Titlebook: Lake Urmia; A Hypersaline Waterb Peygham Ghaffari,Evgeniy V. Yakushev Book 2023 Springer Nature Switzerland AG 2023 Artemia urmiana.Biogeoc

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Salt Load Impact on Lake Urmia Basin Volume,ich equals a 73?cm thick salt layer on average on the lake’s bottom. Therefore, during extreme water level decline, the water volume of Lake Urmia cannot be retrieved by basin volume-water level relation because the salt load has a fundamental role in filling the basin volume.

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Modelling Physical and Chemical Processes of the Hypersaline Lake Urmia: Water Level Decline and Re water level, probably caused by bottom friction becoming more effective in a shallower water column. Next, we simulate near 20 years into the future and include conveyance from the Caspian Sea (32 m./s). The model predicts that this will have minor impact on the lake. To maintain the lake at the le

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Book 2023 variability and climate change and their impact on the aquatic environment. The impact of water conveyance on Lake Urmia to improve the physical, chemical, and biological natural state is also discussed in this book, where an intensive and challenging observation plan in this harsh environment is c

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,Introduction: Lake Urmia – A Hypersaline Waterbody in a Drying Climate,ook provides a comparative analysis of the investigated basins to demonstrate a mechanism of the influence of the warming climate and anthropogenic impact on Lake Urmia’s hydrodynamical and chemical regimes.

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1867-979X of Lake Urmia Basin.Appeals to environmental managers, scie.This book provides a holistic review of the environmental status of Lake Urmia in terms of its hydrodynamic, chemical, and ecological properties. Lake Urmia is a shallow landlocked hypersaline water body located in the northwest part of Ir