Evaluation of Satellite-Based, Modeled-Derived Daily Solar Radiation Data for the Continental United States
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Date
2011-07
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Abstract
Decision support tools for agriculture oft en require meteorological data as inputs, but data availability and quality are oft en problematic. Diffi culties arise with daily solar radiation (SRAD) because the instruments require electronic integrators, accurate sensors are expensive, and calibration standards are seldom available. NASA’s Prediction of Worldwide Energy Resources (NASA/ POWER; power.larc.nasa.gov) project estimates SRAD based on satellite observations and atmospheric parameters obtained from satellite observations and assimilation models. Th ese data are available for a global 1° × 1° coordinate grid. Th e SRAD can also be generated from atmospheric attenuation of extraterrestrial radiation (Q0). We compared daily solar radiation data from NASA/ POWER (SRADNP) with instrument readings from 295 stations (observed values of daily solar radiation, SRADOB) and values estimated by Weather Generator for Solar Radiation (WGENR) generator. Two sources of air temperature and precipitation records provided inputs to WGENR: the stations reporting solar data and the NOAA Cooperative Observer Program (COOP) stations. Th e resulting data were identifi ed as solar radiation valaues obtained using the Weather Generator for Solar Radiation soft ware in conjunction with daily weather data from the stations providing values of observed values of daily solar radiation (SRADWG) and solar radiation values obtained using the Weather Generator for Solar Radiation soft ware in conjunction with daily weather data from NOAA COOP stations (SRADCO), respectively. Values of SRADNP for individual grid cells consistently showed higher correlations (typically 0.85–0.95) with SRADOB than did SRADWG or SRADCO. Mean values of SRADOB, SRADWG, and SRADNP for a grid cell usually were within 1 MJ m–2 d–1 of each other, but NASA/POWER values averaged 1.1 MJ m–2 d–1 lower than SRADOB. This bias increased at lower latitudes and during summer months and is partially explained by assumptions about ambient aerosol properties. Th e NASA/POWER solar data are a promising resource for studies requiring realistic accounting of historic variation.
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Keywords
Decision Support Systems, Agriculture
Citation
Wilkens, P.W. et.al 2011. “Evaluation of Satellite- Based Modeled-Derived Daily Solar Radiation Data for the Continental United States,” Agronomy Journal, Vol. 103, No. 4.