Ameneh Naseri Moghadam; Mohammad Ebrahim Nooriyan Soroor; Fardin Hozhabri
Volume 25, Issue 1 , April 2023, , Pages 25-36
Abstract
In order to investigate the effect of licorice extract (LE) on growth performance, fermentation parameters, and rumen protozoan population in fattening lambs, 28 male lambs weighing 36.45 ± 1.75 kg in a completely randomized design with four treatments and seven replicates were used. Experimental ...
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In order to investigate the effect of licorice extract (LE) on growth performance, fermentation parameters, and rumen protozoan population in fattening lambs, 28 male lambs weighing 36.45 ± 1.75 kg in a completely randomized design with four treatments and seven replicates were used. Experimental treatmeشnts included: control, basic diet without licorice extract, and treatments one to three included basic diet plus five, 10 and 25 mg of LE per kilogram of DM. The ratio of forage to concentrate was 30:70, which was given to the animals as per their appetite. Adding 25 mg of the extract to the diet increased the daily gain and improved the feed conversion ratio (P<0.05). The pH of rumen fluid and gas production increased at the level of 25 mg of extract (P<0.05). Methane production was not affected by adding LE to the diet. The changes in metabolizable energy, degraded organic matter and concentration of volatile fatty acids in diets containing 5 and 25 mg of LE were more than other groups (P<0.05). The total population of protozoa as well as the number of Entodinia decreased by feeding diets containing LE (P<0.05) but the number of Isotrichida increased, significantly. Based on the results of this research, adding 25 mg/kg of licorice extract to the diet improves the rumen metabolism and the performance of fattening lambs, but it had no effect on the amount of energy loss in the form of methane.
Hossein Gholami; sayed abdoullah hosseini; kamran rezayazdi
Volume 21, Issue 4 , January 2020, , Pages 545-555
Abstract
This experiment carried out to determine the nutritional value of 18 sorghum forage varieties and to introduce superior cultivars using multicriteria decision-making technology. They sow in early June and harvested in mid-November. Random samples were taken from the center of each experimental ...
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This experiment carried out to determine the nutritional value of 18 sorghum forage varieties and to introduce superior cultivars using multicriteria decision-making technology. They sow in early June and harvested in mid-November. Random samples were taken from the center of each experimental plot in a way that ten plants were cut from 10 cm above soil. These samples were cut into 3 to 5 cm pieces, eachcultivar had three samples, in total 54 samples were collected. Yield and nutrient contents such as, crude protein, crude ash, ADF, NDF, water-soluble carbohydrates, starch and lignin measured in the experimental cultivars. The metabolizable energy of sorghum cultivars estimated by gas test method using the amount of gas produced in 24 hours and the amount of crude protein contained in it. Sorghumcultivars ranked based on 11 integrated traits. Among the domestic cultivars, Spidfeed ranked fifth among all varieties, followed by KFS-18 ranked seven and pegah ranked 10th and KFS-2 ranked 12th with moderate quantitative and qualitative performance. Overall, based on the results of the multi-criteria decision-making method, it was found that the top three sorghum cultivars are Siloking, FGCSI12 and PHFS-27, respectively, which are recommended for sorghum forage production and silage for dairy farmers.
Motalleb Ebrahimi; Hamed Ahmadi; farid shariatmadari
Volume 21, Issue 3 , September 2019, , Pages 339-348
Abstract
The goal of the present study was to determine the true metabolizable energy corrected for nitrogen (TMEn) content, chemical compositions of the poultry by – product meal (PBPM), the relationship between their chemical compounds and TMEn in adult roosters. To examine the nutritional values of ...
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The goal of the present study was to determine the true metabolizable energy corrected for nitrogen (TMEn) content, chemical compositions of the poultry by – product meal (PBPM), the relationship between their chemical compounds and TMEn in adult roosters. To examine the nutritional values of PBPM, a total of 30 fresh samples were collected from different slaughterhouses in the country. For TMEn estimation, each sample (25 g) was used to force feed to the 4 birds raised in individual metabolic cages. Dry matter (DM), gross energy (GE), crude fat (EE), crude protein (CP), ash and total volatile nitrogen (TVN) were measured according to standard methods. Average values for DM, EE, ash, CP, TVN and TMEn were obtained as 90.05%, 22.10%, 7.50%, 60.30%, 220 mgN/100g, and 3907 kcal/kg, respectively. There was a positive correlation between TMEn and EE, while the correlation between ash and TMEn was negative. Compared with EE and ash, the CP was less correlated (P<0.05) with TMEn, while the TVN had no significant effect. The determined values of chemical composition and TMEn were used in fitting the simple regression equations, which can be in practice used to predict energy contents of PBPM samples in factory and production farms.
Mostafa Lotfy; farid shariatmadari; Hamed Ahmadi; Mohsen Sharafi
Volume 21, Issue 2 , July 2019, , Pages 223-232
Abstract
The purpose of this study was to develop multiple linear regression (MLR) model to predict the nitrogen-corrected true metabolizable energy (TMEn) value of wheat bran. The amount of crude fat, ash, crude protein, crude fiber (all used as % of DM) and TMEn (Kcal/kg DM) were measured in 25 wheat bran samples ...
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The purpose of this study was to develop multiple linear regression (MLR) model to predict the nitrogen-corrected true metabolizable energy (TMEn) value of wheat bran. The amount of crude fat, ash, crude protein, crude fiber (all used as % of DM) and TMEn (Kcal/kg DM) were measured in 25 wheat bran samples with 4 replicates. The force-fed method has been used to estimate TMEn and excreta were collected for 48 h. There were significant (P < 0.001) differences in chemical composition and TMEn of wheat bran samples. The average crude fat, ash, crude protein, crude fiber and TMEn content of samples was determined to be 4.80, 5.68, 16.23, 8.60 (all used as % of DM) and 2062 (Kcal/kg DM), respectively. The calculated MLR model to predict the TMEn value (Kcal/kg) based on chemical composition (% of DM) was obtained as follows: TMEn = 2364 + (19×crude protein) + (46.1×crude fat) – (63×crude fiber) – (51.1×ash). The R2 value revealed that developed model could accurately predict the TMEn of wheat bran samples (R2=0.82). Crude fat and crude protein had a positive effect on TMEn, while ash and crude fiber had a negative impact on TMEn. The sensitivity analysis on the model indicated that dietary crude fiber (%) is the most important variable in the TMEn, followed by dietary ash, crude fat and crude protein. The results suggest that the MLR model may be used to accurately estimate the TMEn value of wheat bran from its corresponding chemical composition.
fatemeh fouladvand; Ali Kiani; seyed davood sharifi; Arash Azarfar
Volume 21, Issue 2 , July 2019, , Pages 247-259
Abstract
The aim of this study was to determine energy requirement for maintenance (MEm) and to estimate efficiency of energy utilization for gain (kg) using comparative slaughter technique (CST) and relative growth index (RGI: gain/BW0.75) in growing turkey chicks from one to four kg of live body weight (LBW). ...
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The aim of this study was to determine energy requirement for maintenance (MEm) and to estimate efficiency of energy utilization for gain (kg) using comparative slaughter technique (CST) and relative growth index (RGI: gain/BW0.75) in growing turkey chicks from one to four kg of live body weight (LBW). Forty male turkey chicks (24 days of age, 800 ± 93 g LBW) were fed a standard diet (12.3 MJ ME) up to 4 kg of LBW. Apparent metabolizable energy (AME, and AMEn), nutrient digestibility of the diet, and energy balance were determined at two and three kg of BW. In CST, twenty chicks were randomly killed at four stages (five birds at each stage) at 1119 ±60, 2539 ±93, 3528 ±68, 3957 ±82 g of body weight, and the chemical composition of carcass were measured. Maintenance energy requirement (MEm) and efficiency of energy utilization for gain were determined by linear regression in CST. In RGI, the MEm and energy for growth were estimated by a regression of ME intake and relative daily gain. The results showed that in CST, MEm and efficiency of energy utilization for gain were 450 (kJ/kg BW0.75/d), and 56% respectively. In RGI, the MEm and energy for growth were 3.66 (kJ/g BW0.75/d), and 10.4 kJ per g gain. In conclusion, using RGI method is recommended to estimate energy requirement for maintenance and growth in growing turkey due to its simplicity.
Mohammad Reza Zobdeh; hossein Moravej; Mahmood Shivazad
Volume 20, Issue 1 , May 2018, , Pages 191-202
Abstract
In order to determine the prediction equations for apparent metabolizable energy corrected for nitrogen (AMEn) of Iranian wheat, this experiment was conducted at two different ages of broiler chicks in 2014. At first, chemical composition including dry matter, ash, crude protein, ether extract, crude ...
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In order to determine the prediction equations for apparent metabolizable energy corrected for nitrogen (AMEn) of Iranian wheat, this experiment was conducted at two different ages of broiler chicks in 2014. At first, chemical composition including dry matter, ash, crude protein, ether extract, crude fiber and nitrogen-free extract of 16 widely used Iranian wheat cultivars were measured in the laboratory. To measure AMEn content of these cultivars at 10 and 24 days, 6 and 4 mixed sex ROSS 308 broilers per each treatment were used respectively. At these ages, the samples from the excreta and the contents of ileum were collected. Afterwards multiple regression equations for predicting wheat AMEn content were determined by SPSS software and stepwise method. The results showed that the AMEn estimation equations were determined by sampling of excreta at two ages of 10 and 24 days, respectively, in the form of AMEn = 37.855 × NFE and AMEn = 43.494 × NFE and ileum content was determined as AMEn = 41.173 × NFE and AMEn = 42.224 × NFE, respectively. Thus, using theses equations is recommended at the time of diet formulation for grower and finisher phases of broiler chicken.
mohamad yazarloo
Volume 19, Issue 1 , May 2017, , Pages 145-157
Abstract
In order to study the impact of different levels of dietary metabolizable energy and crude protein on performance and nitrogen and energy metabolism of Japanese quail during growth period, 360 day-old Japanese quails were used in a 3×3 factorial experiment with three levels of metabolizable energy ...
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In order to study the impact of different levels of dietary metabolizable energy and crude protein on performance and nitrogen and energy metabolism of Japanese quail during growth period, 360 day-old Japanese quails were used in a 3×3 factorial experiment with three levels of metabolizable energy (2750, 2850 and 2950 Kcal/kg) and three levels of crude protein (24, 26 and 28 percent) in a completely randomized design with four replicates and 10 birds in each replicate. The feed intake and body weight gain were measured weekly and feed conversion ratio was calculated. The nitrogen intake, excretion and retention as gram per bird per day, percent of nitrogen intake and gram nitrogen per kilocalorie per metabolizable energy consumed and dietary apparent metabolizable energy content were measured during 26 to 28 days of age period. The results of this study showed that birds fed diet containing 2850 kcal/kg metabolizable energy and 26 percent crude protein had significantly (P< 0.05) higher daily weight gain and higher nitrogen retention per each unit of metabolizable energy consumed and better feed conversion ratio. According to the results of this experiment, it seems that the best growth rate, the maximum nitrogen retention and the best feed efficiency of growing Japanese quail are achieved by feeding diets containing 2850 kcal/kg metabolizable energy and 26 percent crude protein. Therefore, these values can be recommended as metabolizable energy and crude protein requirements of Japanese quail growing diet.
mohammad Bojarpour; Akbar Yaghoobfar; somayeh salari
Volume 19, Issue 1 , May 2017, , Pages 159-174
Abstract
This experiment was conducted to evaluate the effects of physical form, barley variety and enzyme addition on Ileal digestibility, apparent metabolizable energy (AME) and energy efficiency of broiler chickens.The experiment was carried using a factorial experiment with a completely randomized desiegn. ...
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This experiment was conducted to evaluate the effects of physical form, barley variety and enzyme addition on Ileal digestibility, apparent metabolizable energy (AME) and energy efficiency of broiler chickens.The experiment was carried using a factorial experiment with a completely randomized desiegn. Factors were barley varity (Fajr, Reyhaneh, and Yosef), diet form (mash or pellet) and enzyme level (0 and 0/05 g/kg dry matter). Here 927 one day-old Ross 308 broiler chickens were assigned to 12 treatments, 3 replicates and 27 chickens in each replicate. The results of experiment indicated that the digestibility of nutrients, AME, apparent metabolizable energy corrected to zero nitrogen retention (AMEn) and energy efficiencies (NE/AMEn) affected by barley variety (p <0/05). Net Energy (NE) affected by main and interaction effects (P < 005). Diets containing Ryhaneh barley variety in comparison with other varietys, increased Ileal Digestibel Protein (IDP), Ileal Digestibel fat (IDF), NE, AME and AMEn (P <0/05). Although pelleting decreased Ileal Digestibility of nutrients (p>005), NE, AME and AMEn (p <0/05), addition of enzyme to diet increased this indicators (P <0/050). According to these results, the use of pellet diet containing Ryhaneh variety with enzyme improved digestibility and energy efficiency and thus it's recommended to be used in poultry nutrition.
Hossein Gholami
Volume 18, Issue 4 , December 2016, , Pages 741-748
Abstract
This study was conducted to determine the metabolizable and net energy for lactation of Iranian sainfoin using chemical composition and gas production data obtained by experiments being carried out in different animal nutrition laboratories mainly Animal Science Research Institute (ASRI) (from 1987 to ...
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This study was conducted to determine the metabolizable and net energy for lactation of Iranian sainfoin using chemical composition and gas production data obtained by experiments being carried out in different animal nutrition laboratories mainly Animal Science Research Institute (ASRI) (from 1987 to 2011) in IRAN. Linear fitted equations as well as logarithmic, inverse, quadratic, cubic, power, S and exponential fitted equations for components such as crude protein, crude fat, crude ash, crude fiber, neutral detergent fiber, acid detergent fiber and NFE were estimated. The obtained equations for crude protein were very significant (P<0.001) with high coefficient of the determination (R2 = 0.731). In the above mentioned equations for estimating metabolizable energy of sainfoin hay, crude protein can be chosen as an independent variable. By selecting crude protein as an independent variable and related equations, Metabolizable energy (ME), net energy for lactation (NEL), Net energy for maintenance (NEm) and net energy for growth (NEg) of Iranian sainfoin were 2.43, 1.29, 1.55 and 0.94 Mcal/Kg DM, respectively. The result showed, with a simple chemical experiment of crude protein in the animal nutrition laboratory can be estimated available energy of Iranian sainfoin and used it in ruminant diets.
Fereshteh Jamile; Abolghasem Golian; Hasan Kermanshahi; Ahmad Hasanabadi; Heydar Zarghi
Volume 18, Issue 2 , June 2016, , Pages 287-297
Abstract
The purpose of this study was to determine the effect of two levels of four commercial multi-enzymes on the apparent metabolizable energy corrected for nitrogen (AMEn) and digestibility of crude fat, crude protein, dry matter, and organic matter in broiler chickens through total excreta collection method. ...
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The purpose of this study was to determine the effect of two levels of four commercial multi-enzymes on the apparent metabolizable energy corrected for nitrogen (AMEn) and digestibility of crude fat, crude protein, dry matter, and organic matter in broiler chickens through total excreta collection method. One hundred thirty male broiler chicks were assigned to 45 metabolic cages involving 9 treatments, and 5 replicates of 3 chicks each. A control diet was made so that wheat was the sole source of energy supply. Eight experimental diets were prepared with the addition of one or two recommended levels of each commercial multi-enzymes to the control diet. The chickens had free access to feed and water ad-libitum from 17 to 23 days of age. Gross energy, crude protein, crude fat, organic matter, and dry matter were measured in feed and excreta samples. Addition of one or two recommended levels of different commercial enzymes to diet significantly increased (P< 0.05) AMEn and apparent digestibility of fat, protein, dry matter, and organic matter in wheat. However, there was not a significant difference between the levels and the four types of added commercial enzymes on AMEn and nutrient digestibility values. The results revealed that metabolisable energy value of Falat wheat improved by 70 to 120 kcal per kg, regardless of the type and activity of the four commercial enzymes used in this study.
Mohammad Reza Jamali; Mohammad Reza Ghorbami; Ahmad Tatar; Somayyeh Salari; Morteza Chaji
Volume 18, Issue 1 , April 2016, , Pages 107-118
Abstract
Two experiments were conducted to evaluate the nutritional value of Purslane powder and its effects on performance, egg quality and reproductive system parameters of laying hens. One hundred and twenty laying hens (Leghorn, Hy-Line W-36) were used in a completely randomized design with four treatments ...
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Two experiments were conducted to evaluate the nutritional value of Purslane powder and its effects on performance, egg quality and reproductive system parameters of laying hens. One hundred and twenty laying hens (Leghorn, Hy-Line W-36) were used in a completely randomized design with four treatments and five replicates. Hens received diet supplemented with different levels of Purslane powder (0, 1, 2 and 3 percent) for 8 weeks. The results of these expriments showed that gross energy, crude protein, ether extract and crude fiber contents of Purslane samples were 2921.67 (Kcal/Kg DM), 22.28 (percent), 3.99 (percent) and 9.47 (percent) of DM, respectively. The AME and TME values of Purslane powder were 1864.70 and 1956.08 Kcal/Kg DM, respectively. Performance parameters of the laying hens were not affected by inclusion different levels of dietary Purslane powder in the diet. Shell strength, shell thickness, egg yolk color, ovary and oviduct weights, the number of large yellow follicles and the weight of largest follicle showed significant increase (P< 0.05) in treatments containing Purslane as compared to control group. According results of this experiment, use of Purslane powder in laying hens diet can improve quantitative traits of eggs and reproductive parameters. Therefore, Purslane powder can be used in the diets of laying hens at three percent.