ALBERT

Description: The main objective of this paper is to provide comparative-quantitative examinations on capabilities of 2DH and pseudo-3D modelling approaches for simulating spatial and temporal variability of the flow and salinity in Lake Urmia, Iran. The water quality in the lake has been an environmentally important subject partly because this shallow hyper saline aquatic ecosystem is considered to be one of the largest natural habitats of a unique multi-cellular organism, Artemia urmiana . This brine shrimp is the major food source for many of the protected and rare shorebirds that visit the lake. Artemia urmiana can grow and survive in certain ranges of salinity and their disappearance could lead to an alteration of existing equilibria. The lake has also experienced considerable man-made changes during the past 3 decades. A newly built crossing embankment almost divided the lake into two northern and southern halves. A relatively small opening of 1.25kmin the new embankment provides water connections between the two halves. As a result, the flow and salinity regimes have been significantly changed. This might have had adverse serious impacts on the lake ecosystem. In the current study the 2DH hydrodynamic model has been found to provide reasonable predictions for the flow regime in the lake, while its salinity predictions have not been consistent with the field observations.Thepseudo-3D model has produced results fairly close to the salinity measurements and its temporal and spatial variations. The pseudo-3Dmodelhas been used for evaluating the embankment effects on the lake hydrodynamics and on the salinity conditions. The effectiveness of introducing a different number or length of openings in the embankment for restoring the pre-embankment conditions has also been examined. These remedy options have been found not to offer substantial improvements to the lake existing ecosystem. This article is protected by copyright. All rights reserved.