Next Article in Journal
Genetic Diversity of IGHM and IGHE in the Leporids Revealed Different Patterns of Diversity in the Two European Rabbit Subspecies (O. cuniculus algirus and O. c. cuniculus)
Previous Article in Journal
Identification of Single Nucleotide Polymorphisms in Porcine MAOA Gene Associated with Aggressive Behavior of Weaned Pigs after Group Mixing
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
Animals
Volume 9
Issue 11
10.3390/ani9110954
animals-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Growth Performance and Carcass Traits Responses to Dried Distillers’ Grain with Solubles Feeding of Growing Awassi Ram Lambs

by
Safa’ M. Hatamleh
and
Belal S. Obeidat
*
Department of Animal Production, Faculty of Agriculture, Jordan University of Science and Technology, Irbid 22110, Jordan
*
Author to whom correspondence should be addressed.
Animals 2019, 9(11), 954; https://doi.org/10.3390/ani9110954
Submission received: 17 October 2019 / Revised: 6 November 2019 / Accepted: 8 November 2019 / Published: 12 November 2019
(This article belongs to the Section Small Ruminants)
Versions Notes

Abstract

:

Simple Summary

Corn grain is considered to be the most important crop in the world. Corn dried distiller grains with solubles is a by-product of ethanol production. It is included at 0, 125, or 25 g/kg in lambs’ diets. This inclusion reduced the cost of diet, indicating the good possibility of using it in small ruminant diets.

Abstract

This study considers the impact of dried distillers’ grain with solubles (DDGS) in diets of lambs. Randomly; 27 lambs were distributed to one of three diets. Diets were: a control diet (CON; n = 9), a 125 (DDGS125; n = 9) or a 250 g/kg DDGS (DDGS250; n = 9) of dietary dry matter (DM). The lambs were fed using these diets for 91 days. To assess carcass traits; five lambs were randomly selected at the end of the study. No significant differences were detected in intake and digestibility of DM; crude protein and fiber. Average daily gain did not differ among diets. Carcass characteristics did not differ among diets. With the exception of shear force and redness, which were greater in DDGS250 than in DDGS125 and CON diets, meat quality parameters were unaffected. Eye muscle area decreased in DDGS125 than in DDGS250 and CON diet. These results demonstrate that the feeding of lambs on DDGS at 125 or 250 g/kg DM did not have any impact on growth. These diets only had a simple effect on the characteristics of carcass and meat quality. These results suggest that it would be suitable to introduce these feeds into sheep nutrition in the future.

1. Introduction

Corn grain is considered to be the most important crop in the world. It is estimated that half of agricultural production of this grain is for non-nutritional purposes. Ethanol, produced from the corn, is commonly used as fuel for machines and hundreds of materials used in the medical and pharmaceutical industry. Corn dried distiller grains with solubles (DDGS) is a byproduct of ethanol produced from corn grain. The demand for this product is expected to increase due to an increase in conventional feeds cost and the increase of bio-fuel production in response to global environmental concerns. Furthermore, the use of DDGS in animal feed has increased significantly [1,2]. These residues account for 40% of the income of ethanol production plant. Livestock nutritionists emphasize the importance of maintaining preferential performance in efficiency and growth rate while keeping feed costs as low as possible [3]. Obeidat [2] reported that DDGS contains 273 g/kg crude protein (CP), where more than half of CP is considered bypass the rumen degradation, making it a good candidate to replace soybean meal (CP = 480 − 520 g/kg DM) as a feed product.
Awassi sheep are a significant feature in the food chain in Jordan. It is one of the most important small ruminants that provide 28% of the locally produced milk and 62% of the red meat in a region where annual red meat consumption is estimated to be 10.8 kg per capita [4]. The population of small ruminants in Jordan is approximately 4.3 million head including sheep and goats [5]. Due to the shortage and availability of good quality forages and pastures, small ruminant husbandry has moved from nomadic grazing to semi-intensive and intensive husbandry, thus increasing the need to use cereal grains and protein sources in animal diets [4]. Based on this, feed cost has increased tremendously, which has led to reduced revenue and profit for farmers. Therefore, producers tend to use alternative feeds in ruminant diets to reduce feeding cost [6].
There is very little available data regarding the usage of DDGS in Awassi sheep feed. Recently, Obeidat [2] reported that growth performance, nutrient intake and digestibility was similar between growing lambs being fed DDGS at 0, 75 or 150 g/kg dry matter (DM). Similarly, another study reported that feeding DDGS to lambs at ratios of 0, 127 and 254 g/kg of dietary DM did not affect DM intake [7]. However, some literature has provided controversial results regarding carcass characteristics and meat quality [8,9]. Study the use and impacts of DDGS for sheep feeding in Jordan is limited at present. Therefore, this study will be an important contribution to the research and data pertaining to the performance growth and carcass traits of growing lambs. Aim of this research study was to evaluate the influence the feeding DDGS at 0, 125 or 250 g/kg on performance and carcass characteristics of growing lambs.

2. Material and Methods

The Institutional Animal Care and Use Committee at Jordan University of Science and Technology (JUST) approved all procedures and methods used in this study (Protocol #: 16/3/3/410).
This study was carried out using 27 male lambs (initial body weight (BW) = 15.3 ± 0.99 kg) in the Animal Farm of the Research and Training Department at the Faculty of Agriculture. Lambs were born and raised in the Animal Farm from the sheep herd at JUST. Lambs used in the study were weighed, ear tagged and had a health check. Lambs were randomly divided into three groups. The groups were fed different diets using diets containing DDGS at 0 (CON), 125 DDGS (DDGS125) or 250 g/kg DDGS (DDGS250) DM respectively (Table 1). These diets were fed to the lambs for 91 days. The first 7 days were used for adaptation and the remaining 84 days were utilized for data collection. Lambs were retained in individual pens (1.5 × 0.75 m). The feed was provided ad libitum daily at 08:00. Lambs had unimpeded access to water during the study. Dried distillers’ grain with solubles was purchased from a commercial feed mill then incorporated into the diet. Throughout the study, feed refusals were collected, weighed and stored (−20 °C) daily. Lamb BW was collected every two weeks to calculate feed efficiency (FCR; DM intake: gain).
To estimate nutrient digestibility and N balance, six lambs were randomly chosen from each group of diet on the 56th day of the experiment and were placed in metabolic cages (1.05 × 0.80 m) suitable for collection of feces and urine. The animals were given five days to adapt followed by five days where their feces and urine were collected. All the methods used in this experiment and analysis of feces and urine samples replicated the procedures described in Obeidat et al. [10]. Chemical composition of the samples of diets, refusal and feces were analyzed as described in Alshdaifat and Obeidat [1].
On the last day of the study, five lambs were chosen randomly from each group to determine carcass characteristics and meat quality. Their feed was cut for 18 h and the lambs were weighed to find their final fasting weight. Animals were slaughtered by an experienced trainee using a standard slaughter procedure. After the slaughter of lambs, hot carcass weights were recorded. The weight of the heart, lungs and trachea, kidneys, spleen, liver, kidneys and mesenteric fat (non-carcass components) was recorded. The carcasses were then transferred to a refrigerator and kept at 4 °C for 24 h. On the second day, the weights of the cold carcasses were measured to calculate the dressing percentage. The fat tail was then cut, and its weight recorded. Cold carcasses were then cut into four sections (leg cuts, rack, shoulder and loin) and the weight of each component was recorded. The linear dimensions of the refrigerated carcasses and longissimus muscle that were measured were rib fat depth (J), tissue depth (GR), eye muscle width (A), eye muscle area, eye muscle depth (B), and fat depth (C). The meat quality parameters of the longissimus muscle that were measured were water holding capacity (WHC), shear force, pH, color (CIE L*a*b* coordinates) and cooking loss using procedures shown in Obeidat et al. [10].

Statistical Methods

By using mixed procedures of SAS (Version 8.1, 2000, SAS Inst. Inc., Cary, NC, USA) [11], where the fixed effect in the statistical model was the diet and the animal is nested to diet as the residual error, data were exposed to analysis of variance. By using pair-wise t-tests, mean was separated for all traits. The significance was considered at p < 0.05.

3. Results

The chemical composition of the DDGS was 273, 272, 104 and 43 g/kg DM for CP, neutral detergent fiber (NDF), acid detergent fiber (ADF) and ether extract (EE) respectively. This ensured that including the DDGS in the diets met their nutritional requirements. The chemical composition of the diets did not change by the inclusion of DDGS. However, the cost of DDGS-containing diets decreased by 5 and 10% for the DDGS125 and DDGS250 respectively, compared with the CON diet (Table 1).
Intake of DM, CP, ADF and NDF did not differ (p > 0.05) among diet groups (Table 2). However, intake of EE was greater (p < 0.05) for the DDGS250 diet group than for the CON and DDGS125 groups. Initial BW, final BW, total gain, ADG and FCR were similar (p > 0.05) among all dietary treatment groups.
Dry matter, CP, NDF and ADF digestibility was similar (p > 0.05) among diet groups (Table 3). Ether extract digestibility increased (p < 0.05) in DDGS250 group than in the CON and DDGS125 groups. Nitrogen intake, N lost in feces and N retention was not affected (p > 0.05) by the inclusion of DDGS in the diets. However, N lost in urine was greater (p < 0.05) in the CON group than in the DDG125 diet groups, whereas DDGS250 was similar to other two groups.
Fasting BW, carcass cuts weight, hot and cold carcass weight, fat tail, dressing percentage and dissected leg carcass cut weights and percentages were comparable among diets (p > 0.05; Table 4). Non-carcass components and leg weight increased (p < 0.05) in the DDGS250 diet group than in the DDGS125 diet group, whereas lambs fed the CON diet did not differ from those fed the other two treatment diets in terms of these characteristics.
Similar results were detected among diet groups in terms of leg fat depth, rib fat depth, tissue depth, shoulder fat depth and eye muscle width (Table 5). However, eye muscle depth decreased (p < 0.05) in the DDGS250 diet group more than in the CON and DDGS125 diet groups. Eye muscle area and fat depth decreased (p < 0.05) in the DDGS125 group than in the DDGS250 and CON diet groups.
Water holding capacity and meat pH was comparable among diet groups (Table 6). However, cooking loss was greater (p < 0.05) in the DDGS125 and DDGS250 groups than for the CON group. Shear force, redness (a*) of longissimus muscle and color coordinates increased (p < 0.05) in the DDGS250 diet group than in DDGS125 and CON diet groups.

4. Discussion

In response to rising feed prices, DDGS is commonly used as a substitute for conventional feeds in lambs’ and ewes’ diets [1,2]. Corn DDGS is inexpensive compared with conventional feeds [1]. Corn DDGS can play a vital role in formulate inexpensive diets for growing Awassi lambs. Consequently, as the amount of DDGS used in feed is increased, the cost of the feed is reduced. Previous studies conducted in our laboratory have produced similar results in studies where conventional feeds were replaced by alternative feeds, indicating the beneficial use of DDGS in ruminant diets [1,6,12].
In this study, DDGS was included in the feed at levels of 0, 125, 250 g/kg DM, replacing part of barley grain (565, 495 and 425 g/kg DM) and soybean meal (165, 110 and 55 g/kg DM). The concentration of the EE in the lambs’ diets increased more in feeds containing corn DDGS than in the CON diet group. This is due to the fact that the content of the EE in the DDGS was higher than the content of the EE in the other ingredients. Although the increase in fat content may impact ruminal fermentation and microbial activities and utilization [13,14], the use of DDGS at 125 or 250 g/kg DM did not affect DM and other nutrient intakes.
In this study, including DDGS at levels of 0, 125 and 250 g/kg had no effects on DM, CP, NDF or ADF intakes in the diets of growing Awassi lambs. The influences of inclusion of DDGS in the diets of ruminants were not consistent with results of existing studies. Tanaka et al. [15] and Westreicher-Kristen et al. [16] reported similar DM intake when DDGS was fed to dairy cows at levels of more than 200 g/kg of dietary DM or at levels of 100 or 150 g/kg DM, as reported by Leonardi et al. [17], when fed to lambs at levels of 75 and 150 g/kg DM [2] or when fed to ewes at 200 and 300 g/kg DM [1]. Conversely, Janicek et al. [18] reported an increase in DM intake when dairy cows where fed DDGS at levels of 0, 100, 200, and 300 g/kg DM. A decline in DM intake was reported when DDGS was fed at 310 g/kg DM [19] or at 200 g/kg DM [20]. Differences among studies in DM and other nutrient intakes due to the inclusion of DDGS could partially be related to variations in the inclusion rate of DDGS and the other ingredients of the diets.
Results relating to BW, ADG and FCR were concurrent with previous studies that were conducted in our laboratory [21,22], indicating that the diets we used did not influence the palatability due to the inclusion of DDGS and, in turn, their BW changes. Similarly, growth performance was not affected when DDGS was fed at 230 g/kg for beef cattle or at 75 and 150 g/kg DM for lambs [1,23]. However, previous studies have shown that ADG and feed efficiency enhanced when DDGS was included in beef cattle feed at different levels [23,24].
Feeding DDGS at 125 or 250 g/kg DM did not influence the digestibility of CP, NDF and ADF. In accordance with our result, Winterholler et al. [25] found that NDF, ADF and CP digestibility was similar in beef cows fed three different level of DDGS treatments (0.77, 1.54 or 2.31 kg/d). Conversely, Felix et al. [26] found that DM digestibility reduced linearly when the DDGS fed at 200, 400 or 600 g/kg DM in lamb rations. One possible explanation for this phenomenon could be that the level of EE in the diet was over the threshold, which, in turn, prevented the microbes from attaching to the rumen digesta and blocked the enzyme from digesting the fiber. The fat that is present in the DDGS is mainly composed of unsaturated fatty acid in DDGS, which explains the improvement in the digestibility of EE in the diets having DDGS.
Awassi lambs whose feed contained DDGS at 125 g/kg and CON exhibited similar amounts of N in feces to lambs receiving the DDGS250 g/kg diet. Lambs receiving the CON diet had a greater amount of urinary N than the DDGS125 g/kg diet group. This is not surprising due to the fact that lambs provided with the CON diet had a higher nitrogen intake and a relatively similar nitrogen digestibility to lambs fed the diets containing DDGS. Felix et al. [26] noted that where the N intake and N digestibility increased, the urinary N output increased which decreased the N retention in lambs fed diets with higher levels of DDGS. However, Gurung et al. [27] found that where the urine N was higher with increasing concentrates containing (0, 12.7, 25.4, 38.1%) of DDGS fed for goats because the DDGS a good sources of RUP. Also, Gurung et al. [27] found that the fecal N, urinary N, absorbed N, and retained N were similar between all treatment which may be there no different on N intake.
Meat quality and carcass traits could be affected by diet ingredients and nutrient contents. The similarities in carcass yields among lambs fed the different diets could be to the similarity in intake, digestibility and N balance that was detected among diet groups. In line with our study, Estrada-Angulo et al. [28] reported no differences between carcass yields in lambs fed DDGS at 250 and 400 g/kg. Abdelrahim et al. [7] reported that carcass characteristics did not affect in lambs fed diets contained DDGS at 127 or 254 g/kg DM. 28.29. Schauer et al. [29] and Huls et al. [30] reported that feeding DDGS for lambs at 600 g/kg and 229 g/kg, respectively, DM did not change the carcass characteristics. In the present study, eye muscle area and fat depth decreased more in the DDGS125 diet group compared with the DDGS250 and CON diets groups. This decrease in eye muscle area could be due to the numerical differences in final BW among diets. Although lambs fed the DDGS250 diet showed greater shear force, all values of meat quality were within the acceptable value. Previous studies showed that feeding DDGS at different levels did not impact upon the shear force [31,32]. This study of DDGS-based diets has shown that there is little effect on carcass meat quality and characteristics by using such feeds. This highlights the potential for using DDGS as an alternative feedstuff without causing any adverse effect on carcass characteristics traits. With regards the color coordinates, Obeidat et al. [10] reported similar results with Awassi lambs slaughtered at the same age but different diets. However, Polidori et al. [33] reported different color values of Fabrianese lambs indicating that the differences may be due to the breed differences. Shear force values were comparable with results obtained in previous studies for lambs slaughtered at the same age [10,33]. Similar to our results, Fleix et al. [26] observed that whiteness did not change when lambs fed DDGS at 0 or 200 g/kg, whereas; it changed at 400 or 600 g/kg DM.

5. Conclusions

The results of the present study regarding growing Awassi lambs show that inclusion of DDGS at 125 and 250 g/kg DM did not have a negative effect on intake, digestibility, meat quality and carcass characteristics. However, the cost of feed is reduced indicating that the usage of DDGS in diets for ruminants would be highly beneficial for both producers and consumers.

Author Contributions

Conceptualization, Methodology, and Writing-original draft, S.M.H. and B.S.O.

Funding

This study is funded by Deanship of Scientific Research at Jordan University of Science and Technology (216/2016).

Acknowledgments

The authors wish to thank Deanship of Scientific Research at Jordan University of Science and Technology for funding this study.

Conflicts of Interest

The authors declare no conflict of interest regarding this study.

References

  1. Alshdaifat, S.N.; Obeidat, B.S. The impact of feeding corn dried distillers grains with solubles on milk yield and composition in lactating Awassi ewes and digestibility and N partitioning in Awassi ewe lambs. Ital. J. Anim. Sci. 2009, 18, 522–529. [Google Scholar] [CrossRef]
  2. Obeidat, B.S. Influence of corn-dried distiller’s grain with solubles on growth performance and blood metabolites of Awassi lambs offered a concentrate diet. Ital. J. Anim. Sci. 2018, 17, 636–642. [Google Scholar] [CrossRef]
  3. Omer, H.A.M.N. Impact of feeding calves on rations containing different levels of distillers dried grains with solubles (DDGS) on ruminal fermentation, carcass characteristics and fatty acid profiles. World Appl. Sci. J. 2015, 33, 176–189. [Google Scholar]
  4. Al-Jaloudy, M.A. Country Pasture/Forage Resource Profiles-Jordan. 2006. Available online: http://www.fao.org/ag/agp/agpc/doc/counprof/jordan/jordan.htm. (accessed on 27 August 2019).
  5. Department of Statistic (DoS). Preliminary Report; Agriculture Section: Amman, Jordan, 2018. [Google Scholar]
  6. Obeidat, B.S.; Kridli, R.T.; Mahmoud, K.Z.; Obeidat, M.D.; Haddad, S.G.; Subih, H.S.; Ata, M.; Al-Jamal, A.E.; Abu Ghazal, T.; Al-Khazáleh, J.M. Replacing soybean meal with sesame meal in the diets of lctating Awassi ewes suckling single lambs: Nutrient digestibility, milk production, and lamb growth. Animals 2019, 9, 157. [Google Scholar] [CrossRef] [PubMed]
  7. Abdelrahim, G.M.; Khatiwada, J.; Gurung, N.K. Effects of dried distillers grains with solubles on performance and carcass characteristics of lamb. J. Anim. Res. Technol. 2014, 1, 25–30. [Google Scholar] [CrossRef]
  8. Al-Suwaiegh, S.; Fanning, K.C.; Grant, R.J.; Milton, C.T.; Klopfenstein, T.J. Utilization of distillers grains from the fermentation of sorghum or corn in diets for finishing beef and lactating dairy cattle. J. Anim. Sci. 2002, 80, 1105–1111. [Google Scholar] [CrossRef] [PubMed]
  9. Klopfenstein, T.J.; Erickson, G.E.; Bremer, V.R. Use of distillers by-products in the beef cattle feeding industry. J. Anim. Sci. 2008, 86, 1223–1231. [Google Scholar] [CrossRef] [PubMed]
  10. Obeidat, B.S.; Mahmoud, K.Z.; Meswadeh, J.A.; Bsoul, E.Y. Effects of feeding Atriplex halimus L. on growth performance and carcass characteristics of fattening Awassi lambs. Small Rumin. Res. 2016, 137, 65–70. [Google Scholar] [CrossRef]
  11. SAS. SAS User Guide Statistics; SAS Inst: Cary, NC, USA, 2000; Version 8.1.
  12. Aloueedat, M.K.; Obeidat, B.S.; Awawdeh, M.S. Effects of partial replacement of conventional with alternative feeds on nutrient intake, digestibility, milk yield and composition of Awassi ewes. Animals 2019, 9, 684. [Google Scholar] [CrossRef] [PubMed]
  13. Relling, A.E.; Reynolds, C.K. Feeding rumen-inert fats differing in their degree of saturation decreases intake and increases plasma concentrations of gut peptides in lactating dairy cows. J. Dairy Sci. 2007, 90, 1506–1515. [Google Scholar] [CrossRef]
  14. Zinn, R.A.; Gulati, S.K.; Plascencia, A.; Salinas, J. Influence of ruminal biohydrogenation on the feeding value of fat in finishing diets for feedlot cattle. J. Anim. Sci. 2000, 78, 1738–1746. [Google Scholar] [CrossRef] [PubMed]
  15. Tanaka, M.; Suzuki, T.; Saber, K.O.T.B.; Kamiya, Y. Effect of distiller’s dried grains with solubles (DDGS) feeding to dairy cows on oxidative status under hot condition. Jpn. Agric. Res. Q. 2011, 45, 457–460. [Google Scholar] [CrossRef]
  16. Westreicher-Kristen, E.; Steingass, H.; Rodehutscord, M. In situ ruminal degradation of amino acids and in vitro protein digestibility of undegraded CP of dried distillers’ grains with solubles from European ethanol plants. Animal 2013, 7, 1901–1909. [Google Scholar] [CrossRef] [PubMed]
  17. Leonardi, C.; Bertics, S.; Armentano, L.E. Effect of increasing oil from distillers grains or corn oil on lactation performance. J. Dairy Sci. 2005, 88, 2820–2827. [Google Scholar] [CrossRef]
  18. Janicek, B.N.; Kononoff, P.J.; Gehman, A.M.; Doane, P.H. The effect of feeding dried distillers grains plus solubles on milk production and excretion of urinary purine derivatives. J. Dairy Sci. 2008, 91, 3544–3553. [Google Scholar] [CrossRef] [PubMed]
  19. Birkelo, C.P.; Brouk, M.J.; Schingoethe, D.J. The energy content of wet corn distillers grains for lactating dairy cows. J. Dairy Sci. 2004, 87, 1815–1819. [Google Scholar] [CrossRef]
  20. Anderson, J.L.; Schingoethe, D.J.; Kalscheur, K.F.; Hippen, A.R. Evaluation of dried and wet distillers’ grains included at two concentrations in the diets of lactating dairy cows. J. Dairy. Sci. 2006, 89, 3133–3142. [Google Scholar] [CrossRef]
  21. Obeidat, B.S.; Alrababah, M.A.; Alhamad, M.N.; Gharaibeh, M.A.; Abu Ishmais, M.A. Effects of feeding carob pods (Ceratonia siliqua L.) on nursing performance of Awassi ewes and their lambs. Anim. Feed Sci. Technol. 2012, 105, 9–15. [Google Scholar] [CrossRef]
  22. Obeidat, B.S.; Shdaifat, M.M. Partial substitution of barley grain with Prosopis juliflora pods in lactating Awassi ewes’ diets: Effect on intake, digestibility, and nursing performance. Small Rumin. Res. 2013, 111, 50–55. [Google Scholar] [CrossRef]
  23. McKinnon, J.J.; Walker, A.M. Comparison of wheat-based dried distillers’ grains with solubles to barley as an energy source for backgrounding cattle. Can. J. Anim. Sci. 2008, 88, 721–724. [Google Scholar] [CrossRef]
  24. Walter, L.J.; Aalhus, J.L.; Robertson, W.M.; McAllister, T.A.; Gibb, D.J.; Dugan, M.E.R.; McKinnon, J.J. Evaluation of wheat or corn dried distillers’ grains with solubles on performance and carcass characteristics of feedlot steers. Can. J. Anim. Sci. 2010, 90, 259–269. [Google Scholar] [CrossRef]
  25. Winterholler, S.J.; McMurphy, C.P.; Mourer, G.L.; Krehbiel, C.R.; Horn, G.W.; Lalman, D.L. Supplementation of dried distillers grains with solubles to beef cows consuming low-quality forage during late gestation and early lactation. J. Anim. Sci. 2012, 90, 2014–2025. [Google Scholar] [CrossRef] [PubMed]
  26. Felix, T.; Zerby, H.N.; Moeller, S.J.; Loerch, S.C. Effects of increasing dried distillers grains with solubles on performance, carcass characteristics, and digestibility of feedlot lambs. J. Anim. Sci. 2012, 90, 1356–1363. [Google Scholar] [CrossRef] [PubMed]
  27. Gurung, N.K.; Solaiman, S.G.; Rankins, D.L., Jr.; Kendricks, A.L.; Abdelrahim, G.M.; McElhenney, W.H. The effects of distillers dried grains with solubles on apparent nutrient digestibility and passage kinetics of Boer× Spanish castrated male goats. J. Appl. Anim. Res. 2012, 40, 133–139. [Google Scholar] [CrossRef]
  28. Estrada-Angulo, A.; Lopez, E.J.; Contreras, G.; Castro, B.I.; Obregon, J.F.; Perez, A.B. Two levels of dried distillers grains with soluble on growth performance and carcass characteristics of Pelibuey sheep. J. Anim. Sci. 2008, 86, 498. [Google Scholar]
  29. Schauer, C.S.; Stamm, M.M.; Maddock, T.D.; Berg, P.B. Feeding 60% of lamb finishing rations as dried distillers grains with solubles results in acceptable performance and carcass quality. Sheep Goat Res. J. 2008, 23, 15–19. [Google Scholar]
  30. Huls, T.J.; Bartosh, A.J.; Daniel, J.A.; Zelinsky, R.D.; Held, J.; Wertz-Lutz, A.E. Efficacy of dried distiller’s grains with solubles as a replacement for soybean meal and a portion of the corn in a finishing lamb diet. Sheep Goat Res. J. 2006, 21, 30–34. [Google Scholar]
  31. Gill, R.V. Impact of beef cattle diets containing corn or sorghum distiller’s grains on beef color, fatty acid profiles and sensory attributes. J. Anim. Sci. 2008, 86, 923–935. [Google Scholar] [CrossRef] [PubMed]
  32. Roeber, D.L.; Gill, R.K.; DiCostanzo, A. Meat quality responses to feeding distiller’s grains to finishing Holstein steers. J. Anim. Sci. 2005, 83, 2455–2460. [Google Scholar] [CrossRef] [PubMed]
  33. Polidori, P.; Pucciarelli, S.; Gammertoni, N.; Polzonetti, V. The effects of slaughter age on carcass and meat quality of Fabrianese lambs. Small Rumin. Res. 2017, 155, 12–15. [Google Scholar] [CrossRef]
Table
Table 1. Ingredients and chemical composition of diets fed to growing Awassi lambs containing increasing concentrations of dried distillers’ grains with solubles (DDGS), replacing barley grain, soybean meal, and wheat straw.
Table 1. Ingredients and chemical composition of diets fed to growing Awassi lambs containing increasing concentrations of dried distillers’ grains with solubles (DDGS), replacing barley grain, soybean meal, and wheat straw.
ItemDiet 1
CONDDGS125DDGS250
Ingredients (g/kg DM)
Barley56.549.542.5
Soybean meal16.511.05.5
Wheat straw25.025.025.0
DDGS0.012.525.0
Salt111
Limestone111
Vitamin-mineral premix 2+++
Cost (US$/Ton)359341324
Nutrients (g/kg DM)
Dry matter91.0590.990.5
Crude protein15.9915.9615.93
Neutral detergent fiber28.3930.0031.62
Acid detergent fiber18.0718.3218.57
Ether extract1.912.202.49
1 Diets were (1) no DDGS (CON), (2) 125 g/kg DDGS (DDGS125), and (3) 250 g/kg DDGS (DDGS250). 2 Composition per kg use (vitamin A, 600,000 IU; vitamin D3, 200,000 IU; vitamin E, 75 mg, vitamin K3, 200 mg; vitamin B1, 100 mg; vitamin B5, 500 mg; lysine 0.5%; DL-methionine, 0.15%; manganese oxide, 4000 mg; ferrous sulphate, 15,000 mg; zinc oxide, 7000; magnesium oxide, 4000 mg; potassium iodide, 80 mg; sodium selenite, 150 mg; copper sulphate, 100 mg; cobalt phosphate, 50 mg, dicalcium phosphate, 10,000 mg).
Table
Table 2. Effects of feeding dried distillers’ grains with solubles (DDGS) on nutrient intakes and growth performance of growing Awassi lambs.
Table 2. Effects of feeding dried distillers’ grains with solubles (DDGS) on nutrient intakes and growth performance of growing Awassi lambs.
ItemDiet 1
CONDDGS125DDGS250SE
Nutrient intake, g/d
Dry matter10851038111863.3
Crude protein17416617810.1
Neutral detergent fiber30831135319.0
Acid detergent fiber19619020811.6
Ether extract21 a23 a28 b1.4
Initial weight, kg15.315.015.60.99
Final weight, kg33.331.835.21.18
Total gain, kg18.016.819.60.99
Average daily gain, g/d21419923311.77
FCR 25.15.54.80.40
1 Diets were (1) no DDGS (CON), (2) 125 g/kg DDGS (DDGS125), and (3) 250 g/kg DDGS (DDGS250), 2 FCR: Feed conversion ratio. a,b Means within a row without a common superscript differ significantly (p < 0.05).
Table
Table 3. Effects of feeding dried distillers’ grains with solubles (DDGS) on nutrient digestibility, N balance and rumen fluid pH of growing Awassi lambs.
Table 3. Effects of feeding dried distillers’ grains with solubles (DDGS) on nutrient digestibility, N balance and rumen fluid pH of growing Awassi lambs.
ItemDiets 1
CONDDGS125DDGS250SE
Digestibility, %
Dry matter76.471.772.42.65
Crude protein76.073.573.02.17
Neutral detergent fiber63.856..461.24.43
Acid detergent fiber55.047.351.15.15
Ether extract62.7 a67.2 ab72.0 b3.50
N balance
N intake, g/d30.225.027.32.27
N in feces, g/d7.36.37.30.70
N in urine, g/d6.4 a4.4 b2.3 c0.62
N retained, g/d16.514.317.71.84
Retention, g/100 g54.657.264.84.80
1 Diets were (1) no DDGS (CON), (2) 125 g/kg DDGS (DDGS125), and (3) 250 g/kg DDGS (DDGS250). a,b Within a row, means without common superscripts differ (p < 0.05).
Table
Table 4. Effects of feeding dried distillers’ grains with solubles (DDGS) on carcass, non-carcass components, dissected leg carcass cut weights and percentages of growing Awassi lambs.
Table 4. Effects of feeding dried distillers’ grains with solubles (DDGS) on carcass, non-carcass components, dissected leg carcass cut weights and percentages of growing Awassi lambs.
ItemDiets 1
CON
n = 5		DDGS125
n = 5		DDGS250
n = 5		SEM
Fasting live weight (kg)31.330.233.21.43
Hot carcass weight (kg)14.814.416.10.75
Cold carcass weight (kg)14.514.015.80.75
Dressing percentage46.446.147.60.72
Non-carcass components (kg) 21.32 b1.24 a1.40 b0.05
Carcass cut weights (kg) 313.112.514.20.57
Fat tail (kg)1.031.231.400.14
Leg weight (kg)2.60 ab2.41 a2.83 b0.97
Subcutaneous fat (g/100 g)12.012.611.11.2
Intermuscular fat (g/100 g)2.42.52.40.17
Total fat (g/100 g)14.515.113.51.18
Total meat (g/100 g)55.257.757.91.10
Total bone (g/100 g)20.720.922.40.76
Meat to bone ratio2.712.802.620.12
Meat to fat ratio3.904.114.520.43
1 Diets were (1) no DDGS (CON), (2) 125 g/kg DDGS (DDGS125), and (3) 250 g/kg DDGS (DDGS250), 2 Non-carcass components (Heart, liver, spleen, kidney, and lungs and trachea), 3 Carcass cut (shoulder, racks, loins, and legs). a,b Within a row, means without common superscripts differ (p < 0.05).
Table
Table 5. Effects of feeding dried distillers’ grains with solubles (DDGS) on carcass leaner dimensions of growing Awassi lambs.
Table 5. Effects of feeding dried distillers’ grains with solubles (DDGS) on carcass leaner dimensions of growing Awassi lambs.
ItemDiets 1
CON
n = 5		DDGS125
n = 5		DDGS250
n = 5		SEM
Leg fat depth (L3) (mm)4.503.813.510.391
Tissue depth (GR) (mm)12.212.013.50.66
Rib fat depth (J) (mm)4.514.014.320.48
Eye muscle width (A) (mm)56.053.256.21.08
Eye muscle depth (B) (mm)25.2 b25.0 b22.8 a0.24
Eye muscle area (cm2)11.8 b10.1 a12.4 b0.46
Fat depth (C) (mm)3.00 b2.31 a2.81 b0.12
Shoulder fat depth (S2) (mm)3.724.013.520.38
1 Diets were (1) no DDGS (CON), (2) 125 g/kg DDGS (DDGS125), and (3) 250 g/kg DDGS (DDGS250). a,b Within a row, means without common superscripts differ (p < 0.05).
Table
Table 6. Effects of feeding dried distillers’ grains with solubles (DDGS) on meat quality characteristics of growing Awassi lambs.
Table 6. Effects of feeding dried distillers’ grains with solubles (DDGS) on meat quality characteristics of growing Awassi lambs.
ItemDiets 1
CON
n = 5		DDGS125
n = 5		DDGS250
n = 5		SE
pH 25.805.815.800.01
Cooking loss (g/100 g)58.1 a60.4 b60.8 b0.66
Water holding capacity (g/100 g)28.027.428.30.75
Shear force (kg/cm2)5.62 a5.42 a6.43 b0.22
Color coordinates
 L* (whiteness)37.837.536.90.39
 a* (redness) 2.51 a2.60 a2.91 b0.07
 b* (yellowness)19.718.917.60.45
1 Diets were (1) no DDGS (CON), (2) 125 g/kg DDGS (DDGS125), and (3) 250 g/kg DDGS (DDGS250), 2 pH measured after thawing. a,b Within a row, means without common superscripts differ (p < 0.05).

Share and Cite

MDPI and ACS Style

Hatamleh, S.M.; Obeidat, B.S. Growth Performance and Carcass Traits Responses to Dried Distillers’ Grain with Solubles Feeding of Growing Awassi Ram Lambs. Animals 2019, 9, 954. https://doi.org/10.3390/ani9110954

AMA Style

Hatamleh SM, Obeidat BS. Growth Performance and Carcass Traits Responses to Dried Distillers’ Grain with Solubles Feeding of Growing Awassi Ram Lambs. Animals. 2019; 9(11):954. https://doi.org/10.3390/ani9110954

Chicago/Turabian Style

Hatamleh, Safa’ M., and Belal S. Obeidat. 2019. "Growth Performance and Carcass Traits Responses to Dried Distillers’ Grain with Solubles Feeding of Growing Awassi Ram Lambs" Animals 9, no. 11: 954. https://doi.org/10.3390/ani9110954

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop