We use cookies to give you the best experience possible. By continuing we’ll assume you’re on board with our cookie policy

The role of human activities in both preventing and controlling this hazard type Essay Sample

The whole doc is available only for registered users OPEN DOC

Get Full Essay

Get access to this section to get all help you need with your essay and educational issues.

Get Access

The role of human activities in both preventing and controlling this hazard type Essay Sample

Preventing geomorphological hazards virtually impossible simply because the power of the earth is far greater than the power of humans and the ways in which we could try to prevent such hazards occurring outright. The example of the Californians highlights this well; an attempt was made to lubricate the San Andreas with water in the hope that movement would be more flowing and thus produce less energetic shockwave, as it is the vibrations of earthquakes that cause the body of the damage..

Preventing the geomorphic hazards from being a threat to human is very possible, particularly through human activity because our technology is developing rapidly and so as a result we are understanding the hazards that a posed by geomorphological events and there are many hundreds of individual example to prove this. Controlling the effects of geomorphological hazards is possible, and is successful as shown by a variety of examples worldwide, although it is by no means simple.

Preventing geomorphological hazards from ever occurring is virtually impossible, simple because humans do not have the power to stop the convection currents that drive tectonic plate movement, we don’t have the power to prevent a volcano from erupting and we don’t have the power to prevent large forms of mass movements. The topic of mass movement is interesting, not least because it can occur on a very local scale, a scale that humans can prevent through a variety of means.

The most primitive yet effective ways is to use harness the power of vegetation. Where the type of mass movement involved mainly soil, thus the hazard would be labelled a mudslide, vegetation and particularly trees can bind the soil together and prevent the slide. Tree and plant roots would not only bind the soil together, making it less susceptible to the power of gravity and the lubricating power of water, but they would intercept some of the water that would be present during a potential mudslide reducing the risk further.

For slopes where the type of mass movement involves rock, such as rockslides and rock falls there is new technology, based on old techniques, which can bind the rock together again reducing the risk from water and gravity. The new machine named roboclimer, which may sound comical but has very serious potential, was developed in Italy by the University of Genova where there are on average 400 slides every year which have resulted in 5939 deaths in the twentieth century.

The robot drills deep holes into the rock face – at any angle and in any type of rock – which allows for steel rods to be threaded through, fixed in place and tightened which compresses the rock slightly binding it together more tightly thus making it stronger and able to withstand greater forces. The processes highlighted are very effective in preventing mass movements occurring, but other types of hazards such as volcanoes, earthquakes and tsunamis cannot be prevented by human activity.

What can be prevented is the severity of this hazard in relation to people through a variety of means. There are vast ranges of ways that people can be protected against the hazard or a volcano; an earthquake; or a landslide. For volcanoes prevention relies heavily on prediction as knowing where and when a volcano is going to erupt is important information in saving lives. Prediction can be achieved through satellites monitoring of heat built-up, gas emissions or ground deformation, and human monitoring can collect the same data.

When a volcano does erupt, the threat of the hazard can be contained particularly through stopping the lava flow or diverting it away from a settlement, which has been a particular concern for Sicilians with the ever-present threat of the Mount. Etna volcano. One method used was to build a retaining wall around the volcano, with the come of preventing the lava from flowing beyond that point, but the wall failed because the weight of the lava flow building up behind the wall caused it to collapse.

The idea wasn’t bad – it was the materials that caused the project to fail, but in 1983 and 1992 a similar project using earth mounds had more success. The barriers were breached but the lava had been slowed sufficiently for it to stop before entering inhabited areas because the delay of breaching the barrier allowed the lava to cool. Other methods include the use of explosives, which had also been used when attempting to prevent the lava flows of Mauna Loa in Hawaii.

The explosives widen the lava channels causing the lava to spread out more thinly which will cause it to lose heat faster and thus stop moving higher up the mountain. As bizarre as the method sounds there have been good results, particularly in the 1992 eruption of Etna. On the island of Heimaey in Iceland a lava flow not only threatened the lives of the villagers but also threatened to close one of the few deep sea ports in the region.

The lava flow was basaltic lava so moved rapidly and cooled slowly so it presented a very real and dangerous threat to the people, but this threat was prevented by the Icelanders spraying the lava flow with 6 million cubic litres of sea water to cool to lava by 50 degrees. The action was a success and the Mt. Eldfell eruption did not cause lasting damage to the village and it people and the port was saved. There is much more that humans can do to prevent the hazards posed by earthquakes, even though they are harder to predict.

Retrofitting is the practice of upgrading houses to withstand the force of earthquakes and is widely used in the MEDW, particularly Kobe, Japan and California, USA. There scale of retrofitting varies widely from using shutters to cover windows that may shatter during an earthquake to prevent lethal shards of glass from falling on pedestrians to completely changing the structure of a building via replacing inflexible materials such as bricks and mortal with more flexible materials such as wood and placing large rubber pads into the foundations of buildings to absorb shocks.

In the most extreme cases buildings can be designed to sway with the effects of the vibrations, such as the Transamerica Pyramid in California which swayed up to 12 feet in the Loma Preita earthquake. Unlike volcanoes there is very little that can be done to prevent the physical hazard, in this case the vibrations, but there is plenty that people can do to protect themselves. In Kobe, on the 1st September every year they hold a disaster day to educate people on what actions to take in the event of such a hazard in an attempt to prevent it from being a threat to life.

The day involves practising evacuation drills and demonstrations on what vital supplies should be stored in the case of a geomorphologic hazard. Tsunamis, which generally occur as a result of deep sea earthquakes but can be the result of volcanic action, are another hazard that can be prevented from being a hazard but cannot be prevented altogether. Tsunamis cause a hazard because there is usually very little than can absorb energy once the wave hits land, but as a result of the recent Tsunami on 26th December 2004 in Asia there has been renewed interest in finding ways to prevent tsunamis from being a hazard to so many people.

Because of the likelihood of tsunamis affecting lesser economically developed countries, the body of prevention research centres around using natural resources. Mangrove trees are one idea that has surfaced. Mangrove trees grow in thickets along the coast and bind the shore together with their complicated root system which also makes them very strong and able to withstand greater forces.

Whilst a group of mangrove trees would not be able to withstand a tsunami, they can absorb a lot of the wave’s energy substantially reducing the damage, as shown at an area named Tamil Nadu on the Indian Coast where mangrove trees did just this. Mass movement, as already highlighted is a geomorphologic hazard that can be prevented, so not surprisingly their threat to humans can also be prevented. Mass movement is a particular threat to humans living near to base of a hill where mass movement may occur, and so it is theses areas where prevention should be concentrated.

Controlling activities that are known to encourage mass movement is one of the main ways to do this and involves the reduction of ground vibrations and the management of water in the system. Ground vibrations mainly come from passing traffic and explosions at quarry’s, can cause mass movement because the vibrations give soils and rocks extra energy that could trigger movement, so strategically placing roads away from hillsides where possible and re-enforcing the hillside help prevent this.

Water near a hillside can lubricate material which could reduce the amount of energy needed for mass movement to occur and thus create a potential hazard. To try and prevent lubrication through water the use of tarmac and concrete in areas that may be affected can be reduced in the hope that this will allow for more water to penetrate into the soil and prevent overland flow. In other cases hillsides can be engineered to have a shallower gradient to reduce the effect of gravitational pull on material therefore preventing mass movement.

Where it is not economically viable to re-enforce the whole of the hillside, segments may be re-enforced to reduce the scale, and thus the impact that mass movement may have on people. Human activities are shown to have huge potential in the control of geomorphological hazards, particularly in the MEDW where all the new technology is financially viable. Alongside our ability to control different hazards to different degrees, human activities have also been shown to prevent geomorphic events as hazards to humans, or at least have downgraded the severity of the hazard.

However, not surprisingly human activity has very little influence when attempting to prevent geomorphic hazards occurring at all. At best we can prevent some types of mass movement, but it would not be financially viable to do this for every threat, which is why it is important to develop techniques to control such events. No matter what new technology we develop, it is highly unlikely that we, as humans, will ever be able to prevent the occurrence of the two most powerful geomorphic events; volcanoes and earthquakes.

We can write a custom essay

According to Your Specific Requirements

Order an essay

You May Also Find These Documents Helpful

Peculiarities of various assignment types

The educational process is diverse and full of interesting writing tasks which help students develop their academic abilities. Different assignments types are created by professionals in order to enhance students’ level of analytical, critical and writing skills and to vary the learning process. As a student, you will encounter numerous tasks of diverse complexities throughout your student life. Sometimes, maybe, too complicated! They have different peculiarities, structural...

Making decisions in health and social care

Critically analyses the concepts, features, and importance of costs and accounting in making decisions in health and social care Cost accounting is a method used in accounting to capture a company’s or organisation’s production costs. It assesses the input costs of every step in production, fixed costs like depreciation of capital equipment. Cost accounting measures and records costs individually then compare the input results via...

Сhildren development

Physical development 7-12 years By the age of 7 a child enjoys things such as bike riding and rollerblading they are now able to tie and untie shoelaces without adult help, they are now starting to understand what rules are and are able to follow simple rules. At 8-12 years a child improves the physical skills that they have already developed and start to see...

Forex international trading market

Introduction Forex exchange is on the rise in Namibia; resulting in more people wanting to learn how to trade to try to increase their income so that they can enhance their standard of living. Forex Foreign exchange identifies the process of converting domestic currency into international banknotes at particular exchange rates (Bofah, 2017, para.1). As the number of foreigners in Namibia is increasing, more Namibians...

Aristotelian idea of God

This image produced in 1544 shows emerging's of the Judeo-Christians and Aristotelian's traditions. Aristotle was very interested in the idea of motion and said “The world is in a constant state of motion and change”. An example of how the world is changing is the growth of trees and plants. Aristotle believed in a prime mover, which is the being which creates change in the...

Get Access To The Full Essay
Materials Daily
100,000+ Subjects
2000+ Topics
Free Plagiarism
All Materials
are Cataloged Well

Sorry, but copying text is forbidden on this website. If you need this or any other sample, we can send it to you via email.

By clicking "SEND", you agree to our terms of service and privacy policy. We'll occasionally send you account related and promo emails.
Sorry, but only registered users have full access

How about getting this access

Become a member

Your Answer Is Very Helpful For Us
Thank You A Lot!


Emma Taylor


Hi there!
Would you like to get such a paper?
How about getting a customized one?

Couldn't Find What You Looking For?

Get access to our huge knowledge base which is continuously updated

Next Update Will Be About:
14 : 59 : 59
Become a Member