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Showing posts from October, 2017

Climate Change - The link with mass extinctions

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What is the worst-case scenario for climate change? The geological record shows that when the atmosphere suddenly changes, there are big effects on living things. Five major   mass extinction   events are recorded in the rock record of the last 600 million years. The biggest extinction was at the end of the   Permian ,  around 252 million years ago. It is called the   End-Permian mass extinction. Only about 8% of species survived to live on in the Triassic Period. Chongqing Special Administrative Region (SAR) in central China, showing a hillside that includes rocks crossing the end-Permian extinction event and the Permian-Triassic boundary. Researchers have found evidence of a compound called fly ash, one of the products of coal combustion, in rocks laid down just before this extinction event.  A large amount of coal had been burned over a period of tens of thousands of years. The  coal was burned by volcanic eruptions  that happened in Siberia,

Climate Change - What does 'climate' actually mean?

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Some people confuse 'climate' with 'weather' - but i f 'climate' and 'weather' are the same, why would there be two words? Other people say "We call climate change 'winter' and 'summer'...."   What does the word ' climate ' mean? It normally means  the average of conditions over 30 years . Climate  normally means 'an average over 3 conventional decades'. A  conventional decade  is, for example, 2001-2010, or 1961-1970. So ..... 3 full, conventional decades......such as 1981 to 2010. For example .... rainfall in Ireland. And another example -  ' A verage temperature 1951-1980' The definition of 'climate' goes back at least 100 years. So if we are discussing  climate change , that is what 'climate' means. But in recent times, there has been a lot of variation in global temperatures. So it can be useful to look at  single conventional decades .

Climate Change - Charting the rising levels of carbon dioxide

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Carbon dioxide  levels in the atmosphere are rising. This graph showing the data is called the  Keeling Curve . The small up-and-down pattern is caused by changes during each year -  in the summer in the northern hemisphere, there is more photosynthesis which causes CO2 levels to fall. The Keeling Curve is named after the scientist who first produced accurate measurements of carbon dioxide in the air -  Charles David Keeling.     Charles David Keeling in the lab. Keeling's collection of data began in 1958. Concentration is measured in  p arts  p er  m illion (ppm) March 2015 was the first time for hundreds of thousands of years that CO2 exceeded 400 ppm for a whole month. Ice core data  shows humans have never breathed air containing so much CO2. Since Keeling began recording, CO2 has risen from 318 ppm to 400 ppm... a rise of around 25%.   The fastest rise of CO 2  in the air seen in   the ice core record (800,000 years)  is  20 ppm in 1000 years. The

Climate Change - The Long-Term Effects

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According to the  Royal Society ....... If human emissions of CO 2  stopped altogether... .... it would take thousands of years for atmospheric CO 2  to return to ‘pre-industrial’ levels. " The climatic impacts of releasing fossil fuel CO 2  to the atmosphere will last longer than Stonehenge, " says  University of Chicago oceanographer  David  Archer. "Longer than time capsules, longer than nuclear waste, far longer than the age of human civilization so far." Why is that? It takes a long time for deep oceans to bury the carbon dioxide in ocean sediments.  Lifee on the abyssal sea floor (depths ranging from 4000-6000 m) near the Hudson Canyon off the coast of New Jersey. Photo taken using the Deep Submersible Research Vessel (DSRV)  Alvin's camera system.  Image courtesy of Deep East 2001, NOAA/OER. Surface temperatures would stay high for at least a thousand years. Humans would face  a warmer planet due to past and current emissions. Ice would still

Climate Change - Arctic sea ice

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The  Arctic   includes an  ocean covered by sea ice. Arctic sea ice  melts back in Summer, and then refreezes in Winter. The  area  of Arctic sea ice is largest in March each year, and at its lowest each September. It is reducing over time  - the graphs come from the US  National Snow and Ice Data Center. The NSIDC also publish this graph, which is normally updated every day. More graphs and other data are also available from the  Arctic Data Archive System , operated by the Japanese  Arctic Environmental Observation Center. The total volume of Arctic sea ice has declined dramatically over time. New research   shows the decline in Arctic sea ice area since 1850: Research suggests   the remarkable decline of   Arctic sea ice over  the last century is far beyond anything seen for a long time.  

Climate Change - Mammoths (and methane) from the permafrost

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The  permafrost  of places like  Siberia  is not so permanently frozen any more. As it slowly melts, wonderful things are emerging, some frozen for tens of thousands of years. Baby mammoths  are sometimes found in an extraordinary state of preservation. "As the Earth warms, scientists worry that some of the carbon in permafrost could escape to the atmosphere as carbon dioxide or methane.  Increasing the amount of these gases in the atmosphere could make Earth's climate warm up even more." Arctic permafrost – ground that has been frozen for many thousands of years – is now thawing because of global climate change.  There are many effects of global warming, including melting permafrost, discussed in this useful document:  Physical effects of warming. The results of melting permafrost could be  disastrous and irreversible.

Climate Change - Measuring the Greenhouse Effect

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Scientists have   observed an increase in carbon dioxide’s greenhouse effect   at the Earth’s surface.    The graphs show carbon dioxide’s increasing greenhouse effect at two locations.  The first graph shows CO 2  radiative forcing measurements obtained in  Oklahoma .  The second graph shows similar upward trends in  Alaska . (Credit: Berkeley Lab) The researchers link this to rising CO 2  levels from fossil fuel emissions. Radiative forcing  measures how the planet’s energy balance is altered by atmospheric changes.  Positive radiative forcing  occurs when the Earth absorbs more energy from solar radiation than it emits as heat radiation back to space. “We see, for the first time in the field, the amplification of the greenhouse effect because there’s more CO 2  in the atmosphere to absorb what the Earth emits in response to incoming solar radiation,” says Daniel Feldman. Dr Feldman is a  scientist in Berkeley Lab’s Earth Sciences Division  and is lead author of t

Climate Change - The Carbon Bubble

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Burning  fossil fuels  produces  carbon dioxide . Carbon dioxide emissions  need to be limited.   However, the potential carbon dioxide emissions contained in fossil fuel reserves are vast. So   it's not possible for all current fossil fuel reserves to be used,  if the Earth's warming is to be kept below 2 °C.  This huge excess quantity of fossil fuel is sometimes called the  'Carbon Bubble'. However, there are   major objections  even to the "two-degree limit" . Many say the number is simply too high. Archbishop Desmond Tutu has  pointed out   that a two-degree global average rise might result in Africa’s temperature rising as much as 3.5 degrees—a potentially disastrous change. Various scientific research projects have looked at what would happen if all the fossil fuels were burned. One project concluded: The Antarctic Ice Sheet stores water equivalent to 58 metres in global sea-level rise.    ... burning the currently attainable fossi

Climate Change - Climate prediction is not weather forecasting

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The chaotic nature of  weather  makes it unpredictable beyond a few days.  To predict the weather you need to know exactly what is happening in the atmosphere down to the smallest scale.  Climate  is the  average weather pattern  of a region over many years (usually a period of 30 years). Weather forecasts  depend on knowing exactly what is going on in the atmosphere, down to the smallest scales.  Climate forecasts  look for patterns over a longer time.  Will it be generally wetter in winter?   Will there be more heavy downpours? A paper  published in the journal  Science  in August 1981  made several projections regarding future climate change. The projections were rather accurate — and their future is now our present. "Potential effects on climate in the 21st century include the creation of drought-prone regions in North America and central Asia as part of a shifting of climate zones, erosion of the West Antarctic ice sheet with a consequent worldwide rise

Climate Change - Farming, food, & possible mass migrations

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Farmers can put up with some bad weather, but  climate change  will make unusual events more likely. 20-30% of plant and animal species will be more likely to become extinct if the temperature rises by more than 1.5-2.5C. There will be big effects on farming from droughts and floods. The biggest effects will be seen first near the  Equator . Just  being near the Equator  makes it more difficult for countries to make economic progress. Hotter conditions affect how crops grow. Our agriculture is heavily reliant on  grasses  from the temperate regions. Corn, wheat, and rice  are all types of grass. The Tropics will expand as the world warms, so the world will find it harder to grow those important crops. People will  try to leave places  where they cannot produce enough food. Countries where  food prices  rise rapidly tend to become unstable, making  conflicts  more likely. Global warming affects wheat production. A rise of 2 degree C in temperatur

Climate Change - Comparing the Polar Regions

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Earth's poles are warming faster than the rest of the planet. One reason is that energy is carried to the poles by large weather systems. The  Arctic   includes an  ocean covered by sea ice . Arctic sea ice  melts in Summer and then refreezes in Winter. The area of Arctic sea ice is largest in March each year, and at its lowest each September. It is reducing over time - the graph comes from the US  National Snow and Ice Data Center. Research suggests   the remarkable decline of   Arctic sea ice over  the last century is far beyond anything seen for a long time.   The  Antarctic  is a  continent covered by ice , unlike the ocean in the Arctic. The sea ice surrounding Antarctica melts almost to the coast each summer. Ice shelves  around Antarctica are also affected by global warming. For a useful comparison of Antarctic and Arctic sea ice follow this link…… Arctic vs Antarctic You can explore the Earth's melting ice using  NASA

Climate Change - "Weather on Steroids" in 2010

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There were some very unusual weather events in 2010, which may be a warning of future effects of climate change. Each time there are  extreme weather events , people debate "Is there a link to climate change?" It might be hard to prove in many cases. Some recent events, however, are extraordinary. The phrase  'weather on steroids'  has been used to describe these events. In 2010,  China  and  Brazil  had serious droughts, and in the first part of the year the Northern Hemisphere warmed fast, melting the winter snow cover very quickly. The picture shows the dried-up  River Negro  in Brazil, with a bridge in the distance.   But the biggest events were  the  heatwave in Russia  and the  flooding in Pakistan . In  Pakistan ,  Government officials said that from  July 28 to Aug. 3, parts of Khyber Pakhtunkhwa province recorded almost  12 feet (3.6 metres) of rainfall  in one week .  The province normally averages slightly above 3 feet (around 1 metre) for an enti

Climate Change - Glaciation in Antarctica

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Around 34 million years ago, at the  Eocene-Oligocene Transition  (EOT), the Earth was undergoing a period of global cooling.  Antarctica  changed from a green forested continent to the land of ice we know today.  The cooling was partly caused by  declining atmospheric carbon dioxide  levels, but it also coincides with changes in the geography of the Southern Ocean. This is an image of how this ancient world might have looked,  created recently by  Alan Kennedy  of the University of Bristol - Around 55 million years ago, CO2 levels rose during the  Paleocene-Eocene Thermal Maximum   (PETM). Weathering of the newly-building  Himalayas  caused CO2 levels to begin to fall. CO2 in rain makes a weak acid, which causes chemical weathering (especially of carbonate rocks like limestone, but of other rocks as well). Rivers carry the carbon compounds down to the oceans, where various processes (such as the formation of calcareous shells by organisms) eventually deposit the material