The effects of a plant-based and a plant- and marine-based n-3 oil supplement on behavioral reactivity, heart rate variability, and plasma fatty acid profile in young healthy horses
Samantha Hartwig, Alexandra Rankovic, Persephone McCrae, Kiara Gagliardi, Scarlett Burron, Jennifer Ellis, David W L Ma, Anna K Shoveller

TL;DR
This study tested if plant-based and marine-based oils could reduce stress and negative behaviors in young horses, but found no significant effects.
Contribution
The study is the first to investigate the effects of ALA, EPA, and DHA on heart rate variability and behavior in horses.
Findings
Plasma DHA increased and n-6:n-3 ratio decreased in the algae oil group.
Neither camelina nor algae oil reduced behavioral reactivity compared to the control.
Heart rate variability and most behaviors were unaffected by the oil supplements.
Abstract
Behavioral reactivity in horses poses a welfare and safety risk to both the horse and the handler, however, beneficial effects have been observed when dietary fat is increased in replacement of sugar. Supplementation with the fatty acids (FA) eicosapentaenoic (EPA) and docosahexaenoic acid (DHA) appear to improve negative behaviors in rodents and humans, but the effect of α-linolenic acid (ALA), EPA, and DHA, specifically, on reactivity in horses is unknown. The objective of this study was to evaluate the effects of camelina oil (CAM; ALA-enriched) and a mix of camelina and algal oil (ALG; ALA-, EPA-, and DHA-enriched) both fed at a dose of 0.37 g oil/kg body weight on plasma FA, behavior, and heart rate variability (HRV) in young horses compared to a negative control (CON). Thirty-four client-owned horses aged 7 mo to 6 yr were enrolled. Horses were assigned to either CAM, ALG, or CON…
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Taxonomy
TopicsVeterinary Equine Medical Research · Pharmacological Effects and Assays · Muscle metabolism and nutrition
