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Registro Completo |
Biblioteca(s): |
Biblioteca Rui Tendinha. |
Data corrente: |
21/05/2019 |
Data da última atualização: |
24/05/2019 |
Tipo da produção científica: |
Capítulo em Livro Técnico-Científico |
Autoria: |
SOARES, S. F.; MORELI, A. P.; DONZELES, S. M. L.; PREZOTTI, L. C.; SILVA, J. S. e.; REIS, E. F. dos. |
Afiliação: |
Sammy Fernandes Soares, EPAMIG; Aldemar Polonini Moreli, IFES; Sérgio Mauricio Lopes Donzeles, EPAMIG; Luiz Carlos Prezotti, Incaper; Juarez Souza e Silva, UFV; Edvaldo Fialho dos Reis, CCA/UFES. |
Título: |
Management of Conilon coffee wastewater. |
Ano de publicação: |
2019 |
Fonte/Imprenta: |
Conilon coffee mechanical harvesting. In: FERRÃO, R. G.; FONSECA, A. F. A. da.; FERRÃO, M. A. G.; DE MUNER, L. H. (Ed.). Conilon Coffee. 3 edition updated and expanded Vitória, ES : Incaper, 2019. Cap. 22, p. 659-683. Translated from: Café Conilon, 2017 - Incaper. English translation: Marcele Gualda Pasolini. |
Idioma: |
Inglês |
Conteúdo: |
The processing of the coffee tree fruits, in order to obtain the peeled cherry, involves cleaning operations, which do not consume water, and washing, hulling and mucilage removal, in which the water is used and it is added several residues to it, generating the coffee wastewater?(CWW). The cleaning operation is done in the field and in the processing unit and branches and leaves are removed by shaking and sieving. Washing is performed by removing fragments of branches and leaves, the dirt on the fruits and other impurities that come together during the coffee harvesting. The washing also makes the separation of the coffee bean from the cherry and green fruits possible, which are taken to the huller, where the cherry fruits are peeled and separated from the green ones.To complete the processing, it is common to remove part ofthe mucilage that sticks to the peeled cherry coffee... |
Thesaurus NAL: |
Coffea canephora; Conilon coffee; Legislation; Wastewater cleaning system. |
Categoria do assunto: |
X Pesquisa, Tecnologia e Engenharia |
URL: |
https://biblioteca.incaper.es.gov.br/digital/bitstream/123456789/3525/1/chapter-22-management-wastewater.pdf
|
Marc: |
LEADER 01790naa a2200229 a 4500 001 1021323 005 2019-05-24 008 2019 bl uuuu u00u1 u #d 100 1 $aSOARES, S. F. 245 $aManagement of Conilon coffee wastewater.$h[electronic resource] 260 $c2019 520 $aThe processing of the coffee tree fruits, in order to obtain the peeled cherry, involves cleaning operations, which do not consume water, and washing, hulling and mucilage removal, in which the water is used and it is added several residues to it, generating the coffee wastewater?(CWW). The cleaning operation is done in the field and in the processing unit and branches and leaves are removed by shaking and sieving. Washing is performed by removing fragments of branches and leaves, the dirt on the fruits and other impurities that come together during the coffee harvesting. The washing also makes the separation of the coffee bean from the cherry and green fruits possible, which are taken to the huller, where the cherry fruits are peeled and separated from the green ones.To complete the processing, it is common to remove part ofthe mucilage that sticks to the peeled cherry coffee... 650 $aCoffea canephora 650 $aConilon coffee 650 $aLegislation 650 $aWastewater cleaning system 700 1 $aMORELI, A. P. 700 1 $aDONZELES, S. M. L. 700 1 $aPREZOTTI, L. C. 700 1 $aSILVA, J. S. e. 700 1 $aREIS, E. F. dos. 773 $tConilon coffee mechanical harvesting. In: FERRÃO, R. G.; FONSECA, A. F. A. da.; FERRÃO, M. A. G.; DE MUNER, L. H. (Ed.). Conilon Coffee. 3 edition updated and expanded Vitória, ES : Incaper, 2019. Cap. 22, p. 659-683. Translated from: Café Conilon, 2017 - Incaper. English translation: Marcele Gualda Pasolini.
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Biblioteca Rui Tendinha (BRT) |
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Registro Completo |
Biblioteca(s): |
Biblioteca Rui Tendinha. |
Data corrente: |
14/07/2015 |
Data da última atualização: |
23/10/2015 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
B - 1 |
Autoria: |
PADOVAN, M. da P.; CORTEZ, V. J.; NAVARRETE, L. F.; NAVARRETE, E. D.; DEFFNER, A. C.; CENTENO, L. G.; MUNGUÍA, R.; BARRIOS, M.; VÍLCHEZ-MENDOZA, J. S.; VEGA-JARQUÍN, C.; COSTA, A. N. da.; BROOK, R. M.; RAPIDEL, B. |
Afiliação: |
Maria da Penha Padovan, Incaper; CORTEZ, V. J.; Aureliano Nogueira da Costa, Incaper. |
Título: |
Root distribution and water use in coffee shaded with Tabebuia rosea Bertol. and Simarouba glauca DC. compared to full sun coffee in sub-optimal environmental conditions. |
Ano de publicação: |
2015 |
Fonte/Imprenta: |
Agroforestry Systems, v. 89, p. 743-749, 2015. |
Idioma: |
Inglês |
Conteúdo: |
Root niche differentiation for optimal exploitation of resources was found in an arabica coffee agroforestry system in Nicaragua. Rooting behavior was compared in both unshaded (FS) and shaded (AFS) coffee combined with two previously untested tropical timber species (deciduous Tabebuia rosea Bertol. and evergreen Simarouba glauca DC.). The predominant andisol possesses a compacted soil layer (talpetate). The study was conducted in sub-optimal environmental conditions for coffee cultivation (455 m.a.s.l., annual mean 27 °C, 1300 mm rainfall/year, 6 months dry season) in Nicaragua. Twelve and five trenches 200 cm deep were dug in AFS and FS respectively. Roots per unit area were counted on two perpendicular soil faces. Volumetric water was measured continuously over 2 years by using 45 reflectometers in different soil layers. The talpetate varied greatly in depth, thickness and physical structure. Coffee fine roots were more abundant than tree roots and were concentrated in the shallower strata (0?80 cm) whilst tree roots proliferated more below 100 cm. The S. glauca root system was denser below 100 cm than T. rosea root system. There was no meaningful difference in coffee root counts in FS and under T. rosea, but coffee root counts were higher near S. glauca trees. 2012 and 2014 had mild dry seasons and whole profile soil water content was similar in FS and AFS, but in the 2013 severe dry period volumetric water and water uptake were lower in AFS than in FS. This indicates that the normal advantage of greater soil exploration in AFS was cancelled presumably due to continued water uptake by deep rooting trees whereas the FS still had available water. MenosRoot niche differentiation for optimal exploitation of resources was found in an arabica coffee agroforestry system in Nicaragua. Rooting behavior was compared in both unshaded (FS) and shaded (AFS) coffee combined with two previously untested tropical timber species (deciduous Tabebuia rosea Bertol. and evergreen Simarouba glauca DC.). The predominant andisol possesses a compacted soil layer (talpetate). The study was conducted in sub-optimal environmental conditions for coffee cultivation (455 m.a.s.l., annual mean 27 °C, 1300 mm rainfall/year, 6 months dry season) in Nicaragua. Twelve and five trenches 200 cm deep were dug in AFS and FS respectively. Roots per unit area were counted on two perpendicular soil faces. Volumetric water was measured continuously over 2 years by using 45 reflectometers in different soil layers. The talpetate varied greatly in depth, thickness and physical structure. Coffee fine roots were more abundant than tree roots and were concentrated in the shallower strata (0?80 cm) whilst tree roots proliferated more below 100 cm. The S. glauca root system was denser below 100 cm than T. rosea root system. There was no meaningful difference in coffee root counts in FS and under T. rosea, but coffee root counts were higher near S. glauca trees. 2012 and 2014 had mild dry seasons and whole profile soil water content was similar in FS and AFS, but in the 2013 severe dry period volumetric water and water uptake were lower in AFS than in FS. This indicates t... Mostrar Tudo |
Palavras-Chave: |
Agriculture; Forestry. |
Categoria do assunto: |
-- |
Marc: |
LEADER 02577naa a2200289 a 4500 001 1006688 005 2015-10-23 008 2015 bl uuuu u00u1 u #d 100 1 $aPADOVAN, M. da P. 245 $aRoot distribution and water use in coffee shaded with Tabebuia rosea Bertol. and Simarouba glauca DC. compared to full sun coffee in sub-optimal environmental conditions.$h[electronic resource] 260 $c2015 520 $aRoot niche differentiation for optimal exploitation of resources was found in an arabica coffee agroforestry system in Nicaragua. Rooting behavior was compared in both unshaded (FS) and shaded (AFS) coffee combined with two previously untested tropical timber species (deciduous Tabebuia rosea Bertol. and evergreen Simarouba glauca DC.). The predominant andisol possesses a compacted soil layer (talpetate). The study was conducted in sub-optimal environmental conditions for coffee cultivation (455 m.a.s.l., annual mean 27 °C, 1300 mm rainfall/year, 6 months dry season) in Nicaragua. Twelve and five trenches 200 cm deep were dug in AFS and FS respectively. Roots per unit area were counted on two perpendicular soil faces. Volumetric water was measured continuously over 2 years by using 45 reflectometers in different soil layers. The talpetate varied greatly in depth, thickness and physical structure. Coffee fine roots were more abundant than tree roots and were concentrated in the shallower strata (0?80 cm) whilst tree roots proliferated more below 100 cm. The S. glauca root system was denser below 100 cm than T. rosea root system. There was no meaningful difference in coffee root counts in FS and under T. rosea, but coffee root counts were higher near S. glauca trees. 2012 and 2014 had mild dry seasons and whole profile soil water content was similar in FS and AFS, but in the 2013 severe dry period volumetric water and water uptake were lower in AFS than in FS. This indicates that the normal advantage of greater soil exploration in AFS was cancelled presumably due to continued water uptake by deep rooting trees whereas the FS still had available water. 653 $aAgriculture 653 $aForestry 700 1 $aCORTEZ, V. J. 700 1 $aNAVARRETE, L. F. 700 1 $aNAVARRETE, E. D. 700 1 $aDEFFNER, A. C. 700 1 $aCENTENO, L. G. 700 1 $aMUNGUÍA, R. 700 1 $aBARRIOS, M. 700 1 $aVÍLCHEZ-MENDOZA, J. S. 700 1 $aVEGA-JARQUÍN, C. 700 1 $aCOSTA, A. N. da. 700 1 $aBROOK, R. M. 700 1 $aRAPIDEL, B. 773 $tAgroforestry Systems$gv. 89, p. 743-749, 2015.
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