Planet Earth and Its Environment

Topics: Carbon dioxide, Climate change, Greenhouse gas Pages: 6 (1758 words) Published: September 30, 2012
Paleoclimatology is the study of prehistoric climates from evidence preserved in a wide range of geological settings. Paleoclimatologists study the evidence preserved in these geological settings, and search for the reasons behind climatic change throughout Earth’s history. By doing this, scientists may better predict future climate change and calculate the impact of humankind’s activities on the atmosphere and climate. Paleoclimatologists must piece together climatic history, but the further they look into the past, the more evidence has faded due to erosion and chemical processes. Scientists have been able to put together a detailed picture of the last 20, 000 years of climatic history, and a general picture of the past 150,000. Although the evidence is less complete further back in time, scientists have been able to identify major, often catastrophic climatic events throughout Earth’s 4.5 billion year history. Evidence for climate change can be preserved in marine and lake sediments, ice sheets, fossil corals, glacial deposits, sedimentary structures, fossils and ice cores. Advances in laboratory techniques have allowed scientists to show how and why the climate has changed in the past.

Marine Sediments
The accumulated remains of marine organisms make much of the deep ocean floor. When these organisms were alive, they would absorb oxygen from the sea water. Scientists can deduce the past ocean temperatures, and therefore global climate by careful analysis of the oxygen in these organic sediments. Studies have shown that oceanic sediments have preserved a record reaching back tens of millions of years, and in older sedimentary rocks the record extends to hundreds of millions of years. Ice Cores

Scientists can directly analyse gases in ice cores from ancient atmospheres. Traces of the ancient atmospheres become trapped and compressed into the ice and the ice retains it there for as long as it remains frozen. Cores drilled through ice sheets contain a record of polar temperatures and atmospheric composition which can range back to 120,000 years in some areas such as Greenland. In places like Antarctica, scientists are able to drill down into the ice and remove cores for chemical analysis, and are able to determine fluctuations of atmospheric gases over the past 800 000 years. Glacial Deposits

Glaciers gouge large amounts of rock and soil from the ground below them as the move slowly. At the end of the glacier the dumped sediment can give a clear indication of its extent. Scientists map the locations of these deposits, and by doing this they are able to work out the past climate in that region. Sea Levels

The amount of water stored at the poles greatly increases when the Earth goes through cooler periods such as ice ages. This is caused by the rise of precipitation falling as ice or snow rather than rain. The snow accumulates on the land in the cooler climate, and becomes permanent ice, so it cannot melt and return to the ocean. As the snow accumulates on the land it removes a huge volume of water from the ocean which causes the sea levels to drop. By looking at shoreline features such as beach ridges, spits and bars, scientists are able to map and date the occurrences of these features and this shows the sea levels of the past. By looking at these shorelines and such, scientists can date the times when the earth went through cooler periods, and therefore can then make a judgement on the carbon dioxide concentration of that time.

By looking at the sources of evidence preserved in geological settings, scientists are able to have a better insight into the patterns of climate change. When it is viewed over long time frames, the climate appears to be a highly variable and cyclic event. According to scientific studies, in past eras atmospheric Carbon Dioxide reached concentrations that were 20 times higher than the current concentration. There have been recent investigations which show that the current change of...

Bibliography: Nasif Nahle. 2007. Cycles of Global Climate Change. Biology Cabinet Journal Online. Article no. 295., and Accessed: (8th, March, 2011)
David Heffernan. Rob Mahon. John McDougall. Kylie Gillies. 2009. Spotlight Earth and Environmental Science 1.
Science Press: NSW Australia Accessed: (7th, March, 2011) and and
Accessed: (7th, March, 2011)
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