8 research outputs found
Effects of paylean (ractopamine⋅HCl) on finishing pig growth and variation
A total of 336 pigs were used in a 21-day
trial to determine the effect of Paylean (9.0
g/ton Ractopamine·HCl) on finishing pig
growth and variation. Pigs were allotted based on weight so that all pens had the same
initial weight and degree of variation within
the pen. Pigs fed Paylean had greater ADG and better feed efficiency than control-fed
pigs (P<0.05). However, no differences in
pen coefficient of variation were observed
(P>0.70). The results suggest that adding
Paylean to the diet improves finishing pig
growth performance but does not affect
weight variation within the pen
The effects of reducing dietary crude protein and/or adding chicory on composition and odor of stored swine manure
A feeding study was conducted to compare nutrient excretion and odor analysis of pigs fed either a conventional corn-soybean meal diet, or a diet formulated to minimize nutrient excretion and odors through use of crystalline amino acids, phytase, and nonsulfur containing trace minerals. These diets (0.85% true digestible lysine), were fed to pigs (each initially 130 lb) with or without chicory, a feed ingredient speculated to reduce odors in swine waste.
Dietary treatments were arranged in a 2 x 2 factorial, with main effects of diet nutrient excretion potential (low or high) and chicory (0 or 10%). Twelve nonlittermate barrows were fed each of the four diets over four, 10-d periods in a replicated 4 × 4 Latin square design. Each pig was housed in a stainless steel metabolism cage (5 × 2 ft) designed to allow separate collection of urine and feces. Feces and urine were collected between the seventh and eleventh meals in order to measure nitrogen (N), sulfur (S), and phosphorus (P) intake, excretion, and retention. Feces and urine also were collected the last two days of each period and mixed into a 7.5% DM slurry for odor analysis at the University of Minnesota Olfactometry Laboratory. The 7.5% DM slurries were measured for pH, total solids (TS), total volatile solids (TVS), ammonia, total Kjeldahl nitrogen (TKN), hydrogen disulfide (H2S), percentage sulfur (sum of sulfur in air and slurry samples), and Ca, K, Mg, Na, and P. Air samples collected from the slurries were measured for H2S, intensity, and offensiveness. Pigs fed diets formulated to reduce nutrient excretion and odor had a 20% and 34% reduction (P<0.001) in total N and P excretion, respectively, and a 33% reduction in urinary S excretion. The addition of chicory to the diet further reduced (P<0.002) N and P excretion by 10% and 14%, respectively. Pigs fed the diets formulated to reduce nutrient excretion and odor had lower (P<0.001) total pH, ammonia, sulfur dry weight percentage, and TKN in the slurry samples. However, H2S emission, odor intensity and offensiveness were not affected (P<0.19). These results indicate that formulating a diet to meet the needs of a pig, yet lower nutrient excretion by
use of synthetic amino acids, phytase, nonsulfur-containing trace mineral premixes and the addition of chicory will reduce nutrient excretion in swine manure, but do not appear to affect the intensity or offensiveness of odors
Effects of different protein sources on growth performance of nursery pigs
A total of 170 weanling pigs (initially 16.4
lb) were used to evaluate the effects of alternative protein sources on growth performance of pigs fed from d 5 to 26 after weaning. All pigs were fed a common diet from weaning to d 5. The five dietary treatments were cornsoybean meal-based and included a control diet containing 10% dried whey, or the control diet with 5% select menhaden fish meal, 2.5% spray-dried blood cells, 3.73% enzymatically hydrolyzed wheat gluten (Source 1), or 3.51% flash-dried wheat gluten (Source 2). No differences
were observed in overall ADG and ADFI; however, pigs fed the diets containing
2.5% blood cells or 5% select menhaden fish
meal numerically had the best overall ADG
compared to pigs fed the control diet, with
pigs fed either wheat gluten sources having
intermediate growth. Feed efficiency was improved for pigs fed 5% select menhaden fish
meal compared with those fed the control diet, and pigs fed the other diets were intermediate. There were no differences (P<0.05) in ADG, ADFI, or F/G between wheat gluten sources
Effects of increasing CA:P ratio in diets containing phytase on growth performance of grow-finish pigs
We used 144 growing-finishing pigs (72
barrows and 72 gilts; initially 85 lb) to determine the effects of calcium to total phosphorus (Ca:P) ratio on growth performance. Pigs were housed in an environmentally regulated finishing building with two pigs per pen and nine pens per sex per treatment in a randomized complete block design. Pigs were blocked by initial weight and sex, and then allotted to one of four dietary treatments. The dietary treatments were corn-soybean meal-based diets fed in three phases. In each phase, diets consisted of a 1:1; 1.25:1; 1.5:1, and 2:1 Ca:P ratio. Diets were formulated to contain 0.44%, 0.39%, and 0.34% phosphorus from 70 to 130, 130 to 190, and 190 to 250 lb, respectively.
All diets contained 0.05% phytase, providing 300 FTU/kg of feed. For the overall experiment, increasing Ca:P ratio decreased ADG (quadratic P<0.03) and ADFI (linear
P<0.05). However, the greatest decrease in
ADG and ADFI was observed when Ca:P increased
from 1.5:1 to 2:1. Feed to gain was not affected by Ca:P ratio. These results suggest
that in growing-finishing diets containing
300 FTU/kg phytase, a Ca:P ratio greater then
1.5:1 will decrease ADG and ADFI
Evaluation of wheat gluten and spray-dried animal plasma on growth performance of nursery pigs
A total of 440 weanling pigs (initially 14.3
lb) were used in two studies to evaluate the
effects of increasing wheat gluten (WG) and
spray-dried animal plasma (SDAP) on growth
performance of early weaned pigs. In Exp. 1,
the six dietary treatments included a negative control, containing no wheat gluten or animal plasma, the control diet containing either 3, 6, 9, or 12% lightly modified spray-dried wheat gluten, and a positive control diet containing 5% spray-dried animal plasma. The diets containing 9% WG and 5% SDAP had the same amount of soybean meal to make a direct comparison of the two protein sources. From d 0 to 7, 7 to 14, and 0 to 14, increasing wheat gluten had no effect on ADG, ADFI, or feed efficiency. From d 0 to 7, pigs fed 5% SDAP had greater ADG than pigs fed the diet containing 9% WG but similar ADG to pigs fed the negative control. For the common period, d 14 to 28, a quadratic (P<0.01) response was observed for feed efficiency with F/G becoming poorer as wheat gluten was added up to 9% then improving as wheat gluten increased up to 12%. In Exp. 2, the five dietary treatments
included a negative control, which contained
no SDAP or WG, or the control diet with 4.5% and 9% WG, or 2.5% and 5% SDAP. The wheat gluten source used was different than in Exp. 1 and was enzymatically hydrolyzed. The diets containing 4.5% and 9% wheat gluten contained the same amount of soybean meal as the diets with 2.5% and 5% SDAP, respectively. From d 0 to 7 and 0 to 14, increasing SDAP increased (P<0.04) ADG. Increasing WG had no effect. There were no differences found in ADG from d 7 to
14 and no differences found in feed intake
from d 0 to 7. No differences (P<0.05) were
found in feed efficiency. During the common
period, d 14 to 35, no differences were found
in ADG and ADFI. Pigs previously fed the diets containing 2.5% and 5% SDAP had (P<0.05) the best feed efficiency with the pigs previously fed the control having the worst. The pigs fed the diets containing 4.5% WG and 9% WG were intermediate in efficiency. These results suggest that increasing WG in diets fed immediately after weaning produced no improvement in growth performance relative to SDAP
Effects of increasing CA:P ratio in diets containing phytase on finishing pig growth performance
A total of 144 finishing pigs (72 barrows and 72 gilts, initially 85 lb) were used to determine the effects of calcium to total phosphorus (Ca:P) ratio in diets containing phytase on growth performance, carcass characteristics, and bone ash percentage. Pigs were housed in an environmentally regulated finishing building with two pigs per pen and six pens per sex per treatment in a randomized complete block design. Pigs were blocked by initial weight and sex, and then allotted to one of six dietary treatments. The dietary treatments were corn-soybean meal-based diets fed in three phases. In each phase, diets consisted of a 0.75:1; 1:1; 1.25:1; 1.5:1, and 2:1 Ca:P ratio. A sixth treatment group was a diet containing 77% of the total P as the other treatment diets. Diets were formulated to contain 0.44%, 0.39%, and 0.34% total phosphorus and 0.15%, 0.12%, and 0.07% available phosphorus from d 0 to 28, 28 to 57, and 57 to 76, respectively. All diets contained 0.05% phytase, providing 300 FTU/kg in order to achieve equivalent available phosphorus values of 0.23%, 0.19%, and 0.15%. For the overall experiment, increasing Ca:P ratio decreased (linear, P<0.03) ADG and F/G. However, the greatest decrease in ADG and F/G was observed when Ca:P ratio increased from 1.5:1 to 2:1. Daily feed intake was not affected by Ca:P ratio. There was no difference in backfat thickness for pigs fed Ca:P ratios between 0.75:1 and 2.0:1 (P<0.17). However, pigs fed the negative control diet had reduced backfat thickness (P<0.05) compared to the other pigs. Bone ash percentage was not affected (P<0.23) by Ca:P ratio. These results suggest that in finishing diets containing 300 FTU/kg phytase, a Ca:P ratio greater then 1.5:1 will decrease ADG and ADFI
Evaluation of the effects of wheat gluten source and animal plasma blends on the growth performance of nursery pigs
A total of 472 weanling pigs (initially 13.5
lb) were used in two experiments to evaluate
the effects of wheat gluten source (WG) and
combinations with spray-dried animal plasma
(SDAP) on growth performance of nursery
pigs. In Exp. 1, the five dietary treatments
included a control diet containing 6% SDAP,
wheat gluten that was enzymatically hydrolyzed (Source 1), and a non-hydrolyzed wheat gluten (Source 2). The wheat gluten sources replaced L-lysine HCl and replaced 50% or 100% of the spray-dried animal plasma. From d 0 to 7, 7 to 14, and 0 to 21, increasing wheat gluten decreased (linear; P<0.05) ADG. There were no differences between wheat gluten sources. Average daily feed intake decreased similar to ADG, with the exception that ADFI of pigs fed wheat gluten Source 2 had only a slight decreasing trend (P<0.11) from d 0 to 7. Pigs fed the diet containing 6% SDAP had the greatest ADG and ADFI from d 0 to 21. When the SDAP was replaced with either wheat gluten source, ADG and ADFI linearly decreased (P<0.01) but F/G improved (P<0.04). When pigs were fed the common diet from d 21 to 35, there were no differences (P<0.05) in ADG, ADFI or F/G. In Exp. 2, the six dietary treatments included a negative control with no SDAP or WG (0:0 ratio), 9% WG (100:0 ratio), 6.75% WG and 1.25% SDAP (75:25 ratio) combination, 4.5% WG and 2.5% SDAP (50:50 ratio) combination, 2.25% WG and 3.75% SDAP (25:75 ratio) combination, and a positive control with 5% SDAP (0:100 ratio). The wheat gluten
(Source 1) was enzymatically hydrolyzed, but
from a different lot than Exp. 1. From d 0 to
14, pigs fed 6% SDAP had numerically greater ADG and ADFI compared to pigs fed the negative control diet. However, replacing
SDAP with increasing amounts of WG tended
to decrease (P<0.10) ADG and ADFI. These
results confirm the improved ADG and ADFI
of pigs fed SDAP immediately after weaning.
In these experiments, replacing SDAP with
WG resulted in decreased ADG
Effects of soybean meal source and level on growth performance of weanling pigs
A total of 525 weanling pigs (initially 13.0
lb) were used in two experiments to evaluate
the effects of soybean meal source and level
on growth performance of early weaned pigs.
In both experiments, dietary treatments included a control diet containing no soybean
meal, or diets containing 20% or 40% of either solvent extracted soybean meal (SBM) or extruded-expelled soybean meal (EESoy). In
Exp. 1, diets were formulated with NRC
(1998) nutrient values for the solvent extracted soybean meal and previously determined values (1998 KSU Swine Day Report
of Progress) for the extruded-expelled soybean meal. In Exp. 1, from d 0 to 7, increasing solvent extracted soybean meal or extrudedexpelled soybean meal decreased (linear, P<0.05) ADG. Feed efficiency was reduced with an increase of either soybean meal source (SBM quadratic, P<0.05; EESoy linear, P<0.05). However, the mean ADG and F/G of pigs fed solvent extracted soybean meal were better than the mean of pigs fed extruded- expelled soybean meal. No differences were found in growth performance from d 7 to 14 and 14 to 21. However, from d 0 to 14, F/G became poorer (linear, P<0.06) as either soybean meal source increased, and the mean F/G of pigs fed solvent extracted soybean meal was better than those fed extrudedexpelled soybean meal. For the overall growth period, d 0 to 21, F/G became poorer (linear, P<0.04) as solvent extracted soybean meal increased. After the trial was completed, the soybean meal sources were chemically analyzed and the extruded-expelled soybean meal was found to be lower in crude protein (43.6% vs 46.5%) than what was used in diet formulation. We speculated that the differences in growth performance between the two soybean meal sources could have been a result of the low protein (lysine) concentrations. Therefore, in Exp. 2 diets were formulated with actual analyzed nutrient soybean meal values. In Exp. 2, from d 0 to 7, increasing either soybean meal source resulted in decreased (linear, P<0.01) ADG and ADFI, and reduced (quadratic, P<0.04) F/G. The mean ADG,
ADFI, and F/G of pigs fed solvent extracted
soybean meal were better than the mean of
those fed extruded-expelled soybean meal.
From d 7 to 14, ADG and F/G improved (linear,
P<0.05) with increasing solvent extracted
soybean meal. Increasing extruded-expelled
soybean meal had no affect on ADG or F/G
but decreased (linear, P<0.03) ADFI. From d
0 to 14, increasing solvent extracted soybean
meal decreased (linear, P<0.02) ADFI. Increasing extruded-expelled soybean meal decreased ADG, ADFI, and decreased F/G (linear, P<0.01). The mean ADG, ADFI, and F/G
of pigs fed solvent extracted soybean meal was better than the mean of pigs fed extrudedexpelled soybean meal. For the overall trial, increasing extruded-expelled soybean meal decreased ADG and ADFI (linear, P<0.01) and the mean ADG and ADFI, were less than those fed solvent extracted soybean meal. Because of previous research demonstrating equal or better growth performance of pigs fed extruded-expelled soybean meal, the results of these trials led us to suspect that poor quality extruded-expelled soybean meal was used in this trial. At the conclusion of the study, soybean meal sources from both trials were analyzed for trypsin inhibitor. Results of the trypsin inhibitor assay suggest that the extruded-expelled soybean meal from both experiments was underprocessed, resulting in
poor growth performance. In conclusion,
trypsin inhibitor values are extremely important in verifying quality of extruded-expelled soybean meal