Browsing by Author "Splan, Rebecca K."

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    Alkanes as Internal and External Markers in Horses and the Digestibility of a High Fat Cereal By-Product
    Byrd, Bridgett McIntosh (Virginia Tech, 2003-11-13)
    Determining intake of feeds in horses is an important factor in incorporating supplements in their diets. Fecal recoveries (R), fecal output (FO), dry matter digestibility (DMD) and dry matter intake (DMI) were estimated using alkanes as markers in 8 thoroughbred geldings. The experiment compared two diets in a 2 X 2 latin square experiment. The diets were mixed grass hay only (H) and the same hay plus a cereal by-product (H + CBP). The cereal by-product (CBP) was the high fat component added to feeds at Virginia Tech's Middleburg Agricultural Research and Extension Center. The apparent digestibility of ether extract (EE) and other nutrients in the H and H + CBP, as well as the partial digestibility of CBP were also determined. The periods were 21 d each with a dietary accommodation period followed by eight days of dosing the even chain alkanes dotriacontaine (C32) and hexatriacontane (C36) as external markers. Total collection (TC) was performed the last 4 d of dosing. The results show that mean recoveries of alkanes were close to 100%, but the range for individual alkanes was wide, and the pattern of recoveries for alkanes of different chain length was inconsistent from feed to feed. The results also indicate that mean estimates of the DMI, DMD and FO of a feed, such as H or H + CBP, are determined with reasonable accuracy by means of alkane markers. In contrast, alkane estimates of DMI and DMD in an individual horse fail to predict corresponding TC estimates. The alkane estimate of FO in an individual horse predicts a TC value with error of 16.4%. The CBP was found to be an excellent source of EE, CP and fiber but a poor source of Ca.
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    Analysis of Inbreeding in a Closed Population of Crossbred Sheep
    MacKinnon, Kathryn Michelle (Virginia Tech, 2003-08-20)
    Genetic diversity and the effect of lamb and dam inbreeding on multiple traits were analyzed in an 11-yr closed population of sheep established in 1983 and remained closed after 1987, with 50% Dorset, 25% Rambouillet, and 25% Finnsheep breeding to determine selection response for spring fertility. The population had been randomly divided in 1987 into a fall-lambing selection line (S) of 125 ewes and 10 rams, fall-lambing environmental control line (E) of 55 ewes and 5 rams, and a spring-lambing genetic control line (G) of 45 ewes and 5 rams. Inbreeding effects were estimated from 2678 lambs and 556 dams present after the creation of the respective lines. The traits assessed were ewe spring-fertility, lambing date, lamb birth, 60 d, and 120 d weight, and lamb survival to 1, 3, and 14 d. Genetic diversity was assessed by estimating change in inbreeding per generation (ΔF) and effective number of breeding animals (Ne), and parameters derived from gene drop simulations and an iterative procedure developed by Boichard et al. (1997); effective number of founders (fe), effective number of ancestors (fa), founder genome equivalents (fg), and two additional measures of genetic diversity (GD₁, GD2). In order to estimate the diversity available in S and G, three sets of animals from the end of the study and one set of animals at line formation were considered in each line: all lambs born (including dead lambs), all matings (including potential offspring, even if a lamb was not born), and all rams and ewes available at the end of the study and at line formation. At the time of line formation, most of the loss in diversity was due to unequal founder representation. The smaller population of G, as compared to S, caused a greater decrease in diversity due to bottlenecks at line formation. Very little diversity was lost due to additional drift by the time of line formation because selection had not occurred and a random mixing of founders was the goal. Allelic diversity decreased moderately; of the 322 founder alleles, there were 71% in S and 58% in G of rams and ewes (RE) that appeared in at least 50 runs of gene drop. By the end of the study in 1998, the amount of allelic diversity had decreased substantially. Of the alleles possible in RE at the end of the study in S and G, only 6 and 8 %, respectively, appeared in greater than 50 simulations of gene drop. The measures of fe, fa, and fg revealed there was not much additional loss in diversity from the line founders to the end of the study due to unequal founder representation, but there was a larger amount of loss due to bottlenecks and additional drift. The diversity loss was similar, which was the goal of the selection study, when values for RE were compared in S and G. The effects of lamb and dam inbreeding were estimated from REML analysis. Effects of lamb or dam inbreeding were negative but not significant for lambing date or survival to 1, 3, or 14 d. Spring fertility was estimated to decrease by 0.70 ± 0.30 %/% inbreeding of the ewe (P < 0.01), which seems even greater since the average spring fertility was only 47.5 %. Effects of lamb inbreeding on birth, 60-d, and 120-d weights were -0.012 ± 0.006 (P < 0.05), -0.045 ± 0.020 (P < 0.05), and -0.130 ± 0.034 kg/% (P < 0.01), respectively. Dam inbreeding had smaller effects on birth, 60-d, and 120-d weights of -0.008 ± 0.010 (ns), -.033 ± 0.034 (ns), and -0.087 ± 0.056 (P < 0.1) kg/%, respectively.
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    Changes in Conformation and Walk Kinematics of Suckling and Weanling Warmblood Foals
    Denham, Sarah Faith (Virginia Tech, 2007-09-06)
    The objectives of these two studies were to characterize normal growth and resultant changes in conformation and walk kinematics of warmblood foals. The first study quantified linear and angular conformation changes of 13 warmblood foals during the first 9 mo of growth. An objective photographic method of evaluating conformation was used to obtain all data. All linear measurements increased significantly over the investigated ages and growth rates were highest in the first 2 mo of growth. Total percentage of growth during the study was greatest for neck and back length. Distal limb growth was minimal over the investigated ages. Metacarpal growth slowed earlier than many other traits. Length of the metatarsus increased minimally during the studied ages with significant growth occurring only between 23 wk and post-weaning measurements. Increasing wither heights were positively associated with increases in scapula, humerus, radius, ilium, femur, tibia and metatarsal and metacarpal lengths. Angular conformation also changed significantly during growth. Trends in angular changes were generally less clear than those for linear variables. Scapula, femur and hock angles significantly increased and humerus angle decreased with age. Utilizing a plumb line from the hock upward, the distance of the hindlimb behind the body was quantified. The distance out behind decreased significantly between 1 and 15 wk. Distance out behind was positively correlated with tibia angle at all ages. The second study quantified linear and temporal kinematics of the walk in growing foals. Nine warmblood foals from the first study were filmed as they walked over a uniform concrete surface covered in 13mm thick rubber matting. Speed was controlled through the use of a uniform handler with a metronome. Trait means at ages 3, 11, 21 wk and post-weaning were compared. Length variables were standardized to percent of total stride length. Temporal variables were standardized to percent of stride duration. Stride length and duration increased significantly with age. Step lengths, stance duration and protraction and retraction durations did not change across ages. Over-stride decreased significantly with age, potentially due to increased back length in older foals. Linear distance between diagonal hooves during stance increased with age, and was negatively correlated to the decrease in over-stride. While older foals appeared to display a more regular, 4-beat walk rhythm, timing between lateral and diagonal footfalls remained significantly different at all ages. Both conformation and kinematics changed during growth. Characterizing conformational changes due to growth can allow a better understanding of how foal conformation and gait change during growth and may predict these traits in adults, thus allowing selection of top performance prospects at a younger age.
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    Circadian and Seasonal Variation in Pasture Nonstructural Carbohydrates and the Physiological Response of Grazing Horses
    McIntosh, Bridgett J. (Virginia Tech, 2006-12-14)
    Nonstructural carbohydrates (NSC), which includes sugars, starches and fructans in pasture forages, undergo circadian and seasonal variation which has direct effects on metabolism in grazing horses. Increased intake of NSC is implicated in the development of digestive and metabolic disorders, such as laminitis. A series of five studies at Virginia Tech's M.A.R.E. Center in April, May, August, and October 2005, and January 2006, examined circadian and seasonal variability in forage NSC content and metabolic and digestive variables in horses over a 36 h sampling period. Fourteen mares were randomly assigned to grazing (housed on a 5-ha predominantly tall fescue pasture; n = 10) or control (stabled within the pasture and fed timothy/alfalfa hay; n = 4) groups. Blood samples were collected hourly from the horses which corresponded to hourly pasture forage samples. In all five studies, plasma glucose and insulin were measured and proxies for insulin resistance were calculated. In the April study, plasma L-lactate and fecal pH, L-lactate, D-lactate and volatile fatty acids (VFAs) were also measured. Two approaches were used for the determination of carbohydrate profiles in pasture forage samples. For the first (LAB1), sugar was water soluble carbohydrates extracted prior to analysis for starch, and included fructans. The NSC was the sum of starch and sugar. For the second (LAB2), samples were analyzed for specific NSC fractions using hydrolytic enzymes, with the addition of HCL for the determination of fructans including graminans, the type of fructans in cool season grasses. Both the LAB1 and LAB2 analyses revealed circadian and seasonal patterns in forage NSC and its constituents. In general, pasture forage NSC content was lowest in the morning and highest in the late afternoon. April had the highest NSC content which was comprised mostly of simple sugars. Forage NSC content (LAB1) was associated with environmental variables in all months with strongest correlations in April; ambient temperature (r = 0.72, P < 0.001), solar radiation (r = 0.62, P < 0.001), and humidity (r = -0.84, P < 0.001). In the animals, plasma insulin was highest in grazing horses in April (P < 0.001) followed by May (P < 0.001). Plasma insulin was higher in grazing compared to control horses at all sample points in April, and a circadian pattern was evident (P = 0.012). In grazing horses, plasma glucose was higher in April than all months except for May, and plasma glucose was higher in grazing horses compared to controls in April. In grazing horses, plasma insulin was significantly correlated with NSC and sugar in April (r = 0.69 and r = 0.67, respectively); May (r = 0.46 and r = 0.47, respectively); and January (r = 0.44 and r = 0.46, respectively). In April only, individual mean insulin response was proportional to the increase in insulin per increase in unit of NSC (r2 = 0.033, P < 0.001). Sinusoidal circadian patterns in NSC (r2 = 0.51, P < 0.001) and insulin in grazing horses (r2 = 0.12, P < 0.001) had similar frequency (P = 0.36). Plasma L-lactate was higher in grazing horses (0.64 mmol/L) than control horses (0.40 mmol/L) (P < 0.001). Fecal pH was lower in grazing horses (pH 6.9) than control horses (pH 7.2) (P = 0.008). Fecal VFAs, including acetic acid, butyric acid, and D- and L-lactate were higher in grazing horses compared to control horses (P < 0.05). These studies identified a link between forage NSC content and alterations in carbohydrate metabolism and digestion that may increase risk of laminitis via exacerbation of insulin resistance. Strategies for management practices to decrease intakes of pasture NSC by horses at risk of developing metabolic disorders are needed.
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    The Critical Need for Experiential Learning Programs in Animal Agriculture
    Tussing, Jessica Lynn (Virginia Tech, 2014-06-17)
    Though experiential learning is a popular topic in higher education, a great deal of research in the field neglects to make ties between program outcomes and educational theory, creating a gap in knowledge regarding how participant students truly experience educational programs. Consequently, this study proposes an updated perspective of experiential education that considers the experiential and social aspects of these learning environments. While it is important to determine programmatic impacts, it is equally important to assess how learning has occurred, so programs can be modified accordingly. The Equine Studies Program at the Middleburg Agricultural Research and Extension Center began in 2010, with seven cohorts having completed the program since its inception. At this time, however, no study has been conducted to gain a thorough understanding of the program's purpose, nor assess if programmatic impacts align with its objectives. This study utilized qualitative interview methods to determine the program's objectives and impacts on participants. The findings provide insight on how experiential learning programs can be enhanced to better prepare students for the challenges of modern industry. Recommendations are made for continued research in this area to determine how the implementation of experiential learning programs may impact overall undergraduate curricula. Additional research should also be conducted to compare the impacts of varying types of experiential programs.
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    Dietary Supplementation of Omega-3 Fatty Acids Influences the Equine Maternal Uterine Environment and Embryonic Development
    Jacobs, Robert David (Virginia Tech, 2015-08-03)
    Adverse maternal events around the time of conception influence embryonic development. Thus, aberrations in the uterine environment during early pregnancy, such as those resulting from maternal metabolic or nutritional disruption, can alter gene expression in the developing embryo, leading to variations in its developmental trajectory. Dietary supplementation of long-chain omega-3 polyunsaturated fatty acids (LCPUFA), especially Docosahexaenoic acid (DHA) improves metabolic and reproductive health across species. The objective of this study was to evaluate the effects of peri-conceptual LCPUFA supplementation on endometrial gene expression, uterine health and embryonic gene expression in overweight horses. Thirteen non-lactating light horse mares (mean ± SEM age=13.56±0.11 yr; mean ± SEM BCS=7.07±0.21) were supplemented with concentrate (n=6) or an isocaloric diet containing 0.06 g/kg BW algae-derived omega-3 LCPUFA (n=7) beginning 60 d prior to sample collection. Four consecutive ovulatory cycles were monitored, and uterine endometrial samples were obtained 12 d post-ovulation in cycles 1, 3 and 4. Mares were bred and embryos were flushed 12 d post ovulation 2,3 and 4. Endometrial biopsies obtained from supplemented mares contained increased DHA and omega-3 fatty acids as a percent of total fat (P< 0.05). Endometrial biopsy scores were assigned to endometrial tissues and mares receiving the LCPUFA supplementation had improved scores during the first ovulatory period as compared to control animals (P=0.009). Candidate genes essential to inflammation, prostaglandin synthesis and embryonic development were evaluated by quantitative reverse transcriptase polymerase chain reaction. Data were log transformed and analyzed using the GLM procedure in SAS (v9.3). When examining the data independent of breeding and pregnancy status, endometrial obtained samples from LCPUFA supplemented mares contained reduced IL6 (P= 0.04) and TNFa (P=0.03) mRNA abundance and tended to have increased transcript abundance for Uterocalin (P= 0.09), SAA (P= 0.06) and IL10 (P= 0.06). Endometrial samples from mares fed LCPUFA pregnant in cycle 3 contained greater IL10 (P< 0.001), PTGFS (P=0.05), OXTR (P=0.05) and PLA2G3 mRNA (P= 0.009) and had a tendency for increased SAA (P= 0.08), PTGES (P=0.10) and SLCO2A1 (P=0.10) mRNA abundance. Supplemented mares bred but not pregnant at day 12 in cycle 3 had reduced expression of PTGER2 (P=0.001) and PTGS1 (P= <0.001) in endometrial samples. In embryos obtained post ovulatory cycle 3 and 4, relative transcript abundance of GATA4 and GATA6, markers of endoderm differentiation, along with GATA3 and ELF3, markers of trophectoderm differentiation were greater (P< 0.05) in embryos from LCPUFA supplemented mares (n=5), than controls (n=5). These results indicate that algae-derived LCPUFA supplementation during the peri-conceptual period alters the post-ovulatory uterine environment in the horse by modifying expression of genes related to inflammation and regulating prostaglandin synthesis. Additionally, embryos obtained from supplemented mares displayed differential gene expression related to embryonic lineage specification.
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    Do You have Horse Sense!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2011)
    Describes basic body language of horses.
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    Do You Have Horse Sense!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2016-02-03)
    Since horses don't speak in words, we need to watch their body in order to understand what they are trying to tell us. This publication is a Virginia 4-H project unit used to teach elementary school-aged children about which parts of the body horses use to communicate and what emotions various equine postures indicate.
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    Eat Like a Horse!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2016-02-03)
    Knowing what a horse eats is the first step to managing their nutrition and helping them stay healthy. This publication is a Virginia 4-H project unit used to teach elementary school-aged children about horse's diets and common feeds.
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    Eat Like a Horse!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2011)
    Horses, just like people, need to eat a variety of things to meet their nutritional requirements. If their diet is out of balance, then problems occur.
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    Effects of Diet and Probiotic Supplementation on Stress during Weaning in Thoroughbred Foals
    Swanson, Carrie A. (Virginia Tech, 2002-08-23)
    This study investigated effects of diet and probiotic supplement on stress in Thoroughbred foals at weaning. Twenty foals, whose dams were paired by age and breeding date, then randomly assigned to one of two diets prior to parturition, were used. Two groups were maintained on mixed grass pastures and fed supplements, one high in sugar and starch (SS) and one high in fat and fiber (FF) that met or exceeded NRC requirements. Half the foals on each diet were fed a commercial probiotic (Probios) containing lactic acid bacteria, while the rest were given a placebo. Plasma, fecal samples and behavioral ethograms were collected for four days pre- and post-weaning, and an ACTH response test was administered 48 h post-weaning. Cortisol, lactate, IgG, IgA and a-tocopherol were analyzed in plasma, volatile fatty acids and pH in feces. Foals fed FF had higher concentrations of IgA (P = 0.006), IgG (P = 0.012) and a-tocopherol (P = 0.005). Butyric and valeric acid concentrations were higher in feces of SS but not FF foals (P = 0.052), which may reflect better adaptation to forage in FF foals. Foals supplemented with probiotic had higher fecal lactate (P = 0.002) and lower fecal acetate (P = 0.0003) concentrations, suggesting that the lactic acid bacteria survived to the hindgut. Probiotic supplementation did not appear to benefit foals at weaning. Supplementation with FF may improve immune status and encourage a more diverse intestinal microbial population, enabling foals to better cope with the physiological stresses of weaning.
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    Environmental factors, pasture composition, growth rate and puberty in growing Thoroughbreds
    Cubitt, Tania Anne (Virginia Tech, 2004-01-05)
    A rapid growth phase often occurs with the onset of spring in the young horse. This coincides with changes in day length, temperature, and progesterone concentrations. The change in growth, from slow to rapid in young horses has been associated with various forms of developmental orthopedic disease. The objective of this study was to distinguish associations between progesterone concentrations and other physiological and environmental measures from birth through 16 mo in young Thoroughbreds. Growth data and plasma samples were collected monthly from 3 annual crops of 20 foals. Plasma progesterone (P4) and insulin like growth factor one (IGF-I) concentrations were measured with previously validated radio immunoassay's (RIA). Progesterone concentrations were compared with day length, IGF-I and ADG using Spearman correlations. Concentrations of progesterone at birth (2.3 ± 0.4 ng/mL) decreased within the first week of life to basal values (0.11 ± 0.01 ng/mL) in colts and fillies. Progesterone in the geldings remained at baseline concentrations at all sample times. An abrupt increase in progesterone concentration was detected in fillies at a mean age of 385 ± 6.4 d, weight 381 ± 7.2 kg, and ADG 0.63 ± 0.04 kg/d. Elevations in progesterone concentrations coincided with a measured day length of 13 ± 0.1 hrs, and temperature of 15 ± 1.7 °C. Positive associations were established between progesterone concentration day length (r = 0.59; P<0.0001), IGF-I (r = 0.25; P<0.01) and ADG (r = 0.34; P<0.0001). Day length IGF-I and ADG began to increase for both geldings and fillies at approximately 340 d of age, while progesterone started to increase at 385 ± 6.4 d for the fillies only. From this it could be hypothesized that an increase in ADG combined with optimal environmental conditions, may be associated with the subsequent elevation in progesterone concentrations in fillies. The relationship between IGF-I, and various reproductive hormones has been studied in the adult horse, yet the associations between environmental factors, ADG, and progesterone concentrations demonstrated in growing yearlings further emphasizes the extensive changes occurring during this crucial developmental stage.
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    Exercise and Immunodeficiency Affect Immunoglobulins in Endurance Horses
    Krick, Kari Elizabeth (Virginia Tech, 2002-07-16)
    Two studies were conducted on endurance horses predominantly of Arabian breeding participating in an 80 km ride dedicated to research in April 2001 (Trial 1) and April 2002 (Trial 2). Objectives were to determine effects of endurance exercise, antioxidant supplementation, and a feed rich in fiber and fat vs. a high fat sweet feed on immunoglobulin A and G concentrations as well as identify selective IgA deficiency in endurance horses of Arabian breeding. There were no effects of distance in Trial 1 on IgA (P = 0.73) or IgG (P = 0.18) concentrations. In Trial 2, IgA concentrations increased (P = 0.05) and IgG concentrations increased (P = 0.006) after the start of the race. There were no effects of antioxidant supplementation on IgA (P = 0.16), IgG (P = 0.16), and IgM (P = 0.70) concentrations. There were no diet effects on IgA (P = 0.80), IgG (P = 0.59), and IgM (P = 0.54) concentrations. There were horses in both trials that were deficient in IgA only. Concentrations of IgG and IgM were within normal ranges, and there were no differences in training, performance and transportation variables, IgG concentrations, antioxidant supplementation, and feed supplementation compared to the horses with normal IgA concentrations. The concentration of IgM was higher in IgA deficient horses in Trial 1 (P = 0.035) and Trial 2 (P = 0.017). Horses with deficient IgA tended to be associated with health problems commonly found in humans and dogs affected with selective IgA deficiency.
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    Folate Status and Supplementation in the Horse
    Ordakowski, Amy L. (Virginia Tech, 2001-07-10)
    A series of studies were conducted to evaluate effects of lactation, exercise, and anti-folate drugs on folate status in the horse, and the bioavailability of supplement and feed folate in the horse. In the first study, mares and foals had adequate plasma folate, RBC folate, and plasma homocysteine concentrations during 6 mo of lactation and growth. Therefore, mares and foals maintained on quality grass/legume pastures and offered a pasture supplement did not require additional folate supplementation to maintain folate status during lactation and growth. In the second study, 25 mg of oral folic acid (FA) supplemented 5 times/wk to 11 mature horses engaged in routine submaximal exercise did not improve folate status, submaximal athletic performance, or combat the increase in oxidative stress during the 12 wk supplementation period compared to 11 horses not given supplemental folate. The common practice of supplementing horses with oral FA in vitamin supplements appears to be of little benefit to horses engaged in routine submaximal exercise. In the third study, daily oral administration of pyrimethamine (PYR) and sulfadiazine (SDZ) for 9 wk followed by 6 wk of coadministration of either Peptidoglycan or FA was associated with a decline in folate status resulting in moderate hyperhomocysteinemia, but not clinical signs of anemia. Peptidoglycan as a source of formylated folate and FA were not effective in improving folate status in horses coadministered PYR and SDZ, two anti-folate drugs commonly administered in equine veterinary practice. The last study assessed the bioavailability of oral and i.v. 5-methyltetrahydrofolate (5-mTHF), 5-formyltetrahydrofolate (5-fTHF), or FA, and the bioavailability of folate from concentrates fed to horses. The minimum efficiency of absorption for supplemental FA was 11 %. The low bioavailability of FA indicates a need for further research on the potential benefits of alternative sources of folate, including 5-fTHF, on increasing folate status in the horse.
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    Genetic Parameters of Foal Inspection Scores in the International Sporthorse Registry and Oldenburg Registry North America
    Bhatnagar, Adrienne Sharda (Virginia Tech, 2010-08-18)
    Foal scores from the International Sporthorse Registry and Oldenburg Registry North America were used for statistical and genetic analysis. Scored traits include type and conformation (TC), athletic ability of movement (AM), overall development as related to age (OD), and total score (TS) calculated as a weighted average of TC, AM, and OD. Premium status (PS) was analyzed as a binary trait. Preliminary statistical analysis determined significant fixed effects of sex, year of birth, dam breed, and inspection period. Offspring of stallions with only one offspring in the dataset and non-warmblood sires were deleted. Non-warmblood or non-Thoroughbred dams were also removed. Variance components were estimated using ASReml methodology to obtain genetic parameters. Traits were moderately to highly heritable with heritabilities of 0.45, 0.47, 0.49, and 0.55 for TC, AM, OD, and TS, respectively. PS had a heritability of 0.32 on a binary scale and 0.51 when transformed to the normal scale. Genetic correlations between TC, AM, OD, and TS were all high and favorable, ranging from 0.80 to 0.99. Genetic correlations with PS were inestimable. Foal inspection scores are heritable and should respond to selection. Selection for improvement in one trait should result in improvement in all traits. If genetic parameters can be correlated to data obtained in older horses, incorporating foal scores in selection decisions could improve warmblood breeding programs. Utilizing foal inspection scores should be beneficial to breeding objectives of the International Sporthorse Registry and Oldenburg Registry North America.
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    Glucose regulation in Thoroughbred weanlings: Regulation by insulin, growth hormone and insulin-like growth factor-I
    Treiber, Kimberly Hoffer (Virginia Tech, 2003-12-10)
    Diets rich in hydrolyzable carbohydrates induce a hyperglycemic/insulinemic response and may increase the incidence of metabolic disorders associated with some types of laminitis, exertional rhabdomyolysis and osteochondrosis in horses. This study applied the minimal model of glucose and insulin dynamics to determine the effect of diet on metabolites and hormones that regulate glucose metabolism in young horses. Twelve Thoroughbred foals were raised on pasture and supplemented twice daily with a feed high in either sugar and starch (SS) or fat and fiber (FF). As weanlings (age 199 ± 19 d, weight 274 ± 18 kg), the subjects underwent a modified frequent sampling intravenous glucose tolerance test during which they remained in stalls and had access to grass hay and water ad libitum. Samples were colleted at -60, -45, 1, 2, 3, 4, 5, 6, 7, 8, 10, 12, 14, 16, 19, 22, 23, 24, 25, 27, 30, 35, 40, 50, 60 , 70 , 80, 90, 100, 120, 150, 180, 210, 240, 270, 300, 330 and 360 min with a glucose bolus of 300 mg/kg BW at 0 min and an insulin bolus of 1.5 mU/kg BW at 20 min. Plasma was analyzed for glucose, insulin, growth hormone (GH) and insulin-like growth factor-I (IGF-I) concentrations. Insulin sensitivity, glucose effectiveness, acute insulin response to glucose and disposition index were derived using Minmod Millennium and WinSAAM software. Diet groups were compared using the non-parametric Kruskal-Wallis test or the sign test. Time interactions were compared using a mixed model with repeated effects. Rank-ordered linear regression was used for correlations. Basal glucose did not differ between groups (P = 0.75). There was nearly a trend towards higher basal (P = 0.11), and median insulin was higher in the sugar and starch foals at all 36 sample points (P = 0.030). The basal glucose:basal insulin ratio for the sugar and starch supplemented foals was lower than for fat and fiber foals (P = 0.025). Insulin sensitivity (SI) was lower in foals fed sugar and starch than foals fed fat and fiber (P = 0.007). Acute insulin response to glucose was directly correlated to weight (r = 0.78; P = 0.003) and inversely correlated with SI (r = -0.55; P = 0.067). The glucose:insulin ratio was directly correlated to SI (r = 0.92; P < 0.001). Growth hormone concentrations were increased from basal from 19 to 180 min after the glucose dose (P < 0.05). Basal IGF-I was higher (P = 0.006) in the SS group compared to the FF group. Concentrations of total IGF-I increased with time (P = 0.002) in the SS group. The change in IGF-I concentration from baseline to the end of the study was positively correlated (r = 0.72; P = 0.008) to the area under the insulin curve from 0 to 80 min. Basal IGF-I was inversely correlated to SI (r = 0.71; P = 0.015). These results show that the metabolic response to a diet high in hydrolyzable carbohydrates differs from the response to a fat and fiber meal resembling forage. Weanlings adapted to meals high in glucose equivalents have higher insulin and IGF-I secretion as compared to foals adapted to a fat and fiber feed, possibly contributing to lower insulin sensitivity observed in these foals. Such deviations may contribute to metabolic dysfunction and osteochondrosis in horses fed grain diets.
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    A Horse of a Different Color!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2011)
    Explains different colors and markings of horses.
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    A Horse of a Different Color!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2016-02-11)
    This publication is a Virginia 4-H project unit used to teach elementary school-aged children about the various coat colors and leg and face markings of a horse.
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    Horses Wear Clothes, Too!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2016-02-04)
    Having the proper equipment for the task not only works better, but it's safer. This publication is a Virginia 4-H project unit used to teach elementary school-aged children about the equipment used for different types of work with horses and explains how different tack allows horses to different jobs.
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    Horses Wear Clothes, Too!
    Porr, C. A. Shea; Crisman, Celeste C.; Splan, Rebecca K. (Virginia Cooperative Extension, 2011)
    Different horses perform different tasks. In order to do their jobs well, they need to have the right tack or equipment.