PM IAS OCT 15 UPSC CURRENT AFFAIRS

19th East Asia Summit

Syllabus: GS2/ International Relations

Context

• The Prime Minister of India recently addressed the 19th East Asia Summit (EAS) in  Vientiane, Lao PDR.

Key Highlights 

• The PM emphasized that a free, open, inclusive, prosperous and rule-based Indo-Pacific is important for the peace and progress of the entire region.
• India stressed that maritime activities should be conducted under the UN Convention on the Law of the Seas (UNCLOS) to ensure freedom of navigation and air space.
  • Also a strong and effective Code of Conduct should be created.

East Asia Summit (EAS)

• Origin: The origins of EAS dates back to the 1990 proposal for an East Asian Economic Grouping (EAEG).
  • The project was later revived through the ASEAN Plus Three or APT (China, Japan, and South Korea) Summit of Heads of State and Government that first met in Kuala Lumpur in December 1997.
  • It eventually found expression through the creation of the EAS in 2005, with 16 members. The United States and Russia joined in 2011.
• Members: There are 18 members;
  • The 10 ASEAN (Association of Southeast Asian Nations) members: Brunei, Cambodia, Indonesia, Laos, Malaysia, Myanmar, the Philippines, Singapore, Thailand, and Vietnam.
  • 8 non-ASEAN members: Australia, China, India, Japan, New Zealand, Russia, South Korea, and the United States. 
• Lead & the Chair position: ASEAN leads the forum, and the chair position rotates between ASEAN Member States annually. 

Significance of East Asian region

• Economic Growth: East Asia is home to some of the world’s largest and fastest-growing economies, including China, Japan, and South Korea.
  •  The region is known as the factory of the world.
• Diplomatic Hotspot: As a zone of interaction for major global powers like the US, China, and Russia, the region is critical for international diplomacy and geopolitical negotiations, influencing global peace and stability.
• Great Power Rivalries: East Asia is a focal point for great power competition, particularly between the United States and China. The region plays a key role in shaping the dynamics of global power and influence.
• Strategic Waterways: The region includes vital shipping lanes such as the South China Sea and the East China Sea, where disputes over territorial claims add to its geopolitical importance.

Challenges

• Territorial Disputes: Ongoing territorial disputes in the South China Sea and East China Sea involve multiple countries, including China, Vietnam, the Philippines, Japan, and Taiwan, leading to increased military tensions and instability.
• Regional Alliances: The emergence of military alliances and partnerships in the region, such as the Quad (Quadrilateral Security Dialogue) involving the US, Japan, Australia, and India, complicates India’s relations with its neighbors and other East Asian countries.
• Regional Trade Agreements: India’s decision to opt out of the Regional Comprehensive Economic Partnership (RCEP) limits its access to East Asian markets.

Way Ahead

• India’s engagement with the East Asian region is characterized by a complex interplay of opportunities and challenges in the realm of international relations. 
• Navigating geopolitical rivalries, economic competition, and diverse political landscapes requires a multifaceted approach, balancing national interests with the necessity of fostering cooperative and constructive relationships in this strategically vital region. 

India-Canada Diplomatic Row 

Syllabus :GS 2/IR

In News

• India decided to withdraw its High Commissioner and other affected diplomats and officials from Canada.

India-Canada Bilateral Relations

• Foundation of Ties: India-Canada relations are based on shared values of democracy, cultural diversity, economic engagement, and people-to-people connections.
• High-Level Exchanges: In 2015, PM Modi visited Canada, leading to multiple agreements.
  • In 2018, Trudeau visited India, signing six agreements in various sectors.
  • COVID-19 Cooperation: Leaders discussed vaccine collaboration and evacuation of stranded citizens.
  • G-7 Meeting (2022): The two PMs met to enhance bilateral relations.
  • G20 Summit (2023): Trudeau attended the summit in India and met Modi.
• Bilateral Mechanisms: Established dialogues in trade, energy, and foreign affairs, with recent consultations in 2023.
• Security Cooperation: Counter-terrorism efforts under a Joint Working Group established in 1997.
• Civil Nuclear Cooperation: An agreement signed in 2010 for peaceful nuclear energy uses, with implementation oversight by a Joint Committee.
• Energy Cooperation: Expanded Ministerial level Energy Dialogue since 2018 to include renewables.
• Space Collaboration: MoUs signed for satellite tracking and astronomy; ISRO has launched Canadian satellites.
• Economic Relations: Total bilateral trade in 2023 reached USD 9.36 billion, with significant service trade.
  • Canadian investments in India exceed CAD 75 billion, with over 600 Canadian companies operating in India.
  • Exports: Pharmaceuticals, electronic goods, jewelry, seafood, engineering goods.
    • Imports: Minerals, pulses, potash, and chemicals.
• Science and Technology Cooperation: Multiple MoUs signed for research and technological collaboration.
• Education: Largest foreign student demographic in Canada is Indian, with around 427,000 students.
• People-to-People Relations: Canada has a significant Indian diaspora (approximately 1.8 million), contributing to its economy and society.
• Cultural Exchanges: Co-production agreements in films and joint initiatives between Canada Post and India Post.
  • ICCR chairs established at various Canadian universities to foster cultural cooperation.

Diplomatic row

• In September 2023, Canadian PM Trudeau alleged Indian involvement in the murder of Hardeep Singh Nijjar, which India rejected.
• India advised its nationals in Canada and suspended visa services for Canadians.
  • Visa Resumption: Services resumed in specific categories in October and e-visas for certain categories in November 2023.
• The Ministry of External Affairs said the “unsubstantiated allegations” sought to shift focus away from “Khalistani terrorists and extremists who have been provided shelter in Canada”.
• Concerns were raised about the safety of Indian diplomats, stating that the Trudeau Government’s actions contribute to an atmosphere of extremism and violence

Future Outlook 

• The Government of India strongly rejects preposterous imputations and ascribes them to the political agenda of the Trudeau Government that is centered around vote bank politics
•  India indicated it reserves the right to take further actions in response to what it perceives as the Trudeau Government’s support for extremism and violence against India

Treatment of Rare Diseases

Syllabus: GS2/ Health

Context

• The Delhi High Court issued directions aimed at improving the availability of orphan drugs, which are medications used to treat rare diseases.

What are Rare Diseases?

• Rare diseases, also known as orphan diseases, are conditions that occur infrequently within a population.
  • They are characterized by three key markers: Total number of people with the disease, Prevalence and Availability /Non-availability of treatment options.
• The World Health Organization (WHO) defines a rare disease as a condition that affects a small percentage of the population, typically fewer than 1 in 1,000 to 2,000 people. 

Status of rare diseases in India

• Around 55 medical conditions, including Gaucher’s disease, Lysosomal Storage Disorders (LSDs), and certain forms of muscular dystrophy are classified as rare diseases in India. 
• The National Registry for Rare and Other Inherited Disorders (NRROID) started by the Indian Council of Medical Research (ICMR) has the records of 14,472 rare disease patients in the country.

Challenges in the Treatment of Rare Diseases 

• Limited Availability: Less than 5% of rare diseases have available therapies, leaving fewer than 1 in 10 patients with access to disease-specific care.
• High Cost: Many rare disease treatments are patented, leading to high prices due to limited market size and high development costs.
  • Pharmaceutical companies find it unprofitable to produce these drugs, further driving up costs.
• Delays in approval processes: the National Rare Diseases Committee discussed delays in the Drug Controller General of India (DCGI) approving Sarepta Therapeutics’ medicines, leaving patients without timely access.
• Unequal Treatment Across Groups: While limited assistance is available for Group 1 and Group 2 diseases, Group 3 patients face significant financial and healthcare barriers. 

National Policy for Rare Diseases (NPRD), 2021 

• It was launched in 2021, under which financial assistance up to Rs 50 lakh is provided to patients receiving treatment at an identified Centre of Excellence (CoE).
• In India, rare diseases are categorized into three groups based on the nature and complexity of available treatment options.
  • Group 1 includes diseases that can be treated with a one-time curative procedure. 
  • Group 2 diseases require long-term or lifelong treatment which are relatively less costly and have shown documented benefits, but patients need regular check-ups. 
  • Group 3 diseases are those for which effective treatments are available, but they are expensive and must often continue lifelong.

Other initiatives taken in India

• The Health Ministry has opened a Digital Portal for Crowdfunding & Voluntary Donations with information about patients and their rare diseases.
  • Donors can choose the CoE and patient treatments they wish to support. 
• Each CoE also has its own Rare Disease Fund, which is used with approval from its governing authority.
• The Department of Pharmaceuticals has launched the Production Linked Incentive (PLI) Scheme for Pharmaceuticals, offering financial incentives to selected manufacturers for domestic production of orphan drugs.

Way Ahead

• Domestic Manufacturing: Developing and manufacturing orphan drugs within India can significantly reduce costs.
  • The government should offer incentives such as tax breaks and subsidies to encourage pharmaceutical companies to invest in research and production of rare disease treatments.
• Leveraging the Patents Act of 1970: If treatments for rare diseases are unavailable or unaffordable, the government can use provisions under the Patents Act, 1970, to enable third-party manufacturing of patented drugs. 
• Faster approval processes for life-saving therapies will ensure that patients get quicker access to essential treatments.
• A sustainable, long-term funding mechanism needs to be established, especially for Group 3 rare diseases, to cover both immediate and lifelong treatment costs. 

Haber-Bosch Process

Syllabus: GS3/Agriculture and S&T

Context

• The Haber-Bosch process transformed agricultural practices and played a significant role in feeding the growing global population.

What is the Haber-Bosch process?

• The Haber-Bosch process is a crucial industrial method for synthesizing ammonia from nitrogen and hydrogen gasses. 
• The process involves the reaction of nitrogen (N₂) from the air with hydrogen (H₂), derived from natural gas or other fossil fuels, to produce ammonia (NH₃).
  • The gases are mixed and passed over the catalyst at high temperatures and pressures, facilitating the formation of ammonia.
• Ammonia produced is also a precursor for various chemicals, including nitric acid and explosives.

Need for the process

• Nitrogen (N₂) makes up approximately 78% of the Earth’s atmosphere, existing primarily as diatomic nitrogen molecules.
• However plants cannot utilize atmospheric nitrogen directly; they need reactive forms of nitrogen, such as ammonia (NH₃), ammonium (NH₄⁺), or nitrates (NO₃⁻), for their growth and development.

Natural Nitrogen Sources

• Lightning can break the N₂ bond, producing nitrogen oxides, which then combine with water to form nitric acid (HNO₃) and nitrous acid (HNO₂), contributing reactive nitrogen to the soil.
  • However, this natural replenishment is limited.
• Certain bacteria, such as Azotobacter and Rhizobia, can fix atmospheric nitrogen, but their contribution is insufficient to meet the demands of modern agriculture.

The Role of the Haber-Bosch Process

• Increases Fertilizer Supply: By producing ammonia on an industrial scale, it ensures the availability of nitrogen fertilizers, essential for enhancing soil fertility and increasing crop yields.
• Global Food Security: The ability to produce nitrogen fertilizers in large quantities has significantly contributed to food security, enabling the world to sustain its growing population.

Concerns

• Excessive Nitrogen Application: In many countries, the application of nitrogen fertilizers exceeds 50 kg per capita annually, far more than the average adult’s body nitrogen content of 1-2 kg. 
• Nutrient Runoff: Surplus nitrogen from fertilizers runs off into freshwater and coastal waters, causing eutrophication. 
• Soil Acidification: The extra reactive nitrogen leach into the soil, leading to acidification. This alters soil chemistry, negatively affecting soil health and reducing its fertility over time.
• Air Pollution: Nitrogen fertilizers release nitrous oxide (N₂O), a potent greenhouse gas that contributes to climate change.

Way Ahead

• The Haber-Bosch process has been a cornerstone of modern agriculture, contributing to increased food production and improved human lifespan. 
• To ensure a sustainable future, it is essential to balance the benefits of synthetic fertilizers with the need for ecological health and social equity.

X-band Radar 

Syllabus: GS1/Climatology/GS3/Science and Technology

Context

• After devastating floods and landslides in Kerala’s Wayanad district in July 2024, the Union Ministry of Earth Sciences approved an X-band radar to be installed in the district.

What is Radar?

• Radar is short for ‘radio detection and ranging’. The device uses radio waves to determine the distance, velocity, and physical characteristics of objects around the device. 
• Working: A transmitter emits a signal aimed at an object whose characteristics are to be ascertained (in meteorology, this could be a cloud).
  • A part of the emitted signal is echoed by the object back to the device, where a receiver tracks and analyses it.
• Weather radar, also known as a Doppler radar, is a common application of this device.
  • The Doppler effect is the change in frequency of sound waves as their source moves towards and away from a listener. 
• Application: In meteorology, Doppler radars can reveal how fast a cloud is moving and in which direction based on how the cloud’s relative motion changes the frequency of the radiation striking it.
  • This way, modern Doppler radars can monitor weather conditions and anticipate new wind patterns, the formation of storms, etc.

X-band Radar

• A radar trying to ‘see’ smaller particles like rain droplets or fog will need to use radiation of lower wavelengths, like in the X-band. 
  • An X-band radar is radar that emits radiation in the X-band of the electromagnetic spectrum: 8-12 GHz, corresponding to wavelengths of around 2-4 cm.
• Significance: The smaller wavelengths allow the radar to produce images of higher resolution. 

Use of Radars in India 

• The India Meteorological Department (IMD) started using radar for weather applications in the early 1950s. 
• The first indigenously designed and manufactured X-band storm detection radar was installed in 1970 in New Delhi.
  • In 1996, IMD replaced 10 outdated X-band radars with digital X-band radars.
• India also uses S-band radars (2-4 GHz) for long-range detection.
  • The first S-band cyclone detection radar was installed in Visakhapatnam in 1970 and the first locally made variant was commissioned in Mumbai in 1980.
• Mission Mausam: The Union Cabinet cleared ‘Mission Mausam’ to upgrade meteorological infrastructure in the country.
  • This includes installing up to 60 meteorological radars until 2026 under the first phase.

NISAR

• It is jointly developed by NASA and ISRO named as‘NASA-ISRO Synthetic Aperture Radar’ (NISAR).
• It will use radar imaging to produce a high-resolution map of the earth’s landmasses.
  • Its payload consists of an L-band an S-band radar, together they will track and record changes in the earth’s various natural processes.
• It is currently expected to be launched onboard an ISRO GSLV Mk II rocket in 2025.