Atlantic Hurricane Numbers Decreasing Despite Increases In Atmospheric CO2

  • Date: 27/01/17
  • CO2 Science

Study of historical hurricane occurrences in the Gulf of Mexico and the Caribbean Sea, during the period 1749 to 2012, reveals that “the hurricane number is actually decreasing in time.”

Paper Reviewed

Rojo-Garibaldi, B., Salas-de-León, D.A., Sánchez, N.L. and Monreal-Gómez, M.A. 2016. Hurricanes in the Gulf of Mexico and the Caribbean Sea and their relationship with sunspots. Journal of Atmospheric and Solar-Terrestrial Physics 148: 48-52.

Although some climate alarmists contend that CO2-induced global warming will increase the number of hurricanes in the future, the search for such effect on Atlantic Ocean tropical cyclone frequency has so far remained elusive. And with the recent publication of Rojo-Garibaldi et al. (2016), it looks like climate alarmists will have to keep on looking, or accept the likelihood that something other than CO2 is at the helm in moderating Atlantic hurricane frequency.

In their intriguing analysis published in the Journal of Atmospheric and Solar-Terrestrial Physics, the four-member research team of Rojo-Garibaldi et al. developed a new database of historical hurricane occurrences in the Gulf of Mexico and the Caribbean Sea, spanning twenty-six decades over the period 1749 to 2012. Statistical analysis of the record revealed “the hurricane number is actually decreasing in time,” which finding is quite stunning considering that it is quite possible fewer hurricanes were recorded at the beginning of their record when data acquisition was considerably worse than towards the end of the record. Nevertheless, as the Mexican research team indicates, “when analyzing the entire time series built for this study, i.e., from 1749 to 2012, the linear trend in the number of hurricanes is decreasing” (see figure below)….


Figure 1. Annual hurricane count in the Gulf of Mexico and Caribbean Sea over the period 1749-2012. Red line indicates the linear trend. Source: Rojo-Garibaldi et al. (2016).

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