Monday, March 09, 2015

Endorphin Dolphin

Swimming lifts my mood and improves my posture.

Unlike exercising in the often dry air of the gym, or contending with seasonal allergies or frigid winter air, swimming provides the chance to work out in moist air, which can help reduce exercise-induced asthma symptoms.

Not only can pool workouts help you avoid asthma attacks if you're prone to them, some studies have shown that swimming can actually improve the condition overall. According to a study published in the scholarly journal, Respirology, when a group of kids completed a six-week swimming program, they saw improvements in symptom severity, snoring, mouth-breathing, and hospitalizations and emergency room visits [source: Science Daily]. What's more, the health benefits were still apparent a year after the swimming program had ended [source: Physorg].

Even those without asthma could benefit from swimming, say the study's authors, as the exercise can increase lung volume and teach proper breathing techniques.

[...]

William Wilson wrote in the 1883 book, "The Swimming Instructor": "The experienced swimmer, when in the water, may be classed among the happiest of mortals in the happiest of moods, and in the most complete enjoyment of the happiest of exercises."

Wilson probably didn't know this in the 19th century, but all that happiness was likely due to the release of feel-good chemicals known as endorphins -- one of swimming's most pleasant side effects. In addition to a natural high, swimming can also evoke the relaxation response the same way yoga works on the body. This is due in large part to the constant stretching and relaxing of your muscles combined with deep rhythmic breathing. Swimming is also a meditative exercise, with the sound of your own breathing and the splash of the water acting as a mantra of sorts that can help you "drown out" all other distractions.

Aside from the metaphysical benefits of swimming, research has shown that it can actually change the brain for the better through a process known as hippocampal neurogenesis, in which the brain replaces cells lost through stress [source: Borchard].

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