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UPSC Mains Answer PYQ 2019: Geography Paper 2 (Section- A) | Geography Optional for UPSC (Notes) PDF Download

Section 'A'

1. (a) On the outline map of India provided to you, mark the location of all the following. Write in your QCA Booklet the significance of three locations whether physical/commercial/economic/ecological/environmental/cultural in not more than 30 words for each entry: ( 2*10=20)

(i) Lothal
(ii) Beas river
(iii) Chikhaldara
(iv) Narora
(v) Lengpui
(vi) Kuldiha wildlife sanctuary
(vii) Thenmala
(viii) Anamudi
(ix) Barren island
(x) Durgaduani creek

UPSC Mains Answer PYQ 2019: Geography Paper 2 (Section- A) | Geography Optional for UPSC (Notes)

Lothal: Lothal is one of the Indus valley civilization sites located in Gujarat state and it was the economic hub and also a port city, now it is a culturally important site.
Beas river: Beas river is one of the five rivers of Punjab and a tributary of the Chenab river. Beas river is originated at Beas Kund in Himachal Pradesh. It flows completely in India from Himachal Pradesh to Punjab. The length is about 450 km.
Chikhaldara: Chikhaldra is a tourist place and hill station place in Maharastra. It has Gugamal national park, Chikhaladara wildlife sanctuary, many lakes, a fort, and a waterfall located in Chikhaldara.
Narora: Narora is an economic town famous for the Narora Nuclear plant, located on the bank of Ganga, Bulandshahar district of Uttar Pradesh.
Lengpui: Lengpui town is located in Mizoram. Lengpui is famous for being the largest airport which is developed by the state government and it is one of the busiest airports in the North-Eastern state.
Kuldiha wildlife sanctuary: It is famous for its endemic reptile and is located in the Balasore district of Orissa. It is part of the Mayurbhanj elephant reservoir. It is also linked to Simplipal national park.
Thenmala: Thenmala is a tourist place in Kerala. Thenmala means honey hill in Maltalam. It is famous for boating, trekking, mountaineering, etc.
Anamudi: It is the highest peak of western ghats or entire peninsular India that is located in Kerala. The height is 2695 meters.
Barren island: It is located in the Andaman sea and is famous for only confirming active volcanos in South Asia.
Durgaduani creek: India's first tidal power generation project came in Durgaduani creek of Sundarbans delta, located in West Bengal.

(b) Examine the Major Causes of Ground Water depletion in India.     (150 words, 10 marks)

Groundwater depletion in India is a serious concern as it is one of the primary sources of water for domestic, agricultural, and industrial usage. The major causes of groundwater depletion in India are as follows:

1. Population Growth: The rapid growth of population in India has led to an increasing demand for water to meet domestic, agricultural, and industrial needs. This has resulted in over-extraction of groundwater resources, leading to a decline in the groundwater table.

2. Agricultural Expansion: Agriculture is the largest consumer of freshwater resources in India, accounting for about 90% of total groundwater usage. The Green Revolution in India led to the expansion of irrigated agriculture, which in turn increased the demand for groundwater. The use of high-yielding varieties of crops, fertilizers, and pesticides also contributes to the depletion of groundwater resources.
3. Over-extraction: Due to the lack of proper regulation and monitoring, excessive extraction of groundwater has taken place in many parts of India. The increasing number of tube wells and borewells has led to a significant decline in the groundwater table. In some areas, the extraction rate exceeds the natural recharge rate, leading to a severe water crisis.
4. Inefficient Irrigation Methods: The use of traditional and inefficient irrigation methods like the flood method has resulted in the wastage of a large amount of water. This has further aggravated the problem of groundwater depletion.
5. Urbanization: The rapid urbanization in India has led to an increase in the demand for water resources. This has resulted in the over-extraction of groundwater to meet the needs of the growing urban population. Additionally, the concretization of urban areas has reduced the permeability of the soil, thus reducing the natural recharge of groundwater resources.
6. Industrialization: The growth of industries in India has significantly increased the demand for water resources. Industries like textiles, paper, and chemicals require large quantities of water and often extract groundwater to meet their needs. This has contributed to the depletion of groundwater resources.
7. Climate Change: Climate change has altered the pattern of rainfall in India, leading to changes in the recharge rate of groundwater resources. Frequent droughts, erratic rainfall, and decreasing monsoon intensity have adversely affected the replenishment of groundwater resources.
8. Pollution: Groundwater pollution due to the discharge of untreated sewage, industrial effluents, and agricultural runoff has led to the contamination of aquifers. This has further reduced the availability of usable groundwater resources.

In conclusion, groundwater depletion in India is a result of a combination of factors such as population growth, agricultural expansion, over-extraction, inefficient irrigation methods, urbanization, industrialization, climate change, and pollution. Addressing these issues through sustainable water management practices, policy interventions, and public awareness programs is essential to mitigate the crisis and ensure the availability of this vital resource for future generations.

(c) Why is the Indian Monsoon Erratic in Nature? Explain.     (150 words, 10 marks)

The Indian Monsoon is a complex meteorological phenomenon that plays a crucial role in the country's agriculture, water resources, and overall economy. It is known for its erratic nature, which often leads to floods or droughts in various parts of the country. Several factors contribute to the erratic nature of the Indian Monsoon:
1. Global atmospheric circulation patterns: The Indian Monsoon is a part of the larger global atmospheric circulation system. Various factors like the position of the Inter-Tropical Convergence Zone (ITCZ), the El Niño-Southern Oscillation (ENSO), and the Indian Ocean Dipole (IOD) significantly influence the strength and distribution of monsoon rains. Variations in these global patterns can cause the monsoon to be erratic.
For example, during an El Niño event, the warming of the Pacific Ocean can lead to weaker monsoon winds and decreased rainfall over India, causing drought-like conditions. On the other hand, a La Niña event can lead to stronger monsoon winds and excess rainfall, resulting in floods.
2. Orographic effect: The presence of the Himalayas, Western Ghats, and Eastern Ghats affects the distribution of monsoon rainfall in India. These mountain ranges obstruct the monsoon winds and cause them to rise, resulting in heavy rainfall on the windward side and relatively less rainfall on the leeward side. This orographic effect can cause rainfall to be highly variable and erratic within short distances.
For example, the Western Ghats receive heavy rainfall during the monsoon season, while the rain shadow region of the Deccan Plateau experiences significantly less rainfall.
3. Local factors: Local factors such as temperature, humidity, vegetation, and urbanization can also influence the distribution and intensity of monsoon rainfall. For instance, urban heat islands created by large cities can cause local convective rainfall, leading to erratic rainfall patterns.
4. Climate change: Climate change is causing an increase in the frequency and intensity of extreme weather events, including the Indian Monsoon. Rising global temperatures, melting of glaciers, and changes in land use patterns are all contributing to the erratic nature of the monsoon.
For example, studies have shown that increased warming of the Indian Ocean can lead to more frequent and intense monsoon rainfall events over the Indian subcontinent, resulting in floods and landslides.
5. Inherent uncertainty in weather systems: The Indian Monsoon is inherently unpredictable due to the complex interactions between various atmospheric, oceanic, and land processes. Despite advances in meteorology and weather forecasting, predicting the exact onset, duration, and spatial distribution of the monsoon remains a challenge.

In conclusion, the erratic nature of the Indian Monsoon can be attributed to a combination of global atmospheric circulation patterns, orographic effects, local factors, climate change, and the inherent uncertainty in weather systems. The resulting variability in monsoon rainfall has significant implications for India's agriculture, water resources, and overall socio-economic development.

(d) Explain the significance of dry farming in drought-prone areas of India.

Dry farming is an agricultural practice that involves cultivating crops without using irrigation in areas that receive less than 750mm of annual rainfall. It relies on moisture-conserving techniques and efficient utilization of available rainfall. In India, dry farming is practiced in various regions, including parts of Rajasthan, Gujarat, Maharashtra, Karnataka, Andhra Pradesh, and Tamil Nadu, which are prone to droughts.

The significance of dry farming in drought-prone areas of India can be explained through the following points:
1. Food security: Dry farming helps in ensuring food security in drought-prone areas by cultivating drought-resistant crops like millets, pulses, and oilseeds. These crops can thrive in low rainfall conditions and help meet the food requirements of the people in these regions. For example, Bajra (pearl millet) is a major dryland crop in Rajasthan, while Jowar (sorghum) is predominantly grown in the dry regions of Maharashtra and Karnataka.
2. Livelihood support: A large population in drought-prone areas depends on agriculture for their livelihood. Dry farming provides an opportunity for farmers to continue agricultural activities even in low rainfall conditions, thus ensuring their economic sustenance. For instance, farmers in the arid regions of Gujarat practice dry farming of groundnut and cotton, which not only provide them with income but also contribute to the state's economy.
3. Soil conservation: Dry farming techniques, such as contour farming, intercropping, and mulching, help in reducing soil erosion and maintaining soil fertility. These practices prevent the loss of topsoil and essential nutrients, ensuring the long-term productivity of the land. For example, in the drought-prone areas of Andhra Pradesh, farmers practice intercropping of millets and pulses, which not only improves soil fertility but also enhances crop productivity.
4. Water conservation: As dry farming relies on rainwater harvesting and moisture conservation techniques, it helps in conserving water resources in drought-prone areas. Practices like ridge and furrow system, contour bunding, and mulching help in efficient utilization of available rainfall and minimizing evaporation losses. This is particularly significant in regions like Tamil Nadu, where water scarcity is a major challenge for agriculture.
5. Adaptation to climate change: Dry farming techniques make agriculture more resilient to climate change, as they promote the cultivation of drought-tolerant crops and efficient use of available water resources. This helps in reducing the vulnerability of farmers in drought-prone areas to the impacts of climate variability and extreme weather events.
6. Biodiversity conservation: Dry farming supports the cultivation of a diverse range of crops, which contributes to the conservation of agrobiodiversity. The traditional varieties of millets, pulses, and oilseeds grown in dryland areas are adapted to local climatic conditions and are often more nutritious than high-yielding varieties. This diversity is crucial for maintaining the resilience of agricultural systems in the face of environmental changes.

In conclusion, dry farming plays a significant role in addressing the challenges of food security, livelihood support, soil and water conservation, climate change adaptation, and biodiversity conservation in drought-prone areas of India. By promoting sustainable agricultural practices, dry farming contributes to the overall socio-economic development of these regions.

Q.2. (a) Correlate the agro-climatic zones with the agro-ecological regions of India. ( 250 words, 20 marks)

The agro-climatic zones in India refer to the classification of regions based on the climatic factors that influence the agricultural practices and productivity. The agro-ecological regions, on the other hand, are classified based on the integration of ecological and physiographic factors such as climate, soil, landform, and vegetation. The correlation between these two classifications is essential to understand the complex interplay of climatic and ecological factors that determine the agricultural potential of different regions in India.
1. Western Himalayan Region: This region corresponds to the agro-ecological region of the North-Western Himalayas, covering the states of Jammu and Kashmir, Himachal Pradesh, and Uttarakhand. The agro-climatic zone is characterized by cold and humid conditions, with heavy precipitation and snowfall in higher altitudes. The agro-ecological region includes mountainous landscapes, alpine meadows, and temperate forests. The major crops cultivated in this region include apple, walnut, apricot, and wheat.
2. Eastern Himalayan Region: This region covers the agro-ecological region of the North-Eastern Himalayas, including the states of Sikkim, Arunachal Pradesh, and parts of Assam. The agro-climatic zone experiences a temperate to sub-tropical climate with high rainfall and humidity levels. The agro-ecological region consists of mountainous terrains, dense forests, and fertile river valleys. Rice, maize, and tea are the major crops cultivated in this region.
3. Lower Gangetic Plain Region: This agro-climatic zone corresponds to the agro-ecological region of the Gangetic Plains, covering the states of West Bengal, Bihar, and eastern Uttar Pradesh. The climate is characterized by hot summers and cool winters, with high rainfall during the monsoon season. The agro-ecological region comprises fertile alluvial soils, making it suitable for intensive agriculture. The major crops cultivated in this region include rice, wheat, sugarcane, and jute.
4. Middle Gangetic Plain Region: This region includes the agro-ecological region of the Middle Gangetic Plains, covering the states of Uttar Pradesh and parts of Bihar. The agro-climatic zone experiences a sub-tropical climate with hot summers and cold winters. The agro-ecological region is characterized by fertile alluvial soils, making it suitable for the cultivation of rice, wheat, sugarcane, and pulses.
5. Upper Gangetic Plain Region: This region corresponds to the agro-ecological region of the Upper Gangetic Plains, covering the states of Haryana, Punjab, and western Uttar Pradesh. The agro-climatic zone is characterized by a semi-arid climate with hot summers and cold winters. The agro-ecological region consists of fertile alluvial soils and is known for intensive agriculture. The major crops cultivated in this region include wheat, rice, sugarcane, and cotton.
6. Trans-Gangetic Plain Region: This agro-climatic zone covers the agro-ecological region of the Thar Desert in Rajasthan and parts of Punjab and Haryana. The climate is characterized by extreme aridity and high temperatures. The agro-ecological region includes sandy soils, making it suitable for the cultivation of drought-tolerant crops such as millets, pulses, and oilseeds.
7. Eastern Plateau and Hills Region: This region corresponds to the agro-ecological region of the Chotanagpur Plateau and Eastern Ghats, covering the states of Jharkhand, Odisha, and parts of Chhattisgarh. The agro-climatic zone experiences a sub-humid to humid climate with moderate rainfall. The agro-ecological region is characterized by undulating topography, red and laterite soils, and mixed deciduous forests. The major crops cultivated in this region include rice, millets, pulses, and oilseeds.
8. Central Plateau and Hills Region: This region includes the agro-ecological region of the Malwa Plateau, Bundelkhand, and parts of Madhya Pradesh. The agro-climatic zone is characterized by a semi-arid climate with hot summers and cool winters. The agro-ecological region consists of black and red soils, making it suitable for the cultivation of wheat, sorghum, pulses, and oilseeds.
9. Western Plateau and Hills Region: This region corresponds to the agro-ecological region of the Deccan Plateau, covering the states of Maharashtra, Karnataka, and parts of Madhya Pradesh. The agro-climatic zone experiences a semi-arid to sub-humid climate with moderate rainfall. The agro-ecological region is characterized by undulating topography, black soils, and scrub forests.

(b) Critically analyze the role of multinational corporations in India's economic development with suitable examples.     ( 150 words, 15 marks)

Multinational corporations (MNCs) have played a significant role in India's economic development since the introduction of economic liberalization policies in 1991. The liberalization policies led to an increase in foreign direct investment (FDI), which facilitated the entry and growth of MNCs in India. While MNCs have contributed positively towards India's economic growth, employment generation, and technological advancement, they have also been criticized for their adverse impact on domestic industries, exploitation of resources, and contribution to income inequality.

Positive contributions of MNCs to India's economic development:

1. Economic Growth: The presence of MNCs has contributed to an increase in India's GDP growth rate. For instance, the IT sector, led by companies such as IBM, Microsoft, and Oracle, has grown exponentially, contributing significantly to India's GDP and exports.
2. Employment Generation: MNCs have created numerous job opportunities in India, particularly in the service sector. Companies like Amazon, Accenture, and Google have established large offices in major cities, providing direct employment to thousands of Indians and indirect employment to many more.
3. Technological Advancements: MNCs have played a crucial role in enhancing India's technological capabilities. For example, the collaboration between Suzuki Motor Corporation and the Indian government led to the establishment of Maruti Udyog Limited, which revolutionized the Indian automobile industry. Similarly, the entry of global telecom giants like Nokia and Ericsson helped in the expansion and upgradation of India's telecommunications infrastructure.
4. Infrastructure Development: MNCs have contributed to the development of infrastructure in India by investing in areas such as roads, ports, airports, and power plants. For instance, companies like General Electric and Siemens have invested in power generation projects in India.
5. Skill Development: MNCs have helped enhance the skill sets of Indian employees through training and development programs. This has led to an improvement in productivity and increased competitiveness in the global market.

However, there are criticisms against MNCs' role in India's economic development:
1. Impact on Domestic Industries: The presence of MNCs has led to increased competition for domestic industries, leading to the closure of many small and medium enterprises (SMEs). For example, the entry of multinational retail giants such as Walmart and Tesco has adversely affected the livelihood of small retailers in India.
2. Exploitation of Resources: MNCs have been accused of exploiting India's natural resources for their profit, leading to environmental degradation. For instance, the mining activities of multinational companies like Vedanta have led to massive deforestation and displacement of tribal communities in Odisha.
3. Inequality: The growth of MNCs has led to an increase in income inequality in India. While a few skilled workers have benefited from high-paying jobs with MNCs, the majority of the population has not experienced a significant improvement in living standards. Additionally, the concentration of MNCs in urban areas has contributed to the widening rural-urban divide.
4. Tax Evasion and Transfer Pricing: MNCs have been accused of tax evasion and indulging in transfer pricing to minimize their tax liabilities in India. This deprives the Indian government of the revenue it needs to invest in crucial public services and infrastructure projects.
5. Cultural Impact: The presence of MNCs has led to the spread of consumerism and the erosion of traditional Indian values. The increased influence of Western culture and lifestyle has sometimes created a cultural conflict between traditional Indian values and the consumerism promoted by MNCs.

In conclusion, MNCs have played a significant role in India's economic development, contributing to GDP growth, employment generation, and technological advancement. However, they have also been criticized for their adverse impact on domestic industries, exploitation of resources, and contribution to income inequality. To maximize the benefits of MNCs, the Indian government needs to implement policies that encourage a more equitable distribution of wealth, protect domestic industries and the environment, and ensure compliance with tax regulations.

(c) Discuss how watershed management has become a tool in the eradication of rural poverty in India.     (150 words, 15 marks)

Watershed management refers to the integrated planning and management of land, water, and other natural resources in a drainage basin or watershed. It involves various activities such as soil and water conservation, afforestation, pasture development, and the promotion of sustainable agriculture practices, which can help in improving the overall productivity and sustainability of the ecosystem. In India, watershed management has become a critical tool in addressing rural poverty due to its potential in enhancing agricultural productivity, generating employment opportunities, and improving the livelihood of rural communities.
1. Enhancing agricultural productivity: Watershed management plays a significant role in increasing agricultural productivity by improving soil fertility, enhancing water availability, and reducing soil erosion. Through the construction of water conservation structures like check dams, farm ponds, and contour bunds, the groundwater table is recharged, and soil moisture is improved. This results in better crop yields and reduces the vulnerability of farmers to droughts and other climatic uncertainties. For example, the Integrated Watershed Management Programme (IWMP) in India has improved the productivity of rainfed agriculture in various parts of the country.
2. Employment generation: Watershed management activities, such as afforestation, soil conservation, and water harvesting, generate employment opportunities for the rural poor. Construction and maintenance of water conservation structures, plantation of trees, and other labor-intensive activities provide job opportunities for landless laborers and marginal farmers. This helps in reducing rural unemployment and underemployment, which are significant contributors to rural poverty. For instance, the Mahatma Gandhi National Rural Employment Guarantee Act (MGNREGA) in India includes watershed management works as one of the permissible activities under the scheme, providing employment opportunities to millions of rural households.
3. Livelihood diversification: Watershed management promotes the diversification of rural livelihoods by encouraging activities such as horticulture, agroforestry, livestock rearing, and fisheries. These activities not only improve the income of the rural population but also reduce their dependence on agriculture, which is often affected by uncertainties like droughts and crop failures. For example, the Watershed Development Component of the Prime Minister Krishi Sinchayee Yojana (WDC-PMKSY) in India aims to develop watershed projects to support livelihood diversification through activities like horticulture, livestock, and fisheries.
4. Community participation and empowerment: Watershed management projects in India involve the active participation of local communities in planning, implementation, and monitoring of the activities. This helps in building the capacities of the community members, empowering them to take ownership of the resources, and ensuring the sustainability of the interventions. Moreover, it also promotes social equity and inclusiveness by involving women and marginalized sections of the society in decision-making processes. For example, the Neeranchal National Watershed Project in India emphasizes community-driven approaches and the formation of self-help groups, enabling rural communities to take charge of their development.
5. Environmental sustainability: Watershed management contributes to the conservation and regeneration of natural resources, which are the foundation of rural livelihoods. By promoting sustainable land and water management practices, it ensures the long-term availability of resources for the rural population, thereby reducing their vulnerability to environmental degradation and climate change. This, in turn, helps in addressing rural poverty by providing a stable and sustainable source of income and livelihood. For instance, the Sukhomajri watershed project in Haryana, India, has successfully demonstrated how the restoration of degraded lands and the adoption of sustainable agriculture practices can improve rural livelihoods and reduce poverty.

In conclusion, watershed management has emerged as an essential tool in the eradication of rural poverty in India by enhancing agricultural productivity, generating employment, diversifying livelihoods, empowering communities, and ensuring environmental sustainability. However, for watershed management to be more effective in addressing rural poverty, there is a need for better coordination among various stakeholders, adequate funding, and a focus on capacity building and technological innovations to improve the efficiency of the interventions.


Q.3. (a) Discuss the use of chemical fertilizers, pesticides, and insecticides in agriculture and its impact on human health.     (250 words, 20 marks)

The use of chemical fertilizers, pesticides, and insecticides in agriculture has become an essential practice to increase crop yield and protect the plants from pests and diseases. However, the excessive and prolonged use of these chemicals has raised concerns about their impact on human health and the environment.

(1) Chemical Fertilizers: Chemical fertilizers are synthetic substances that provide essential nutrients like nitrogen, phosphorus, and potassium to the plants for their growth and development. These fertilizers have played a significant role in the Green Revolution, which led to a substantial increase in agricultural production. However, the excessive use of chemical fertilizers can have several adverse effects on human health, such as:
(a) Contamination of groundwater: Overuse of chemical fertilizers can cause leaching of nutrients into the groundwater, leading to water pollution. This polluted water, when consumed by humans, can cause various health problems like kidney damage, cancer, and gastrointestinal disorders.
(b) Eutrophication: The excessive use of chemical fertilizers can result in the eutrophication of water bodies. This occurs when the fertilizers runoff into rivers, lakes, and other water bodies, causing an increase in the nutrient levels, which leads to the growth of harmful algae. The toxins released by these algae can contaminate drinking water and cause various health issues like liver damage and neurological disorders.
(c) Soil degradation: Excessive use of chemical fertilizers can also degrade the soil quality by reducing its organic matter content and decreasing the soil's ability to retain water and nutrients. This can lead to reduced soil fertility, which can ultimately affect food production and human health.

(2) Pesticides and Insecticides: Pesticides and insecticides are used to protect crops from pests and diseases by killing or repelling them. While these chemicals have been effective in increasing agricultural productivity, their excessive use has raised concerns about their impact on human health. Some of the potential health effects include:
(a) Acute poisoning: Direct exposure to pesticides or insecticides can cause acute poisoning, which can lead to symptoms like headache, nausea, vomiting, dizziness, and in severe cases, even death. Agricultural workers and farmers are particularly at risk due to their constant exposure to these chemicals.
(b) Chronic health effects: Long-term exposure to pesticides and insecticides can cause chronic health problems like cancer, reproductive issues, neurological disorders, and endocrine disruption. For example, several studies have linked the use of organophosphate pesticides to Parkinson's disease and other neurological disorders.
(c) Residues in food: Pesticide and insecticide residues can remain on the crops even after harvesting, which can then enter the human food chain. Consumption of food contaminated with these residues can lead to various health problems like allergies, hormonal imbalance, and developmental issues in children.
(d) Bioaccumulation: Pesticides and insecticides can also accumulate in the human body over time, leading to a higher risk of health problems. For example, the pesticide DDT, which was widely used in the past, has been found to bioaccumulate in humans, causing reproductive issues and an increased risk of cancer.

In conclusion, the use of chemical fertilizers, pesticides, and insecticides in agriculture has undoubtedly contributed to increased food production and food security. However, their excessive and unregulated use has also led to several negative impacts on human health. Therefore, it is essential to adopt sustainable agricultural practices, such as integrated pest management, organic farming, and the use of biofertilizers, to minimize the health risks associated with the use of these chemicals.

(b). Examine ongoing space programs of India and their implications for national security in the future.     (150 words, 15 marks)

The Indian Space Research Organization (ISRO) has been actively involved in developing and launching various space programs, which contribute significantly to India's national security. These programs have implications for national security in terms of surveillance, communication, navigation, and disaster management. Some of the major ongoing space programs in India include the following:
1. Earth Observation Satellites (EOS): ISRO has developed and launched a series of Earth Observation Satellites, such as Cartosat, Resourcesat, and RISAT, which provide high-resolution imagery of the Earth's surface. These satellites help monitor the country's borders, track military activities, and support disaster management operations. For example, Cartosat-3, launched in 2019, has a sub-meter resolution, which can be useful for strategic surveillance and reconnaissance purposes.
2. Geosynchronous Satellite Launch Vehicle (GSLV) and Polar Satellite Launch Vehicle (PSLV): These two launch vehicles have played a crucial role in placing Indian and foreign satellites in their respective orbits. The successful deployment of these launch vehicles has demonstrated India's self-reliance in space technology, which is vital for national security. For instance, the successful launch of the GSAT-7A satellite onboard the GSLV-F11 in 2018 boosted the communication capabilities of the Indian Air Force.
3. Indian Regional Navigation Satellite System (IRNSS) or NAVIC: This indigenous navigation system consists of a constellation of seven satellites, providing accurate position information to users in India and the surrounding region. NAVIC enhances India's security by reducing dependence on foreign navigation systems, such as the American GPS, and can be used for various military applications, including missile guidance systems and tracking troop movements.
4. GSAT series of communication satellites: The GSAT series of satellites have significantly improved India's communication capabilities, enabling secure and encrypted communication for the defense forces. For example, GSAT-7, also known as Rukmini, is dedicated to the Indian Navy, enhancing its maritime surveillance and communication capabilities in the Indian Ocean Region.
5. Small Satellite Launch Vehicle (SSLV): ISRO is developing the SSLV to provide cost-effective and reliable access to space for small satellites. Once operational, the SSLV could be used for launching small satellites for surveillance, reconnaissance, and communication purposes, enhancing India's space-based capabilities for national security.
6. Defense Space Research Organization (DSRO): In 2019, the Government of India announced the creation of the DSRO, which aims to develop and deploy advanced space technologies for defense applications. This move signifies the growing importance of space for India's national security.

The implications of these ongoing space programs for India's national security in the future are numerous:
1. Enhanced surveillance and reconnaissance capabilities: The ongoing Earth Observation and communication satellite programs will provide India with better situational awareness of its borders, maritime domain, and potential adversaries, allowing for more effective and timely decision-making in military operations.
2. Improved communication and navigation infrastructure: The development of indigenous navigation systems and communication satellites will reduce dependence on foreign systems, ensuring uninterrupted and secure communication channels for the defense forces.
3. Space deterrence and counter-space capabilities: As India continues to develop and deploy more advanced space technologies, it will likely gain the ability to protect its assets in space and deter potential adversaries from targeting its space infrastructure.
4. Disaster management and response: Space-based technologies can play a crucial role in disaster management by providing accurate and timely information, which can be used for planning relief and rescue operations.

In conclusion, the ongoing space programs of India have significant implications for national security in the future. By investing in and developing advanced space technologies, India can strengthen its strategic capabilities, enhance its military operations, and safeguard its interests in the emerging domain of space.

(c) Discuss the rainfall pattern and correlate it with the spatial distribution of natural vegetation in India.     ( 150 words, 15 marks).

India's rainfall pattern is largely influenced by the Indian monsoon, which is characterized by a seasonal reversal of winds that brings heavy rains to the country during the summer months (June to September), and relatively dry conditions during the winter months (November to February). The amount and distribution of rainfall in India have a significant impact on the spatial distribution of natural vegetation.

The rainfall pattern in India can be divided into four distinct regions:

1. The Western Coast and Western Ghats (High Rainfall Zone): This region receives heavy rainfall, ranging from 2000 to 4000 mm per year, due to the strong onshore monsoon winds from the Arabian Sea. As a result, the region supports dense evergreen and semi-evergreen forests, which are home to a rich variety of flora and fauna. Examples of vegetation in this region include tropical rainforests, such as the Silent Valley National Park in Kerala, and the evergreen forests of the Western Ghats.

2. The Northeastern Region (High Rainfall Zone): This region, comprising of states like Assam, Meghalaya, and Arunachal Pradesh, receives heavy rainfall due to the monsoon winds from the Bay of Bengal. The average annual rainfall in this region is around 2000 to 3000 mm. The abundant rainfall supports lush tropical rainforests, comprising of evergreen and semi-evergreen vegetation. The region is rich in biodiversity with several national parks and wildlife sanctuaries, such as the Kaziranga National Park in Assam and the Namdapha National Park in Arunachal Pradesh.

3. The Indo-Gangetic Plains (Moderate Rainfall Zone): This region, extending from Punjab to West Bengal, receives moderate rainfall, averaging between 1000 to 2000 mm per year. The spatial distribution of natural vegetation in this region mainly comprises of tropical deciduous forests and grasslands. The vegetation in this region has been extensively modified due to human activities, such as agriculture and urbanization. Examples of natural vegetation in this region include the Sal forests of the Terai region in Uttar Pradesh and the Sundarbans mangrove forests in West Bengal.

4. The Western and Northwestern Region (Low Rainfall Zone): This region, comprising of Rajasthan, Gujarat, and parts of Haryana and Punjab, receives scanty rainfall, with annual precipitation ranging from 100 to 500 mm. The low rainfall supports sparse vegetation, primarily consisting of thorn forests and desert vegetation. The Thar Desert in Rajasthan is an example of the arid and semi-arid vegetation in this region.

In conclusion, the rainfall pattern in India plays a crucial role in determining the spatial distribution of natural vegetation. The high rainfall regions in the Western Ghats and the Northeast support dense evergreen and semi-evergreen forests, while the moderate rainfall regions in the Indo-Gangetic plains have deciduous forests and grasslands. The low rainfall regions in the western and northwestern parts of the country are characterized by sparse thorn forests and desert vegetation.


Q.4. (a) Discuss the political aspects of Himalaya. Explain how it has affected the geostrategy, geopolitics, and regional consciousness of Indian federalism.      ( 250 words, 20 marks).

The Himalayas, the highest and youngest mountain range in the world, stretch across five countries - Bhutan, China, India, Nepal, and Pakistan. This majestic mountain range has always played a significant role in shaping the political landscape of the Indian subcontinent. The political aspects of the Himalayas can be seen in its impact on the geostrategy, geopolitics, and regional consciousness of Indian federalism.
1. Geostrategy: The Himalayas serve as a natural barrier between the Indian subcontinent and the Tibetan plateau. They have played a strategic role in protecting the subcontinent from potential invasions from the north. For example, during the British colonial rule, the 'Great Game' between Britain and Russia unfolded along the Himalayan frontiers, with both powers vying for influence and control over the region. Similarly, during the India-China War in 1962 and the ongoing border disputes between the two countries, the Himalayas have served as a strategic buffer zone for India. The mountain range has also played a crucial role in determining the defense strategies of India, with heavy militarization along the border areas.
2. Geopolitics: The Himalayas, being a shared geographical feature among several countries, have given rise to various political issues and disputes. The India-China border dispute in the eastern sector (Arunachal Pradesh) and the western sector (Aksai Chin) is a prime example of the geopolitical significance of the Himalayas. Similarly, the Siachen Glacier conflict between India and Pakistan also highlights the importance of the Himalayas in shaping political relations among the neighboring countries. Furthermore, the construction of dams and hydropower projects on the rivers originating from the Himalayas, such as the Indus, Sutlej, and Brahmaputra, has led to water-sharing disputes among India, China, and Pakistan.

3. Regional consciousness and Indian federalism: The Himalayas have also played a significant role in shaping regional consciousness in India. The formation of various states within the Indian Union along the Himalayan ranges, such as Jammu and Kashmir, Himachal Pradesh, Uttarakhand, Sikkim, and the northeastern states, has given rise to distinct regional identities and aspirations. For example, demands for separate states, such as Gorkhaland in West Bengal and Bodoland in Assam, show the role of the Himalayas in shaping regional consciousness. Similarly, the ethnic tensions and demands for autonomy among various indigenous communities, such as the Bodos, Nagas, and the Kukis, also highlight the role of the Himalayas in shaping regional politics in India.

In conclusion, the political aspects of the Himalayas have played a significant role in shaping the geostrategy, geopolitics, and regional consciousness of Indian federalism. The mountain range has been a strategic asset for India in terms of defense, while also being a source of geopolitical disputes with neighboring countries. Moreover, the Himalayas have also contributed to the development of regional identities and aspirations within the Indian Union. As such, the Himalayas continue to shape the political landscape of the Indian subcontinent in various ways.


4. (b) Examine the development of information technology in India and its influences on work culture and society. ( 150 words, 15 marks)

The development of Information Technology (IT) in India has been a significant factor in the country's transformation into a global knowledge economy. Over the past three decades, IT has emerged as one of the most critical sectors for India's economic growth, employment generation, and overall development. This development has had profound influences on work culture and society in India.
1. Emergence of IT Hubs and Special Economic Zones (SEZs): The Indian government's policies, such as the establishment of software technology parks and SEZs, have played a vital role in the rapid growth of the IT sector. Examples of IT hubs in India include Bengaluru, Hyderabad, Pune, Chennai, and the National Capital Region (NCR). These IT hubs have attracted significant foreign direct investment (FDI), leading to the creation of numerous job opportunities and a cosmopolitan work culture.
2. Employment Generation: The IT sector has emerged as one of the largest employers in India, employing millions of professionals directly and indirectly. The sector has not only created job opportunities for IT professionals but also for those in other fields like human resources, marketing, and finance. Moreover, the IT sector has led to the growth of other industries, such as real estate, hospitality, and retail, generating even more employment opportunities.
3. Skilled Workforce: The growth of the IT sector has led to an increased demand for skilled professionals in India. This has resulted in the proliferation of educational institutions offering degree and diploma courses in IT and related fields. Consequently, the Indian workforce has become more skilled and globally competitive.
4. Shift in Work Culture: The IT sector has brought about a significant change in the work culture in India. The traditional hierarchical organizational structure has given way to a more flexible and team-oriented approach. The IT sector has also introduced a performance-based work culture that emphasizes meritocracy and innovation. This has led to improved productivity and efficiency among employees.
5. Globalization and Cross-Cultural Interactions: The IT sector's growth has led to increased interactions between Indian professionals and their global counterparts. This has resulted in the exchange of ideas, knowledge, and best practices, contributing to the development of a global work culture in India. Indian professionals are now more adept at working with people from diverse cultural backgrounds, which has further enhanced their competitiveness in the global job market.
6. Women Empowerment: The IT sector has provided numerous job opportunities for women, leading to their increased participation in the workforce. This, in turn, has contributed to their economic independence and social empowerment. The IT sector has also introduced policies such as flexible work hours, work from home, and maternity benefits, which have helped women achieve a better work-life balance.
7. Digital Divide: Despite the significant growth of the IT sector, a considerable digital divide still exists in India. While urban areas have benefited greatly from the IT revolution, rural areas have remained relatively untouched. Additionally, the benefits of IT have been primarily enjoyed by the educated and skilled workforce, while the unskilled and semi-skilled workers have been left behind.
8. Cybersecurity and Privacy Concerns: The rapid growth of the IT sector in India has also led to increased concerns about cybersecurity and data privacy. As more and more people become connected to the internet, the risk of cyber-attacks and data breaches has grown significantly. This has led to increased demand for cybersecurity professionals and the need for stringent data protection laws and regulations.

In conclusion, the development of information technology in India has significantly influenced the country's work culture and society. It has created new job opportunities, enhanced the skillsets of the workforce, promoted cross-cultural interactions, and empowered women. However, challenges such as the digital divide, cybersecurity, and privacy concerns need to be addressed to ensure that the benefits of IT reach all sections of society.

4. (c) Explain the present status of age structure and availability of workforce in India. ( 150 words, 15 marks).

The age structure and availability of workforce in India have undergone significant changes in recent years due to various factors such as demographic transition, economic growth, and social development. The present status of age structure and workforce availability in India can be analyzed under the following headings:
1. Age Structure: The age structure of a population is a crucial indicator of the population's growth and development. In India, the age structure is predominantly young, with a significant proportion of the population in the working-age group. According to the Census of India 2011, about 65% of the population is in the age group of 15-64 years, which is considered the working-age population.
2. Dependency Ratio: The dependency ratio is the ratio of the dependent population (those aged below 15 years and above 64 years) to the working-age population (15-64 years). A lower dependency ratio signifies a larger working-age population, which is beneficial for the country's economic growth. In India, the dependency ratio has been decreasing, indicating a growing workforce. As per World Bank data, the dependency ratio in India has reduced from 80.09% in 1991 to 53.62% in 2020.
3. Demographic Dividend: India is currently experiencing a demographic dividend, which refers to the economic growth potential resulting from a larger workforce and a smaller dependent population. This demographic dividend offers India an opportunity to harness the potential of its young population by investing in education, skill development, and job creation.
4. Unemployment: Despite having a large working-age population, India faces the challenge of unemployment. The Periodic Labour Force Survey (PLFS) for 2018-19 reported an unemployment rate of 5.8% for the country. The problem of unemployment is particularly acute among the educated youth, with a higher unemployment rate among those with higher educational qualifications.
5. Informal Sector: A significant proportion of the Indian workforce is employed in the informal sector, which is characterized by low wages, job insecurity, and lack of social security. According to the International Labour Organization (ILO), around 81% of India's employed population is engaged in informal employment. The informal sector plays a crucial role in providing employment opportunities to the workforce, but the working conditions need to be improved for sustainable and inclusive growth.
6. Gender Disparity: Gender disparity in the workforce remains a significant issue in India. The female labor force participation rate (FLFPR) has been declining over the years, with the World Bank reporting a FLFPR of only 20.52% in 2020. The low participation of women in the workforce can be attributed to various factors such as social norms, lack of access to education, and limited job opportunities.
7. Migration: Internal migration has been a significant feature of the Indian workforce, with people moving from rural to urban areas in search of better employment opportunities. This migration has led to the growth of cities and urban agglomerations, putting immense pressure on urban infrastructure and services. The COVID-19 pandemic has further highlighted the vulnerabilities faced by migrant workers in India.

In conclusion, the present status of age structure and workforce availability in India presents both opportunities and challenges. While the demographic dividend offers potential for economic growth, issues such as unemployment, informal sector employment, gender disparity, and migration need to be effectively addressed to ensure holistic and sustainable development.

The document UPSC Mains Answer PYQ 2019: Geography Paper 2 (Section- A) | Geography Optional for UPSC (Notes) is a part of the UPSC Course Geography Optional for UPSC (Notes).
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