Mitigating the adverse impacts of climate change on river water quality through adaptation strategies: A Case Study of the Ardak Catchment, Northeast Iran

This study investigates the potential impacts of future climate change on river water quality in Ardak Watershed, Northeast Iran, and proposes adaptation strategies to mitigate adverse effects. The SWAT model is calibrated and verified by Monthly water quality sampling and flow measurements. The pre...

Full description

Saved in:
Bibliographic Details
Published in:Theoretical and applied climatology 2024-09, Vol.155 (9), p.9131-9147
Main Authors: Nikakhtar, Morteza, Rahmati, Seyedeh Hoda, Massah Bavani, Ali Reza, Babaeian, Iman
Format: Article
Language:English
Subjects:
Adaptation
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Atmospheric Sciences
Autumn
Catchment area
Climate change
Climatology
Dissolved oxygen
Earth and Environmental Science
Earth Sciences
Environmental impact
Flow measurement
Future climates
Nitrates
Parameter sensitivity
Pasture
Phosphorus
Pollutant removal
Pollutants
Pollution levels
River water
River water quality
Rivers
Sensitivity analysis
Side effects
Solid suspensions
Statistical models
Summer
Suspended particulate matter
Suspended solids
Waste Water Technology
Water Management
Water pollution
Water Pollution Control
Water quality
Water quality measurements
Winter
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This study investigates the potential impacts of future climate change on river water quality in Ardak Watershed, Northeast Iran, and proposes adaptation strategies to mitigate adverse effects. The SWAT model is calibrated and verified by Monthly water quality sampling and flow measurements. The premium SWAT-CUP model was utilized for sensitivity analysis and parameter adjustment to simulate runoff, sediment, nitrate, mineral phosphorus, and dissolved oxygen. Future catchment temperature and precipitation were projected using CMhyd statistical downscaling by incorporating four CMIP6 models under SSP scenarios for the near (2025–2049), intermediate (2050–2074), and far (2075–2099) future. The Mianmorgh River experienced increased levels of various pollutants in winter, summer, and autumn but decreased in spring for future periods. In the Abghad River, pollutant levels are expected to increase from late autumn to late winter and decrease in other months. Nitrate increased from the late summer to late winter, then decreased throughout the year. Three adaptation strategies were proposed: reducing rural swage pollutants, creating pasture on 5% of unvegetated land, and combining both. The SWAT model showed responsiveness to the mix scenario, with average reductions of 4—4.5% for suspended solids, 23—16% for inorganic phosphorus, and 16—20% for nitrate for the first strategy. The results revealed that climate change can significantly affect water quality, but its adverse effects can be mitigated with suitable actions. Combined adaptation strategies effectively reduced suspended solids and mineral phosphorus and removed pollutants. Therefore, implementing a combination of effective strategies is more beneficial than individual approaches.
ISSN:0177-798X
1434-4483
DOI:10.1007/s00704-024-05057-8