Coupling Tank Model and Lars-Weather Generator in Assessments of the Impacts of Climate Change on Water Resources

Coupling Tank Model and Lars-Weather Generator in Assessments of the Impacts of Climate Change on Water Resources

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With the aim of assessing the impact of climate change on surface water resources, a conceptual rainfall-runoff model (the tank model) was coupled with LARS-WG as Analysis on the imbalance of population flow network during the Spring Festival travel rush in China in 2015. a weather generator model.The downscaled daily rainfall, temperature, and evaporation from LARS-WG under various IPCC climate change scenarios were used to simulate the runoff through the calibrated Tank model.A catchment (4648 ha) located in the southern basin of the Caspian Sea was chosen for this research study.

The results showed that this model has a reasonable predictive capability in simulating minimum and maximum temperatures at a level of 99%, rainfall at a level of 93%, and radiation at a level of 97% under various scenarios in agreement with the observed data.Moreover, the results of the rainfall-runoff model indicated an increase in the flow rate of about Nutritional knowledge, attitudes and behaviours in rugby league; influences of age, body composition and ancestry 108% under the A1B scenario, 101% under the A2 scenario, and 93% under the B1 scenario over the 30-year time period of the discharge prediction.