True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique

True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique

The objectives of this study were to determine true phosphorus (P) digestibility, degradability of phytate-P complex and the endogenous P outputs associated with brown rice feeding in weanling pigs by using the simple linear regression analysis technique. Six barrows with an average initial body wei...

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Main Authors: H. Yang, A.K. Li, Y.L. Yin, T.J. Li, Z.R. Wang, G. Wu, R.L. Huang, X.F. Kong, C.B. Yang, P. Kang, J. Deng, S.X. Wang, B.E. Tan, Q. Hu, F.F. Xing, X. Wu, Q.H. He, K. Yao, Z.J. Liu, Z.R. Tang, F.G. Yin, Z.Y. Deng, M.Y. Xie, M.Z. Fan
Format: Article
Language:English
Published: Elsevier 2007-01-01
Series:Animal
Subjects:
digestibility
phosphorus
pigs
rice
Online Access:http://www.sciencedirect.com/science/article/pii/S1751731107257945
id doaj-5030e26a620d4d739155572849a0e5b5
record_format Article
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language English
format Article
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author H. Yang
A.K. Li
Y.L. Yin
T.J. Li
Z.R. Wang
G. Wu
R.L. Huang
X.F. Kong
C.B. Yang
P. Kang
J. Deng
S.X. Wang
B.E. Tan
Q. Hu
F.F. Xing
X. Wu
Q.H. He
K. Yao
Z.J. Liu
Z.R. Tang
F.G. Yin
Z.Y. Deng
M.Y. Xie
M.Z. Fan
spellingShingle H. Yang
A.K. Li
Y.L. Yin
T.J. Li
Z.R. Wang
G. Wu
R.L. Huang
X.F. Kong
C.B. Yang
P. Kang
J. Deng
S.X. Wang
B.E. Tan
Q. Hu
F.F. Xing
X. Wu
Q.H. He
K. Yao
Z.J. Liu
Z.R. Tang
F.G. Yin
Z.Y. Deng
M.Y. Xie
M.Z. Fan
True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique
Animal
digestibility
phosphorus
pigs
rice
author_facet H. Yang
A.K. Li
Y.L. Yin
T.J. Li
Z.R. Wang
G. Wu
R.L. Huang
X.F. Kong
C.B. Yang
P. Kang
J. Deng
S.X. Wang
B.E. Tan
Q. Hu
F.F. Xing
X. Wu
Q.H. He
K. Yao
Z.J. Liu
Z.R. Tang
F.G. Yin
Z.Y. Deng
M.Y. Xie
M.Z. Fan
author_sort H. Yang
title True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique
title_short True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique
title_full True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique
title_fullStr True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique
title_full_unstemmed True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique
title_sort true phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique
publisher Elsevier
series Animal
issn 1751-7311
publishDate 2007-01-01
description The objectives of this study were to determine true phosphorus (P) digestibility, degradability of phytate-P complex and the endogenous P outputs associated with brown rice feeding in weanling pigs by using the simple linear regression analysis technique. Six barrows with an average initial body weight of 12.5 kg were fitted with a T-cannula and fed six diets according to a 6 × 6 Latin-square design. Six maize starch-based diets, containing six levels of P at 0.80, 1.36, 1.93, 2.49, 3.04, and 3.61 g/kg per kg dry-matter (DM) intake (DMI), were formulated with brown rice. Each experimental period lasted 10 days. After a 7-day adaptation, all faecal samples were collected on days 8 and 9. Ileal digesta samples were collected for a total of 24 h on day 10. The apparent ileal and faecal P digestibility values of brown rice were affected ( P < 0.01) by the P contents in the assay diets. The apparent ileal and faecal P digestibility values increased from − 48.0 to 36.7% and from − 35.6 to 40.0%, respectively, as P content increased from 0.80 to 3.61 g/kg DMI. Linear relationships ( P < 0.05), expressed as g/kg DMI, between the apparent ileal and faecal digestible P and dietary levels of P, suggested that true P digestibility and the endogenous P outputs associated with brown rice feeding could be determined by using the simple regression analysis technique. There were no differences ( P>0.05) in true P digestibility values (57.7 ± 5.4 v. 58.2 ± 5.9%), phytate P degradability (76.4 ± 6.7 v. 79.0 ± 4.4%) and the endogenous P outputs (0.812 ± 0..096 v. 0.725 ± 0.083 g/kg DMI) between the ileal and the faecal levels. The endogenous faecal P output represented 14 and 25% of the National Research Council (1998) recommended daily total and available P requirements in the weanling pig, respectively. About 58% of the total P in brown rice could be digested and absorbed by the weanling pig. Our results suggest that the large intestine of the weanling pigs does not play a significant role in the digestion of P in brown rice. Diet formulation on the basis of total or apparent P digestibility with brown rice may lead to P overfeeding and excessive P excretion in pigs.
topic digestibility
phosphorus
pigs
rice
url http://www.sciencedirect.com/science/article/pii/S1751731107257945
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spelling doaj-5030e26a620d4d739155572849a0e5b52021-06-05T06:04:44ZengElsevierAnimal1751-73112007-01-0112213220True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis techniqueH. Yang0A.K. Li1Y.L. Yin2T.J. Li3Z.R. Wang4G. Wu5R.L. Huang6X.F. Kong7C.B. Yang8P. Kang9J. Deng10S.X. Wang11B.E. Tan12Q. Hu13F.F. Xing14X. Wu15Q.H. He16K. Yao17Z.J. Liu18Z.R. Tang19F.G. Yin20Z.Y. Deng21M.Y. Xie22M.Z. Fan23Department of Food Science and Engineering, Nanchang University, Nanchan, Jiangxie 330047, China; Laboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaFeed Research Institute, Academy of State Administration of Grain, No. 11, Baiwanzhuang Avenue, Beijing, 100037, ChinaDepartment of Food Science and Engineering, Nanchang University, Nanchan, Jiangxie 330047, China; Laboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, China; Centre of Nutritional Modelling, Department of Animal and Poultry Science, University of Guelph, Guelph, Ontario N1G 2W1, CanadaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaCollege of Animal Science, Xinjiang Agricultural University, Urumqi, Xinjiang Uigur Autonomous Region 830052, ChinaDepartment of Animal Science, Texas A&M University, College Station, Texas 77843-2471, USALaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaDepartment of Food Science and Engineering, Nanchang University, Nanchan, Jiangxie 330047, China; Laboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, China; Centre of Nutritional Modelling, Department of Animal and Poultry Science, University of Guelph, Guelph, Ontario N1G 2W1, CanadaFeed Research Institute, Academy of State Administration of Grain, No. 11, Baiwanzhuang Avenue, Beijing, 100037, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaFeed Research Institute, Academy of State Administration of Grain, No. 11, Baiwanzhuang Avenue, Beijing, 100037, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaLaboratory of Animal Nutrition and Health and Key Laboratory of Subtropical Agro-ecology, Institute of Subtropical Agriculture, the Chinese Academy of Sciences, Changsha, Hunan 410125, ChinaDepartment of Food Science and Engineering, Nanchang University, Nanchan, Jiangxie 330047, ChinaDepartment of Food Science and Engineering, Nanchang University, Nanchan, Jiangxie 330047, ChinaCentre of Nutritional Modelling, Department of Animal and Poultry Science, University of Guelph, Guelph, Ontario N1G 2W1, CanadaThe objectives of this study were to determine true phosphorus (P) digestibility, degradability of phytate-P complex and the endogenous P outputs associated with brown rice feeding in weanling pigs by using the simple linear regression analysis technique. Six barrows with an average initial body weight of 12.5 kg were fitted with a T-cannula and fed six diets according to a 6 × 6 Latin-square design. Six maize starch-based diets, containing six levels of P at 0.80, 1.36, 1.93, 2.49, 3.04, and 3.61 g/kg per kg dry-matter (DM) intake (DMI), were formulated with brown rice. Each experimental period lasted 10 days. After a 7-day adaptation, all faecal samples were collected on days 8 and 9. Ileal digesta samples were collected for a total of 24 h on day 10. The apparent ileal and faecal P digestibility values of brown rice were affected ( P < 0.01) by the P contents in the assay diets. The apparent ileal and faecal P digestibility values increased from − 48.0 to 36.7% and from − 35.6 to 40.0%, respectively, as P content increased from 0.80 to 3.61 g/kg DMI. Linear relationships ( P < 0.05), expressed as g/kg DMI, between the apparent ileal and faecal digestible P and dietary levels of P, suggested that true P digestibility and the endogenous P outputs associated with brown rice feeding could be determined by using the simple regression analysis technique. There were no differences ( P>0.05) in true P digestibility values (57.7 ± 5.4 v. 58.2 ± 5.9%), phytate P degradability (76.4 ± 6.7 v. 79.0 ± 4.4%) and the endogenous P outputs (0.812 ± 0..096 v. 0.725 ± 0.083 g/kg DMI) between the ileal and the faecal levels. The endogenous faecal P output represented 14 and 25% of the National Research Council (1998) recommended daily total and available P requirements in the weanling pig, respectively. About 58% of the total P in brown rice could be digested and absorbed by the weanling pig. Our results suggest that the large intestine of the weanling pigs does not play a significant role in the digestion of P in brown rice. Diet formulation on the basis of total or apparent P digestibility with brown rice may lead to P overfeeding and excessive P excretion in pigs.http://www.sciencedirect.com/science/article/pii/S1751731107257945digestibilityphosphoruspigsrice

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