One would not necessarily assume that the recent earthquake activity around the globe these past few years is in any way, shape or form related to climate change. It just seems implausible that one warming seas and a warming atmosphere, the drivers of climate change, would have any effect on the slow process of plate tectonics, in which one plate shifts under or over another, occasionally producing the large earthquakes such as those that devastated the peoples of Indonesia, New Zealand, South America, and Japan to name but a few recent events.

However, scientists have for the first time released a study that indicates that man made changes to our climate are also quite probably effecting the movement of tectonic plates around the globe as well. The implications of their research are far ranging as well as frightening:

SYDNEY (AFP) – Scientists have for the first time shown a link between intensifying climate events and tectonic plate movement in findings that could provide a valuable insight into why huge tremors occur. [...] An Australian-led team of researchers from France and Germany found that the strengthening Indian monsoon had accelerated movement of the Indian plate over the past 10 million years by a factor of about 20 percent. Lead researcher Giampiero Iaffaldano said Wednesday that although scientists have long known that tectonic movements influence climate by creating new mountains and sea trenches, his study was the first to show the reverse. "The closure or opening of new ocean basins or the build of large mountain bands like the Andes or Tibet itself, those are geological processes that affect the pattern of climate," said Iaffaldano, an earth scientist with the Australian National University. "We are showing for the first time that the opposite also is true, that the pattern of climate is then able to affect back in a feedback mechanism the motion of tectonic plates."

Call this this one more example of the law of unintended consequences. For over one hundred years scientists have been stating that increases in human activity such as the burning of fossil fuels and deforestation would invariably have an effect on our climate by raising the mean temperatures of the oceans and the atmosphere. We have and are currently witnessing the effects of those predictions, based on principles of physics that were first explained in the 19th century.

What few foresaw however, was that changes to our surface climate would impact the movement of the large crustal plates that cause the continents to drift and that form mountain ranges and cause earthquakes. The research is obviously in its early stages, but I do not think we should take the findings of these scientists lightly or diminish their import.

The relationship of the movements of continental plates affecting climate is well established, as the lead earth scientist for this study quoted above noted. It is not, therefore illogical to assume that changes to climate in a feedback loop would also effect the movement of those plates. This study demonstrates that such is the case, at least with changes to the climate involving the increased intensity of monsoons in the Indian Ocean.

I am no scientist, but many scientists have been telling us that the changes we see are now locked in and will occur even if we ended all carbon, methane and other greenhouse gases today. We are now at a point where the only valid debate is over the extent of the damage that will occur to life on this planet if we cannot end or do not curb greenhouse gas emissions and other human activities that are driving climate change.

We had thought those effects would be primarily climate related, i.e., intensified storms, harsh droughts and desertification in some areas, increased and more intense precipitation in others, rising sea levels, more intense heat waves and wildfires, species extinction, increased disease vectors, and so forth. Now we are learning that once again, we may have underestimated the impact of human activities on the earth. I cannot say how climate change now and in the future, will impact plate tectonics. However, if further research supports the study discussed above, we may be able to add increased or more intense earthquakes and tsunamis to the list of adverse consequences that are caused in part by the change to our climate brought about by our species "dominion over the earth."

Let me give the study's lead researcher a few more comments:

Iaffaldano collaborated with Universite de Rennes geoscientist Laurent Husson and Hans-Peter Bunge from Munich's LMU university on the study, which was recently published in the Earth and Planetary Science Letters journal. The team plans to build on the study by probing whether climate events have had a similar impact in other regions. "For example I can imagine that there might be a signature of climate in the Andes for example or in the Rocky Mountains," said Iaffaldano. "This is something that we should look at in the future."

It is definitely something we should look at in the future considering the massive damage that has occurred from large earthquakes in Japan and New Zealand in 2011, in Haiti in 2010 and in Indonesia and Asia after the earthquake and tsunami in 2004, as well as the recent large earthquakes in Indonesia earlier this month.

We, as a species that lives upon this earth with billions of other species, have been in the denial business far too long. We cannot afford to neglect any scientific finding that adds to the information we have learned about our changing climate and this world which is our only haven.