Modern science explains something the old school masters already knew
For years, they sat on one end of our indoor arena—five ground poles anchored by concrete blocks. With unwavering consistency, we worked our horses over them once a week, either ground driving or riding. But it was not until the winter when my mom and I watched Dr. Reiner Klimke videos over and over that I realized why our ground poles remained set up all the time.
Their purpose was not to alleviate the monotony of training sessions as I assumed but to physically improve the horse. As I sat in Mom’s office and watched the videos of Klimke’s students beginning each ride walking and trotting over poles, I realized there is really something to this. On the screen, sleek Warmbloods became looser and freer in their bodies right before my eyes. Of course, it would be a couple of decades before I learned why they did; at that moment the mystery intrigued me enough to commit to keep using our own poles, no matter if I could describe why or not.
If world-class equestrians found it useful to ride over ground poles, then I thought we should, too. Various pole patterns have since formed a central part of my clinics and lessons. Most riders can feel the positive changes right away in their horses: their gaits become springier, jaws soften, cadence improves. Finally, about ten years ago, equine fitness studies caught up to some of the practices of old classical dressage masters. Now we had our why for riding poles.
Thanks to researchers and vets like Jean-Marie Denoix, Gillian Higgins, Hilary Clayton, and Andris Kaneps we have learned how successfully ground poles serve the horse’s neuromuscular coordination. They activate and release tension from his bottom line muscle chain, which in turn softens his jaw and poll, resulting in reflexive signals for relaxation throughout the body. Also, because of their fixed position on the ground, poles interrupt the horse’s habituated stride patterns. In this way, they stimulate activation between his brain and nervous system. This leads to gaits that are not only more rhythmic but also stay free from restricted ranges of motion.