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Strong bottom currents in large, deep Lake Geneva generated by higher vertical-mode Poincaré waves.

Rafael Sebastian ReissUlrich LemminClaire MoninDavid Andrew Barry
Published in: Communications earth & environment (2024)
Although internal seiches are ubiquitous in large, deep lakes, little is known about the effect of higher vertical-mode seiches on deepwater dynamics. Here, by combining entire summer season current and temperature observations and 3D numerical modeling, we demonstrate that previously undetected vertical mode-two and mode-three Poincaré waves in 309-meter deep Lake Geneva (Switzerland/France) generate bottom-boundary layer currents up to 4 cm s -1 . Poincaré wave amphidromic patterns revealed three strong cells excited simultaneously. Weak hypolimnetic stratification ( N 2 ≈ 10 -6 s -2 ), typical of deep lakes, significantly modified the wave structure by shifting the lower vertical node in the lake's center from ~75-meter depth (without stratification) to ~150-meter depth (with stratification). This shift induces shear in the middle of the hypolimnion and strengthens bottom currents, with important implications for hypolimnetic mixing and sediment-water exchange. Our findings demonstrate that classical concepts based on constant temperature layers cannot correctly characterize higher vertical-mode Poincaré seiches in deep lakes.
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