Posts

Showing posts from October, 2015

Climate Change - Oceania

Image
An international team of researchers  has produced this graph of ocean levels, for a period of time going back to around 500 BC.  Oceania  is a region made up of thousands of  islands throughout the Central and South  Pacific Ocean.   It includes Australia, the smallest continent in terms of total land area. Many of the nations in Oceania are  Small Island Developing States (SIDS). Many scientists say that Oceania is more vulnerable than most parts of the Earth to climate change, because of its climate and geography.  The heavily coastal populations of the continent’s small islands are vulnerable to flooding and erosion  because of  sea level rise.   Fiji’s  shoreline has been receding about 15 centimetres per year over the last 90 years. Samoa  has lost about half a metre per year during that same time span.  The global sea level graph is from this paper:  "Temperature-driven global sea-level variability"

Climate Change - Why isn't every year a record year?

Image
Heat can affect things without causing a temperature rise. Extra heat can be used in ‘ changing state ’ instead of raising temperature. A change of state could be … a  solid  melting to a  liquid .  Or a  liquid  evaporating to a  gas . So  heat is needed to change ice at zero degrees C to water at zero degrees C. And to change water into water vapour….. without raising the temperature. Scientists call the heat used to change state  latent heat. Also, there are natural variations in the global climate,  El Nino  events being the ones that affect world temperature the most. The opposite to 'El Nino' is 'La Nina', a cooling effect. If global temperatures are plotted on a graph in a way that shows these variations, it makes the overall warming trend very obvious. Every La Nina year since 1998 has been warmer than every El Nino year before 1995.

Climate Change - Deltas at risk

Image
Deltas  often form when rivers reach the sea. The river can carry sand and mud when it is flowing fast. As the water enters the sea, it s lows down , and the sediment drops to make the delta. Many deltas are at risk from climate change.   This map shows the levels of risk. An estimated 80 percent of the world's megacities are located in fragile river deltas.   A megacity has a population of over 10 million people. Over 500 million people live on deltas. Why are deltas at risk? One reason  is  rising sea level , which wears away the delta from the front. Deltas are an example of the complex processes that happen along coastlines.

Climate Change - The Warmest Winter

Image
The  northern hemisphere  winter  , December 2014 to February 2015, was the warmest in the records,  according to NASA. The average temperature, taken for northern land and ocean surfaces, was  0.79°C above the 20 th   century average.  This was the highest for December, January and February in the 1880–2015 record, passing the previous record of 2007 by 0.03°C. It is interesting to note that there were some 'cold spots'. Eastern North America was colder than average, and there is an obvious 'blue blob' in the North Atlantic. In 2015,  Boston ’s month of snow was a  1-in-26,315 year occurrence.

Climate Change - The 8,200 year event

Image
When the last glacial period ended about 11,500 years ago, the Earth's modern climate began to develop.  The large continental ice sheets shrank, and sea level rose. Around 8,200 years ago, however, a major cooling event occurred.  The   8.2 ka event   was first discovered in the Greenland ice core  GISP2. Over two decades temperature cooled about 3.3°C in Greenland . Temperatures in Europe dropped by around 2 °C. The entire event lasted about 150 years. Then temperatures warmed, returning to their previous levels.  So what caused the 8.2 ka event? As the large ice sheets in Canada were melting, a large  meltwater lake  formed south of the Hudson Bay.   Geologists have named this  Lake Agassiz , after the  19th century scientist Louis Agassiz. It was dammed to the north by the  Laurentide  ice sheet . Slowly, the ice melted further, and the lake emptied into the sea in a very short period of time. The release of the water fro

Climate Change - The Atmosphere

Image
Space is not very far away. Aircraft on long-haul flights travel at a height of about 10 km. The lowest layer of the atmosphere, the  Troposphere,  ends at about 15 km. The air in the layers above the troposphere is very thin indeed. Think of a place around 15 km (9 miles) from where you are. That's pretty much how near you are to space. All the waste gases people dump into the air are trapped in the thin layer of air around the Earth. Molecules  in the air include nitrogen and oxygen as well as water, carbon dioxide, ozone, and many other compounds in trace amounts, some created naturally, others the result of human activity. In addition to gases, the atmosphere contains extras such as smoke, dust, acid droplets, and pollen. Atmospheric concentrations  of some  greenhouse gases  over the last 2,000 years.  Increases since about 1750 are due to human activities in the industrial era.  Concentration units are  parts per million (ppm)  or  parts per billion (ppb)

Climate Change - Can climate change increase earthquakes and volcanic eruptions?

Image
Between about 20,000 and 5,000 years ago, Earth slowly changed from the frigid conditions of an  Ice Age , to the world on which our civilization has developed. As the  ice sheets  melted, colossal volumes of  water  flowed back into the oceans. The  pressures  acting on the Earth's crust changed as a result.  The  weight of ice  on the continents was reduced, and the rising seas put  extra water pressure  on the seafloors. In response, the  crust  moved up and bent, creating extra volcanic activity, increased seismic shocks and giant landslides. So if we continue to allow greenhouse gas emissions to rise unchecked, causing serious warming, will our planet's crust react once again? In Alaska, climate change has pushed temperatures up by more than 3 degrees Celsius in the last half century, and  glaciers  are melting at a staggering rate, some losing up to 1 kilometre in thickness in the last 100 years.  The reduced weight on the crust beneath is allowing  faults  to

Climate Change - Tropical storms

Image
Hurricanes, cyclones, and typhoons are all the same weather phenomenon. We use those different names for these  tropical storms  in different places.  In the Atlantic and North-East Pacific, the term  “hurricane”  is used. So far, Hurricane Patricia  is the strongest hurricane recorded at landfall.  Image of Hurricane Patricia tweeted by astronaut Scott Kelly . In the North-West Pacific a tropical storm is called a  “typhoon” , and  “cyclones”  occur in the South Pacific and Indian Ocean. Three strong tropical storms  (Kilo ,  Ignacio , and  Jimen a) ,  formed in the Pacific in 2015. On Sunday 30th August, all of them were a category 4.  This was the first time the north-eastern Pacific had seen three category 4 hurricanes at the same time. Multiple cyclones in the Pacific Ocean in 2015 Tropical storms  can’t form outside the tropics - water temperatures are too cold. Sea surface  temperature  must be at least 27 ° C , and this temperature is actually required to a de

Climate Change - Oceans Are Losing Oxygen

Image
Marlin  can hunt in water a half mile down, and sailfish often dive deep too. In more and more places around the world, ocean predators are sticking near the surface. Why? Warming temperatures are  sucking oxygen out of waters  even far out at sea, making enormous stretches of deep ocean hostile to marine life. Vast stretches of the ocean interior  suddenly lost oxygen  during the transition out of the last  glacial stage , between 17,000 and 10,000 years ago.  This event was the most recent example of large-scale global warming.

Climate Change - September 2015 - another record breaker

Image
According to the US National Atmospheric and Oceanic Administration  (NOAA) September 2015 was the warmest September in the modern record, which began in 1880. September 2015 was 0.90°C (1.62°F) warmer than the 20 th  century average of 15.0°C (59.0°F), surpassing the previous record set in 2014 by 0.12°C (0.19°F).  September 2015 was  the fifth consecutive month   a monthly high temperature record has been set. The temperature for September 2015 shows the  highest departure from average for any month among all 1629 months in the record that began in January 1880.

Climate Change - The Last Interglacial

Image
This graph shows how  carbon dioxide  has increased and decreased over hundreds of thousands of years. The low readings match with times called ' glacial stages '. During glacial stages,  ice  covered large areas of the Earth. The peaks in the graph show times when carbon dioxide was high, matching times called ' interglacial stages '. The most recent glacial stage occurred between about 115,000 and 11,500 years ago.   The  last interglacial period  occurred before it, from around 130,000 to 115,000 years ago. It's official international name is the  Eemian,  but it has other names in specific places. Climate information from that time is particularly useful. During that time,  temperatures  on earth were higher at the poles than they are now.  The  sea level  was between five and nine metres higher than current levels, because of the melting of ice in  Greenland  and  Antarctica . In the UK, t his last interglacial period is called the

Climate Change - July 2015

Image
July 2015 was the warmest month in the modern temperature record. The average temperature for July 2015 across global land and ocean surfaces was 1.46°F (0.81°C) above the 20 th  century average, according to the  United States National Oceanic and Atmospheric Administration. They say: "As July is climatologically the warmest month for the year , this was also the all-time highest monthly temperature in the 1880–2015 record, at 16.61°C, surpassing the previous record set in 1998 by 0.08°C." Previous months in 2015  have also shown a warming trend is continuing, following the  record-breaking  year 2014.

Climate Change - 1816: The "Year Without a Summer"

Image
The climate can react to sudden shocks. The weather in  1816  was very strange.  Spring arrived, but then everything seemed to turn backward, as cold temperatures returned.  The sky seemed permanently overcast.  T he lack of sunlight became so  severe that farmers lost their crops. Food shortages were reported in Ireland, France, England, and the United States. 1816 became known as  "The Year without a Summer"  or "18-hundred-and-frozen-to-death". It was over 100 years before anyone understood the reason for this weather disaster. The eruption of an enormous volcano on a remote island in the Indian Ocean a year earlier had thrown enormous amounts of volcanic ash into the upper atmosphere. The dust from  Mount Tambora , which had erupted in early April 1815, had shrouded the globe.  With sunlight blocked, 1816 did not have a normal summer. In Switzerland, the dismal summer of 1816 led to th

Climate Change - Oil geology

Image
Oil is a  fossil fuel . It was formed from chemicals from ancient living things. To make the chemicals in oil, the  temperatures  and  pressures  needed to be just right. The oil (and gas) will only stay in the reservoir if there are  suitable structures  in the rocks: The carbon compounds from the plants and animals have been trapped for hundreds of millions of years. They have been burned to make carbon dioxide in a very short time. The amount of carbon dioxide in the air has changed very quickly. Diagram of how oil is made Source:  Library and Archives Canada © Library and Archives Canada

Climate Change - The Paleocene-Eocene Thermal Maximum

Image
Yes, global warming has happened before. Scott L. Wing  is a research scientist and curator at the Smithsonian’s Museum of Natural History. One of Scott's major research interests is the  PETM. "The Paleocene-Eocene Thermal Maximum  (PETM) was an abrupt global warming event. It occurred at the beginning of the  Eocene Epoch , about 55.8 million years ago.  At the start of the event something like 5-10,000 gigatons of carbon were released into the ocean and atmosphere in less than 10,000 years.  As a result of the carbon release, temperatures rose 5-9˚C globally.  The PETM is widely recognized by scientists as the best geologic analogy for the human-induced global warming that is happening now." Badlands of the PETM in the southeastern Bighorn Basin in Wyoming, USA. However, the current production of greenhouse gases by humans is  far faster than the events that caused the PETM. It took around 150,000 years for ecosystems to recover from this event.

Climate Change - El Nino

Image
El Niño  is an  oscillation of the ocean-atmosphere system in the tropical Pacific , and has important consequences for weather around the world. El Niño  happens every three to seven years. “El Niño” is Spanish for “The Christ Child”. Peruvian fishermen named the event many years ago. They noticed that every few years around Christmas, virtually no fish could be found in the unusually warm waters.  El Niño is marked by  unusually warm ocean temperatures  in the Equatorial Pacific. The opposite conditions are called  La Nina , characterized by  unusually cold ocean temperatures  in the Equatorial Pacific.  El Nino clearly affects global temperatures. One piece of evidence that world temperatures are rising is that every  La Nina  ‘year’ since 1998 was warmer than every  El Nino  ‘year’ before 1995:   Information about El Nino is provided in bulletins produced by the US  National Weather Service  and the  Australian Bureau of Meteorology.