Evaluating the Performance of Calibrated Temperature-based Equations as Compared to Standard FAO-56 Penman Monteith Equation in Humid Climatic Condition of Dehradun (India)

IF 2.4 4区农林科学 Q2 AGRICULTURAL ENGINEERING

Journal of Agricultural Engineering Pub Date : 2023-01-01 DOI:10.52151/jae2022594.1790

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引用次数: 0

Abstract

The present study was undertaken to calibrate, validate, and evaluate the performance of temperature-based evapotranspiration equations in comparison to the standard FAO-56 Penman Monteith (FAO-56 PM) model in humid climatic condition of Dehradun district of Uttarakhand using 31-years (1989-2019) daily meteorological dataset. The quality control of dataset was ensured by omitting days with missing data and outliers. The performance of 12 calibrated temperature-based ETo equations namely, Allen (1993) [AL93], Baier and Robertson (1965) [BR65], Bogawski and Bednorz (2014) [BB14], Droogers and Allen (2002) [DA02], Dorji et al. (2016) [DO16], Hargreaves (1994) [HA94], Heydari and Heydari (2014) [HH14], Kharrufa (1985) [KA85], Ravazzani et al. (2012) [RA12], Samani (2004) [SA04], Schendel (1967) [SC67], and Trajkovic (2007) [TR07] were evaluated in comparison to standard FAO-56 PM model in terms of daily ETo estimates. The analysis showed that calibrated temperature-based equations performed well with higher value of agreement index (0.85-0.98) and reduced errors. The values of Root mean square error (RMSE), Mean bias error (MBE), Maximum absolute error (MAXE), Percent error of estimate (PE), and Standard error of estimate (SEE) for calibrated equations ranged from 0.29 to 1.15 mm.day-1, (-)0.39 to 0.53 mm.day-1, 0.64 to 3.95 mm.day-1, 4.71 to 19.11%, and 0.17 to 1.00 mm.day-1, respectively; whereas for original equations they varied in the range from 0.47 to 3.64 mm.day-1, (-)0.32 to 2.92 mm.day-1, 0.95 to 10.65 mm.day-1, 11.74 to 106.15%, and 0.18 to 1.72 mm.day-1, respectively, indicating improved performance of calibrated equations. The ranking of calibrated ETo equations on the basis of Global Performance Indicator (GPI) values confirmed that calibrated Dorji et al. (2016) equation produced best result, while Samani (2004) equation with its lowest value performed poorly. Based on GPI values, calibrated equations can be ranked (best to worst performing) as DO16> AL93> TR07> RA12> DA02> HA94> SC67> KH85> BR65> HH14>BB14> SA04. Thus, calibrated Dorji et al. (2016) equation can be used as substitute for FAO-56 PM model in the absence of large number of meteorological parameters for accurate estimation of ETo values in the study area.

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在印度德拉敦潮湿气候条件下，与FAO-56标准Penman Monteith方程相比，校准温度方程的性能评价

本研究利用31年(1989-2019)日气象数据集，在北阿坎德邦德拉顿地区湿润气候条件下，与FAO-56 Penman Monteith (FAO-56 PM)标准模型相比，校准、验证和评估基于温度的蒸散发方程的性能。通过剔除缺失数据和异常值的天数，保证了数据集的质量控制。Allen (1993) [AL93]、Baier and Robertson (1965) [BR65]、Bogawski and Bednorz (2014) [BB14]、Droogers and Allen (2002) [DA02]、Dorji等(2016)[DO16]、Hargreaves (1994) [HA94]、Heydari and Heydari (2014) [HH14]、Kharrufa (1985) [KA85]、Ravazzani等(2012)[RA12]、Samani (2004) [SA04]、Schendel (1967) [SC67]、和Trajkovic (2007) [TR07]在每日ETo估计值方面与FAO-56 PM标准模型进行了比较。分析表明，校正后的温度方程具有较高的一致性指数(0.85 ~ 0.98)和较低的误差。校准方程的均方根误差(RMSE)、平均偏置误差(MBE)、最大绝对误差(MAXE)、估计百分比误差(PE)和估计标准误差(SEE)的取值范围分别为0.29 ~ 1.15 mm.day-1、0.39 ~ 0.53 mm.day-1、0.64 ~ 3.95 mm.day-1、4.71 ~ 19.11%和0.17 ~ 1.00 mm.day-1;而对于原始方程，它们的变化范围分别为0.47 ~ 3.64 mm.day-1、0.32 ~ 2.92 mm.day-1、0.95 ~ 10.65 mm.day-1、11.74 ~ 106.15%和0.18 ~ 1.72 mm.day-1，表明校准方程的性能有所提高。根据全球绩效指标(GPI)值对校准后的ETo方程进行排序，证实了校准后的Dorji et al.(2016)方程产生了最好的结果，而Samani(2004)方程的最低值表现较差。根据GPI值，标定后的方程表现为:DO16> AL93> TR07> RA12> DA02> HA94> SC67> KH85> BR65> HH14>BB14> SA04。因此，在缺乏大量气象参数的情况下，校正后的Dorji et al.(2016)方程可以替代FAO-56 PM模型，用于准确估计研究区域的ETo值。

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来源期刊

Journal of Agricultural Engineering AGRICULTURAL ENGINEERING-

CiteScore

2.30

自引率

5.60%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Agricultural Engineering (JAE) is the official journal of the Italian Society of Agricultural Engineering supported by University of Bologna, Italy. The subject matter covers a complete and interdisciplinary range of research in engineering for agriculture and biosystems.