Research Article
Productive Effects and Economical Feasibility of Substitution Barley by 10 and 30% of Sprouted Barley in Diet of Awassi Male Lambs
Department of Hygiene, College of Veterinary Medicine, University of Baghdad, Baghdad, Iraq
Hydroponics is an advanced technology in agriculture can meet the growing nutrients requirement for livestock feed with suitable prices sprouted barley is produced from forage grains having high germination rates and grown for short periods of time that control the appropriate growing conditions1. Hydroponic fodder systems are usually used to sprout cereal grains and barley is the most commonly grown fodder, because it usually gives the best yield of nutrients2. Nutritional requirements of livestock are based on dry matter intake, if fed to livestock at a rate of 2% of their body weight3. Over the years, in many different countries with different species (mostly cattle, pigs and poultry), study trials have been conducted to assess the performance of livestock fed hydroponic green fodder2. Al-Saadi and Al-Zubiadi4 reported that there is more than 4 fold increase in weight from 1 kg barley grain. Finney5 and Grigorev et al.6 revealed an increased performance for both ruminants and mono-gastric animals feed hydroponic barley. Some workers using cattle reported an improvement in performance due to feeding sprouted barley compared to the original unsprouted grain7,8. It is well documented that feed costs make more than 75% of total production costs of sheep projects9. Since, there is a limited study has been conducted to determine the cost and feeding value of hydroponic barley fodder10,11. The majority of sheep raised locally in Iraq is the Awassi breed therefore, the present study designed to assess the costs of feeding hydroponically sprouted barley and the average daily gain and determine the economical feasibility of substitution barley using two different levels, 10 and 30% of sprouts in diet of Awassi male lambs.
Experimental design: Present study was conducted for 120 days period, at animal farm subsequent to College of Veterinary Medicine/Baghdad University, 18 Awassi male lambs purchased from local trusted farms with average body weight of 19.25±0.25 kg and 4 months ages at the start of the experiments. Experimental lambs treated with anti-ecto and endo-parasites and vaccinated against enterotoxaemia, they were weighed and ranked according to live weight. Then herd split into 3 groups based upon their weight at the start of the trial 6 lambs in each after 2 weeks of adaptation period. All groups were daily feed with 2% of body weight of concentrate diet, the control group were daily fed only this percentage, the second, third groups of lambs were fed with same amount of concentrate diet include 10 and 30% of fresh sprouting barely respectively (Table 1). The amount of feed offered to the lambs and the remaining were weighed all groups supplied with water and mineral blocks.
Each kilogram of vitamin and mineral mixture contained 0.30 g CoSO4, 20.1 g CuSO4, 10 g FeSO4, 50 g ZnO2, 40.2 g MnSO4, 0.75 g KI, 878 g NaCl, 500,000 IU vitamin A, 500,000 IU vitamin D and 10,000 IU vitamin E, according to AOAC12.
Fresh sprouted barley daily feed intake for each lambs calculation:
Sprouts barley production: Hydroponic cultivation and chemical analysis of sprouted grain used according to Peer and Leeson10. The forages production plan was conducted using one of hydroponic steel chamber, with dimensions of 2.0 m in length×2.0 m in height×1.0 m in width (Fig. 1), designed to carrying 21 perforated steel trays by 7 shelves, 3 trays to each, with capacity of 7 growth stages by rely of 7 days, trays were used to germinate barley seeds with dimensions of 100 cm in length X40 cm in width and 5 cm in height to each, equipped with manual sprayer irrigation water and electric air ventilation, the condition inside the rome chamber was controlled to get a range of temperature 18-20°C and relative humidity about 72% by air circulating.
Table 1: | Formulation of experimental dietary concentrate composition (%) |
Fig. 1: | Hydroponic steel chamber carry trays |
Fig. 2: | Carpet like appearance of barley grass, seedling growth, dark green color and thick roots |
Table 2: | Chemical composition of HB and grain (DM% basis) |
a-cMeans with different superscripts in the same row are significantly different at p<0.05 |
Fluorescent lighting with watertight appliance were provide on the wall in the vertical position to growing leaves in which supply about 1000 μW/3 cm during 9-12 h of daily light. Barley seeds (Hordeum vulgare L.) were got from a local supplier, which were cleaned, washed and soaked by tap water, putting in container for 24 h, then spread on the trays with 1.1 kg and 2 cm thickness for each and stayed for 7 days. At end of this period, the grass of barley seedling growth reaches about of 16-18 cm in height. It has carpet like appearance with dark green color and thick roots (Fig. 2). Three green grass carpets were removed every day, they required 7 days for each one cycle of seeds germination and continues daily harvesting of green forages, the removal carpets exposed to air ventilation for 24 h in order to more drying, then weighing and calculated before shredded to small pieces mixing with concentrate diets.
Chemical analysis: Weekly samples of green forage diets collected and kept frozen until chemical analysis for crude protein, crude fiber, crude fat and nitrogen free extract according to AOAC13(Table 2). The feed sampled and composted daily taken until the end of the collection period. Which were grounded through a 1 mm screen hammer mill and analyzed for DM (at 70°C) and nutrients composition according to AOAC12 and Henry14. Blood samples were collected from jugular vein, serum was obtained after centrifugation at 3000 rpm stored at -200°C till analysis and used to determine total serum protein according to Armstrong and Carr15, albumin according to Doumas et al.16, globulin was obtained by subtracting the albumin values from the total proteins, creatinine estimate according to Henry14 and urea according to Patton and Crouch17. Blood serum analysis was conducted using jenway spectrophotometer (UK) and using kits purchased from human Co. (Germany).
Performance trail: The concentrate ingredients were prepared and combined weekly, while the roughage and concentrate were mixed manually every day and fed as Total Mixed Ration (TMR), feed and water were offered twice a day, at 9:00 am and 15:00 pm. The amount of feed offered recorded daily, dry matter intake and feed conversion ratio were calculated by weekly. Body weight biweekly were recorded and daily feed intake calculated.
Statistical analysis: One way ANOVA tests were used to compare the means of each treatment by Snedecor and Cochran18, data were analyzed using SPSS, statistical analysis-version 19 (2010).
Table 2 shows that, there are many significant alteration via implantation period in the nutrient content of the cereal grains and hydroponics fodder, the dry matter as well as non fiber carbohydrate values they, recorded significantly elevation in values of barley grain in comparative to sprouts, the crud protein, ash, ether extract, non protein, nitrogen true protein, neutral detergent fiber and sprouts were recorded significant higher value in comparative to grain. While, in organic matter and acid detergent fiber chemical analysis values were appeared non significantly. Such changes might be attributed to increase of the activity of grain hydrolytic enzymes lead to change chemical composition via germination, such conversion of the protein to essential amino acids, carbohydrates converted to simple sugars and fats convert to essential fatty acids19. These alterations are in the same line noticed by some researchers20-25. The mean of moisture values are about 9.20±0.45 in grain contents, reach about 82.74±0.54 in sprouted barely contents due to plant absorbed a large amount of water via germination period on the other hand, It is quite interesting to note that the hydroponics forage production requires only about 3-5% of water needed to produce same amount of forage produced under field condition2, but for producing 1 kg of maize fodder in hydroponic system about 1.50 L (if water is recycled) to 3.0 L (if water is not recycled and drained out) of water is required26, thus such method of hydroponic forages production is very useful for fodder production in arid and semi arid areas.
Table 3 shows that there is clear elevation of blood serum parameters, in globulin, albumin, total serum proteins concentration and A/G ratio, which were recorded significantly (p>0.05) higher values in both treated groups in comparative with control group. This is in accordance with those reported by Kumar et al.27 found a positive correlation between dietary protein and plasma protein concentration.
Table 3: | Effect of substitution barley by 10 and 30% sprouted barley on some blood serum parameters in the diet of Awassi male lambs (Means±SE) |
a-cMeans with different superscripts in the same row are significantly different at p>0.05 |
The high level of globulin of sprouted barely treatments may indicate good developed immunity status by Ibrahim et al.28, these results also is agreement with Chavan et al.29 whom stated, the complex qualitative changes via soaking and sprouting of seeds which convert storage proteins of cereal grains into albumins and globulins caused the improvement of the quality of cereal proteins and increased the plant enzymes contents30, through germination protease enzymes are activated and convert the protein polymers into amino acids and small peptides31, these enzymes convert the complex compounds of protein into albumin and globulin which improve protein quality and elevate lysine content of grains29, this might be explain the increased protein and albumin, globulin ratio in current study on the other hand, both treated groups appeared significant (p>0.05) higher values in creatinine as well as in urea values which might be reflect the higher metabolic rates due to activation of amylase and lipase enzymes via germination of seeds which increases sugar and essential fatty acids content of grains32, that might be reflect the rising of urea and creatinine values in this study.
Table 4 shows that there is an increase in body weight and the gain of body weight of all groups during the experimental period. Live weight gain depends on several factors such as breed characteristics, age, initial live weight, nutrition and management practice33-35. Lambs in the treated groups showed significantly (p>0.05) higher values in their average. Final body weight compared with the control group specially the 30% group which was reported significantly (p>0.05) higher value than those of 10% and control groups and total gain, besides their percentage compared with the control group. Many research trials have been conducted to assess the performance of livestock fed hydroponic green fodder2. Fayed20 determined that addition of sprouted barley improved weight gain in lambs. This was in line with the concept of Naik et al.26 coined out hydroponic sprouts are rich sources of bioactive enzymes and contain a grass juice ingredients that improves the performance of livestock. Tudor et al.7 reported that an increase in weight gain of lambs received barley sprouts may attributed to enhancing of microbial activity in the rumen. Similarly a researcher also noticed that, the higher performance in the body weight gain of animals supplemented with 40% hydroponic fodder could be due to the ability of the supplements to supply necessary nutrients23. New Zealand Merino Co.3 confirmed that fresh fodder of sprouted barley feed might be improved the performance by activation of enzymes during germination and transfer organic compound of grains to simpler forms, that arguments the suitability of this type of green fodder as a good livestock feed cause increase in appétit to taking sufficient amount of nutrition enable the lambs to increase in body weight7,36.
Table 4: | Effect of substitution barley by 10 and 30% sprouted barley in the diet on total body weight and gain of Awassi male lambs (Means±SE) |
a-cMeans with different superscripts in the same row are significantly different at p>0.05 |
Table 5: | Economical feasibility |
Such normal concentrate diets easy to digest and make the rest feed diet more efficiently2. current study also with agreement with the studies those determined that feeding vitamins-rich green forage included, activate some enzymes during sprouting caused improvement in performance, digestive coefficient and animals growth rate37,38. In contrast of that, few study has declare that there is no significant effects on animal performance with the feeding hydroponic sprouts39-41.
In Table 5 it was noticed that the mean of the amount of the total concentrate diet consumed for each animal were 63.00, 68.760 and 59.04 kg for groups 10 and 30% and control along the experimental period while, the amount of concentrate diet consumed by each animals without sprouts in were 60.48 ,60.48 and 59.04, respectively and total amount of sprouts treated groups were 2.520, 8.28 kg for 10 and 30% groups, respectively. However, the price of the concentrate diet without sprouts was approximately about 600 ID kg1 while, the average coast of sprouts was 100, 125 ID kg1 to each treated groups, respectively during all experimental period. Then, the total cost for the concentrate diet without sprouts for all groups were 36.28, 36.28 and 35.45 1/1000 of Iraqi Dinar. Thus, the cost of feeding was lower for the animals received 30% sprouted barley in their daily ration than those received 10% and control. This agreement results were displayed by Naik et al.42 in sprouted maize fodder fed to desert goats and reported, environmentally friendly as well as reduced cost of feeding43. The assuming of the live weight price for each kilogram is approximately 12.000 Iraqi dinar and the total gain was 11.08, 16.02 and 8.08 kg for 10 and 30% and control groups, however, the average daily gains were improved with lambs fed hydroponic barley diet than lambs fed control diet, these findings also were in agreement with data showed by Hassan and Mona44, Ata45 and Fayed20 whom used barley sprouts grown in rice straw to fed to growing Barki lambs and reported an increase in feed intake and gain of those lambs. Then, the total price are 132.96, 192.24 and 96.96 Iraqi Dinar/1000, thus, the total profit for each group were 84.68, 141.96 and 61.51 Iraqi Dinar/1000 for 10 and 30% and control group, respectively and this agree with results by Saidi and Omar46 whom noticed there is a significant reduction in feed cost can be achieved when feeding rations incorporated with hydroponic fodder of sprouted barley.
In conclusion, of present study, feeding of substitutions of hydroponic barley fodder in diet of Awassi lambs in 10 and 30% increased total dry matter intake, decrease in feed conversion efficiency, increase total body weight gain and increase approximately in all blood serum parameters and economical profit particularly in 30%. According to these results, it could be recommend to substitution more high percent of barley by sprouted barley in the diet of ruminants than it had used in present study, for more economic profit and improvements of the productive traits, since more researches might be recommended in such direction particularly in desert and semi-desert areas.
Thanks to the Dean of faculty and Department of Veterinary public health-College of Veterinary Medicine, Bagdad University for providing the necessary facilities to carry out this study.