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| 82. |  | AVELINO, F.; ALMEIDA, S. L.; DUARTE, E. B.; SOUSA, J. R.; MAZZETTO, S. E.; SOUZA FILHO, M. de S. M. de. Thermal and mechanical properties of coconut shell lignin-based polyurethanes synthesized by solvent-free polymerization. Journal of Materials Science, v. 53, n. 2, p. 1470-1486, 2018.| Biblioteca(s): Embrapa Agroindústria Tropical. |
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| 85. | | MELO, E. F. DE; PINHEIRO, J. A.; VASCONCELOS, N. F.; FURTADO, A. A. L.; ROSA, M. de F.; SOUZA FILHO, M. de S. M. de. Uso do ultrassom na incorporação de gelatina de resíduo de carne mecanicamente separada (CMS) de tilápia (Oreochromis niloticus) em emulsão óleo de girassol/água. In: CONGRESSO NORTE NORDESTE DE PESQUISA E INOVAÇÃO, 8., 2013, Salvador. Pesquisa e inovação para o desenvolvimento do Brasil: anais. Salvador: IFBA, 2013. 10 p.| Biblioteca(s): Embrapa Agroindústria de Alimentos. |
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| 87. | | OLIVEIRA, M. A. L. DE; MADRUGA, L. Y. C.; LIMA, B. L. B. DE; VILLETTI, M. A.; SOUZA FILHO, M. de S. M. de; KIPPER, M. J.; MARQUES, N. N.; BALABAN, R. C. Agro-industrial waste valorization: Transformation of starch from Mango Kernel into biocompatible, thermoresponsive and high swelling nanogels. Journal of the Brazilian Chemical Society, v. 32, n. 8, p. 1607-1616, 2021.| Biblioteca(s): Embrapa Agroindústria Tropical. |
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| 88. | | MELO, P. E. F.; SILVA, A. P. M.; MARQUES, F. P.; RIBEIRO, P. R. V.; SOUZA FILHO, M. de S. M. de; BRITO, E. S. de; LIMA, J. R.; AZEREDO, H. M. C. de. Antioxidant films from mango kernel components. Food Hydrocolloids, Oxford, v. 95, p. 487-495, 2019.| Biblioteca(s): Embrapa Agroindústria de Alimentos; Embrapa Agroindústria Tropical. |
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| 89. | | PEREIRA, A. L. S.; NASCIMENTO, D. M. do; SOUZA FILHO, M. de S. M. de; MORAIS, J. P. S.; VASCONCELOS, N. F.; FEITOSA, J. P. de A.; BRIGIDA, A. I. S. Improvement of polyvinyl alcohol properties by adding nanocrystalline cellulose isolated from banana pseudostems. Carbohydrate Polymers, Barking, v. 112, p. 165-172, 2014.| Biblioteca(s): Embrapa Algodão. |
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| 90. | | PEREIRA, A. L. S.; NASCIMENTO, D. M. do; SOUZA FILHO, M. de S. M. de; MORAIS, J. P. S.; VASCONCELOS, N. F.; FEITOSA, J. P. A.; BRIGIDA, A. I. S.; ROSA, M. de F. Improvement of polyvinyl alcohol properties by adding nanocrystalline cellulose isolated from banana pseudostems. Carbohydrate Polymers, v. 112, p. 165-172, 2014.| Biblioteca(s): Embrapa Agroindústria de Alimentos; Embrapa Agroindústria Tropical. |
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| 91. | | SILVA, A. C. C.; CAVALCANTE, A. C.; NASCIMENTO, D. M.; FIGUEIREDO, M. C. B. de; UGAYA, C. M. L.; ROSA, M. de F.; SOUZA FILHO, M. de S. M. de. Inventory of resources and emissions of cellulose nanostructures from unripe coconut husks: extraction process. In: INTERNATIONAL CONFERENCE ON FOOD AND AGRICULTURE APPLICATIONS OF NANOTECHNOLOGIES, 1., 2010, São Pedro. Resumos. São Pedro: Food and Agriculture Organization of the United Nations, 2010. p. 237.| Biblioteca(s): Embrapa Agroindústria Tropical. |
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| 95. | | FIGUEIREDO, M. C. B. de; MATSUURA, M. I. da S. F.; SOUZA FILHO, M. de S. M. de; ROSA, M. de F.; BRAID, A. C. C. S.; DIAS, A. F. Environmental impacts of cellulose nanowhiskers obtained from tropical vegetal fibers. In: WORKSHOP DE NANOTECNOLOGIA APLICADA AO AGRONEGÓCIO, 7., 2013, São Carlos. Anais... São Carlos: Embrapa Instrumentação, 2013. p. 534-535.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 96. | | MENEZES, M. do L. L. R.; PIRES, N. da R.; CUNHA, P. L. R. da; ROSA, M. de F.; SOUZA, B. W. S. de; FEITOSA, J. P. de A.; SOUZA FILHO, M. de S. M. de. Effect of tannic acid as crosslinking agent on fish skin gelatin-silver nanocomposite film. Food Packaging and Shelf Life, v. 19, p. 7-15, 2019.| Biblioteca(s): Embrapa Agroindústria Tropical. |
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| 97. | | TEIXEIRA, E. S.; NUNES, V. F.; PINHO, D. C.; MAIA JÚNIOR, P. H. F.; LIMA, F. M.; SOUZA FILHO, M. de S. M. de; ALMEIDA, A. F. L.; FREIRE, F. N. A. Effect of the Performance of Lignin Into the Matrix of the TiO 2 with Application on DSSCs. Floresta e Ambiente, v. 29, n. 3: e20220013, 2022.| Biblioteca(s): Embrapa Agroindústria Tropical. |
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 | Acesso ao texto completo restrito à biblioteca da Embrapa Amazônia Oriental. Para informações adicionais entre em contato com cpatu.biblioteca@embrapa.br. |
Registro Completo
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Biblioteca(s): |
Embrapa Amazônia Oriental. |
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Data corrente: |
12/06/2023 |
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Data da última atualização: |
12/06/2023 |
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Tipo da produção científica: |
Artigo em Periódico Indexado |
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Circulação/Nível: |
B - 5 |
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Autoria: |
BRCKO, C. C.; SILVA, J. A. R. da; MARTORANO, L. G.; VILELA, R. A.; NAHUM, B. de S.; SILVA, A. G. M.; BARBOSA, A. V. C.; BEZERRA, A. S.; LOURENÇO JUNIOR, J. de B. |
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Afiliação: |
CAROLINA CARVALHO BRCKO, UFPA; JAMILE ANDRÉA RODRIGUES DA SILVA, UFRA; LUCIETA GUERREIRO MARTORANO, CPATU; REÍSSA ALVES VILELA, UFPA; BENJAMIM DE SOUZA NAHUM, CPATU; ANDRÉ GUIMARÃES MACIELE SILVA, UFPA; ANTÔNIO VINÍCIUS CORRÊA BARBOSA, UFRA; ANDRÉIA SANTANA BEZERRA, UFPA; JOSÉ DE BRITO LOURENÇO JÚNIOR, UFPA. |
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Título: |
Infrared thermography to assess thermoregulatory reactions of female buffaloes in a humid tropical environment. |
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Ano de publicação: |
2020 |
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Fonte/Imprenta: |
Frontiers in Veterinary Science, v. 7, Article 180, May 2020. |
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DOI: |
https://doi.org/10.3389/fvets.2020.00180 |
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Idioma: |
Inglês |
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Conteúdo: |
This study employed infrared thermography to assess the thermoregulatory responses of female buffaloes reared in a hot and humid climate as a function of variations in time and the thermal environment, and to correlate rectal temperature with that of different body areas. The trial was carried out at Embrapa Eastern Amazon (01°26'S and 48°24'W) in Belém, PA, Brazil. Twenty-four female buffaloes fed exclusively on pasture and exposed to the sun throughout the day in an open area were used. The animals were taken back to the corral at 6 A.M., 9 A.M., 12 P.M., 3 P.M., 6 P.M., and 9 P.M. for measurements of rectal temperature (RT), respiratory rate (RR), and body surface temperature (BST) using infrared thermography (IRT). Data on air temperature (AT), relative air humidity (RH), wind velocity (WV), and solar radiation (SR) were also recorded. A quadratic effect of AT, RH, SR, RR, and RT (P < 0.01) was found as a function of measurement time. Between 12 P.M. and 3 P.M., AT, SR, RR, and RT values were the highest, while RH values were the lowest (P < 0.05). WV was the highest between 12 P.M. and 9 P.M. A difference was found in RR and RT among the day's times, with the highest values at 12 P.M. and 3 P.M. (P <0.05). The IRTs have a quadratic effect as a function of day's times, with the highest levels between 12 P.M. and 6 P.M. and a reduction at 9 P.M. All IRTs are correlated with the physiological variables RR and RT, except for the IRT of the side of the back, which is not correlated with RT. The IRTs of the eye and cheek are correlated with RT (P < 0.01) and with RR (P < 0.05). IRT was efficient in evaluating the thermal stress of female buffaloes in hot and humid climates, and the technique can be used to evaluate the body temperature of these animals, since the RT was positively correlated with the temperature of the eye and cheek. MenosThis study employed infrared thermography to assess the thermoregulatory responses of female buffaloes reared in a hot and humid climate as a function of variations in time and the thermal environment, and to correlate rectal temperature with that of different body areas. The trial was carried out at Embrapa Eastern Amazon (01°26'S and 48°24'W) in Belém, PA, Brazil. Twenty-four female buffaloes fed exclusively on pasture and exposed to the sun throughout the day in an open area were used. The animals were taken back to the corral at 6 A.M., 9 A.M., 12 P.M., 3 P.M., 6 P.M., and 9 P.M. for measurements of rectal temperature (RT), respiratory rate (RR), and body surface temperature (BST) using infrared thermography (IRT). Data on air temperature (AT), relative air humidity (RH), wind velocity (WV), and solar radiation (SR) were also recorded. A quadratic effect of AT, RH, SR, RR, and RT (P < 0.01) was found as a function of measurement time. Between 12 P.M. and 3 P.M., AT, SR, RR, and RT values were the highest, while RH values were the lowest (P < 0.05). WV was the highest between 12 P.M. and 9 P.M. A difference was found in RR and RT among the day's times, with the highest values at 12 P.M. and 3 P.M. (P <0.05). The IRTs have a quadratic effect as a function of day's times, with the highest levels between 12 P.M. and 6 P.M. and a reduction at 9 P.M. All IRTs are correlated with the physiological variables RR and RT, except for the IRT of the side of the back, which is not cor... Mostrar Tudo |
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Thesagro: |
Búfalo; Clima; Termorregulação. |
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Categoria do assunto: |
L Ciência Animal e Produtos de Origem Animal |
|
Marc: |
LEADER 02707naa a2200265 a 4500
001 2154382
005 2023-06-12
008 2020 bl uuuu u00u1 u #d
024 7 $ahttps://doi.org/10.3389/fvets.2020.00180$2DOI
100 1 $aBRCKO, C. C.
245 $aInfrared thermography to assess thermoregulatory reactions of female buffaloes in a humid tropical environment.$h[electronic resource]
260 $c2020
520 $aThis study employed infrared thermography to assess the thermoregulatory responses of female buffaloes reared in a hot and humid climate as a function of variations in time and the thermal environment, and to correlate rectal temperature with that of different body areas. The trial was carried out at Embrapa Eastern Amazon (01°26'S and 48°24'W) in Belém, PA, Brazil. Twenty-four female buffaloes fed exclusively on pasture and exposed to the sun throughout the day in an open area were used. The animals were taken back to the corral at 6 A.M., 9 A.M., 12 P.M., 3 P.M., 6 P.M., and 9 P.M. for measurements of rectal temperature (RT), respiratory rate (RR), and body surface temperature (BST) using infrared thermography (IRT). Data on air temperature (AT), relative air humidity (RH), wind velocity (WV), and solar radiation (SR) were also recorded. A quadratic effect of AT, RH, SR, RR, and RT (P < 0.01) was found as a function of measurement time. Between 12 P.M. and 3 P.M., AT, SR, RR, and RT values were the highest, while RH values were the lowest (P < 0.05). WV was the highest between 12 P.M. and 9 P.M. A difference was found in RR and RT among the day's times, with the highest values at 12 P.M. and 3 P.M. (P <0.05). The IRTs have a quadratic effect as a function of day's times, with the highest levels between 12 P.M. and 6 P.M. and a reduction at 9 P.M. All IRTs are correlated with the physiological variables RR and RT, except for the IRT of the side of the back, which is not correlated with RT. The IRTs of the eye and cheek are correlated with RT (P < 0.01) and with RR (P < 0.05). IRT was efficient in evaluating the thermal stress of female buffaloes in hot and humid climates, and the technique can be used to evaluate the body temperature of these animals, since the RT was positively correlated with the temperature of the eye and cheek.
650 $aBúfalo
650 $aClima
650 $aTermorregulação
700 1 $aSILVA, J. A. R. da
700 1 $aMARTORANO, L. G.
700 1 $aVILELA, R. A.
700 1 $aNAHUM, B. de S.
700 1 $aSILVA, A. G. M.
700 1 $aBARBOSA, A. V. C.
700 1 $aBEZERRA, A. S.
700 1 $aLOURENÇO JUNIOR, J. de B.
773 $tFrontiers in Veterinary Science$gv. 7, Article 180, May 2020.
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