The longer the gas length, the lower the system pressure ultimately returning into the BCG. The higher the system pressure, the cyclic impulse increases, which places increased wear and tear on your BCG, particularly strain on the bolt lugs.
However! This is dependent on gas port position and gas port size relative to barrel length (dwell time). The longer your dwell time, the smaller you can make the gas port, which would decrease system pressure.
The shorter your dwell time, the larger your port has to be in order to function properly. Both works long and short dwell time works provided the gas port is sized properly, but one has longer duration (talkin about milliseconds) of lower pressure onto the overall system versus shorter duration and higher pressure.
There is a minimum amount of gas flow necessary for either to work well, it just depends on how fast you deliver it.
The smaller the gas port, the less the combusted gas pressure is used to make the system cycle and the more gets put into pushing the bullet. Ultimately how much FPS loss occurs depends on gas port size and efficiency of your bolt carrier. The gas efficiency of your bolt carrier depends on how tight the tolerance stack is between your bolt and bolt carrier. A efficient bolt carrier with an oversized gas port would put just as much strain on bolt lugs as a properly sized gas port with short dwell time efficient BCG.
Reliability and durability (generally) favors longer dwell time and lower system pressures. However, tolerance stacking between parts ultimately plays an aspect in reliability and durability. The workable solution is an adjustable gas blocks in which you can compensate for tolerance stacking. The standard solution to this however is buffer weight. Adjust the overall mass of a system. More mass = more pressure necessary to move the mass.
Realistically your bolt (if made properly and assuming gas system is running optimally) should last the life of the barrel and should be replaced with the barrel (along with gas tube, gas block, gas key, firing pin, heck just replacing the entire BCG would be cheaper than buying the individual parts).
Edited to add - the higher the pressure relative to gas port position and chamber position, the faster gas port erosion occurs (dependent on barrel material quality). Ex. Two barrels with a 0.060" gas port size, the one closer to the chamber (carbine length vs rifle length) will have faster gas port erosion. Gas port erosion = gas port growing in size = more gas flow is occuring.
