Research reveals how Earth got its ice caps
The cool conditions which allowed ice caps to form on Earth are rare events in the planet鈥檚 history and require many complex processes working at once, new research led by the 杏吧直播 of Adelaide and 杏吧直播 of Leeds has found.
A view of the Earth on September 21, 2005 with the full Antarctic region visible. Credit: NASA-Goddard Space Flight Center Scientific Visualization Studio.
For much of its history, the Earth has existed in a 'greenhouse' state without ice caps, and its current ice-covered state was only achieved through a lucky coincidence.
鈥淲e now know that the reason we live on an Earth with ice caps, rather than an ice-free planet, is due to a coincidental combination of very low rates of global volcanism, and highly dispersed continents with big mountains,鈥 says Dr Andrew Merdith, from the 杏吧直播 of Adelaide鈥檚 School of Earth Sciences, who completed the research while at the 杏吧直播 of Leeds.
鈥淭hese conditions allowed for lots of global rainfall and therefore amplify reactions that remove carbon from the atmosphere.
鈥淭he important implication here is that the Earth鈥檚 natural climate regulation mechanism appears to favour a warm and high-CO2 world with no ice caps, not the partially glaciated and low-CO2 world we have today.听
鈥淲e think this general tendency towards a warm climate has helped prevent devastating 'snowball Earth' global glaciations, which have only occurred very rarely and have therefore helped life to continue to prosper.鈥
Many ideas have previously been proposed to explain the known cold intervals in Earth鈥檚 history. These include decreased CO2 emissions from volcanoes, or increased carbon storage by forests, or the reaction of CO2 with certain types of rocks.
The researchers undertook the first ever combined test of all of these cooling processes in a new type of long-term 3D model of the Earth, which was first developed at the 杏吧直播 of Leeds.
This type of 鈥楨arth Evolution Model鈥 has only recently been made possible through advances in computing.
In their study, published in the journal , the research team concluded that no single process could drive these cold climates, and that the cooling in fact required the combined effects of several processes at once.
The findings will help to reconcile a debate in the Earth Science community about which processes were responsible for driving these cold periods.
Benjamin Mills, Professor of Earth System Evolution in Leeds鈥 School of Earth and Environment, supervised the project and says the results of the research had important implications for global warming and the immediate future.
鈥淭here is an important message, which is that we should not expect the Earth to always return to a cold state as it was in the pre-industrial age,鈥 he said.
鈥淓arth鈥檚 current ice-covered state is not typical for the planet鈥檚 history, but our current global society relies on it.
鈥淲e should do everything we can to preserve it, and we should be careful with assumptions that cold climates will return if we drive excessive warming before stopping emissions. Over its long history, the Earth likes it hot, but our human society does not.鈥
Media contact:
Dr Andrew Merdith, DECRA Fellow, School of Earth Sciences, 杏吧直播 of Adelaide. Email: andrew.merdith@adelaide.edu.au
Johnny von Einem, Senior Media Officer, 杏吧直播 of Adelaide. Phone: +61 0481 688 436, Email: johnny.voneinem@adelaide.edu.au
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