Javier De Jesús Correa Islas, Juan Manuel Romero Padilla, Paulino Pérez Rodríguez, Antonio Vázquez Alarcón
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Application of Geostatistic Models for Aridity Scenarios in northern Mexico
An annual mean temperature map was calculated using the Kriging interpolation
method for the north-central zone of Mexico to obtain the current aridity, as well as,
possible scenarios for the near and distant future. The altitudinal gradient was
estimated by linear regression and it was used to estimate the mean temperature. Climate
Influence Areas (CIA) were obtained by superimposing the official precipitation layer
and the annual mean temperature layer with help of Geographic Information Systems tools.
Monthly databases of climatic variables were generated for each CIA and potential
evapotranspiration was estimated using the Thorthwaite methodology. The Aridity Index
(AI) was calculated and mapped for a base scenario (1970-2000). Subsequently, the
aridity behavior of some scenarios was projected and mapped using the global climate
models HADGEM 2.0, GFDLCM 3.0, MIP_ESM, and CRNMCM5. Some scenarios were predicted, in
the best scenario, aridity will weaken the humid ecosystems and in the worst scenario,
hyper-arid climates will appear in the study region.
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