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標題: Research Update – Alternative Feedstuffs [打印本頁]
作者: bonderic 時間: 2011-3-31 20:31
標題: Research Update – Alternative Feedstuffs
本帖最后由 bonderic 于 2011-3-31 21:05 編輯
Eduardo Beltranena1,2 and Ruurd T. Zijlstra2
Alberta Agriculture and Rural Development, #307 JG O’Donoghue Building, 7000 – 113
Department of Agricultural, Food and Nutritional Sciences, University of Alberta, Edmonton,
Introduction
Yearly, we come to Banff Pork Seminar to discuss what a hard year Prairie
pork producers have had and discuss what the coming year might bring.
Production of grains and oilseed in 2009 will be 59.5 vs. 72.6 Mt last year
because some areas of the Prairies received not enough rain and heat (Ag
Canada 2009). Feed prices were not as high in 2009 relative to 2007 – 2008,
but remained high relative to 5 – 10 years ago. Similar feed commodity pricing
trends are expected for 2010 (Ag Canada 2009). Crude oil prices remain low,
while the Canadian:US dollar exchange rate continues narrowing. The latter
suggests cheaper ethanol supported by mandates of ethanol inclusion,
implying greater upcoming opportunities to reduce feed cost by feeding
distillers’ dried grains with solubles (DDGS). This paper summarizes our latest
research findings regarding feeding corn, wheat and triticale DDGS to pigs.
Feeding High Levels of Corn DDGS
At writing, there was a $2 benefit per hog for feeding corn DDGS in Alberta.
The currency exchange keeps narrowing, so we expect to see more American
corn DDGS in western Canada. We also have an outstanding Alberta dataset
to share with you. Corn DDGS is high in unsaturated oil that may soften the
pork fat if fed at high levels to finishing hogs, potentially affecting pork quality.
In a commercial trial, we fed corn DDGS, no corn DDGS or implemented three
strategies to remove or withdraw corn DDGS out of the finishing diets. The
goal was to optimize the use of DDGS in hog diets to reduce feed costs for
producers while mitigating possible pork quality concerns for packers.
One-fifth of the barrows or gilts were fed a control diet over 5 growth phases
until market weight (Figure 1). We implemented 3 corn DDGS withdrawal
strategies during the last 2 finisher phases. Four-fifths of the barrows or gilts
were offered diets containing 30% corn DDGS replacing soybean meal for the
first 3 grower phases. These hogs were then fed 20 and 20%, 20 and 10% or
20 and 0% corn DDGS in the last 2 finisher phases, respectively, until
reaching market weight. Our results showed that feeding 30% corn DDGS or
implementing a withdrawal strategy did not affect hog growth performance,
feed cost per hog, income over feed cost, or cost per kg gained. However, the
rate of withdrawal of corn DDGS out of the finishing diets improved carcass
dressing percent and estimated carcass pork yield (Beltranena et al. 2009a).
Figure 1. Withdrawal strategies tested for corn DDGS .
Agriculture and Agri-Food Canada – Lacombe Research Centre conducted
the primal cut outs and extensive pork quality work. We found that feeding
30% corn DDGS or implementing a DDGS withdrawal strategy reduced the
dissectible intermuscular fat in the picnic, butt, loin and ham. Implementing the
DDGS withdrawal strategies also increased the weight of the squared and
trimmed belly, proportionally reducing the weight of the spare ribs. Retail
appearance, marbling scores and objective colour measurements were
diminished by feeding 30% vs. 0% DDGS, but were enhanced by
implementing the 3 DDGS withdrawal strategies. Most importantly, sensory
panellists were unable to practically detect differences in texture and flavour
attributes in cooked chops and burger patties from hogs fed 30% or no corn
DDGS. So, in contrast to a minor impact on retail appearance, there were
benefits of feeding 30% vs. no corn DDGS on primal cuts tissue composition,
loin quality and no effects on sensory results (Beltranena et al. 2009b).
We determined that feeding 30 vs. 0% corn DDGS to market weight reduced
backfat hardness. Reducing to 20%, followed by entirely removing corn DDGS
from the last finisher diet, 2 weeks prior to hogs reaching market weight
improved, but did not entirely restore backfat hardness. When bellies were
draped over a bar to rate belly fat hardness, feeding 30% corn DDGS to
market weight or reducing the dietary inclusion from 30 to 20% over the last 2
finisher phases prior to market weight, reduced the distance between the two
hanging ends and the angle formed at the bar compared to bellies of control
pigs. Reducing corn DDGS in the diet to 20%, followed by complete removal
two weeks prior to hogs reaching market weight (i.e., 20, 0% strategy)
increased belly thickness, the distance between ends and improved
(increased) the angle, but did not entirely restore belly fat hardness to that of
the 0% DDGS control hogs (Beltranena et al. 2009c).
Feeding 30% corn DDGS to market weight increased polyunsaturated fatty
acids, omega-6, omega-3, and reduced saturated and monounsaturated fatty
acids in belly fat compared to control hogs (Figure 2). From a human health
perspective, this would have mixed implications because increases in the
omega 6:omega 3 ratio and reductions in monounsaturated would be viewed
as negative, while decreases in saturated fats would be positive.
Implementing the three corn DDGS dietary withdrawal strategies for the last
two finisher phases prior to market weight resulted in mostly intermediate
content (between the 30 and 0% DDGS) of these fatty acids; the 20, 0%
strategy was mostly different from the 20, 20 or 20, 10% corn DDGS feeding
strategies, closer to controls (Beltranena et al. 2009c). Reducing to 20%,
followed by entirely removing corn DDGS from the last finisher diet lowered
the iodine value to 67 (Beltranena et al. 2009c).
Figure 2. Feeding 30% corn DDGS increased polyunsaturated fatty acids,
n-6, n-3, and reduced saturated and monounsaturated fatty acids in belly
fat compared to controls.
Our recommendation, therefore, is to maximize inclusion of corn DDGS in
grower diets when the high oil content of corn DDGS will return the most by
contributing extra dietary energy. If bellies are the MOST important cut to
packers, corn DDGS should be withdrawn sooner (e.g., 4 weeks prior to
market weight) if hogs were previously fed diets with ≥30% DDGS compared
to hogs previously fed up to 20% DDGS, where withdrawing DDGS 2 weeks
prior to market weight would be sufficient. Although the 3 corn DDGS
withdrawal strategies tested improved fat hardness, not even the most
aggressive withdrawal strategy (20, 0%) restored fat hardness to that of
controls. But is there a need to reach ‘zero’ impact on fat hardness by
withdrawing corn DDGS? The extent and length of withdrawal should
therefore be a compromise between impact on fat hardness and benefits on
pork quality. The effects of feeding corn DDGS were more pronounced in gilts
compared to barrows.
Feeding Increasing Levels of Wheat DDGS
Wheat DDGS is locally produced in the Prairies, and there are more
Saskatchewan plants in operation now than previously (Terra Grain Fuels in
Belle Plains, Norwest Terminals in Unity). The quality of wheat DDGS from the
new ethanol plants might be superior to that of older plants, but wheat DDGS
is as variable a co-product as American corn DDGS. Co-fermenting of wheat
and corn continues (Husky Energy, Lloydminster) without the buyer being
advised in what proportions or when these change. Therefore, assigning
nutrient values for formulation is a moving target. We have recently conducted
two studies, one with weaner pigs; the other with growout hogs.
Figure 3. Growth performance of weaned pigs fed diets with increasing
levels of wheat DDGS in substitution for soybean meal (Avelar et al. 2009,
submitted)
We evaluated increasing levels of wheat DDGS (0, 5, 10, 15, or 20%)
substituting soybean meal and wheat in the diet fed to weaner pigs starting
one week post-weaning for four weeks. The diets were formulated to provide
2.39 Mcal net energy (NE) per kg and 4.80 g standardized ileal digestible
lysine per Mcal NE. Increasing the levels of wheat DDGS in the nursery diet
quadratically reduced feed intake, weight gain and feed efficiency (Figure 3).
At d 28, weaner pigs fed 10 and 20% wheat DDGS were 0.15 and 5.6 kg
lighter than controls. We concluded that weaned pigs can be fed up to 15%
wheat DDGS without reducing performance (Avelar et al. 2009).
In a commercial-scale study, 550 gilts and 550 barrows (30 kg) penned
separately were fed diets with increasing levels (0, 7.5, 15, 22.5 or 30%) of
wheat dried distillers’s grain with solubles (DDGS) to market weight (118 kg).
The 5 growth phase study diets were formulated to provide 2.4, 2.4, 2.35, 2.35
and 2.30 Mcal/kg NE and 4.0, 3.7, 3.3, 3.0 and 2.8 g SID Lys/Mcal NE.
Overall, feed intake increased (130 g/d) to 22.5% DDGS, but declined 20 g/d
at 30% inclusion (Figure 4).
Figure 4. Growth performance of grower-finisher pigs fed diets with
increasing levels of wheat DDGS (Beltranena et al. 2009, unpublished)
(, 下載次數: 39)
Weight gain increased 40 g/d at 15% DDGS, but decreased 10 g/d at 22.5
and 30% inclusion. Pigs consumed 42 g/d more feed per kilo gained for every
7.5% increase in dietary wheat DDGS inclusion. Dressing percentage
decreased 0.45 %-unit and backfat thickness decreased 0.23 mm for each
7.5% increase in wheat DDGS inclusion. Estimated pork yield increased 0.13
%-units and index increased 0.25 units for each 7.5% increase in dietary
wheat DDGS inclusion. Due to increased feed intake, reduced weight gain
and days to market, income over feed cost decreased linearly with increased
wheat DDGS inclusion. The results of this study indicate that the NE content
of wheat DDGS was overestimated. It appears that 20% inclusion rate should
be the maximum commercial inclusion rate of wheat DDGS for grower-finisher
pigs after which reduced performance should be expected.
Feeding Increasing Levels of Triticale DDGS
The Canadian Triticale Biorefinery Initiative has the goal of promoting triticale
as a bioindustrial crop, including production of ethanol for gasoline and DDGS
for livestock feeding. To validate the effect of feeding increasing dietary
inclusion levels of triticale DDGS on growth performance and carcass
characteristics, 48 barrows and 48 gilts were fed 0, 10, 20 or 30% triticale
DDGS in the grower, developer and finisher diets from 25 to 125 kg. Pigs
were weighed and feed intake established every 14d and for the entire trial.
Real time ultrasound was conducted at the grading site at market weight (125
kg) to measure backfat thickness and loin depth instead of the planned
carcass grading. Over the entire trial, feed intake increased 60g/d and pigs
required 72 g more feed per kg gained for every 10% inclusion of triticale
DDGS in the diet, but daily weight gain was not affected (Figure 5).
Figure 5. Growth performance of grower-finisher pigs fed diets with
increasing levels of triticale DDGS (Beltranena et al. 2009, unpublished)
Live backfat thickness and loin depth at market weight were not affected by
DDGS inclusion level either. We concluded that previous digestibility work
likely overestimated the NE value of triticale DDGS; yet hogs can be fed up to
20% triticale DDGS in the growout diets.
Extrusion of DDGS to Enhance Nutrient Digestibility
To enhance the nutrient digestibility of DDGS and assess the feeding
opportunity for growing pigs, 9 ileal-cannulated pigs (27.6 kg) were used to
characterize the effect of extrusion processing on energy and amino acid
digestibility of wheat and corn DDGS, and to compare single- vs. twin-screw
extrusion. One wheat and 1 corn DDGS sample were processed using a
single-screw InstaPro 2500 or a twin-screw Werner & Pfleiderer ZSK-57
extruder. In a 7 x 9 Youden square design, 7 diets (wheat DDGS, single-screw
extrudate, twin-screw extrudate, corn DDGS, single-screw extrudate, twin-
screw extrudate, N-free) were fed to 9 pigs at 2.8 x maintenance over 7
periods consisting of a 5-d diet adaptation, a 2-d collection of feces, and a 2-d
collection of ileal digesta.
Single- and twin-screw extrusion increased the apparent total tract digestibility
(ATTD) of gross energy by 5.0 and 4.5%, and the DE value of DDGS by 6.1
and 5.9%, respectively. There was a DDGS grain by extrusion interaction on
the standardized ileal digestibility (SID) of 8 out of 10 and the mean of all 10
indispensable AA, glutamine and tyrosine. Single- and twin-screw extrusion
processing increased the SID of the mean of all 10 indispensable AA in corn
DDGS by 7 and 5%, respectively; twin- but not single-screw-extrusion did so
by nearly 3% for wheat DDGS. Extrusion increased the SID of lysine by 11%
(Figure 6), tryptophan by 8 %, valine and isoleucine by 7%, methionine,
phenylalanine histidine, leucine, glutamine and tyrosine by 5% in corn DDGS.
Figure 6. Effect of extrusion on the standardized ileal digestibility of
amino acids in corn and wheat DDGS for growing pigs (Beltranena et al.
2009d)
There was no effect of single- or twin-screw extrusion on wheat DDGS, except
for twin-screw extrusion on the SID of methionine and tyrosine and both
single- and twin-screw extrusion on the SID of leucine. The results of this
study indicated that single- and twin-screw extrusion is an effective processing
method to increase the dietary energy digestibility of DDGS. More so for corn
than wheat DDGS, extrusion also increased the AA digestibility of the main
co-product of ethanol production in diets for growing pigs (Beltranena et al.
2009d).
Conclusions
The results of these studies indicate that unless packers express concern
regarding fat and belly quality, corn DDGS can be included in western
Canadian hog diets up to 30%. A two week withdrawal was sufficient to
reduce iodine value to 67, mitigating the impact in fat and belly quality. Until
we have additional information, we suggest prudence limiting the inclusion of
wheat and triticiale DDGS to 15% in late nursery diets and 20% in growout
hog diets. Identifying the proper NE value for high protein and fibre wheat and
triticale DDGS has been a challenge. Extrusion of corn and wheat DDGS
increased the energy and amino acid digestibility for young pigs.
Acknowledgments
The authors wish to acknowledge the following organizations for in-kind or
cash contributions towards the research projects summarized in this paper:
Agriculture & Agri-Food Canada
Alberta Livestock Industry Development Fund
Alberta Agricultural Research Institute
Government of Alberta
U.S. Grains Council
Canadian Bio-Systems Inc
O&T Farms
References
Agriculture and Agri-Food Canada. 2009. Canada: Grains and Oilseeds
Outlook: 2009-10. Aug 28, 2009
Avelar, E., E. Beltranena, M. Cervantes, and R. T. Zijlstra. 2009. The effect of
feeding wheat distiller’s dried grain with solubles on growth
performance and nutrient digestibility in weaned pigs. Can. J. Anim.
Sci. (submitted).
Beltranena, E., M. Young, N. Campbell, J. Aalhus, M. Dugan, M. Oryschak
and R. T. Zijlstra. 2009a. Corn DDGS withdrawal rates for hogs.
Effects on animal performance, carcass traits, and cost variables.
Western Hog Journal, Vol. 30, No. 5 pp. 46 - 48.
Beltranena, E, J. Aalhus, M. Dugan, M. Young, N. Campbell, M. Oryschak and
R. T. Zijlstra. 2009b. Corn DDGS withdrawal rates for hogs: Tissue
composition, loin quality, retain appearance and sensory results.
Western Hog Journal, Vol. 31, No. 1 pp. 48 – 52.
Beltranena, E, M. Dugan, J. Aalhus, M. Young, N. Campbell, M. Oryschak and
R. T. Zijlstra. 2009c. Corn DDGS withdrawal rates for hogs: Backfat
and Belly Quality. Western Hog Journal, Vol. 31, No. 2 pp. 49 - 52.
Beltranena, E., J. Sánchez-Torres, L. Goonewardene, X. Meng and R. T.
Zijlstra. 2009d. Effect of single- or twin-extrusion on energy and amino
acid digestibility of wheat or corn distillers dried grain and solubles
(DDGS) for growing pigs. 42nd meeting of the Midwestern Section,
American Society of Animal Science, Des Moines, IA. J. Anim. Sci.
87, e-Suppl. 3, Abstr. 166.
作者: wwjkinghoo 時間: 2011-3-31 23:18
全英文的,下來看一下
作者: sunshoulei 時間: 2011-4-1 09:11
看不懂什么意思呢能翻譯過來嗎
作者: bonderic 時間: 2011-4-1 10:58
用google慢慢翻譯著看。
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