AgriEngineering (May 2023)

Do Gridded Weather Datasets Provide High-Quality Data for Agroclimatic Research in Citrus Production in Brazil?

  • Júlia Boscariol Rasera,
  • Roberto Fray da Silva,
  • Sônia Piedade,
  • Francisco de Assis Alves Mourão Filho,
  • Alexandre Cláudio Botazzo Delbem,
  • Antonio Mauro Saraiva,
  • Paulo Cesar Sentelhas,
  • Patricia Angélica Alves Marques

DOI
https://doi.org/10.3390/agriengineering5020057
Journal volume & issue
Vol. 5, no. 2
pp. 924 – 940

Abstract

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Agrometeorological models are great tools for predicting yields and improving decision-making. High-quality climatic data are essential for using these models. However, most developing countries have low-quality data with low frequency and spatial coverage. In this case, two main options are available: gathering more data in situ, which is expensive, or using gridded data, obtained from several sources. The main objective here was to evaluate the quality of two gridded climatic databases for filling gaps of real weather stations in the context of developing agrometeorological models. Therefore, a comparative analysis of gridded database and INMET data (precipitation and air temperature) was conducted using an agrometeorological model for sweet orange yield estimation. Both gridded databases had high determination and concordance coefficients for maximum and minimum temperatures. However, higher errors and lower confidence coefficients were observed for precipitation data due to their high dispersion. BR-DWGD indicated more accurate results and correlations in all scenarios evaluated in relation to NasaPower, pointing out that BR-DWGD may be better at filling gaps and providing inputs to simulate attainable yield in the Brazilian citrus belt. Nevertheless, due to the BR-DWGD database’s geographical and temporal limitations, NasaPower is still an alternative in some cases. Additionally, when using NasaPower, it is recommended to use a measured precipitation source to improve prediction quality.

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