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Evaluation of the Applicability of Three Methods for Climatic Spatial Interpolation in the Hengduan Mountains Region

Xiaoming Xu, Xueqin Zhang, Xiang Li

2022Journal of Hydrometeorology18 citationsDOIOpen Access PDF

Abstract

Abstract An ideal spatial interpolation approach is indispensable for obtaining high-quality gridded climatic data in mountainous regions with scarce observations, particularly for the Hengduan Mountains Region (HMR) with dense longitudinal ranges and gorges. However, there is much controversy about the applicability of thin plate smooth spline (TPSS), cokriging, and inverse distance weighting (IDW) in mountainous regions. Here, we use the daily observations of temperature and precipitation at 125 stations in HMR and its surroundings from 1961 to 2018 and adopt three interpolation methods to map the annual average temperature and precipitation at a resolution of 500 m in HMR. Then, we assess the applicability of three interpolation methods in HMR from the perspectives of interpolation accuracy and effects. The evaluation implies a satisfactory interpolation accuracy of TPSS with the highest correlation and lowest error, whether for temperature ( R 2 = 0.92, RMSE = 1.2°C) or precipitation ( R 2 = 0.54, RMSE = 165.9 mm). In addition, the TPSS could better display the temperature (precipitation) gradient along elevation and depict dry valleys’ high-temperature and low-precipitation characteristics. Moreover, the satisfactory interpolation performance of TPSS mainly benefits from the screening of optimal TPSS model that varied primarily with the regional topography feature and meteorological observation density. The uncertainty of gridded climate datasets has become an urgent problem to solve in the complex terrain. This research illustrates the satisfactory applicability of TPSS for climatic spatial interpolation in HMR, providing theoretical support for high-precision interpolation in complex terrain, hopefully improving the regional weather forecasts and disaster warnings.

Topics & Concepts

Inverse distance weightingInterpolation (computer graphics)TerrainMultivariate interpolationPrecipitationEnvironmental scienceWeightingMean squared errorMeteorologyElevation (ballistics)ClimatologyRemote sensingBilinear interpolationComputer scienceGeologyMathematicsStatisticsGeographyCartographyArtificial intelligenceGeometryRadiologyMedicineMotion (physics)Precipitation Measurement and AnalysisCryospheric studies and observationsClimate variability and models
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