Evaluating Impacts of Irrigation and Drought on River, Groundwater and a Terminal Wetland in the Zayanderud Basin, Iran

The Zayanderud Basin is an important agricultural area in central Iran. In the Basin, irrigation consumes more than 90 percent of the water used, which threatens both the downstream historical city of Isfahan and the Gavkhuni Wetland reserve—the final recipient of the river water. To analyze impacts...

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Bibliographic Details
Published in:Water (Basel) 2020-05, Vol.12 (5), p.1302
Main Authors: Abou Zaki, Nizar, Torabi Haghighi, Ali, Rossi, Pekka M., Tourian, Mohammad J., Bakhshaee, Alireza, Kløve, Bjørn
Format: Article
Language:English
Subjects:
Agricultural land
Agricultural management
Agriculture
Basins
Creeks & streams
Cultural heritage
Downstream
Drought
Drought index
Droughts
Drying
Environmental aspects
Flow rates
Flow velocity
GRACE (experiment)
Groundwater
Groundwater data
Groundwater depletion
Groundwater levels
Groundwater management
Groundwater overdraft
Historic sites
Hydrologic data
Hydrology
Iran
Irrigation
Land use
Precipitation
Precipitation (Meteorology)
Remote sensing
Resource management
Rivers
Standard deviation
Standardized precipitation index
Stream discharge
Stream flow
Surface water
Surface-groundwater relations
Sustainability
Water management
Water masses
Water resource management
Water resources
Water resources management
Water table
Wetlands
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Summary:The Zayanderud Basin is an important agricultural area in central Iran. In the Basin, irrigation consumes more than 90 percent of the water used, which threatens both the downstream historical city of Isfahan and the Gavkhuni Wetland reserve—the final recipient of the river water. To analyze impacts of land use changes and the occurrence of metrological and hydrological drought, we used groundwater data from 30 wells, the standardized precipitation index (SPI) and the streamflow drought index (SDI). Changes in the wetland were analyzed using normalized difference water index (NDWI) values and water mass depletion in the Basin was also assessed with gravity recovery and climate experiment (GRACE)-derived data. The results show that in 45 out of studied 50 years, the climate can be considered as normal in respect to mean precipitation amount, but hydrological droughts exist in more than half of the recorded years. The hydrological drought occurrence increased after the 1970s when large irrigation schemes were introduced. In recent decades, the flow rate reached zero in the downstream part of the Zayanderud River. NDWI values confirmed the severe drying of the Gavkhuni Wetland on several occasions, when compared to in situ data. The water mass depletion rate in the Basin is estimated to be 30 (±5) mm annually; groundwater exploitation has reached an average of 365 Mm3 annually, with a constant annual drop of 1 to 2.5 meters in the groundwater level annually. The results demonstrate the connection between groundwater and surface water resources management and highlight that groundwater depletion and the repeated occurrence of the Zayanderud River hydrological drought are directly related to human activities. The results can be used to assess sustainability of water management in the Basin.
ISSN:2073-4441
2073-4441
DOI:10.3390/w12051302