Litcius/Paper detail

Statistical downscaling using principal component regression for climate change impact assessment at the Cauvery river basin

P. Loganathan, Amit B. Mahindrakar

2021Journal of Water and Climate Change12 citationsDOIOpen Access PDF

Abstract

Abstract Climate change impact studies are generally carried out with higher resolution general circulation model (GCM) outputs, which are usually for a global scale, and it is difficult to use the same for a regional scale. GCM simulations require downscaling to get a coarser scale output for local climate impact studies. In this study, an improvised principal component regression (PCR) downscaling technique is adapted to downscale 26 Coupled Model Intercomparison Project Phase 5 (CMIP5) GCM historical outputs. A massive river basin named Cauvery with 35 observation stations is categorized into three subbasins to study the regional climate impacts. In this case, the PCR model performed remarkably well compared to other conventional machine learning models with half the computational time than usual. The test statistics state that the validation of the proposed model illustrates a variance in calibration results of the PCR model, which ranges between 2 and 5%, and a variance in validation, which is less than 7% throughout the study area. Since it is desired to prioritize GCMs to choose the merely suitable models for a strategic climate study, the models were selected based on the PCR model performance. Furthermore, CCSM4, inmcm4, and EC-EARTH model's performance in recreating precipitation statistics over the study area are exceptional.

Topics & Concepts

DownscalingCoupled model intercomparison projectPrincipal component analysisClimatologyEnvironmental scienceScale (ratio)Climate changeGCM transcription factorsPrecipitationClimate modelRepresentative Concentration PathwaysRegressionVariance (accounting)Regression analysisGeneral Circulation ModelCalibrationStructural basinMeteorologyComputer scienceStatisticsGeographyGeologyMathematicsCartographyMachine learningAccountingPaleontologyBusinessOceanographyClimate variability and modelsClimate change and permafrostCryospheric studies and observations