Quantitative and molecular aspects of water intake in meat-type chickens

Even though water is the most essential nutrient for poultry production, adequate data on individual water intake in broiler chickens and its relationship with other traits of economic importance is scant. Water is provided to chickens in an unrestricted manner in spite of being a finite resource. C...

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Autores principales: Aggrey, Samuel E., Ghareeb, Ahmed F.A., Milfort, Marie C., Ariyo, Oluwatomide W., Aryal, Bikash, Hartono, Evan, Kwakye, Josephine, Sovi, Selorm, Hipple, Sommer A., Stevenson, Carrienton, Fuller, Alberta L., El Sabry, Mohamed I., Stino, Farid, Rekaya, Romdhane
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2023
Materias:
GENETICS AND MOLECULAR BIOLOGY
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10474491/
https://www.ncbi.nlm.nih.gov/pubmed/37633082
http://dx.doi.org/10.1016/j.psj.2023.102973
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author Aggrey, Samuel E.
Ghareeb, Ahmed F.A.
Milfort, Marie C.
Ariyo, Oluwatomide W.
Aryal, Bikash
Hartono, Evan
Kwakye, Josephine
Sovi, Selorm
Hipple, Sommer A.
Stevenson, Carrienton
Fuller, Alberta L.
El Sabry, Mohamed I.
Stino, Farid
Rekaya, Romdhane
author_facet Aggrey, Samuel E.
Ghareeb, Ahmed F.A.
Milfort, Marie C.
Ariyo, Oluwatomide W.
Aryal, Bikash
Hartono, Evan
Kwakye, Josephine
Sovi, Selorm
Hipple, Sommer A.
Stevenson, Carrienton
Fuller, Alberta L.
El Sabry, Mohamed I.
Stino, Farid
Rekaya, Romdhane
author_sort Aggrey, Samuel E.
collection PubMed
description Even though water is the most essential nutrient for poultry production, adequate data on individual water intake in broiler chickens and its relationship with other traits of economic importance is scant. Water is provided to chickens in an unrestricted manner in spite of being a finite resource. Climate change continues to affect water sources and efficient bird use of water is long overdue. Understanding the biological basis of water intake is essential for sustainability of the poultry industry. Individual water and feed intake, and growth data was collected on 520 commercial broilers aged 14 to 42 days. We introduced the concepts of water conversion ratio (WCR) and residual water intake (RWI) as parameters that can be used to assess water intake efficiency. Water conversion ratio was defined as the amount of water consumed per unit of body weight gain, and RWI was defined as the difference between the actual water intake (WI) of a given bird and the expected WI by an average bird from the population with the same metabolic body weight, feed intake (FI) and body weight gain (BWG). The correlation between WI and FI was positive (r=0.77; P<0.0001), and the correlation between WI and BWG was positive (r=0.80; P<0.0001). Based on the distribution of RWI, the bottom 5 birds (LRWI) and the top 5 birds (HRWI) for RWI were selected for mRNA expression differences. The average broiler consumed about 7.8 L (± 1L) of water from 14 to 42 days of age. The mRNA expression of arginine vasopressin (AVP) antidiuretic hormone, calcium sensing receptor (CasR), sodium channel epithelial 1 subunit alpha (SCNN1A) and SCNN1D in the hypothalamus was upregulated in the LRWI group compared to the HRWI group. Similarly, kidney aquaporins (AQP) 2, 3, and 4 were upregulated in the LRWI group compared with the HRWI group. Given that water was provided ad libitum, the up-regulation of AVP and AQP gene mRNA expressions seem to indicate that the LRWI birds were more efficient in water reabsorption in the kidney compared to their HRWI counterparts. Increased water reabsorption will reduce the amount of water consumed to attain hydration. The water reabsorption potential was reflected in the excreta moisture levels as the LRWI birds had significantly lower excreta moisture than the HRWI birds. Excreta moisture level require further studies and could be considered as a potential proxy trait for water intake.
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spelling pubmed-104744912023-09-03 Quantitative and molecular aspects of water intake in meat-type chickens Aggrey, Samuel E. Ghareeb, Ahmed F.A. Milfort, Marie C. Ariyo, Oluwatomide W. Aryal, Bikash Hartono, Evan Kwakye, Josephine Sovi, Selorm Hipple, Sommer A. Stevenson, Carrienton Fuller, Alberta L. El Sabry, Mohamed I. Stino, Farid Rekaya, Romdhane Poult Sci GENETICS AND MOLECULAR BIOLOGY Even though water is the most essential nutrient for poultry production, adequate data on individual water intake in broiler chickens and its relationship with other traits of economic importance is scant. Water is provided to chickens in an unrestricted manner in spite of being a finite resource. Climate change continues to affect water sources and efficient bird use of water is long overdue. Understanding the biological basis of water intake is essential for sustainability of the poultry industry. Individual water and feed intake, and growth data was collected on 520 commercial broilers aged 14 to 42 days. We introduced the concepts of water conversion ratio (WCR) and residual water intake (RWI) as parameters that can be used to assess water intake efficiency. Water conversion ratio was defined as the amount of water consumed per unit of body weight gain, and RWI was defined as the difference between the actual water intake (WI) of a given bird and the expected WI by an average bird from the population with the same metabolic body weight, feed intake (FI) and body weight gain (BWG). The correlation between WI and FI was positive (r=0.77; P<0.0001), and the correlation between WI and BWG was positive (r=0.80; P<0.0001). Based on the distribution of RWI, the bottom 5 birds (LRWI) and the top 5 birds (HRWI) for RWI were selected for mRNA expression differences. The average broiler consumed about 7.8 L (± 1L) of water from 14 to 42 days of age. The mRNA expression of arginine vasopressin (AVP) antidiuretic hormone, calcium sensing receptor (CasR), sodium channel epithelial 1 subunit alpha (SCNN1A) and SCNN1D in the hypothalamus was upregulated in the LRWI group compared to the HRWI group. Similarly, kidney aquaporins (AQP) 2, 3, and 4 were upregulated in the LRWI group compared with the HRWI group. Given that water was provided ad libitum, the up-regulation of AVP and AQP gene mRNA expressions seem to indicate that the LRWI birds were more efficient in water reabsorption in the kidney compared to their HRWI counterparts. Increased water reabsorption will reduce the amount of water consumed to attain hydration. The water reabsorption potential was reflected in the excreta moisture levels as the LRWI birds had significantly lower excreta moisture than the HRWI birds. Excreta moisture level require further studies and could be considered as a potential proxy trait for water intake. Elsevier 2023-08-09 /pmc/articles/PMC10474491/ /pubmed/37633082 http://dx.doi.org/10.1016/j.psj.2023.102973 Text en © 2023 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle GENETICS AND MOLECULAR BIOLOGY
Aggrey, Samuel E.
Ghareeb, Ahmed F.A.
Milfort, Marie C.
Ariyo, Oluwatomide W.
Aryal, Bikash
Hartono, Evan
Kwakye, Josephine
Sovi, Selorm
Hipple, Sommer A.
Stevenson, Carrienton
Fuller, Alberta L.
El Sabry, Mohamed I.
Stino, Farid
Rekaya, Romdhane
Quantitative and molecular aspects of water intake in meat-type chickens
title Quantitative and molecular aspects of water intake in meat-type chickens
title_full Quantitative and molecular aspects of water intake in meat-type chickens
title_fullStr Quantitative and molecular aspects of water intake in meat-type chickens
title_full_unstemmed Quantitative and molecular aspects of water intake in meat-type chickens
title_short Quantitative and molecular aspects of water intake in meat-type chickens
title_sort quantitative and molecular aspects of water intake in meat-type chickens
topic GENETICS AND MOLECULAR BIOLOGY
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10474491/
https://www.ncbi.nlm.nih.gov/pubmed/37633082
http://dx.doi.org/10.1016/j.psj.2023.102973
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