Which concept explains the deflection of currents due to Earth's rotation?

The Coriolis Effect is the principle that explains how the rotation of the Earth influences the direction of wind and ocean currents. As the Earth rotates, objects moving in the atmosphere or on the ocean surface follow a curved path rather than a straight line. In the Northern Hemisphere, currents are deflected to the right of their direction of motion, while in the Southern Hemisphere, they are deflected to the left. This effect is a result of the Earth's spherical shape and its axial rotation.

The other concepts mentioned do not directly address the influence of Earth's rotation on current deflection. Ekman Transport describes the net movement of water at various depths due to the wind and the Coriolis Effect, but it does not solely account for the deflection of currents. Thermohaline Circulation refers to the large-scale movement of ocean water driven by differences in temperature and salinity, which is distinct from the rotation-related deflection. Subduction relates to tectonic plate movement and is not relevant to ocean currents. Thus, the Coriolis Effect is specifically the concept that explains the deflection of currents due to Earth's rotation.