• Korean Journal of Fisheries and Aquatic Sciences
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• v.45 no.2
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• pp.139-145
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• 2012

Two feeding trials were conducted to evaluate the effects of experimental extruded pellets (EEPs) and commercial EPs (CEPs) on Far Eastern catfish $Silurus$ $asotus$ in pilot- (experiment I) and commercial-scale (experiment II) tanks. Four diets were prepared: three EEPs (EEP1, EEP2 and EEP3) that contained different amounts of tuna fish meal, soybean meal, and squid liver oil, and one CEP diet. In experiment I, three replicate groups of juveniles were fed one of the four EPs in pilot-scale tanks for 19 weeks. The weight gains (WGs) of fish fed EEP1 and CEP were significantly higher than those of fish fed EEP2 or EEP3. The highest feed efficiency (FE) was observed in fish fed the CEP diet ($P$<0.05), and the FE of fish fed EEP1 and EEP3 were significantly higher than that with EEP2 ($P$<0.05). In experiment II, juveniles were fed one of four EPs in commercial-scale tanks for 19 weeks. WG and FE values of fish fed EEP1 and CEP were higher than those of fish fed EEP2 and EEP3. The results of this study indicate that the dietary formulation used in EEP1 could be used as a practical feed for Far Eastern catfish.

• Asian-Australasian Journal of Animal Sciences
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• v.13 no.11
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• pp.1584-1592
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• 2000

Three hundred nursery pigs were used in two growth assays (avg initial BW of 6.5 and 6.0 kg, respectively) to determine the effects of sodium sulfite ($Na_2SO_3$) as an extrusion aid for soy products used in diets for weanling pigs. In Exp. 1, treatments were arranged as $3{\times}2$ factorial with main effects of soy product [soybean meal (SBM), extruded SBM, and dry-extruded whole soybeans (DEWS)] and concentration of $Na_2SO_3$ (0 and 10 g/kg of soy product). The extruded SBM and DEWS treatments were processed in a dry extruder ($Insta-Pro^{(R)} $, Triple F Nutrition, Des Moines, IA) with barrel temperatures and throughputs of $169^{\circ}C$ and 578 kg/h, and $147^{\circ}C$ and 598 kg/h, respectively. All diets were formulated to 3.5 Mcal/kg DE, with 0.92% lysine for d 0 to 14, and 0.76% lysine for d 14 to 28. For d 0 to 14, there was a tendency for pigs fed diets with $Na_2SO_3$ to have greater ADG (p<0.08), and pigs fed SBM to have greater ADFI (p<0.02), thus pigs fed the extruded soy products has 15% greater gain/feed than those fed SBM (p<0.007). For d 14 to 28, there were no differences in ADG or gain/feed among pigs fed diets with SBM and those fed diets with the extruded soy products (p>0.15). However, pigs fed DEWS had greater ADG than pigs fed extruded SBM, and pigs fed $Na_2SO_3$ had greater ADG and ADFI compared to those not fed $Na_2SO_3$ (p<0.02 and 0.08, respectively). The positive response in ADG and gain/feed to the addition of $Na_2SO_3$ resulted with SBM and extruded SBM treatments, and not with DEWS (interaction effect, p<0.04). Overall (d 0 to 28), pigs fed DEWS had greater ADG (p<0.01) and gain/feed (p<0.08) than pigs fed extruded SBM. Also pigs fed diets with $Na_2SO_3$ had greater ADG, ADFI, and gain/feed compared to those fed diets without $Na_2SO_3$ (p<0.002, 0.04, and 0.04, respectively). Exp. 2 was designed as a $2{\times}3$ factorial with main effects of soy product (SBM and DEWS) and concentration of $Na_2SO_3$ (none, 7.5, and 15.0 g/kg of soy product). As in Exp. 1, all diets were formulated to 3.5 Mcal/kg DE, with 0.92% lysine for d 0 to 13, and 0.76% lysine for d 13 to 53. At a constant processing temperature (148 to $149^{\circ}C$, $Na_2SO_3$ increased throughput of the extruder (578, 595, and 602 kg/h for the 0, 7.5, and 15.0 g/kg additions, respectively). For d 0 to 13, treatment had no effect on ADG or ADFI, but gain/feed decreased for pigs fed SBM with increasing concentrations of $Na_2SO_3$, and increased for pigs fed DEWS with increasing concentrations of $Na_2SO_3$ (SBM vs DEWS sulfite quadratic interaction, p<0.03). For d 13 to 35, pigs fed DEWS had greater ADG (p<0.01) and gain/feed (p<0.001) than pigs fed SBM. Also, ADFI decreased and gain/feed increased with increasing concentrations of $Na_2SO_3$ (linear effects, p<0.04 and 0.01, respectively). Overall, pigs fed the diets with DEWS had greater ADG and gain/feed than pigs fed SBM (p<0.003 and 0.002, respectively), and $Na_2SO_3$ tended to decrease ADFI and increase gain/feed (linear effects, p<0.07 and 0.06, respectively). In conclusion, pigs fed DEWS had greater rate and efficiency of gain than pigs fed SBM. Also, adding $Na_2SO_3$ prior to extrusion increased yield and feed efficiency.

• Asian-Australasian Journal of Animal Sciences
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• v.10 no.2
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• pp.164-169
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• 1997

The present experiment was conducted to evaluate the effects of feed processing and feeding methods on growth performance and carcass characteristics of growing-finishing pigs. A total of 72 pigs (LYD, 22.24 kg BW) were employed for a 90-d feeding trial. Treatments were 1) mash dry feeding (MD), 2) mash wet feeding (MW), 3) pellet dry feeding (PD), and 4) extruded pellet dry feeding (EPD). Corn, soybean meal and wheat bran in the basal diets were extruded before mixing and pelleting for EPD diet production. Ileal or fecal digestibility and carcass traits including lean meat percentage and weights of stomach ulcer were also examined. During the growing period, pigs fed PD showed improved (p < 0.05) average daily gain (ADG) and feed conversion (F/G) over those fed MD, whereas no significant differences in average daily feed intake (ADFI) were found among dietary treatments. Finisher pigs fed MD showed lover, but not significant, ADG and F/G than those fed MW, PD or EPD. For the overall period, pigs fed PD grew faster (p < 0.05) than those fed MD or EPD. Feed intake was different between the two feeding methods (MD vs MW), and between the two processed feeds (PD vs EPD). The digestibility of crude fat was higher (p < 0.05) in pigs fed EPD than in pigs fed mash feeds. NFE digestibility of EPD treatment was also higher (p < 0.05) than that of PD. Back fat (10th rib area) was thicker (p < 0.05) tn pigs fed MD than in pigs fed EPD. other carcass traits including incidence of esophagogastric ulcers were not different among treatments. In conclusion, pelleting appeared to bo the desirable processing methods and wet feeding could also be recommended for growing-finishing pigs.

• Asian-Australasian Journal of Animal Sciences
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• v.14 no.8
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• pp.1149-1156
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• 2001

Previous studies conducted with swine have reported that the mobile nylon bag technique (MNBT) does not always accurately predict in vivo nutrient digestibilities. Therefore, in this study, the MNBT was modified so that nutrient digestibilities would more closely resemble those from conventional (Con) digestibility studies obtained using the indicator method. A total of 19 feeds were tested including five cereal grains, five legumes, three high protein sources and six mixed diets. The principle changes to the MNBT included the use of a fecal collection harness which minimized the number of bags lost. In addition, previous protocols involved pooling of bags within pig while in the present experiment all bags were analyzed separately to increase the precision of the test. Finally, chemical analyses were done using the entire nylon bag plus residue rather than opening.the bags and scraping out the contents. With the exception of the barley sample (p=0.01), dry matter digestibility (DMD) coefficients obtained with the MNBT were not significantly different from those obtained with the indicator method. The linear regression equation relating the MNBT to the indicator method was Con DMD=-O.77+1.02 MNBT DMD ($r^2=0.93$: p<0.0001). There was no significant (p>0.05) difference in gross energy digestibility (GED) coefficients determined using the MNBT or the indicator method for any of the 19 feeds. The regression line equation relating the MNBT to the indicator method was Con GED=-5.68+1.06 MNBT GED ($r^2=0.94$: p<0.0001). The MNBT was less effective in predicting in vivo crude protein digestibility (CPD) than it was in predicting dry matter and energy digestibility. Differences greater than five percentage units were observed for two of the legumes, Kabuli chickpeas (p=0.02) and the extruded pea-canola seed mixture (p=0.01) as well as for three of the mixed diets including the unheated hulled barley-based diet (p=0.01), the unheated hulless-barley based diet (p=0.08) and the barley-soybean meal based diet (p=0.008). The regression equation relating the MNBT to the indicator method was Con CPD=5.75 + 0.90 MNBT CPO ($r^2=0.76$; p<0.0001). This study indicates that the modified MNBT can be used for the rapid determination of dry matter and energy digestibility in a wide variety of ingredients. For the measurement of crude protein digestibility, the technique produces results similar to conventional digestibility studies for cereal grains and high protein feeds but tends to overestimate protein digestibility for legumes and mixed diets.