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      Divergent ecological effects of oceanographic anomalies on terrestrial ecosystems of the Mexican Pacific coast.

      Proceedings of the National Academy of Sciences of the United States of America
      Climate, Ecosystem, Mexico, Pacific Ocean, Rain, Seasons, Soil, analysis, Weather

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          Abstract

          Precipitation pulses are essential for the regeneration of drylands and have been shown to be related to oceanographic anomalies. However, whereas some studies report increased precipitation in drylands in northern Mexico during El Niño years, others report increased drought in the southern drylands. To elucidate the effect of oceanographic/atmospheric anomalies on moisture pulses along the whole Pacific coast of Mexico, we correlated the average Southern Oscillation Index values with total annual precipitation for 117 weather stations. We also analyzed this relationship for three separate rainfall signals: winter-spring, summer monsoon, and fall precipitation. The results showed a distinct but divergent seasonal pattern: El Niño events tend to bring increased rainfall in the Mexican northwest but tend to increase aridity in the ecosystems of the southern tropical Pacific slope. The analysis for the separated rainfall seasons showed that El Niño conditions produce a marked increase in winter rainfall above 22 degrees latitude, whereas La Niña conditions tend to produce an increase in the summer monsoon-type rainfall that predominates in the tropical south. Because these dryland ecosystems are dependent on rainfall pulses for their renewal, understanding the complex effect of ocean conditions may be critical for their management in the future. Restoration ecology, grazing regimes, carrying capacities, fire risks, and continental runoff into the oceans could be predicted from oceanographic conditions. Monitoring the coupled atmosphere-ocean system may prove to be important in managing and mitigating the effects of large-scale climatic change on coastal drylands in the future.

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          Author and article information

          Journal
          17563355
          1965547
          10.1073/pnas.0701862104

          Chemistry
          Climate,Ecosystem,Mexico,Pacific Ocean,Rain,Seasons,Soil,analysis,Weather
          Chemistry
          Climate, Ecosystem, Mexico, Pacific Ocean, Rain, Seasons, Soil, analysis, Weather

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