Influence of sorghum inclusion in fattening steers diets on health and fatty acids profile of Longissimus dorsi muscle

The study was conducted using 21 Romanian Black Spotted fattening steers to determine the effects of sorghum grains on health and fatty acid profile of Longissimus dorsi muscle. The animals were assigned uniformly to 3 groups of 7 steers each, which received different treatments: control (C) received a compound feed without sorghum grains, experimental group (E1) received 15% sorghum grains in the compound feed, while next experimental group (E2) received 25% sorghum grains in the compound feed. To determine the biochemical parameters, blood samples were collected from animals at the end of experimental period. The laboratory analyses conducted on samples of Longissimus dorsi muscle collected from the 3 experimental groups, showed changes in the fatty acid composition. The proportion of saturated fatty acids (SFA) decreased in favour of the unsaturated fatty acids (UFA) with 1.04% in group E2, while the proportion of unsaturated fatty acids increased from 53.00% in the control group to 54.19% in group E2

Effect of dietary cowpea (Vigna unguiculata [L] walp) and chickpea (Cicer arietinum L.) seeds on growth performance, blood parameters and breast meat fatty acids in broiler chickens

The effects of dietary replacement of soybean meal (SBM) with two different protein sources (cowpea [CWP] and chickpea [CKP]) on growth performance (GP), blood parameters and breast meat fatty acids (FA) content were evaluated. A total of 780 one-d-old broiler chicks (Cobb 500) were allocated, over 2 growth phases (starter, 0–21 d; finisher, 22–42 d), to 5 dietary treatments as follow: (1) a corn-SBM basal diet as control; (2) 10% raw cowpea; (3) 20% raw cowpea; (4) 10% raw chickpea and (5) 20% raw chickpea. The results indicated that CWP and CKP diets conducted to similar GP (body weight, body weight gain, feed intake and feed conversion ratio) when compared to the SBM diet, but changes in the content of blood parameters were observed. Glucose and total cholesterol decreased significantly in birds fed CWP (p<.0001) and CKP (p<.001) diet. Also, the use of CWP and CKP had a significant effect on the content of breast muscle FA, especially for alfa-linolenic (p <.0001), eicosapentaenoic (p<.0001), docosapentaenoic (p=.034) and docosahexaenoic (p =.003), which were higher than those fed SBM diet. In addition, there was a significant interaction between the protein source and the inclusion level (S × L) for the majority of the FA’s. Based on the results obtained, it can be concluded that CWP and CKP seeds represent an interesting alternative protein sources, which can improve broilers performance, health status and breast fatty acids composition.Highlights Cowpea (CWP) and chickpea (CKP) can be used as replacement for soybean meal in broiler chickens diets, at inclusion levels up to 200 g/kg. Dietary use of CWP and CKP decreased plasma cholesterol and glucose concentration. Use of CWP and CKP in broilers diets positively modified breast meat fatty acids, especially α-linolenic acid, eicosapentaenoic or docosahexaenoic acids with potential benefits to human nutrition

Effects of corn replacement by sorghum in broiler chickens diets on performance, blood chemistry, and meat quality

The influence of feeding a new hybrid of sorghum (ES Shamal, orange variety) in broiler chickens on growth, health, meat, and litter quality was evaluated from 1–42 d. A total of 360-day-old male Ross 308 broiler chicks (40.1 ± 2.3 g) were randomly assigned to 3 experimental diets: 100% corn-based diet (S0), partial replacement of corn with 50% sorghum (S50), total replacement of corn with sorghum (S100). All diets were calculated to be isonitrogenous and isocaloric with similar content of total lysine, total sulphur amino acids, calcium, and available phosphorous. The results indicated that partial or total replacement of corn by sorghum is suitable for broiler chicken diets with no adverse effects on growth, and slaughter performance, as well as litter quality over the whole trial period. Moreover, the substitution of corn with sorghum, reduced (p = .007) abdominal fat associated with an increase in breast and thigh meat colour (L* values; p < .001). Also, a significant (p = .002) decrease in plasma triglyceride was found in broilers fed sorghum-based diets. Except for collagen and hardness in the breast and thigh, and gumminess only in the thigh muscle, there were no differences in fundamental physicochemical (pH, protein, fat, moisture) or textural attributes of meat due to dietary treatment. However, sorghum alters the intestinal microflora, resulting in a lower count of E. coli in the caeca. It can thus, be concluded that sorghum (ES Shamal, orange variety) can be included in broiler feeds from hatching to day 42, without any adverse effects on the broiler’s performance.HIGHLIGHTS Climate changes become a threat to the livestock sector and finding novel nutritional solutions for feeding farm animals became a priority. New sorghum varieties are valuable in terms of drought-resistant plants. Replacement of corn with sorghum in broiler diets maintains growth performances and carcase characteristics

Preliminary ruminant digestibility evaluation of some Romanian winter barley genotypes grown on two levels of N fertilization

The aim of the study was to evaluate the effects of nitrogen N levels on ruminant digestibility of 18 different Romanian barley genotypes grown in 2013/2014 year. The experiment was designed as randomized blocks and two levels of N were tested: 46 and 92 kg ha-1 (blocks N-46 and N-92) and compared to control block N-0, without nitrogen. The grains were analyzed for chemical composition and in vitro ruminant digestibility IVOMD. The resulted grains yield (t/ha) was significantly lowered by the 92 kg ha-1 N level. The same N fertilization level had a significant effect on increasing the crude protein content. But the mean IVOMD coefficient (%) of all genotypes was significantly decreased for both the N levels (84.45 for N-46, and 83.19 for N-92 compared to 86.92 for N-0)