Ruminal and post-ruminal phytate degradation of diets containing rapeseed meal or soybean meal
This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP 6 ) in diets containing either rapeseed meal (RSM) or soybean meal (SBM). In Experiment 1, the effective degradability of crude protein (CPED) and InsP 6 (InsP 6 ED) was evaluated by incubating RSM and SBM in s...
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| Published in: | Archives of animal nutrition Vol. 76; no. 3-6; pp. 233 - 247 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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02-11-2022
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| Abstract | This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP
6
) in diets containing either rapeseed meal (RSM) or soybean meal (SBM). In Experiment 1, the effective degradability of crude protein (CPED) and InsP
6
(InsP
6
ED) was evaluated by incubating RSM and SBM in situ in three rumen-fistulated lactating Jersey cows for 2, 4, 6, 8, 16, 24, 48 and 72 h, and calculating effective degradability at rumen passage rates of 2% and 5%/h. In Experiment 2, eight wethers were assigned for 8 weeks to two dietary treatments (Diet RSM and Diet SBM) containing 150 g of either meal and 100 g of maize silage per feeding time and had free access to hay and water. Titanium dioxide (TiO
2
) was added to the diets for the last 5 days of the study. The wethers were then stunned, exsanguinated and digesta from the reticulo-rumen, omasum, abomasum, jejunum, colon, and rectum were sampled. In Experiment 1, the InsP
6
ED of RSM (InsP
6
ED
2
: 83%; InsP
6
ED
5
: 64%) decreased almost identically to that of CPED with increasing passage rate (CPED
2
: 78%; CPED
5
: 63%) and was significantly lower than that of SBM (InsP
6
ED
2
: 93%; InsP
6
ED
5
: 85%). In Experiment 2, ruminal InsP
6
disappearance was significantly higher in wethers fed Diet SBM (89%) than in those fed Diet RSM (76%). Total post-ruminal InsP
6
degradation was 6% for Diet RSM and 4% for Diet SBM (p = 0.186). The total tract InsP
6
disappearance was higher in Diet SBM (93%) than in Diet RSM (82%). Considering higher InsP
6
contents in RSM, Diet RSM resulted in significantly higher amounts of ruminally (Diet RSM: 4.5 g/d; Diet SBM: 3.4 g/d) and total tract (Diet RSM: 4.9 g/d; Diet SBM: 3.5 g/d) degraded InsP
6
. InsP
5
was quantified in most of the digesta samples after feeding Diet RSM but was not detectable in the majority of digesta samples for Diet SBM. Concentrations of myo-inositol (MI) tended to be higher (p = 0.060) in the blood plasma of wethers fed Diet RSM. The consistency between ruminal InsP
6
disappearance in wethers and in situ calculated InsP
6
ED
2
, along with the very low extent of post-ruminal InsP
6
degradation, suggests that at a low rumen passage rate, InsP
6
-P from the feed becoming available to ruminants is almost entirely from InsP
6
degradation in the rumen. |
|---|---|
| AbstractList | This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP
) in diets containing either rapeseed meal (RSM) or soybean meal (SBM). In Experiment 1, the effective degradability of crude protein (CPED) and InsP
(InsP
ED) was evaluated by incubating RSM and SBM
in three rumen-fistulated lactating Jersey cows for 2, 4, 6, 8, 16, 24, 48 and 72 h, and calculating effective degradability at rumen passage rates of 2% and 5%/h. In Experiment 2, eight wethers were assigned for 8 weeks to two dietary treatments (Diet RSM and Diet SBM) containing 150 g of either meal and 100 g of maize silage per feeding time and had free access to hay and water. Titanium dioxide (TiO
) was added to the diets for the last 5 days of the study. The wethers were then stunned, exsanguinated and digesta from the reticulo-rumen, omasum, abomasum, jejunum, colon, and rectum were sampled. In Experiment 1, the InsP
ED of RSM (InsP
ED
: 83%; InsP
ED
: 64%) decreased almost identically to that of CPED with increasing passage rate (CPED
: 78%; CPED
: 63%) and was significantly lower than that of SBM (InsP
ED
: 93%; InsP
ED
: 85%). In Experiment 2, ruminal InsP
disappearance was significantly higher in wethers fed Diet SBM (89%) than in those fed Diet RSM (76%). Total post-ruminal InsP
degradation was 6% for Diet RSM and 4% for Diet SBM (
= 0.186). The total tract InsP
disappearance was higher in Diet SBM (93%) than in Diet RSM (82%). Considering higher InsP
contents in RSM, Diet RSM resulted in significantly higher amounts of ruminally (Diet RSM: 4.5 g/d; Diet SBM: 3.4 g/d) and total tract (Diet RSM: 4.9 g/d; Diet SBM: 3.5 g/d) degraded InsP
. InsP
was quantified in most of the digesta samples after feeding Diet RSM but was not detectable in the majority of digesta samples for Diet SBM. Concentrations of
-inositol (MI) tended to be higher (
= 0.060) in the blood plasma of wethers fed Diet RSM. The consistency between ruminal InsP
disappearance in wethers and
calculated InsP
ED
, along with the very low extent of post-ruminal InsP
degradation, suggests that at a low rumen passage rate, InsP
-P from the feed becoming available to ruminants is almost entirely from InsP
degradation in the rumen. This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP6) in diets containing either rapeseed meal (RSM) or soybean meal (SBM). In Experiment 1, the effective degradability of crude protein (CPED) and InsP6 (InsP6ED) was evaluated by incubating RSM and SBM in situ in three rumen-fistulated lactating Jersey cows for 2, 4, 6, 8, 16, 24, 48 and 72 h, and calculating effective degradability at rumen passage rates of 2% and 5%/h. In Experiment 2, eight wethers were assigned for 8 weeks to two dietary treatments (Diet RSM and Diet SBM) containing 150 g of either meal and 100 g of maize silage per feeding time and had free access to hay and water. Titanium dioxide (TiO2) was added to the diets for the last 5 days of the study. The wethers were then stunned, exsanguinated and digesta from the reticulo-rumen, omasum, abomasum, jejunum, colon, and rectum were sampled. In Experiment 1, the InsP6ED of RSM (InsP6ED2: 83%; InsP6ED5: 64%) decreased almost identically to that of CPED with increasing passage rate (CPED2: 78%; CPED5: 63%) and was significantly lower than that of SBM (InsP6ED2: 93%; InsP6ED5: 85%). In Experiment 2, ruminal InsP6 disappearance was significantly higher in wethers fed Diet SBM (89%) than in those fed Diet RSM (76%). Total post-ruminal InsP6 degradation was 6% for Diet RSM and 4% for Diet SBM (p = 0.186). The total tract InsP6 disappearance was higher in Diet SBM (93%) than in Diet RSM (82%). Considering higher InsP6 contents in RSM, Diet RSM resulted in significantly higher amounts of ruminally (Diet RSM: 4.5 g/d; Diet SBM: 3.4 g/d) and total tract (Diet RSM: 4.9 g/d; Diet SBM: 3.5 g/d) degraded InsP6. InsP5 was quantified in most of the digesta samples after feeding Diet RSM but was not detectable in the majority of digesta samples for Diet SBM. Concentrations of myo-inositol (MI) tended to be higher (p = 0.060) in the blood plasma of wethers fed Diet RSM. The consistency between ruminal InsP6 disappearance in wethers and in situ calculated InsP6ED2, along with the very low extent of post-ruminal InsP6 degradation, suggests that at a low rumen passage rate, InsP6-P from the feed becoming available to ruminants is almost entirely from InsP6 degradation in the rumen. This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP 6 ) in diets containing either rapeseed meal (RSM) or soybean meal (SBM). In Experiment 1, the effective degradability of crude protein (CPED) and InsP 6 (InsP 6 ED) was evaluated by incubating RSM and SBM in situ in three rumen-fistulated lactating Jersey cows for 2, 4, 6, 8, 16, 24, 48 and 72 h, and calculating effective degradability at rumen passage rates of 2% and 5%/h. In Experiment 2, eight wethers were assigned for 8 weeks to two dietary treatments (Diet RSM and Diet SBM) containing 150 g of either meal and 100 g of maize silage per feeding time and had free access to hay and water. Titanium dioxide (TiO 2 ) was added to the diets for the last 5 days of the study. The wethers were then stunned, exsanguinated and digesta from the reticulo-rumen, omasum, abomasum, jejunum, colon, and rectum were sampled. In Experiment 1, the InsP 6 ED of RSM (InsP 6 ED 2 : 83%; InsP 6 ED 5 : 64%) decreased almost identically to that of CPED with increasing passage rate (CPED 2 : 78%; CPED 5 : 63%) and was significantly lower than that of SBM (InsP 6 ED 2 : 93%; InsP 6 ED 5 : 85%). In Experiment 2, ruminal InsP 6 disappearance was significantly higher in wethers fed Diet SBM (89%) than in those fed Diet RSM (76%). Total post-ruminal InsP 6 degradation was 6% for Diet RSM and 4% for Diet SBM (p = 0.186). The total tract InsP 6 disappearance was higher in Diet SBM (93%) than in Diet RSM (82%). Considering higher InsP 6 contents in RSM, Diet RSM resulted in significantly higher amounts of ruminally (Diet RSM: 4.5 g/d; Diet SBM: 3.4 g/d) and total tract (Diet RSM: 4.9 g/d; Diet SBM: 3.5 g/d) degraded InsP 6 . InsP 5 was quantified in most of the digesta samples after feeding Diet RSM but was not detectable in the majority of digesta samples for Diet SBM. Concentrations of myo-inositol (MI) tended to be higher (p = 0.060) in the blood plasma of wethers fed Diet RSM. The consistency between ruminal InsP 6 disappearance in wethers and in situ calculated InsP 6 ED 2 , along with the very low extent of post-ruminal InsP 6 degradation, suggests that at a low rumen passage rate, InsP 6 -P from the feed becoming available to ruminants is almost entirely from InsP 6 degradation in the rumen. |
| Author | Haese, Eva Rodehutscord, Markus Chi, Yung-Ping |
| Author_xml | – sequence: 1 givenname: Yung-Ping orcidid: 0000-0003-2117-6606 surname: Chi fullname: Chi, Yung-Ping organization: University of Hohenheim – sequence: 2 givenname: Eva orcidid: 0000-0001-7795-1750 surname: Haese fullname: Haese, Eva organization: University of Hohenheim – sequence: 3 givenname: Markus orcidid: 0000-0003-3156-7889 surname: Rodehutscord fullname: Rodehutscord, Markus email: inst450@uni-hohenheim.de organization: University of Hohenheim |
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| Keywords | soybean meal ruminants rapeseed meal InsP6 degradation inositol phosphates myo-inositol |
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| References | cit0011 cit0033 cit0012 cit0034 cit0031 cit0010 cit0032 cit0030 GfE [Gesellschaft für Ernährungsphysiologie] (cit0007) 2022; 31 cit0019 cit0017 cit0018 cit0015 cit0037 cit0016 cit0038 cit0013 cit0035 cit0014 cit0036 cit0022 cit0001 cit0023 cit0020 cit0042 cit0021 cit0043 cit0040 cit0041 Verband Deutscher Landwirtschaftlicher Untersuchungs- und Forschungsanstalten (VDLUFA) (cit0039) 2012 cit0008 cit0009 cit0006 cit0028 cit0029 cit0004 cit0026 cit0005 cit0027 cit0002 cit0024 cit0003 cit0025 |
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| Snippet | This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP
6
) in diets containing either rapeseed meal (RSM) or soybean meal... This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP ) in diets containing either rapeseed meal (RSM) or soybean meal... This study aimed to investigate ruminal and post-ruminal degradation of phytic acid (InsP6) in diets containing either rapeseed meal (RSM) or soybean meal... |
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| SubjectTerms | Abomasum Animal Feed - analysis Animals Blood plasma Brassica napus Brassica rapa Cattle Degradability Degradation Diet Diet - veterinary Dietary Proteins - metabolism Digestion Experiments Female Flour Glycine max Goats Inositol inositol phosphates Inositols InsP Jejunum Lactation Male Mathematical analysis myo-inositol Phytic acid Phytic Acid - metabolism Rapeseed rapeseed meal Rumen Rumen - metabolism ruminants soybean meal Soybeans Titanium dioxide |
| Title | Ruminal and post-ruminal phytate degradation of diets containing rapeseed meal or soybean meal |
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