I am wondering if there is a sense in which one of these definitions
for a geodesic on a smooth Riemannian manifold is primary to the other?

 1. A geodesic has acceleration zero, i.e., it is self-parallel. 

 2. A geodesic is locally length-minimizing, i.e., it is stationary
    relative to variations in arc length.

I encountered another characterization, in an Einstein, Infeld, Hoffmann
paper ("Gravitational Equations and the Problem of Motion"), which seems
far from primary, and made me wonder if there is any natural
priority between the two definitions above.
Of course, each can be mathematically derived from the other, but I am thinking that,
e.g., one might more easily generalize than the other,
or somehow be more pure to the spirit of Riemannian geometry.

Image below included just for aesthetic appreciation.:-)
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<img src="https://i.sstatic.net/xX49N.png" width="300" />
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<sup>
[Wikipedia image](https://en.wikipedia.org/wiki/Geodesic):
"A geodesic on a triaxial ellipsoid."
Credit: Charles Karney.
</sup>
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  [1]: https://i.sstatic.net/xX49N.png