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What is a twister? Why are the majority of twisters observed in areas around the Gulf of Mexico? (Answer in 250 words) [UPSC 2024]
Model Answer Introduction A twister, commonly known as a tornado, is a rapidly rotating column of air that extends from a thunderstorm to the ground. These phenomena are characterized by their destructive potential and are often associated with severe weather conditions. For example, the recent tornRead more
Model Answer
Introduction
A twister, commonly known as a tornado, is a rapidly rotating column of air that extends from a thunderstorm to the ground. These phenomena are characterized by their destructive potential and are often associated with severe weather conditions. For example, the recent tornado outbreak in Texas in 2023 caused extensive damage in the affected region.
Characteristics of Twisters
Reasons for High Twister Frequency Around the Gulf of Mexico
Conclusion
Reducing the devastating impact of twisters requires effective early warning systems, public awareness, and coordinated disaster response plans. Advanced meteorological tools and timely alerts save lives, while education and preparedness empower communities.
See lessWhat are aurora australis and aurora borealis? How are these triggered? (Answer in 250 words) [UPSC 2024]
Model Answer Introduction Aurora Australis and Aurora Borealis, commonly known as the Southern Lights and Northern Lights, respectively, are spectacular light displays occurring in the polar regions. These phenomena result from interactions between charged particles from solar winds and the Earth’sRead more
Model Answer
Introduction
Aurora Australis and Aurora Borealis, commonly known as the Southern Lights and Northern Lights, respectively, are spectacular light displays occurring in the polar regions. These phenomena result from interactions between charged particles from solar winds and the Earth’s magnetic field and atmosphere, producing vibrant colors that illuminate the night sky.
Aurora Borealis (Northern Lights)
Aurora Australis (Southern Lights)
Triggering of the Auroras
Conclusion
Understanding these remarkable natural displays not only deepens our appreciation for them but also highlights the intricate relationship between solar activity and Earth’s magnetic field. Ongoing research into solar winds and geomagnetic disruptions is essential for advancing atmospheric science.
See less"The Himalayas are highly prone to landslides." Discuss the causes and suggest suitable measures of mitigation. (200 words) [UPSC 2016]
The Himalayas and Landslide Vulnerability: Causes and Mitigation Measures Causes of Landslides in the Himalayas Geological Factors The Himalayas are a young and geologically unstable region. The region’s steep slopes, combined with the presence of loose sedimentary rocks, make it highly susceptibleRead more
The Himalayas and Landslide Vulnerability: Causes and Mitigation Measures
Causes of Landslides in the Himalayas
The Himalayas are a young and geologically unstable region. The region’s steep slopes, combined with the presence of loose sedimentary rocks, make it highly susceptible to landslides. The ongoing tectonic activity due to the collision of the Indian and Eurasian plates further destabilizes the region.
Intense and prolonged monsoon rains can saturate the soil, reducing its stability and leading to landslides. For example, the 2013 Uttarakhand floods demonstrated how excessive rainfall can trigger massive landslides.
Construction activities, such as road building and deforestation, disturb the natural slopes and increase the risk of landslides. The expansion of infrastructure in hilly areas without proper planning exacerbates the problem.
Mitigation Measures
Implementing better land use practices and restricting construction in high-risk areas can reduce landslide risk. For instance, India’s National Disaster Management Authority (NDMA) has developed guidelines for safe construction practices in hilly areas.
Reforestation and slope stabilization techniques, such as planting vegetation and building retaining walls, help to reinforce soil and prevent erosion. The Himalayan Forest Research Institute is actively involved in reforestation projects to stabilize landslide-prone areas.
Developing early warning systems and real-time monitoring can provide advance alerts for potential landslides, allowing for timely evacuations and disaster preparedness. Recent initiatives include satellite-based monitoring systems implemented by the Indian Space Research Organisation (ISRO).
Educating local communities about landslide risks and preparing them for emergencies can significantly reduce the impact of landslides. Community-based disaster management programs are essential in enhancing local resilience.
By addressing these causes and implementing the suggested measures, the vulnerability of the Himalayas to landslides can be significantly reduced, contributing to the safety and resilience of the region.
See lessWhy are the world’s fold mountain systems located along the margins of continents? Bring out the association between the global distribution of fold mountains and the earthquakes and volcanoes. (150 words) [UPSC 2014]
Fold Mountain Systems and Their Global Distribution Location Along Continental Margins The world's fold mountain systems are primarily located along the margins of continents due to tectonic plate boundaries. These mountains form where tectonic plates converge, causing the Earth's crust to fold andRead more
Fold Mountain Systems and Their Global Distribution
Location Along Continental Margins
The world’s fold mountain systems are primarily located along the margins of continents due to tectonic plate boundaries. These mountains form where tectonic plates converge, causing the Earth’s crust to fold and create mountain ranges. For example, the Himalayas result from the collision between the Indian Plate and the Eurasian Plate.
Association with Earthquakes and Volcanoes
Fold mountain systems are closely associated with earthquakes and volcanoes due to their proximity to tectonic boundaries. The intense geological activity at these boundaries leads to frequent seismic events. For instance, the Ring of Fire, encircling the Pacific Ocean, is a major area of fold mountains, such as the Andes, and is known for high volcanic activity and earthquakes.
Recent Examples
See lessThe Nepal Earthquake of 2015, which caused widespread devastation, occurred along the boundary where the Indian Plate meets the Eurasian Plate, a key region for fold mountains like the Himalayas. Similarly, the Chile Earthquake of 2010 and the volcanic activity in Japan demonstrate the link between fold mountains and tectonic activity.
Like earthquakes, the spatial distribution of volcanoes across the globe is well-defined in belts or zones. Discuss.
Earthquakes and volcanoes are natural phenomena and are closely linked with seismic events. An earthquake is caused by to release of energy along a fault in the earth's crust, which generates waves that travel in all directions. A volcano is a place where gases, ashes, and/or molten rock material laRead more
Earthquakes and volcanoes are natural phenomena and are closely linked with seismic events. An earthquake is caused by to release of energy along a fault in the earth’s crust, which generates waves that travel in all directions. A volcano is a place where gases, ashes, and/or molten rock material lava – escape to the ground. The spatial distribution of earthquakes and volcanoes shows a close relation between the two as indicated in the figure below: Most of the largest earthquakes that ever happened on Earth, were along the Circum-Pacific belt, which is also called the ‘Ring of Fire. After this, earthquakes have been more frequent in the Alpide or Alpine-Himalayan earthquake belt, which runs from Java to Sumatra through the Himalayas, the Mediterranean, and out into the Atlantic. The third prominent belt follows the submerged mid-Atlantic Ridge. The map of volcanoes also shows a similar pattern. They are distributed along three major belts or zones in the world, namely-
(i) Circum-Pacific belt: Also known as the ‘volcanic zones of the convergent oceanic plate margins’, it includes the volcanoes of the eastern and western coastal areas of the Pacific Ocean, of island arcs and festoons off the east coast of Asia and of the volcanic islands scattered over the Pacific Ocean. (ii) Mid-continental belt: Also known as ‘the volcanic zones of convergent continental plate margins’, it includes the volcanoes of Alpine mountain chains and the Mediterranean Sea and the volcanoes of the fault zone of eastern Africa. (iii) Mid-oceanic ridge belt: This belt includes the volcanoes mainly along the mid-Atlantic ridge which represents the splitting/divergent zone of plates. The spatial distribution of volcanoes and earthquakes show similarities as both events are closely linked with the Theory of Plate Tectonics, which explains the formation of convergent and divergent boundaries and the motion of plates. 
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