Posture and Pull Pressure by Horses When Eating Hay or Haylage from a Hay Net Hung at Various Positions.

These studies assessed the pressure forces exerted by horses to extract forage from haynets. Study 1 measured horse posture and pressure in Newtons (10 N = 1 kg Force) exerted on haynets when feeding from either a single (SH) or double layered (DH) haynet (3 kg Hay), hung low or high. Mean and maximum pull forces were higher for the DH vs. SH (DH: 81 ± 2 N, max 156 N; SH: 74 ± 2.9 N, max 121 N; p < 0.01). Horses pulled harder on low (max pull 144 ± 8 N) compared to high (109 ± 8 N; p < 0.05) hung haynets. Mean maximum angles (nose-poll-withers) recorded were 90° ± 9 for SH and 127° ± 10 for DH (p < 0.01). Study 2 was a latin square design measuring forces exerted by 10 horses when eating from haynets (6 kg fill) with hay or haylage and attached to the wall at single or double points. Pull pressures were significantly higher when eating haylage compared to hay (mean: 7.5 kg vs. 2 kg and max: 32 kg versus 12 kg, respectively, (p < 0.001). Forage type and fracture properties had the greatest effect on apprehension rates of hay from haynets. In this study, the majority of force exerted when eating from haynets was below 70 N for hay and for haylage 50% of pulls were higher than 50 N with 8% of pulls above 200 N.

A retinoscopic survey of 333 horses and ponies in the UK.

INTRODUCTION: Ophthalmic examination in the horse is generally limited to crude assessment of vision and screening for ocular lesions. The refractive state of equine eyes and the potential impact on vision and performance requires further investigation. OBJECTIVE: To assess the refractive state of a large, mixed-breed sample of horses and ponies in the United Kingdom (UK). PROCEDURE: The refractive state of both eyes of 333 horses and ponies was determined by streak retinoscopy, and the effect of age, height, gender, breed and management regime on the refractive state assessed. RESULTS: Emmetropia was found in 557 of 666 (83.63%) of eyes; 228/333 (68.5%) of the horses/ponies were emmetropic in both eyes. Refractive errors of greater than 1.50 D (in either direction) were found in 2.7% of the eyes tested. Ametropic eyes included hyperopia (54%) and myopia (46%). Anisometropia was found in 30.3% of horses and ponies. Breed of horse/pony was the only factor that affected refractive state (in the left eye only, P < 0.05) with Thoroughbred crosses having a tendency toward myopia and Warmbloods/Shires toward hyperopia. DISCUSSION AND CONCLUSION: The retinoscopic survey found emmetropia to be the predominant refractive state of the equine eye with no evidence of an overall trend toward myopia or hyperopia. However, individual and breed-related differences were found. Such factors should be considered in the selection of horses for sport and leisure, and when evaluating their performance potential. More comprehensive visual testing would be valuable in identifying underlying causes of behavioral problems.

A comparison of sympathetic and conventional training methods on responses to initial horse training.

In 'sympathetic horsemanship' the importance of the natural behaviour of the horse and the use of body language in communication is emphasised. However, it is unclear what effect sympathetic horsemanship has on the welfare of horses. During a 5-week starting period the effect of a sympathetic (ST) versus a conventional (CT) training method was studied using 28 young Warmblood horses. Behavioural observations during the starting period as well as during a standardised final riding test were performed by trained observers. A Wilcoxon matched-pair test was used to detect differences within groups, Mann-Whitney-U to test differences between groups, and principal component analysis (PCA) to evaluate the effect on multiple variables simultaneously. A human-approach test showed that ST horses snorted significantly less compared to CT horses (P=0.006) after the training period. Furthermore, CT horses showed more fear and stress-related behaviours during training such as 'body tension' (P<0.001), 'high head carriage' (P<0.001), 'lip movements' (P=0.008) and 'teeth grinding' (P=0.03). Principal component analysis demonstrated that horses showed consistent differences in a range of behavioural and heart-rate parameters between groups. Behavioural parameters and technical performance during the standardised final riding test did not differ significantly between groups, but mean heart rate was higher for CT horses (P<0.001). The results suggest that applying a sympathetic training method when starting young horses did not compromise technical performance, but seemed to reduce stress during training compared to a conventional training method.