Tuesday, December 27, 2011

Global Mountian Glacier's Melting Away

         Many glaciers worldwide are melting faster than previous estimations as Earth's climates cycle through warm and cool periods. Greenland, Canada, Peru, and Nepal are a few examples given, showing both minor and major changes that occur as glaciers tend to melt. Environmental research by several research teams across the globe show a trend of glacial ice melt that may endanger human settlements, drinking water, and the climates we are currently adjusted to.
        Greenland’s glaciers are melting much faster than previously estimated and may be more sensitive to climate change than previously assumed. New research also states they can also quickly expand during relatively short periods of climatic cooling.
Jason Briner, a professor of geology at the University of the Greenland, said, “When we look at the geologic record, we are finding out that the large rivers of ice that drain ice sheets are extremely sensitive to climate change, both warming and cooling. Probably the larger these rivers of ice are, the more sensitive they are to climate change.” Greenland researchers also identified another stage of advancement around 8,200 years ago by dating boulders where the glacier once stood. Although the researchers cannot say how much the ice cap grew by during these times, they claim the fact that it advanced at all during short cooling periods during warming times demonstrates a high sensitivity to climate change.
       The glaciers of Canada's Saint Elias region which is nearly 98 cubic miles of ice are estimated to likely be cut in half by 2100, in normal melt scenarios. In other parts of the Canadian Rockies today's glaciers will all but disappear completely, while others will shrink to 5-20% percent of their current size. We may be witness to the disappearance of the glaciers of western North America.
Although it is estimated that if all of the world's mountain glaciers were to melt, the effect on sea level rise would be minimal. If all of western Canada's glaciers were to completely melt away, the oceans would rise by a quarter of an inch
       Nepal's Ngozumpa glacier is melting away at a rapid pace and retreating at its edges because of global warming. The Himalayas have been warming considerably more than the global mean temperature in recent decades. Glaciers in most of the region are showing signs of thinning, shrinking, and retreating, which is giving way to a lot of melt water. On Ngozumpa, some of this water is seen to pool on the surface and then drain away through caverns and streams to the mouth of the glacier. A colossal lake is now growing,called Spillway, and is likely to be about 6km long, 1km wide and 100m deep. The concern is that this huge mass of water could ultimately break through the debris dam that blocks it and hurtle down the valley, sweeping away the Sherpa villages in its path. According to the scientists, although the threat is not immediate, but it is a situation that requires monitoring. In one incidence a camera captured a glacial lake losing more than 100,000 cubic meters of water in just two days.  Within five days, the lake had recovered half the volume, fed by waters from higher up the glacier.
      As Earth's mountain glaciers melt away faster than they have at any other time, we should take heed to the climates increasing warming period and take further precautions environmentally to ensure that humans are not the cause for this major meltdown. The loss of these glaciers could have a severe impact in how we live and survive on our planet. Further research should be pursued to ensure that these natural wonders don't slip away into our lakes and oceans and cause an increased risk to Earth's and our own well-being.
  

 

Sources Cited: 

Tuesday, December 20, 2011

Hawaii's Kilauea Volcano

     January 2012 will celebrate the 100th anniversary of the United States Geological Survey’s Hawaiian Volcano Observatory, located on the rim of KÄ«lauea Volcano’s summit caldera. Hawaiian eruptions are generally non-explosive and can be observed and studied with relative safety, allowing scientists and geologist to better understand eruptive processes and products and providing tourists unforgettable memories.  Over geologic time, volcanic activity, in Hawaii and elsewhere in the world, has created and shaped more than eighty percent of the Earth’s surface, above and below the sea.
      One of the world's most active volcanoes, Kilauea began a  long-term eruption from the east rift zone in 1983. It is one of five coalescing volcanoes that comprise the island of Hawaii and is also the youngest. Eruptions at Kilauea originate primarily from the summit caldera or along one of the long east and south rift zones that extend from the caldera to the sea. According to Discovery News, a new assessment of Kilauea's activity suggests that the volcano may simply be in a lull between violent eruptions. Discovery cites carbon dating of the old eruptions as an indication that "the volcano was explosive for 60 percent of the past 2,500 years. It just happens to be in one of its more peaceful, lava-flow stages at the moment."
     Despite this peaceful lull the shield volcano did manage to erupt with a surge of lava that reached  eighty feet into the air this past May, 2011. Hawaii Volcanoes National Park closed the Chain of Craters Road (major tourism and hiking hot spot) all east rift zone and coastal trails during the event. It managed to leave a new 1.4 mile gash along the east rift zone. The United States Geological Survey has kept up a live webcam stream of the eruption and the volcanoes current status which remains viewable on their website.
     Hawaiian authorities allow thousands of visitors each year to hike closely to the Kilauea volcano's lava streams that feed into the sea. Don Swanson, a geologist with the Hawaiian Volcano Observatory, has referred to Kilauea as a high-risk area. “Though the explosions may be smaller, there are a lot more people in the area, so the risk is very high,” he reportedly told a news conference Tuesday at the annual fall meeting of the American Geophysical Union in San Francisco. “So we have to be very concerned."An eruption in 1790 that killed several hundred people makes Kilauea the deadliest volcano active in the United States. Several homes have been destroyed recently in the Royal Gardens district with currently only one resident remaining.
   The Hawaiian volcano chain remains the most active in the world currently and is of immense  interest and research for many geologist, vulcanists, and scientist. I believe that Kilauea's lull in explosive eruptions is a great opportunity for the study of the earths mantle and crust development that can be seen and studied physically not just in theory. Being able to interact with our environment whether by hiking along its lava flows or studying it firsthand is an amazing gift we must take advantage of.
    
   



Sources:
http://hvo.wr.usgs.gov/kilauea/
http://www.usgs.gov/newsroom/article.asp?ID=2820
http://www.globalpost.com/dispatches/globalpost-blogs/weird-wide-web/hawaii-travel-active-volcano-kilauea-killer-mount-st-helens
http://www.sciencecentric.com/news/11120225-lava-fingerprinting-reveals-differences-between-hawaii-twin-volcanoes.html

Monday, November 14, 2011

Cloud Seeding -Impacts Upon The Climate

     Cloud seeding has become an controversial subject as it becomes a popular method of controlling the precipitation that falls. Used in warfare in Vietnam it was kept a secret weapon. In China they reported to use man-made cloud seeding during the 2008 summer Olympics so that no rain delays would occur and delay events. In Kansas and Texas cloud seeding has become a regular habit for forcing precipitation over croplands. Is cloud seeding morally right? Should humans be in control of the weather? And what are some of the effects it  has on the climate as man defines the boundaries of technology and the natural world on the same plane.
     Cloud seeding started in November 1946 when Vincent J. Schaefer, a self taught chemist and meteorologist working for General Electric produced the first 'static method' cloud seeding effect in a lab and went on to test it for the first time over Greylock in western Massachusetts. He used dry ice pellets at an altitude of 14,000 ft to obtain the first results of precipitation. There are three types of cloud seeding: the static method using dry ice, silver iodide, or dust particles; the dynamic method using 100 times more ice crystals and set up into 11 distinct phases that must occur correctly to work dependably; and the hygroscopic method which disperses salts through the use of flares and explosives into the lower parts of clouds.
     From 1967 to 1972 the United States government carried out operation 'Popeye' using cloud seeding to extend the monsoon season over North Vietnam, primarily over the Ho Chi Minh Trail. The idea was to 'make mud, not war'. It was halted after being discovered and suspected in the severe monsoons and typhoons N.Vietnam experienced in 1971. 'Rainmaking as a weapon of war can only lead to the development of vastly more dangerous environmental techniques whose consequences may be unknown and may cause irreparable damage to our global environment. This is why the United States must move quickly to ban all environmental or geophysical modification techniques from the arsenals of war.' Quoted from Senator Claiborne Pell, chairman of the Senate Subcommittee on Oceans and International Environment.
     China, European nations, the United States, Canada, and Mexico have been using Cloud seeding regularly to help bring precipitation to areas of drought, hold off hail from croplands, and even bring more snow in to areas such as ski resorts for recreation. Many people are asking if we've pushed the boundaries of nature in trying to shape it to the way we want it to behave. Others ask if perhaps using weather modification methods such as cloud seeding has a hand in recent calamities such as tsunamis in Japan and Thailand, Hurricane Katrina in Louisiana, wildfires in Colorado, and droughts and heatwaves in many parts of the world. Perhaps we have gone too far in shaping our world to the way we want it to work, but personally I see no end to the way humans shape and use weather modifications, only new possible beginnings of larger scale projects.
     Human nature is progress whether or not it is always in our best interest. I see cloud seeding as beginning as many others do. Already new modifications are being looked upon, the use of heavily pulsing lasers in humid conditions creates new clouds and condensation to form. Concerns of the condensation being used in an area it may not normally fall creating droughts, wildfires, and monsoons has many valid points and should be indelibly looked into before new modifications create any unwanted problems. I see potential in the way we view the natural world and science being combined if used in way to help humankind but weather modification should also be used sparingly in extreme cases of need not for showmanship (Olympics), war tactics,( Vietnam), or for recreational sports such as at ski resorts.



Sources Cited:
http://www.scientificamerican.com/article.cfm?id=cloud-seeding-china-snow
http://science.howstuffworks.com/nature/climate-weather/meteorologists/cloud-seeding1.htm
http://news.gather.com/viewArticle.action?articleId=281474980729548
http://www.sunshine-project.org/enmod/US_Congr.html




Cape Wind - Renewable Energy for Massachusetts

     One of Massachusetts biggest wind energy's programs is Cape Wind. The potential energy gain could power a majority of residences on Cape Cod and the islands. Amid delays and legal tie-ups, Cape Wind could either be a major milestone for renewable energy or a major setback if continued to be fought. If successful the project could lead to other natural energy projects being accepted and incorporated in Massachusetts and the New England area.
     Cape Wind proposes 130 offshore wind turbines each at 258 feet tall. The wind turbines will be arrayed in a grid pattern of parallel rows. In each row wind turbines will be .34 nautical miles apart and each row will be .54 nautical miles apart. The average expected production will be 170 megawatts which is almost 75% of the 230 megawatt average electricity demand for Cape Cod and the Islands of Martha’s Vineyard and Nantucket. The turbines would significantly reduce the dependency on fossil fuels and the occurring air pollution that it causes, nor would it create any waste such as a nuclear power plant.
     One of the delays impeded upon Cape Wind comes from its own regulatory reviewers. The Federal Aviation Administration (FAA) decision that the Cape Wind would not be a hazard to flight plans was overturned recently, the appeals court remanding a new review. The opponents argued that the FAA violated its governing statute, misread its own regulations, and failed to calculate the dangers posed to local aviation. The new review could take about another two years, which unfortunately pushes the project further back from its hopeful 2020 completion date.
     Several groups have fought the construction of the wind farm on environmental, fishing, and tourism concerns. The environmental concerns such as migratory birds and sea mammals habitats has been studied and overturned as there seems to be little impact on the way theses creatures interact with the wind turbines, the birds seem to simply adapt to flying around them and since there is no roosting space are deterred from breeding there. Several fish species are expected to increase as marine growth covers the bases of the turbines as a study of European wind farms is stated to have occurred. As for the visual aspect of concern for tourism the turbines are expected to only be viewed about an inch above the horizon from the cape.
     I am personally hoping to see the Cape Wind project start construction and put into action.The jobs that it will create and energy reliability and dependability it will provide an economic boost sorely needed. I see an increase in tourism and mark of modernity to the way we approach renewable energy sources, and also marks Massachusetts as one of the firsts to improve upon the way we harness these resources.