Wobble Board Science

Most of us will not pursue a neuroscience doctorate in between trail rides and hay tossings. But we can skim equine neurology’s surface to improve our horse-human connection.

We’ve talked about dopamine, the feel-good brain chemical. But there are scores of other chemicals in the brain. If those neurochemicals were kitchen ingredients, you could make cake, noodles, or hot tamales depending on the combinations. Recognize what’s going on in the brain and you can cook up something sweet or sour, healthy or unhealthy.

It’s challenging stuff. But take heart: equine brains are less developed than ours, so discussing their neurology is a bit less complicated.

When considering horse behavior and learning, it’s helpful to know about a few specific neurochemicals: dop, gaba, gludopamine, adrenalin, glutamate, and GABA (gamma-aminobutyric acid). [At right, molecular structures of dopamine, GABA, and glutamate.]

  • Dopamine, as mentioned, is a feel-good chemical associated with pleasure and reward. When you see lip-licking and chewing, you’re seeing common manifestations of dopamine release.
  • Adrenalin (epinephrine) is produced in the kidneys but impacts brain activity associated with the amygdalae and the Fight or Flight responses.
  • Glutamate is an excitatory neurochemical. It gets brain cells fired up and facilitates learning and the formation of memories. But too much stimulation can be bad. Too much glutamate is, in fact, toxic to the brain.
  • When glutamate breaks down metabolically it produces GABA (gamma-aminobutyric acid), an inhibitory transmitter. GABA reduces the activity of neurons to which it binds. For us humans, meditation and yoga increase the level of GABA in the brain. Drugs like Valium and Xanax facilitate GABA activity, thereby reducing fear and anxiety.

With just these four common neurochemicals in play, let’s consider some potential learning moments for horse and rider:

aamyLoading onto a trailer. Crossing a creek:

Depending on the horse’s behavior as well as your actions and reactions, any number of scenarios could unfold. There may be fear, fight, seeking, reward, flight, or bits of several of these elements.

The scenes are not two-dimensional. Your horse is not wired like a light switch; nor are all horses wired identically. They have different metabolic thresholds, learning frameworks, and memories.

NAPicture instead your horse on a wobble board:

  • He’s alert and engaged in this potential learning environment.
  • Depending on the variables and how you work, he may tip towards pleasure and reward, fall towards fear and panic, or wobble to any number of outcomes between the two extremes.

horse-crossingIn these and most learning scenarios, horses rely heavily on their brain’s limbic system. That’s the center for emotions and memory related to survival and preservation. Within this region, the amygdala is instrumental in a horse’s fear reaction, which may often present itself in learning situations. The two almond-shaped amygdalae facilitate release of adrenalin and a sympathetic (fight or flight) response may occur. Read more about autonomic responses here.

But there is another crucial limbic system part called the nucleus accumbens. (Again, the limbic system involves feeling and reacting but not so much thinking.)

This group of neurons is associated with seeking and reward; the area is awash in dopamine.

For the horse, dopamine is the treat. Successful trailer loads and creek crossings mean letting the horse seek a solution and be rewarded. At first, it could be a few steps in the right direction, rewarded with a pause and a rub of affection. For the more hesitant horse, it could be a tiny lean in the right direction. Soon, the horse will discover your intentions and look to do the right thing to get that reward.

Temple Grandin calls these seeking moments full of “Christmas present” emotion. “The anticipation of what you’re going to get is sometimes better than actually getting it.” Interestingly, researchers have pinpointed the nucleus accumbens as essential in the placebo effect. The greater the anticipation of pain relief, the greater the nucleus accumbens’ dopamine release, even when no actual chemical reduced the pain.

As you work with your horses, know that the key to positive outcomes is allowing your horse to seek a solution and be motivated by the reward (dopamine). Try to make every learning experience a positive one, since undoing bad experiences can be so challenging.

Sure, you can force him into the trailer and across the creek, but you’ve just tipped off the wobble board into fear territory. What has he learned? How will he consider things next time?

You’ve got your ingredients. Make something delicious and healthy.

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