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1.
A field survey involving 112 Standardbred race horses in 14 stables at a Detroit racetrack was conducted to determine feeding practices of the Standardbred trainers, to estimate crude protein (CP), digestible energy (DE), and dry matter (DM) consumption by racing Standardbreds, and to compare those intakes with 1989 recommendations of the National Research Council (NRC), “Nutrient Requirements of Horses.” Trainers were interviewed regarding: 1) the age and sex of the horses; 2) their feeding practices, and 3) the horse's training and racing schedule. Only adult horses which were actively racing and continuously stabled at the track were included.

Body weights (BW) estimated using a chest girth measurement resulted in an overall mean BW of 449 kg. Body condition scores were established for each horse with an overall mean score of 5.7 which indicated average body condition for a racing Standardbred at this track. Typical rations from each stable were weighed, and feed samples of hays and concentrates were analyzed at a commercial laboratory to determine CP, DM, acid detergent fiber (ADF), and estimated energy density. A computer program calculated CP, DE, and DM values for each horse's ration based on amounts fed. The software program included with the 1989 NRC publication was used to compare estimated nutrient intakes with current NRC recommendations for a horse of a given BW.

All trainers fed a variety of hays and commercial grain mixes, and five trainers fed oats separately. The mean total intake of feed for all horses on an “as fed” basis was 16.1 kg. The estimated mean DM intake for all horses was 14.4 kg vs. NRC recommended 10.6 kg. The mean percentage of rough-age in the ration for all stables was 64% vs. a NRC recommendation of 35%. The mean CP% on a DM basis for all stables' rations was 14.5% vs. the NRC recommendation of 11.4%. The mean daily CP and estimated DE intakes for all horses were 2113 g and 37.6 Meal, respectively, in contrast to current NRC recommendations of 1189 g CP and 29.7 Meal DE. These data indicate that estimated CP, DE, and DM consumption are above the recommendations of NRC in 1989.  相似文献   


2.
Eight weanling Standardbred horses were used to evaluate the effects on growth and plasma glucose of two differently processed diets with identical ingredients fed at a rate of 3% of body weight, as fed, daily. The daily ration was divided into two equal feedings at 7:00 am and 7:00 pm. The hay and grain diet (diet HG) consisted of 50% alfalfa hay cubes and 50% of a commercial growing horse texturized grain mix fed as is, without any further processing, with each part fed in separate containers. The completely pelleted diet (diet P) consisted of the same proportions of the hay cubes and grain mix that was ground, pelleted, and fed in a single container. Two groups of four horses were fed either diet P or diet HG for two 21-day periods such that each horse consumed each diet for 21 days. On the last day of each feeding period, 7-mL blood samples were drawn into heparinized evacuated blood tubes for determination of plasma glucose concentration. Blood samples were drawn 30 minutes before the afternoon feeding, immediately before, and every 30 minutes thereafter for 5 hours. Analysis of variance found greater (P = .027) average daily gain for horses fed diet P versus diet HG. A nonsignificant difference was seen in feed efficiency (P = .057) for horses fed diet P versus diet HG. Plasma glucose changes were compared across treatments using area under the curve analysis. No difference (P > .05) was found in the postprandial plasma glucose changes between diet treatments.  相似文献   

3.
Modern horse management systems tend to limit a horse's opportunity to forage. The objective of this experiment was to investigate the effect of hay net design on the rate of forage consumption when feeding horses. Eight adult horses were fed in individual stalls in a replicated Latin square design, with two horses per treatment per week. Horses were fed hay off the stall floor (control), or from one of three hay nets: large (15.2 cm openings), medium (4.4 cm openings), and small (3.2 cm openings). Horses had access to hay for two 4-hour periods each day. When horses could not consume all forage from the medium and small hay nets in 4 hours, a second study using a crossover design gave horses an unlimited amount of time to feed from the hay nets. Stopwatches were used to calculate time to consumption and dry matter intake rates (DMIR). Mean time to consumption was 3.1 and 3.4 hours for the control and large hay net, respectively, in study 1, and 5.1 and 6.5 hours for the medium and small hay nets, respectively, in study 2. Mean DMIR during the 4-hour feeding period were 1.5, 1.3, 1.1, and 0.9 kg/hr for the control, large, medium, and small hay nets, respectively; all treatments were different (P < .0001). These results demonstrate that hay nets were effective at decreasing the rate of forage consumption when feeding adult horses. Long-term studies are warranted to determine if horses will adapt to feeding from hay nets.  相似文献   

4.
Thermoregulation is an energy-expensive process, which can be mitigated by blanketing horses in cold climates, potentially preventing weight loss or leading to decreased feed intake. The objective of this study was to evaluate feed intake, body weight (BW), and body condition scores (BCSs) in blanketed and nonblanketed horses. In October 2019, 16 mature adult horses were blocked by breed and BCS and randomly assigned to a blanketed (n = 8) or nonblanketed (n = 8) treatment; blankets were placed. Data were collected in December 2019 and January 2020 in River Falls, Wisconsin. During the study, horses were housed in dry lots and fed grass-legume mixed round bales. At the start of each trial period, BW and BCSs of horses were taken, hay cores were taken for nutritive analysis, and hay bales were weighed. Hay waste was collected daily, and when hay could no longer be consumed ad libitum, the remaining hay was removed from both pens (orts) and new bales were fed. Hay waste and orts were dried and daily dry matter intake was estimated as the difference between hay provided minus hay waste and orts during the trial period divided by the total BW of the pen. The average bale weight, forage nutritive value, BW, and BCS did not differ across treatment groups (P ≥ .05). However, the daily dry matter intake differed (P ≤ .05) at 2.31% BW for blanketed horses and 2.51% BW for nonblanketed horses. These results suggest blanketed horses conserve energy leading to decreased feed intake.  相似文献   

5.
Nutrition is a critical component of equine health. Horse owners' knowledge of nutrition is likely to affect their feeding practices. The aim of this study was to survey feeding practices, dietary supplement use, and knowledge about equine nutrition in New England by surveying a subpopulation of horse owners (67/337 or 19.8%) who brought their horses to the Large Animal Hospital at the Cummings School of Veterinary Medicine at Tufts University between July and September 2008. All owners reported feeding hay, with the majority feeding grass or timothy hay. Most owners (96%) reported feeding a concentrate in addition to hay. Approximately 84% of owners reported including at least one dietary supplement in their horse's daily feeding. The most commonly used supplements were chondroprotectives, electrolytes, and multivitamins. Survey questions designed to assess the owner's knowledge of nutrition suggested that many owners may not have a basic understanding of principles of equine nutrition; less than 50% knew the daily water and hay requirements for a horse, and 69% lacked knowledge about the proper use of concentrates in a diet. Most of the surveyed owners consulted multiple sources of information concerning equine nutrition, including veterinarians (n = 36), trainers (n = 27), feed stores (n = 10), and the internet (n = 7). Although the major source of information was the veterinarian, it appears that the communication between horse owners and their veterinarian about optimal feeding practices could be enhanced. This survey demonstrated areas in the veterinarian–client dialog that need to be addressed when evaluating the health and well-being of the horse.  相似文献   

6.
There are numerous industry situations in which horses are N sufficient, but amino acid deficient. Although simple formulation of diets and consideration of nutrient-to-calorie ratios against requirements may appear to produce feeding programs that are suitable for horses, other factors, such as diet, rate of intake, site of nutrient absorption, horse age, and growth rate, must be considered when determining whether or not requirements are actually met. As an example, some yearlings kept in confinement consume concentrate and hay that fail to satisfy amino acid requirements. Other yearlings grazing very high quality pastures with no supplemental feed are able to meet their lysine requirement and achieve moderate growth. Field studies have documented that trends to manage weanlings and yearlings in a similar nutritional fashion are contributing to problems associated with rapid growth. Weanlings cannot process roughage at levels used effectively in yearlings, yet farms typically provide concentrate-to-hay ratios for weanlings inconsistent with NRC requirements and recommendations. Research on protein intake, site of absorption, concentrate type and intake, and grazing behavior must all be combined to be precise regarding adequate supply of protein quality to horses.  相似文献   

7.
A field survey involving 109 horses in 9 stables at a Detroit racetrack was conducted to determine feeding practices and to estimate crude protein (CP), digestible energy (DE), and dry matter (DM) consumption by racing Thoroughbreds, and to compare those intakes with 1989 recommendations of the National Research Council (NRC), "Nutrient Requirements of Horses." Trainers were interviewed regarding: 1) the age and sex of the homes; 2) their feeding practices; and 3) the horse's training and racing schedule. Only adult homes who were actively racing and continuously stabled at the track were included. Body weights (BW) were estimated using a chest girth measurement. The horses had an overall mean body condition score of 5 which indicated average body condition for a racing. Thoroughbred at this track. Feed samples of hay and concentrate from each stable were weighed and analyzed at a commercial laboratory to determine CP, DM, acid detergent fiber (ADF), and estimated energy density. A computer program calculated CP, DE, and DM values for each horse's ration based onamounts fed. The software program included with the 1989 NRC publication was used to compare estimated nutrient intakes with current NRC recommendations for a horse of a given BW. Trainers fed a variety of hays. Eight trainers fed oats and only one fed corn. All trainers fed commercial sweet feeds. The mean total amount of feed for all homes on an "as fed" basis was 13.7 kg. The mean estimated DM intake for all horses was 12.3 kg vs. NRC recommended 11.6 kg. The mean for percentage of roughage in the ration for all stables was 53% vs. a NRC recommendation of 35%. The mean CP% ona DM basis for all stables' rations was 13.8% vs. a NRC recommendation of 11.4%. The means for actual CP and DE intakes for all horses were 1678 g and 33.3 Meal compared with current NRC recommendations of 1324 g CP and 33.1 Meal DE. Protein amounts were above those recommended due to the common practice of feeding relatively higher CP% in the rations than necessary for racehorse performance. These data appear to be more consistent with the recommendations of NRC in 1989 than previous recommendations in 1978.  相似文献   

8.
Hay waste during feeding represents a costly expense for horse owners. The objectives of this study were to determine hay waste, herd body weight (BW) change, hay intake, and economics of small square-bale feeders used in outdoor feeding of horses. Feeder designs included a hayrack, slat feeder, basket feeder, and a no-feeder control. Feeders were placed in separate outdoor dirt paddocks. Twelve horses were divided into four groups and rotated through the paddocks in a Latin square design. Horses were weighed before and after each rotation. Horses were fed grass hay at 2.5% of the herd BW split evenly at 8 AM and 4 PM. Waste hay and orts were collected before each feeding. The number of months to repay the feeder cost (payback) was calculated using hay valued at $250 per ton and improved efficiency over the no-feeder control. Mean hay waste was 13%, 5%, 3%, and 1% for the no-feeder control, hayrack, basket feeder, and slat feeder, respectively (P < .001). The hayrack, basket feeder, and slat feeder paid for themselves in 12, 11, and 9 months, respectively (P = .0049). Herds gained 10 and 7 kg when feeding from the basket feeder and hayrack, and lost 3 and 11 kg when feeding from the slat feeder and no-feeder control (P ≤ .0015). Estimated hay intake was 2.4% BW for the basket feeder and hayrack and 2.2% BW for the slat feeder and no-feeder control (P < .0001). Small square-bale feeder design affected hay waste, hay intake, herd BW change, and payback.  相似文献   

9.
Three feeding methods were compared in 36 4- to 6-year-old Franche-Montagne horses during the military school of St-Luzisteig (GR) of Spring 1992. The horses were separated into 3 groups: a group with the traditional oats-hay ration (OH), a group with a pelleted feed and hay ration (PFH), and a group with the complete diet (CD). Feed analyses were performed and food consumption, eating behavior and digestibility were studied. The horses received their daily amount of feed in 3 portions covering the requirements for a medium work: OH = 8 kg hay and 3 kg oats, PFH = 8 kg hay and 3 kg pelleted feed and CD = 10 kg of the complete diet. For the 3 rations, the amount of digestible crude protein for horses was higher than the reference value for the requirement of a 600 kg horse with a medium work. In the 3 diets, the calcium content was higher than the required 32 g per day (g/d). Not enough sodium (OH: 1.2 g/d; PFH: 7.3 g/d; CD: 9.6 g/d) and too much potassium (OH: 140.3 g/d; PFH 153.0 g/d; CD: 167.5 g/d) were present in the diets, both without consequences for the blood parameters. In 3 meals of 60 minutes, the horses of the group OH, PFH and CD ingested 82%, 89% and 92%, respectively, of the daily ration. The complete diet was ingested more quickly than the hay. The number of mastications per minute was smaller for the complete diet than for the hay. Ingestion times were similar for oats and pelleted feed. However, the number of mastications per minute was smaller for the pelleted feed. The digestibility of nutrients was not influenced by the method of feeding. In conclusion, these results demonstrate that the 3 types of ration studied here are adequate for the swiss army horses if sodium is added to the diet. However, despite the fact that both PFH and CD correct excessive supply or deficiencies of nutrients and despite the fact that these two feeding methods offer nutrients in amounts that are closer to the requirements of the horse, the method PFH was introduced in 1994.  相似文献   

10.
The present study evaluated the effects of two different methods of feed processing on growth and gastric ulceration in 16 weanling Standardbred horses. The two diets were composed of identical ingredients that were processed differently and fed at a rate of 3% body weight per day. The hay and grain diet (diet HG) consisted of 50% alfalfa hay cubes and 50% commercial texturized grain mix fed as is, without any further processing, with the cubes and grain fed in separate containers. The complete pelleted diet (diet CP) consisted of the same proportion of hay cubes and grain mix, which was ground, pelleted, and fed in a single container. The horses were divided into two groups and the study was divided into three periods of 30 days each. During period 1, all 16 horses consumed only free choice alfalfa hay (diet H). Group 1 was given diet CP during period 2 and diet HG during period 3. Group 2 was given diet HG during period 2 and diet CP during period 3. The horses were endoscopically examined for the baseline number and severity of stomach ulcers at the end of period 1, then again at the end of each treatment diet feeding period. Horses on diet CP in periods 2 and 3 had greater ulcer numbers (P = .0135) than diet HG. However, there was no significant difference (P = .30) in ulcer numbers when making a direct comparison between diets CP and HG. Despite the gastric ulceration found in horses on diet CP, the average daily gain was significantly greater (P = .016) for diet CP than for diet HG. Both diets containing grain were observed to cause gastric ulceration.  相似文献   

11.
Summary In nine adult Warmblood horses with mild to moderate dental findings (no signs of discomfort during chewing), voluntary hay intake before and after dental correction was examined. In a second experiment, digestibility of feed and faecal particle size were determined (3 days of total faecal collection) before and after dental correction. During both digestion trials including a 3‐day adaptation period, the amount of hay and concentrate (mixture of oats, barley and maize) was kept constant in each individual horse before and after dental correction. Voluntary hay intake in individual horses ranged from 11 to 22 g DM/kg BW/day and did not differ before and after dental treatment. Apparent digestibility of DM, energy, crude fibre and Nfe increased significantly after dental correction (energy digestibility before dental correction 46.8 ± 7.4%, after dental correction 51.5 ± 8.5%). Apparent digestibility of feed was higher in horses eating more concentrates than in those eating less concentrates. Improvement of digestibility was more marked in horses eating larger amounts of grain. There was no relationship between severity or type of dental alterations and improvement of apparent feed digestibility. Dental correction had no effect on faecal particle size.  相似文献   

12.
Twenty-four long yearlings were fed rations containing differing amounts of calcium, phosphorus, and magnesium to further elucidate the requirements for these minerals during exercise-induced skeletal modeling and remodeling in juvenile racehorses. The animals were assigned randomly within gender subgroups to 1 of 4 diets. Total collections of feces and urine were performed on days 0, 64, and 128 of the trial for determination of mineral absorption and retention. Horses were maintained in a typical race-training protocol to mimic the nutritional stresses placed on long yearlings during strenuous exercise. Calcium absorption and retention were lower (P < .05) at day 64 than at day 0 and day 128. Also, the efficiency of retaining absorbed calcium was lower at day 64 than at day 0 or day 128. Thus, lower calcium retention at day 64 was due to both reduced absorption and reduced systemic demand. At day 64, calcium absorption and retention were not maximized at calcium intake of 160 mg/kg per day. At day 128, calcium absorption was maximal at a daily intake of 124 mg/kg per day, and retention was maximal at a daily intake of 123 mg/kg per day. These are in excess of current National Research Council (NRC)[1] recommendations by 38% and 36%, respectively. There was no consistent, significant effect of days on trial on phosphorus absorption or retention, which may have been due to inadvertent limited phosphorus intake. The efficiency of phosphorus retention systemically was over 94% to 98%. Phosphorus absorption and retention were not maximized at the highest intake (66 mg/kg/d), which is 32% over current NRC [1] recommendations. Similarly, there was no day effect on the efficiency of magnesium absorption or retention. Urinary excretion of magnesium was highest; thus, systemic efficiency of magnesium retention was lower on days 64 and 128 than on day 0. At day 64, magnesium retention was maximized at a daily intake of 35.6 mg/kg per day, which is 66% over NRC [1] recommendations. However, at day 128, magnesium retention was not maximized even at its highest intake (44 mg/kg/d), which is over 2 times the current NRC [1] recommendations. These data indicate that early race training affects the dietary requirements for calcium, phosphorus, and magnesium.

Introduction

The need for a marketable product at an early age in both competition and in sales places significant pressure on horse owners to start training or conditioning early in a horse's life. Training at an early age may exacerbate physiologic stress on young horses and increase nutritional requirements. The process of bone modeling/remodeling is necessary for the juvenile skeleton to adapt to the stresses of training. The horse must form new bone and remodel existing bone to bear the load being applied. During the demineralization process of bone remodeling, there is an increase in mineral excretion from the degradation of the bone matrix. Nielsen et al[2] reported this demineralization of the third metacarpal in conjunction with the introduction of speed in juvenile horses on a race-training regimen. The lack of time routinely given to the stressed bone of a juvenile horse to model and/or remodel according to the stresses placed upon it can cause serious and career-ending injuries. [3] While injury reduction may be achieved from a delay in the onset of training until the horse is mature, this is not feasible economically. Alterations in existing training methods and increasing physiologic stimulus to the skeleton are approaches being researched to minimize skeletal injuries to young horses.Mineral density increase and size of the third metacarpal would result in larger cortical bone mass, decreased strain on the bone, and decreased susceptibility for injury. Previous work in this area demonstrated that increased calcium and phosphorus intake above NRC[1] recommendations for juvenile horses in training enhanced bone density, but no quantitative estimates of requirements were made. [4] The NRC [1] developed an approximation of the requirements for juvenile horses in training using mineral intakes based on extrapolations from research conducted with sedentary and mature horses. This study was conducted to verify previous findings and to further quantify the dietary requirement for calcium, phosphorus, and magnesium during the bone modeling/remodeling process in juvenile athletic horses. The specific objectives of this study were to determine calcium, phosphorus, and magnesium balances in young horses during race training.

Materials and methods

Management of animals

Twenty-four long-yearling Quarter Horses were grouped according to age and sex, then randomly assigned to the diet treatments as shown in Table 1. Two horses from each group were randomly assigned to 1 of 4 diets with the condition that each treatment group would contain the same number of fillies and geldings. While at the Texas A&M University Horse Center, the horses were vaccinated against eastern and western equine encephalomyelitis, influenza, and tetanus and dewormed. All horses began the trial with a background period of at least 1 week, during which the horses were group-housed at the Texas A&M University Horse Center, fed hay ad lib, and offered concentrate at approximately 1% of body weight twice daily. Regular hoof care and deworming were provided throughout the course of the study. The horses were then moved from the Texas A&M University Horse Center in groups of 8 to Steephollow Farm in Bryan, Texas, a race-training facility, where they were separated and housed individually in 7 × 7-m stalls. The horses were moved to Steephollow Farm in 3 groups of 8 at an average age of 226 days for the group. Rations were formulated based on 60% concentrate and 40% Bermuda grass hay, with varying concentrations of calcium, phosphorus, and magnesium. The concentrate diets were provided by Consolidated Nutrition of Omaha, Nebraska (Table 1). All concentrates were mixed, pelleted, and bagged by Consolidated Nutrition and shipped to the Texas A&M University Horse Center. The horses were fed concentrate and hay at 12-hour intervals (7:00 and 7:00 ) for the duration of the trial. They were given until the next feeding to consume all concentrate and hay, and any feed refused was weighed and recorded. Refusals were very infrequent. Feed intake was adjusted weekly as needed to allow for normal growth and to maintain a body condition score of 5 to 6,[5] while maintaining a constant ratio of 60% concentrate and 40% hay. The protocol for management and treatment of the animals was approved by the Texas A&M University Agricultural Animal Care and Use Committee. Five horses were not able to complete the study because of lameness, injury, or sickness, and data from those horses were not included in the results of the study.  相似文献   

13.
Soybean hulls have been used as a feed ingredient for horses for many years and are generally used as a fiber source. The NRC (11) gives them an energy value of 1.88 Mcal DE/kg DM, which is comparable with a medium quality grass hay. Recent evidence suggests that soybean hulls may have a higher energy value. Two feeding trials were conducted to evaluate the energy value of soybean hulls by using them to replace oats in a concentrate for weanling horses. In Exp. 1, 16 Thoroughbred and Quarter Horse weanlings, 145.2 4.1 d of age, were paired within breed and gender subgroups and assigned at random to either the oats or soybean hull-based concentrate. Soybean hulls replaced oats at 25% of the concentrate. Concentrates were fed individually to appetite for two, 1.5-h feeding periods daily with the concentrate restricted to the lesser amount consumed by the pair based on percentage of BW. Coastal bermudagrass (Cynodon dactylon) hay (12.8% CP) was group fed at 1.0 kg/100 kg BW daily. The BW and measurements of the weanlings were made at 14-d intervals for 112 d, and the weanlings were radiographed for bone mineral deposition determinations at the start and conclusion of the study. Experiment 2 used 13 weanlings starting at 143.8 ± 4.2 d of age and was identical to Exp. 1 except the source of the Coastal bermudagrass hay was different and the concentrate intake was fed ad libitum during the two, 1.5-h feeding periods. In Exp. 1, no differences in feed or nutrient intake, BW, or body measurement gains were detected (P > 0.05) except for body length gain, which was greater for the weanlings on the oat-based concentrate (P < 0.05). The weanlings gained 0.73 and 0.70 kg/d on the oat and soybean hull-based concentrates, respectively. In Exp. 2, the protein content of the hay (7.0% CP) was less than the previous year, resulting in a protein intake below NRC (11) recommendations. No differences in BW, withers height, or body length gain were detected (P < 0.05), but heart girth (P < 0.05) and hip height gain (P < 0.05) were both greater for the weanlings fed the oat-based concentrate. The weanlings gained 0.74 and 0.61 kg/d on the oat and soybean hull-based concentrates, respectively. Bone mineral deposition was not different between diet groups for either experiment. Results suggest that soybean hulls have an energy value for weanling horses that is similar to oats when fed with medium quality grass hay. When fed with low quality grass hay, soybean hulls do not seem to be as valuable as oats, perhaps because of either the slow energy release or the availability of protein in the foregut.  相似文献   

14.
Seventeen Thoroughbred and Quarter Horse yearlings were used in a 2×2 factorial experiment to determine 1) whether adding fat (5% corn oil) to the concentrate would influence feed intake, growth and development and 2) whether time of hay feeding would influence energy metabolism on the basal and added fat diets. Yearlings were assigned at random, within breed and gender subgroups, to one of four diets: B-I, basal concentrate with Coastal Bermuda grass (Cynodon dactylon) hay fed immediately after the concentrate; B-D, basal with hay fed 3.5 hr after the concentrate; F-I, basal + fat with the hay fed immediately; and F-D, basal + fat with the hay fed 3.5 hr after the concentrate. The basal concentrate was formulated to meet or exceed NRC (1989) recommendations when fed with the hay. The basal + fat concentrate was formulated at 9.7% higher digestible energy than the basal concentrate and all of the other nutrients were increased proportionately so if the intake was reduced, the yearlings would still meet nutrient needs. The concentrates were fed individually to appetite for two 1.5-hr feeding periods daily in 1.5×3.0 m slip stalls. Hay was group fed in the paddocks at a rate of 1.0 kg/100 kg BW daily divided into two equal feedings. Animals were housed in four 9.1×34.9-m drylot paddocks with three, four, or five animals in each paddock. The mean age at the start of the experiment was 377±8 days. Weight and body measurements for withers height, heart girth, body length, and hip height were taken at the start of the experiment and at 28-day intervals for 84 days. Radiographs for bone mineral estimates were made at the start and completion of the experiment. During the final 28-day period of the feeding trial, three animals from each experimental group were randomly selected for a 24-h period of blood sampling to evaluate the effects of the diets on blood glucose and insulin.Fat addition to the concentrate reduced the daily concentrate DM (P=0.0187) and total feed DM (P=0.0021) intake. When feed intake was expressed as a function of BW, concentrate and total feed intakes were 1.33 and 2.14 kg/100 kg BW daily and were not influenced by diet (P>0.1). Colts consumed more concentrate DM (P=0.0039) and total feed DM (P=0.0022) than fillies. The yearlings gained an average of 0.60 kg/d for the 84 days. Weight gain, body measurements and bone mineral deposition were not influenced by gender or diet. Mean plasma glucose concentrations were higher (P=0.05) in yearlings consuming the basal concentrate with hay fed immediately than when hay feeding was delayed. When fat was fed, the time of hay feeding had no effect on plasma glucose concentrations (P>0.05). Plasma glucose and insulin were lowest just prior to the morning feeding and peaked two to three hours after both morning and afternoon feedings. Fat supplementation reduced plasma insulin (P=0.001). Results suggest that the addition of 5% corn oil to a yearling concentrate may reduce feed intake but will not reduce growth and development of the animal if other nutrients are supplied at concentrations that provide for the animal's daily needs. Delaying hay feeding may be advantageous to growing horses as it may allow the concentrate to move down the tract at a slower rate reducing the glucose peaks.  相似文献   

15.
In this study, influences of a reduced macromineral intake on the trace element metabolism in horses at maintenance were investigated. Background of this study is the revised recommendation on the macromineral supply for horses (GfE 2014 ). Balance studies on three adult pony geldings with body weights of 405 / 348 / 384 kg were performed to obtain data on apparent digestibility (aD), retention and serum concentrations of different trace elements (Cu, Zn, Se) at different dietary macromineral levels. A mineral supplement or a complementary feed—with a reduced macromineral content—was added to a hay‐based diet (daily 5.5 kg hay per animal, split in three servings a day), beside distilled water was offered. The diets were offered one after the other in a way that all ponies had the same sequence of treatments. The native macromineral contents of the daily offered amount of hay already surpassed the new recommendations whereas dietary trace elements needed to be supplemented. There were no statistically significant differences (p ≤ .05) concerning the aD of copper, zinc and selenium comparing the diets with and without macromineral supplementation. Serum levels of these three trace elements were not affected by the different macromineral content of the diet. Results of this study, based on a 22‐day feeding period for each treatment, indicate that a macromineral supplementation of a hay‐based diet for adult horses at maintenance was not necessary. However, no negative effects of added macrominerals on the trace element metabolism occurred in this study.  相似文献   

16.
Eight mature horses were used in a 4 × 4 Latin square design to determine the effect of restricted pasture access on dry matter intake rate (DMIR), energy intake, and fecal pH. Horses were randomly assigned to one of four groups (HGRPs), each containing two horses. HGRPs were randomly assigned to one of four treatments consisting of 3, 6, 9, or 24 hours of pasture access, for a period of 7 days. Treatments were switched every 7 days. The 3- and 6-hour groups were fed free choice mature grass hay while not grazing. Daily pasture dry matter intake (DMI) for each HGRP was estimated by calculating the difference between initial herbage mass of the grazing cell before grazing and residual herbage mass after 7 days of grazing. Total dry matter intake was the sum of pasture and hay DMI for the 3- and 6-hour treatments. Fecal pH was measured on day 7 of each period. Response variables were analyzed using analysis of variance for Latin square design. Restricting pasture access decreased mean pasture DMI (P = .02), pasture dietary energy (DE) (P = .02), and fecal pH (P < .001), but increased DMIR (P = .02). Mean total dry matter intake was not different (P = .16) among treatments. In conclusion, restricting pasture access accelerates pasture DMIR and decreases fecal pH, and although restricting pasture access decreases DE intake from pasture, it did not result in a decrease in total DE intake for horses having ad libitum access to hay.  相似文献   

17.
The effects of diet and climate were assessed in 42 light horse weanlings over 30 wk. Horses were fed diets varying in energy and phosphorus content. Diets were predominantly forage (73 to 77.5%) or concentrate (62 to 62.25%) and had 2.65 or 3.09 Mcal DE/kg DM, respectively. Horses were weighed every 14 d. Group feed intakes and climatic variables were recorded daily. Dietary phosphorus content did not affect intake or gain. Horses fed forage diets ate 18% more (P less than .001) DM than horses fed concentrate, but DE intakes did not differ. Average DE intakes, 21.5 Mcal daily, were 33% more than those given in 1978 National Research Council (NRC) tables. Overall ADG by forage- and concentrate-fed horses were .83 and .89 kg, respectively. These values were 23 and 32% above mean ADG values given for horses at 6 and 12 mo in 1978 NRC tables. Average daily gain declined (P less than .01) with age, although daily DE intake increased (P less than .01). Total DM and DE intakes were determined largely by body weight, but age was the main determinant of weight-scaled DE intake. Weight- and age-scaled DE intakes were reduced (P less than .001) by 6.1% at temperatures below -10 degrees C compared with temperatures above -10 degrees C. Temperatures below -20 degrees C had no greater effect on DE intake than those between -10 to -20 degrees C. Neither precipitation nor wind alone affected weight- and age-adjusted DE intake. In conclusion, weanling horses fed readily digested diets ad libitum gained weight at or above expected values even at severely cold ambient temperatures.  相似文献   

18.
Many horse owners find round bales convenient, less labor intensive, and more affordable than other hay types, but report an inability to control horse BW gain and excessive hay waste. The objectives were to compare hay waste, hay intake, and payback of 9 round-bale feeders and a no-feeder control when used during horse feeding. Nine round-bale feeders were tested: Cinch Net, Cone, Covered Cradle, Hayhut, Hay Sleigh, Ring, Tombstone, Tombstone Saver, and Waste Less. Each feeder design was placed on the ground in a dirt paddock. Five groups of 5 horses were fed in rotation for a 4-d period with each feeder. Every fourth day, groups were rotated among paddocks and a new round bale was placed in each feeder. In the 5 paddocks used, 5 feeders were installed for d 1 through 20, and the remaining 4 feeders and no-feeder control were installed for d 21 through 40. Groups of horses were sequentially assigned to feeders using two 5 × 5 Latin squares, the first for d 1 through 20, the second for d 21 through 40. Horse groups of similar age, BW, breed, and sex were formed from 25 Quarter Horse and Thoroughbred geldings and open mares (means: 11 yr; 541 kg of BW). Hay on the ground surrounding the feeder was collected daily, dried, and weighed. The total amount of hay removed around each feeder for a 4-d period was considered waste. Dry matter intake was estimated as the difference between hay disappearance and waste. Number of months for the reduction in waste to repay feeder cost (payback) were calculated using hay valued at $110/t, and improved feeder efficiency over the control. Feeder design did not affect hay intake (P > 0.05); all feeders resulted in an estimated hay intake of 2.0 to 2.4% BW; the no-feeder control resulted in a reduced intake of 1.3% BW (P = 0.001). Mean percentage of hay waste differed among feeders (P < 0.001): Waste Less, 5%; Cinch Net, 6%; Hayhut, 9%; Covered Cradle, 11%; Tombstone Saver, 13%; Tombstone, Cone, and Ring, 19%; Hay Sleigh, 33%; and no-feeder control, 57%. Feeder design also affected payback (P < 0.01). The Cinch Net paid for itself in less than 1 mo; Tombstone and Ring, 2 mo; Hayhut and Tombstone Saver, 4 mo; Hay Sleigh, 5 mo; Waste Less, 8 mo; Cone, 9 mo; and Covered Cradle, 20 mo. Round-bale feeder design affected hay waste and payback, but not estimated hay intake or BW change during horse feeding.  相似文献   

19.
The copper and zinc contents of 25 rations for adult horses were evaluated. The total amount of copper and zinc daily ingested was obtained by adding the amount of each element contained and added of the commercial feed to the amount contained in ingested hay and oats. The total amount of copper and zinc ingested daily was compared with the official recommendations for the maintenance of an adult horse of 550 kg. The results show that a traditional ration oats/hay does not contain a sufficient amount of copper and zinc in order to cover their respective requirements. Furthermore, many rations which include commercial feed also do not cover the requirements of these two elements. The importance of these observations is discussed in the light of the eventual need to complete the rations.  相似文献   

20.
This study was conducted to determine whether feeding different physical forms of hay alters nutrient digestibility and nitrogen retention (NR). Six Quarter Horse geldings were assigned to any one of three different dietary treatments in three 14-day periods. The diets included long-stem Bermuda grass hay (G), long-stem alfalfa hay (A), and alfalfa cubes (C). In the final 4 days of each period, horses were fitted with harnesses for total collection of urine and feces. Samples of feed, orts, feces, and urine were analyzed for dry matter, organic matter, acid detergent fiber, neutral detergent fiber, and nitrogen (N). Digestibility of dry matter, organic matter, and N was greatest for A, intermediate for C, and smallest for G (P < .05). Digestibility of acid detergent fiber was greater (P < .05) for A than G or C, and neutral detergent fiber digestibility was greater (P < .05) for A or G than C. Nitrogen intake (NI) was greatest for A, intermediate for C, and smallest for G (P < .05). Fecal N excretion was not different between diets, but urine N excretion was greater (P < .05) for A and C as compared with G. When expressed as a percentage of NI, NR did not differ among diets. We concluded that NR in mature horses increases with NI, but N utilization is not significantly influenced by the physical form or crude protein content of the hay fed. Potential differences in fiber digestibility and daily fecal output are factors to consider when incorporating processed forages into feeding programs of horses.  相似文献   

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