Study of tributary inflows in Lake Iseo with a rotating physical model

Submitted: 4 April 2013
Accepted: 23 September 2013
Published: 19 March 2014
Abstract Views: 3215
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The influence of Coriolis force on the currents of large lakes is well acknowledged; very few contributions, however, investigate this aspect in medium-size lakes where its relevance could be questionable. In order to study the area of influence of the two major tributary rivers in Lake Iseo, a rotating vertically distorted physical model of the northern part of this lake was prepared and used, respecting both Froude and Rossby similarity. The model has a horizontal length scale factor of 8000 and a vertical scale factor of 500 and was used both in homogeneous and in thermally stratified conditions. We explored the pattern of water circulation in front of the entrance mouth for different hydrologic scenarios at the beginning of spring and in summer. We neglected the influence of winds. The primary purposes of the model were twofold: i) to increase our level of knowledge of the hydrodynamics of Lake Iseo by verifying the occurrence of dynamical effects related to the Earth’s rotation on the plume of the two tributaries that enter the northern part of the lake and ii) to identify the areas of the lake that can be directly influenced by the tributaries’ waters, in order to provide guidance on water quality monitoring in zones of relevant environmental and touristic value. The results of the physical model confirm the relevant role played by the Coriolis force in the northern part of the lake. Under ordinary flow conditions, the model shows a systematic deflection of the inflowing waters towards the western shore of the lake. The inflow triggers a clockwise gyre within the Lovere bay, to the West of the inflow, and a slow counter-clockwise gyre, to the East of the inflow, that returns water towards the river mouth along the eastern shore. For discharges with higher return period, when only the contribution by Oglio River is relevant, the effect of the Earth’s rotation weakens in the entrance zone and the plume has a more rectilinear pattern, whilst in the far field the current driven by the inflows keeps moving along the western shore. On the basis of these results one could expect that the north-western part of the lake between Castro and Lovere, although not aligned with the tributaries’ axes, is more sensitive to accumulation effects related to river-borne pollution. The results obtained with the physical model are critically compared with data obtained from different sources: the trajectory of a lagrangian drogue; a map of reflectivity data from the lake floor; a map of water turbidity at the intrusion depth. The findings are also confirmed by the results of a 3D numerical model of the lake.

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Marco Pilotti, Università di Brescia
Dipartimento di Ingegneria Civile, Architettura,
Territorio, Ambiente e Matematica- DICATAM
Giulia Valerio, Università di Brescia
Dipartimento di Ingegneria Civile, Architettura,
Territorio, Ambiente e Matematica- DICATAM
Luca Gregorini, Università di Brescia
Dipartimento di Ingegneria Civile, Architettura,
Territorio, Ambiente e Matematica- DICATAM
Luca Milanesi, Università di Brescia
Dipartimento di Ingegneria Civile, Architettura,
Territorio, Ambiente e Matematica- DICATAM
Charlie A.R. Hogg, University of Cambridge
Institute of Theoretical Geophysics, Department of Applied Mathematics and Theoretical Physics

How to Cite

Pilotti, Marco, Giulia Valerio, Luca Gregorini, Luca Milanesi, and Charlie A.R. Hogg. 2014. “Study of Tributary Inflows in Lake Iseo With a Rotating Physical Model”. Journal of Limnology 73 (1). https://doi.org/10.4081/jlimnol.2014.772.

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