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1.
Horses are reared in all types of weather. Temperatures as diverse as -40 degrees C to 40 degrees C are tolerated by horses. The nutrient requirement most influenced by cold weather is energy. In cold weather, feeding good quality hays free-choice is usually sufficient for mature horses in good body condition. Grain may have to be fed when poor quality hays are used. Hot weather (greater than 30 degrees C) necessitates heat loss to maintain body core temperature. Horses sweat to reduce body heat. Heat stress can be minimized by feeding diets that reduce the heat increment. Use of grain and fat in the diet, which have a lower heat increment than fibrous feeds such as hays, may benefit horses in hot climates. Wind or precipitation necessitate protection to minimize chilling in cold weather and discomfort in hot weather. However, it is a moot point whether horses will use shelters under these circumstances. 相似文献
2.
[目的]探讨热应激对奶牛采食量和饲料中营养物质消化率的影响。[方法]通过采用单因子水平随机设计。[结果]奶牛热应激时采食量显著下降,在轻微和中度热应激期采食量分别下降3.65%和13.46%;营养物质的消化率也显著下降(P0.05),奶牛在轻度和中度热应激期粗脂肪的消化率分别降低了6.17%、13.03%;钙的消化率分别降低了25.09%、34.97%;磷的消化率分别降低了22.77%、36.27%。[结论]奶牛热应激时采食量显著下降(P0.05);饲料中营养物质消化率粗脂肪、钙、磷的消化率与非热应激期相比,差异显著(P0.05)。 相似文献
3.
热应激状态下羊的体温调节 总被引:2,自引:0,他引:2
热应激是由高温环境所引起的,在炎热的气候条件下,当环境有效温度超过羊的等热区上限温度时,羊就会出现热应激。由热应激引发的不良影响广泛存在,不仅严重影响羊的生存质量,而且导致羊体温升高、生长性能降低、免疫力减弱以及肉品质下降。本文综述了导致羊产生热应激的因素以及热应激条件下的体温调节机制。在热应激的情况下,机体通过吸收环境辐射热和累积机体代谢产热,使机体获得很高的热负荷,超过了机体的散热能力。暴露在高温环境中的羊只,可通过增加机体散热消除过多的热负荷。当空气温湿度发生变化时,作为恒温动物,绵羊和山羊可以通过调整自身的产热量、采食量、饮水量、呼吸频率和行为等方式,来维持机体产热和散热的平衡。总之,羊可以利用复杂有效的散热机制维持体温平衡,适应高温环境。 相似文献
4.
R E Salmon 《British poultry science》1986,27(4):629-638
One thousand eight hundred Small White turkeys were fed diets of 3 nutrient densities, representing approximately 0, 30 and 90 g added fat/kg of diet, or a fourth treatment which provided increasing nutrient densities from 6 weeks of age to slaughter at 12, 13 and 14 weeks. Within each nutrient density, 4 energy to protein ratios were derived by reducing dietary protein. Each increment in nutrient density resulted in increased body weights and improved efficiency of food utilisation. Increasing energy to protein ratio resulted in linear decreases in body weights, food intake and efficiency of food utilisation. Carcase quality, as measured by carcase fat scores and percentage of grade A carcases, improved with each increment in nutrient density and declined with increasing energy to protein ratio. Progressively increasing nutrient density from 6 weeks of age resulted in body weights, efficiencies of food utilisation and carcase finishes intermediate between those of the medium and high density groups. Such a programme avoids the disadvantages of feeding high nutrient density diets through much of the growing cycle, while providing growth, efficiency of food utilisation and carcase grades approaching those produced by the full high nutrient density programme. 相似文献
5.
A control and a 10% fat-supplemented diet were fed to exercising horses maintained in two different body conditions, during both temperate and hot weather, to determine the efficacy of fat as dietary aid to reduced energy requirements for thermal regulation in exercising horses. Horses were worked 7.2 km daily, 5 d/w, and in each season were fed sufficient energy to maintain constant body weight and body fat content at each assigned level of body condition. In both seasons and in both body conditions, digestible energy intake was lower (P<.01) when the horses were fed the fat-supplemented diet than when fed the control diet. Digestible energy intake was partitioned into requirements for work and maintenance. Since work levels were similar, digestible energy requirements for work were similar when horses were fed both experimental diets. However, the digestible energy requirements for maintenance were significantly lower (P<.01) when the horses were fed the fat-supplemented diet. Thus, it appears that feeding fat to exercising horses reduces the thermal load and resulting digestible energy requirements for maintenance in both temperate and hot weather. 相似文献
6.
《Livestock Production Science》1986,14(3):239-254
Ten sets of data from four experiments with individual measurements on 236 cows for one to four weeks in each of second and third months of lactation were used to determine relationships between milk composition and nutritional parameters. Effects of breed and parity of cow as well as experimental rations were removed in analysis. The estimated balance between energy intake and energy requirement for milk and maintenance was calculated from intake of roughage and concentrates together with their chemical composition and in vitro digestibility, milk yield and milk composition. Adjusted mean estimated energy balances ranged from −17.65 to 14.35 MJ NEℓ per day; dry matter intake from 16.1 to 20.1 kg per day and % dietary roughage from 36.6 to 67.5% across data sets. Mean milk fat % was between 3.76 and 4.11% while milk protein % was 2.79–3.15% across data sets. Dry matter intake and % dietary roughage explained relatively small amounts of variation in milk fat %, protein % or the ratio of these two components after effects of ration were removed in data analysis. Estimated energy balance was negatively correlated with milk fat % (−0.07 to −0.65), positively correlated with milk protein % (0.12 to 0.47) and negatively correlated with ratio of milk fat to protein (−0.36 to −0.74) across data sets. Estimated energy balance increased the proportion of explained variation of fat:protein ratio by an average 21% to a total of 43%. In the reverse situation, fat to protein ratio increased coefficients of determination of energy balance by 19 to 52%. The ratio of contents of milk fat and protein was a more sensitive and consistent indicator of changes in nutritional variables and also a better predictor of energy status of the cow than either component by itself. 相似文献
7.
Influence of dietary energy, nutrient density and environmental temperature on pullet performance in early lay 总被引:1,自引:1,他引:0
1. Alterations in dietary metabolisable energy (ME) concentration had a limited influence on food and nutrient intakes and egg mass output of hens in early lay kept at the prevailing air (10 degrees to 24 degrees C), cold (6 degrees to 16 degrees C) or hot (25 degrees to 35 degrees C) temperatures. 2. Energy intakes were not improved by increasing the dietary concentrations of nutrients other than energy. 3. At prevailing air and cold temperatures all dietary ME-nutrient density combinations allowed hens to meet the recommended daily protein intake but only hens fed the most concentrated diets were able to meet this recommendation at hot temperatures. 4. Even the highest intakes of ME and protein achieved at hot temperatures failed to increase egg mass output to the values attained on any diet at cold temperatures. 相似文献
8.
The metabolic use of energy from dietary fat in broilers is affected by fatty acid saturation 总被引:4,自引:1,他引:3
1. Two experiments were performed to evaluate the effect of dietary fat on performance and fat and protein accretion in broiler chickens according to the degree of saturation. 2. The first experiment was designed to test 2 sources of dietary fat and 3 levels of dietary energy using a factorial (2x3) experimental design. The foods were formulated to maintain a constant ratio of energy to protein (and other nutrients). There were no significant differences in weight gain, intake, final body weight or food to gain ratio between broilers fed on diets differing solely in the degree of fat saturation. Broilers fed on diets containing animal fat showed higher whole-body fat retention (P=0.02) and lower protein accretion (P=0.03) than those fed on diets containing vegetable oils. 3. In the second experiment, only 1 concentration of fat (tallow, lard or sunflower oil) was incorporated into the experimental diets, providing different energy to protein ratios. The carcase protein content was not affected by dietary fat source, while total fat accretion (P=0.01) and energy retention (P=0.14) were highest in broilers fed on a diet containing tallow. 4. The findings suggest that the degree of saturation of dietary fats affects their metabolic use and fat accumulation in broiler chickens. 相似文献
9.
奶牛热应激综合征是指奶牛受到超过本身体温调节能力的高温刺激而产生的非特异性防御反应。奶牛发生热应激后会激活体内的下丘脑-垂体-肾上腺轴,改变机体的神经内分泌调节网络,引起奶牛体内皮质醇激素和多种激素水平变化,协同作用于机体以抵抗热应激对自身的影响;此外,热应激奶牛采食量和消化率普遍降低,营养物质摄入不足,机体处于能量负平衡状态。在这种状态下,奶牛会通过增加体内糖、脂肪和蛋白质的代谢来为机体提供能量从而缓解热应激。然而,严重热应激会导致奶牛代谢功能紊乱及免疫系统损伤,最终导致奶牛消化率、产奶量、繁殖率下降,而疾病易感风险性增加,从而影响奶牛生产的经济效益,给畜牧业带来巨大的经济损失。目前,关于奶牛热应激的研究较多,且多集中于产奶性能和繁殖性能等方面,而有关生理和免疫机能的研究报道较少。作者阐述了奶牛发生热应激时皮质醇激素的变化和调节、三大代谢过程的改变及免疫细胞和相关细胞因子的表达分泌等过程,旨在更加深入地了解热应激对奶牛生理状态及免疫功能的影响,从而为奶牛热应激综合征的防控、诊断和治疗提供理论依据。 相似文献
10.
Dry cow nutrition. The key to improving fresh cow performance 总被引:1,自引:0,他引:1
R J Van Saun 《Veterinary Clinics of North America: Food Animal Practice》1991,7(2):599-620
Evidence supports the concept of the dry period being a critical component to lactation preparation rather than an insignificant rest period between lactations. Required nutrient amounts for the dry cow are the sum of maintenance, pregnancy, and reserve replenishment needs with additional requirements for growth during the first two pregnancies. Maintenance energy requirements can be dramatically increased by level of activity and adverse environmental conditions. A wide variety of feed ingredients can be successfully fed to dry cows as long as rations are appropriately formulated to meet energy, protein, mineral, and vitamin requirements. A early and close-up dry program best matches increasing pregnancy requirements and declining intake capacity with management capabilities. The early dry cow ration is formulated for high fiber/low energy density while the close-up ration contains higher energy density with less fiber. Both rations contain sufficient other nutrients based on determined intake. This two-group system provides maximal flexibility in managing for optimum body condition at calving. Environmental stresses and dramatic dietary changes should be minimized during the transition period from late gestation to lactation. A sound dry cow program results from integration of quality nutrition and cow management practices as described. A dry cow program that enacts these guidelines should result in reduced incidence of clinical mastitis, successfully complete pregnancy with a viable calf, maximize genetic potential for milk production, minimize incidence of health disorders, and allows cows to breed back within an economically optimum time interval. Overall, a sound dry cow program is a critical key to improved fresh cow performance. 相似文献
11.
Along with the fast genetic improvement, nutritional and environmental effects on poultry growth performance have made it necessary to develop growth models that have the flexibility to adapt to different genotypes and growing conditions. A mechanistic simulation model of energy and nutrient utilization in growing turkeys is presented herein. The model consists of simulating the average homeorhetic and homeostatic regulations associated with the utilization of circulating glucose, fatty acid, AA, and acetyl-CoA for protein and lipid retention in carcass, viscera, and feathers in a turkey population. Homeorhesis plays a major role in the control of protein and lipid turnover for the definition of genetic potential and feed intake, whereas homeostasis adjusts growth rate through protein and lipid turnover rates and, therefore, BW gain and feed intake to the growing conditions. Also, homeostasis enables the maintenance of a dynamic balance state during all the growing period through the control of circulating nutrient concentration. The model was developed and calibrated with experimental data that described energy utilization in male and female growing turkeys. Then, the ability of the model to adapt to genotypes and to predict the average response of a turkey population to dietary energy was evaluated. Model calibration showed simulations of energy and nutrient utilization that fitted well with the experimental data because ME was satisfyingly partitioned into heat production and energy retention as protein and lipid, and nutrient intake accurately partitioned BW gain into carcass, viscera, and feathers. The evaluation of the model was also satisfactory because BW gain and feed-to-gain ratio were globally in accordance with the observations in different male and female genotypes, in spite of an overestimation of the feed-to-gain ratio during the first weeks of age. Model evaluation showed that the BW gain and feed intake response of growing turkeys to dietary energy was accurately predicted. The model can therefore be used in different growing conditions as it is capable of simulating the growth of different turkey genotypes fed under changing environmental and nutritional contexts. 相似文献
12.
现代规模化、集约化奶牛养殖生产模式下,不断供给高营养水平日粮是维持后备牛快速生长发育和泌乳母牛高泌乳性能的物质基础。然而,在遗传品质到达"瓶颈期"后,尽管随着日粮营养浓度的不断提高和干物质采食量(DMI)的增加,奶牛单产水平可以继续维持在一定的高水平状态,但是高产奶牛的营养代谢性疾病的发病率也呈现快速增长趋势,特别是围产期能量负平衡(negative energy balance,NEB)引起的酮病,高精日粮引发的酸中毒、高蛋白质日粮引起的血液中尿素氮升高等营养代谢性疾病,负调控奶牛繁殖性能,造成奶牛产后发情不明显,配种率和受胎率下降等,直接影响奶牛生产群的更新速度、优质牛群泌乳性能正常发挥以及奶牛养殖的经济效益。作者详细介绍了近年来国内外不同营养代谢性疾病对奶牛繁殖性能影响的相关研究资料,重点分析了酮病、低血钙、瘤胃酸中毒等围产期高发的营养代谢性疾病影响奶牛繁殖性能的分子机制,并对营养代谢性疾病与高产奶牛繁殖性能今后研究的方向提出了展望和思考,以期为提高中国规模化牧场高产奶牛群繁殖效率和母牛围产期营养管理水平提供一定的借鉴和理论依据。 相似文献
13.
ZHAO Shanjiang HAO Haisheng LIU Yunxiang WANG Xianjun XU Li LI Laibao HU Zhihui ZHU Huabin 《中国畜牧兽医》2007,47(11):3618-3625
Under the modern large-scale and intensive dairy farming production mode,the continuous supply of feed with high nutrition level is the material basis for maintaining the rapid growth and development of reserve cows and the high lactation performance of lactating cows.However,after the genetic quality reaches the "bottleneck period",although the milk yield of dairy cow can continue to maintain a certain high level with the continuous improvement of the nutrient concentration of feed and the increase of dry matter intake (DMI),the incidence of nutritional metabolic diseases of high-yield dairy cows also shows a rapid growth trend,especially ketosis caused by the negative energy balance in perinatal period,acidosis caused by high-precision diet and the increase of blood urea nitrogen caused by high-protein diet,negatively regulate the reproductive performance of dairy cows,resulting in inconspicuous postpartum estrus,decreased mating rate and conception rate of dairy cows,which directly affect the update speed of dairy cows production groups,the normal performance of high-quality cattle and the economic benefits of dairy farming.In this paper,the author introduced in detail the relevant research on the current situation and its mechanism influence of different nutritional metabolic diseases on the reproductive performance of dairy cows in recent years,and focused on analyzing the molecular mechanism of nutritional and metabolic diseases with high perinatal incidence such as ketosis,low blood calcium and moderate gastric acid,and put forward the prospect and thinking on the future research direction of nutritional and metabolic diseases and reproductive performance of high-yielding dairy cows,in order to provide some reference and theoretical basis for improving the reproductive efficiency of high-yielding dairy cows in large-scale pastures in China and the perinatal nutrition management level of dairy cows. 相似文献
14.
Critical evidence on the nutrient requirements of the high yielding dairy cow (7000 + kg/lactation) is very limited. A consensus of this evidence plus the histories of well-documented individual animals indicates the high yields to have been achieved without recourse to abnormally high rates of feeding concentrates/kg milk produced. Such animals as these have above average food intakes with an extra 0.16 kg dry matter/additional kg milk produced. A high standard of management — including for instance frequent feeding per day — favours greater food intakes. Even so, their intakes do not match the need for nutrients. Hence high energy density rations (12.5 MJ metabolizable energy with 150–170 g crude protein/kg dry matter) are necessary and the large milk output is accompanied by mobilization of body reserves to bridge the gap between intake of, and need for, nutrients. This role of body reserves and the need to extend intakes as far as possible must be catered for in the nutrition and management, both current and long term of the cow, as must the risks of metabolic disorders attendant on such high outputs. 相似文献
15.
K J Mitchell 《Journal of the American Veterinary Medical Association》1991,198(8):1408-1409
An episode of dietary abomasal impaction in a herd of dairy replacement heifers was found to be caused by excess almond shells in the ration. Clinical signs and necropsy findings led to the diagnosis. Removal of the almond shells and increasing the energy and digestibility of the ration corrected the problem. Factors contributing to the dietary impactions included advanced stages of pregnancy, high energy demands of growing heifers, and cold weather. Dietary abomasal impactions are not common in dairy cattle because of the high-quality ration a dairy cow generally receives. Replacement heifers in advanced stages of pregnancy have nutritional requirements similar to those of dairy cows, yet are often nutritionally neglected. The clinical findings in this report may help make veterinarians aware of the possibility of dietary abomasal impactions in dairy replacement heifers fed low-quality feeds. 相似文献
16.
Waterman RC Grings EE Geary TW Roberts AJ Alexander LJ MacNeil MD 《Journal of animal science》2007,85(10):2582-2595
Extensive range livestock production systems in the western United States rely heavily on rangeland forages to meet the nutritional needs of grazing livestock throughout the year. Interannual variation in the quantity and quality of rangeland forage in the Northern Great Plains, as well as throughout much of the western United States, may play a pivotal role in how well grazing ruminants sequester nutrients in their tissues. This variation in forage quality may influence the ability of a beef cow to utilize dietary nutrients via changes in tissue responsiveness to insulin. Identifying specific periods and production states in which this phenomenon is manifested will provide insight into the development and implementation of strategic and targeted supplementation practices that improve nutrient utilization during times of nutritional imbalance and may improve the lifetime productivity of grazing range beef cows. A 2-yr study was conducted to monitor serum metabolites, glucose kinetics during glucose tolerance tests, and forage chemical composition every 90 d in young cows (2 to 4 yr of age; n = 28). In yr 1 and 2, cows were managed on 4 pastures varying in size from 36 to 76 ha in yr 1 and 49 to 78 ha in yr 2. Regardless of year, cow age, or cow physiological status, the main factor influencing glucose half-life was season of the year (P = 0.02). Effects of season on glucose half-life closely followed assessments describing forage quality, with glucose half-lives of 46, 39, 43, and 51 +/- 3.9 min for May, August, December, and March, respectively. Elevated glucose half-life during seasons in which forage quality is of lower nutritive value indicated that tissue responsiveness to the actions of insulin followed seasonal changes in forage quality. Glucose half-life tended (P = 0.09) to decrease between May and August, increased (P = 0.04) between December and March, and showed a tendency (P = 0.10) to decrease in seasons of greater nutrient density (May and August) compared with seasons of lower nutrient density (December and March). Seasonal changes in serum metabolites were also observed and corresponded with changes in forage quality. The results support our hypothesis that as the season progresses and forage quality declines, maternal tissues become less responsive to insulin, indicating that targeted supplementation with glucogenic precursors during these seasons of nutritional stress may improve cow performance. 相似文献
17.
Heat production results from the many metabolic processes occurring within the animal. In practice it has been customary and convenient to partition the animal's thermal losses into that associated with the maintenance of energy equilibrium and that originating from tissue deposition, i.e. the heat increment. The extent to which these components vary is dependent upon various animal, nutritional, environmental and behavioural factors and their relevance is discussed, particularly in relation to the extent to which they modify the animal's energy requirement for maintenance and the energetic efficiency of protein and fat deposition. These considerations are of importance because they are a necessary requisite for the calculation of dietary requirements for specific animal performance and in the evaluation of feeding standards and systems. 相似文献
18.
We assessed the effects of nutrient supply and dietary bulk, both increasing with hay intake, on O2 uptake and nutrient net fluxes across the portal-(PDV) and mesenteric- (MDV) drained viscera, and the rumen in adult ewes. Four ewes, fitted with a ruminal cannula, with catheters in the mesenteric artery, the portal, mesenteric and right ruminal veins, and with a blood flow probe around the right ruminal artery, were used in a 4 x 4 Latin square design. Treatments consisted of 500 g DM/d hay (LL, low bulk and low nutrient supply), 500 g DM/d hay + infused nutrients (LH, low bulk and high nutrient supply), 750 g DM/d hay + infused nutrients (MH, medium bulk and high nutrient supply), and 1,000 g DM/d hay (HH, high bulk and high nutrient supply). Infused nutrients consisted of volatile fatty acids (VFA) and casein dissolved in salts and infused continuously in the rumen to provide the same amount of metabolizable energy (7.6 MJ/d) and digestible protein (63 g/d) for LH, MH, and HH. Both increases in bulk and nutrient supply increased O2 uptake in the MDV and PDV. Dietary bulk stimulated mainly blood flow, whereas nutrient supply stimulated mainly O2 extraction rate. The O2 uptake by the rumen was not significantly affected by hay intake, although blood flow increased due to nutrient supply. Increase in hay intake had no effects on portal net release of lactate and net uptake of glucose but increased VFA, 3-D-hydroxybutyrate, ammonia, and amino acids (AA) net release and urea net uptake across PDV. The increase in portal nutrient net fluxes with hay intake was entirely related to the increase of nutrient supply for VFA, 3-D-hydroxybutyrate, ammonia, and urea, irrespective of the amount of casein infused for AA. Dietary bulk had no effect on total energy net release in the portal vein. We conclude that despite the increase in portal O2 uptake, increasing dietary bulk had no significant impact on portal recovery of energy. In ruminal tissues, which were the main site of energy absorption, O2 uptake appeared low and was not sensitive to dietary manipulation. In contrast, in mesenteric tissues, which contribute poorly to energy absorption with forage diets, O2 uptake appeared high and very sensitive to dietary manipulation. 相似文献
19.
Pramir Maharjan Garret Mullenix Katie Hilton Jordan Weil Antonio Beitia Justina Caldas Victor Daniel Naranjo Haro Craig Coon 《Journal of animal physiology and animal nutrition》2021,105(3):535-548
This study determined the Pectoralis (P) major mixed muscle protein turnover (PT) in two meat broiler lines, Line A and Line B, during the finishing grow-out feeding period (21–42 days) as affected by the dietary metabolizable energy (ME) levels and ambient temperatures. Experimental finishing diets consisted of 80, 90, 100, 110 and 120% ME of recommended nutrient guidelines for energy level. Fractional synthesis rates (FSR) or fractional degradation rates (FDR) were measured in P. major at day 36 and 42. Protein and fat mass gain were measured, and respective energy retention efficiencies as protein and fat (EREp and EREf) were determined. Metabolic heat production (HP) was also reported. Experimental feeding studies were conducted in cool season (24 hr mean: 69.91˚F and 63.98% RH) and in hot season (24 hr mean: 77.55˚F and 86.04% RH). Results showed that FSR or FDR values were not affected by dietary ME levels at day 36, whereas reduced FSR (p < .05) were observed at day 42 fed diets with reduced ME levels (≤100% ME) which could have resulted from greater maintenance energy requirement of maturing broilers at that age. Broilers fed reduced ME diets (≤100% ME) maintained protein mass (equivalent to broilers fed ≥100%–120% ME) by reduced FDR and increased feed intake. Grow-out ambient temperature did not affect FSR or FDR values across ME levels. Line B retained higher protein mass, lower fat mass and greater HP compared to Line A. This was followed by higher feed intake in Line B. Further, Line B exhibited higher EREp and lower EREf across dietary ME levels. In summary, PT homeostasis and body composition changes in broiler lines studied seemed to be regulated by the birds’ intent to normalize energy intake as per physiological need by controlling feed intake. 相似文献
20.
应用灰色关联度分析法评价放牧绵羊增重和羊毛生长的营养限制因素 总被引:1,自引:0,他引:1
本文应用灰色系统理论中的灰色关联度分析法,对影响放牧绵羊生产性能的主要营养限制因素进行了研究。关联度分析结果表明,饲粮粗蛋白质水平是影响绵羊体重变化的主要营养因素,饲粮代谢能的影响次之;影响育成母羊羊毛生长速度的主要营养因素是其干物质采食量;而成年母羊羊毛生长的营养限制因素是饲粮粗蛋白质水平。影响绵羊采食量的主要营养因素是饲粮代谢能浓度,其次是牧草质量。影响牧草消化率的主要营养因素是绵羊瘤胃发酵水平,其次是牧草中的木质素含量。 相似文献