriptors with the sensorial quality of the coffee beverage, based on expressions resulting from the interactions of coffee genotype, environment, and processing. The chemical descriptors caffeine, trigonelline, sucrose, and isomers of chlorogenic acid (3-CQA, 4-CQA, and 5-CQA), were analyzed through the use of high performance liquid chromatography (HPLC). Trained and qualified cuppers, certified as judges of specialty coffees, carried out the sensorial analysis using the methodology proposed by the Specialty Coffee Association of America (SCAA). Based on the cultivation environment, altitude and the genotype, it was possible to associate the chemical composition of the raw coffee bean with the coffee beverage sensorial quality. Yellow Bourbon cultivated above 1,200 m of altitude present higher contents of trigonelline and 3-CQA in the raw beans as well as high sensorial quality in the beverage.

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