DAILY CURRENT AFFAIRS IAS | UPSC Prelims and Mains Exam – 13th June 2026

Subject: Science & Technology / Defence Technology / Internal Security (Indigenous Missile Systems, Air Defence Architecture, DRDO Projects)

Why in News?
Defence Minister Rajnath Singh stated that India’s indigenous air defence system Project Kusha will become a “game changer” for national security. The project reflects India’s push for defence self-reliance under the Atmanirbhar Bharat initiative.

Key Highlights of Project Kusha

• Developed by Defence Research and Development Organisation (DRDO). 
• Indigenous Long-Range Air Defence System (LR-SAM equivalent) designed to intercept: 
  • Fighter aircraft 
  • Stealth jets 
  • Drones 
  • Cruise missiles 
  • Ballistic missiles 
• Expected interception range: 
  • Around 150 km, 250 km and 350 km across different missile variants. 
• Intended to complement and eventually reduce dependence on imported systems such as: 
  • S-400 Triumf 
• Likely deployment timeline: late 2020s. 

UPSC-Oriented Analysis

Project Kusha is important from the static–dynamic linkage perspective:

• Static: missile technology, layered air defence, indigenous defence production. 
• Dynamic: India’s response to evolving aerial threats and strategic autonomy in defence procurement. 

Possible Prelims Angles

• Difference between ballistic and cruise missiles. 
• Features of layered air defence systems. 
• DRDO-developed missile systems and their roles. 

Source/Reference:

https://www.thehindu.com/news/national/our-indigenous-air-defence-shield-project-kusha-will-be-a-game-changer-says-rajnath-singh/article71094524.ece#google_vignette

Subject: Indian Art & Culture / Ancient Indian Architecture (Rock-Cut Architecture, Nagara Temple Style, Archaeological Heritage Sites)

Why in News?
The ancient Masroor Rock-Cut Temples in Himachal Pradesh recently gained attention through media reports highlighting the site as the “Ellora of the Himalayas” and one of India’s lesser-known monolithic temple complexes. 

About Masroor Rock-Cut Temples

• Located in the Kangra Valley near the Beas River in Himachal Pradesh. 
• Built around the 8th century CE. 
• Consists of 15 monolithic rock-cut temples carved from a single sandstone ridge. 
• Dedicated mainly to Shiva, Rama, Lakshmana and Sita. 
• Commonly called: 
  • “Ellora of Himachal” 
  • “Himalayan Pyramid” 

Architectural Features

• Follows the North Indian Nagara style of temple architecture. 
• Unique because rock-cut architecture is rare in North India. 
• Temple complex: 
  • Symmetrical square-grid layout 
  • Mandala-style arrangement 
  • Shikhara structures 
  • Sacred water tank in front 
• Faces northeast towards the Dhauladhar Range, unlike most east-facing Hindu temples. 

Historical Significance

• Severely damaged during the 1905 Kangra earthquake. 
• First documented by Henry Shuttleworth (1913) and later surveyed by the Archaeological Survey of India in 1915. 

UPSC-Oriented Analysis

Important for prelims due to linkage with:

• Rock-cut architecture: Ajanta, Ellora, Elephanta. 
• Distinction between Nagara and Dravidian styles. 
• Monolithic temple construction techniques. 

Possible Prelims Angles

• Features of Nagara architecture. 
• Difference between structural and rock-cut temples. 
• Important archaeological sites in Himalayan regions. 

Source/Reference:

https://timesofindia.indiatimes.com/life-style/travel/destinations/the-ellora-of-the-himalayas-this-forgotten-temple-complex-is-himachals-best-kept-secret/photostory/131653913.cms

Subject: Science & Technology / Space Technology (Space Weather, Lagrange Points, Satellite Missions, Solar Storm Monitoring)

Why in News?
The United States recently activated SOLAR-1, its first satellite exclusively dedicated to continuous operational space weather monitoring. The satellite became fully operational after completing commissioning at the Sun–Earth Lagrange Point (L1). 

About SOLAR-1

• Full form: Space Weather Observations at L1 to Advance Readiness–1. 
• Earlier known as SWFO-L1 (Space Weather Follow-On L1). 
• Operated by National Oceanic and Atmospheric Administration (NOAA). 
• First U.S. satellite dedicated solely to operational space weather forecasting. 
• Launched on: 
  • 24 September 2025 
  • Via SpaceX Falcon 9 rocket. 

Orbit & Mission

• Positioned at Sun–Earth Lagrange Point 1 (L1), nearly 1.6 million km from Earth. 
• L1 allows uninterrupted observation of the Sun before solar particles reach Earth. 
• Monitors: 
  • Solar winds 
  • Coronal Mass Ejections (CMEs) 
  • Solar magnetic activity 
• Provides early warnings for: 
  • GPS disruptions 
  • Radio blackouts 
  • Power-grid failures 
  • Satellite communication disturbances. 

UPSC-Oriented Analysis

Important static–dynamic linkage with:

• Physics of solar radiation and geomagnetic storms. 
• Applications of Lagrange points in space missions (e.g., Indian Space Research Organisation’s Aditya-L1 mission). 

Possible Prelims Angles

• Characteristics of L1 point. 
• Difference between solar flares and CMEs. 
• Impacts of geomagnetic storms on Earth. 

Source/Reference:

https://www.moneycontrol.com/science/us-launches-first-full-time-space-weather-watchdog-satellite-noaa-s-solar-1-article-13947459.html

Subject: Environment & Ecology / Biodiversity (Species Discovery, Eastern Himalayan Biodiversity, Butterfly Taxonomy)

Why in News?
Researchers recently discovered a new butterfly species named Chonala albistricta in Arunachal Pradesh’s Eastern Himalayan region. The discovery was formally published in the scientific journal Zootaxa in June 2026. 

About Chonala albistricta

• Common name: Narrow-banded Wall. 
• Discovered at Mayodia Pass in Lower Dibang Valley district, Arunachal Pradesh. 
• Belongs to: 
  • Genus: Chonala 
  • Family: Nymphalidae (brush-footed butterflies). 
• It is: 
  • The 10th known species of the genus globally. 
  • Only the second Chonala species recorded in India. 

Key Features

• Named after the narrow irregular white band on its forewing. 
• Found in high-altitude broadleaf forests around 2,000–2,900 m elevation. 
• Active only for a brief period between June and August. 
• Breeds once annually and exists in small populations. 

UPSC-Oriented Analysis

The discovery highlights the Eastern Himalayas as a global biodiversity hotspot with many undocumented species. It links static topics like:

• Endemism and speciation, 
• Himalayan ecology, 
• Insect diversity and conservation biology. 

Possible Prelims Angles

• Biodiversity hotspots of India. 
• Characteristics of endemic species. 
• Difference between genus, species and family in taxonomy. 

Source/Reference:

https://www.easternmirrornagaland.com/new-butterfly-species-discovered-in-arunachal-pradesh

Subject: Science & Technology (Artificial Intelligence (AI), Generative AI, IndiaAI Mission, Indigenous Digital Technologies)

Why in News?
India recently launched Varya, an indigenous AI-based video generation model developed by Avataar.ai with support from the IndiaAI Mission. The launch marks a significant step in India’s efforts toward sovereign and culturally contextual AI development. 

About Varya AI Model

• India’s first distilled video-generation AI model. 
• Developed under the support of the Ministry of Electronics and Information Technology (MeitY). 
• Converts: 
  • Text prompts → Videos 
  • Images → Video stories 
• Designed specifically for Indian cultural and regional contexts including: 
  • Festivals 
  • Clothing 
  • Food 
  • Public spaces 
  • Languages. 

Key Technological Features

• Uses AI distillation technique: 
  • Reduces video-generation steps from 50 to 4. 
• Generates videos at nearly 10× lower cost than leading global models. 
• Estimated generation cost: 
  • Around ₹0.48 per second of video. 
• Intended applications: 
  • Education 
  • MSME advertising 
  • Governance communication 
  • Digital storytelling. 

UPSC-Oriented Analysis

Varya reflects India’s strategic push toward AI self-reliance and affordable AI infrastructure. Static–dynamic linkage exists with:

• AI and machine learning concepts, 
• Digital India initiatives, 
• Ethical and sovereign AI governance. 

Possible Prelims Angles

• Difference between Generative AI and traditional AI. 
• Meaning of “foundation model” and “distillation”. 
• Objectives of the IndiaAI Mission. 

Source/Reference:

https://www.pib.gov.in/PressReleasePage.aspx?PRID=2272090&reg=3&lang=1

Subject: Environment & Ecology (Endangered Species, Biodiversity Conservation, IUCN Red List, Climate Change and Wildlife)

Why in News?
Recent studies revealed that extreme rainfall, floods, and landslides triggered by Cyclone Senyar in Sumatra, Indonesia, killed an estimated 58 Tapanuli orangutans, amounting to about 7% of the global population of this critically endangered species. Scientists warn that the disaster has pushed the species closer to extinction. 

About the Tapanuli Orangutan

• Scientific name: Pongo tapanuliensis 
• Identified as a distinct species only in 2017. 
• One of the three orangutan species, alongside: 
  • Bornean Orangutan 
  • Sumatran Orangutan 
• Endemic to the Batang Toru Ecosystem in North Sumatra, Indonesia. 
• Population: Fewer than 800 individuals remain in the wild. 

Key Characteristics

• Habitat: Tropical and subtropical moist broadleaf forests south of Lake Toba. 
• Lifestyle: Exclusively arboreal (tree-dwelling). 
• Diet: Omnivorous. 
• Reproduction: Among the slowest-reproducing mammals in the world. 
• Communication includes distinctive “rolling calls.” 

Conservation Concerns

• IUCN Status: Critically Endangered. 
• Threats: 
  • Habitat fragmentation and deforestation. 
  • Mining and hydropower projects. 
  • Human-wildlife conflict. 
  • Climate change-induced extreme weather events. 

UPSC-Oriented Analysis

The Tapanuli Orangutan is significant for UPSC due to its linkage with:

• Biodiversity hotspots of Southeast Asia. 
• Species discovered recently and their conservation status. 
• Climate change–biodiversity nexus. 
• Impact of habitat fragmentation on small wildlife populations. 

Possible Prelims Angles

• Difference between endemic, endangered, and critically endangered species. 
• Orangutan species and their distribution. 
• Role of habitat connectivity in wildlife conservation. 
• IUCN categories and criteria for species assessment. 

Source/Reference:

https://timesofindia.indiatimes.com/etimes/animals/worlds-rarest-great-ape-pushed-to-the-brink-after-a-deadly-storm-study-suggests-we-might-lose-the-tapanuli-orangutan-only-discovered-in-2017/articleshow/131702482.cms

Subject: Polity & Governance / Health Sector Governance / Economy (Drug Price Regulation, National List of Essential Medicines (NLEM), Drug Price Control Order (DPCO), Pharmaceutical Sector)

Why in News?
The National Pharmaceutical Pricing Authority (NPPA) recently increased the ceiling prices of two critical anti-cancer drugs—Cisplatin and Carboplatin—by 50% to address shortages caused by rising platinum prices and supply-chain disruptions. The decision was taken under special public-interest provisions to ensure uninterrupted availability of these life-saving medicines. 

About NPPA

• Established in 1997. 
• An attached office of the Department of Pharmaceuticals, under the Ministry of Chemicals and Fertilizers. 
• Functions as India’s independent drug pricing regulator. 
• Implements provisions of the Drug Price Control Order (DPCO), 2013. 

Major Functions

• Fixes and revises ceiling prices of scheduled medicines. 
• Monitors prices of non-scheduled drugs. 
• Ensures availability of essential medicines at affordable prices. 
• Enforces provisions of the National List of Essential Medicines (NLEM). 
• Monitors overcharging and recovers excess amounts from manufacturers. 

Recent NPPA Decision

• Ceiling price of Cisplatin increased from ₹7.26/ml to ₹10.89/ml. 
• Ceiling price of Carboplatin increased from ₹60.49/ml to ₹90.74/ml. 
• Invoked Para 19 of DPCO, 2013, which grants extraordinary powers to revise prices in public interest. 

UPSC-Oriented Analysis

This topic is important because it connects health governance, drug affordability, and market regulation. UPSC frequently asks about statutory/regulatory bodies and the legal frameworks under which they function.

Possible Prelims Angles

• Is NPPA a statutory body or an attached office? 
• Which ministry administers NPPA? 
• What is the purpose of the DPCO, 2013? 
• What powers are available under Para 19 of the DPCO? 
• Relationship between NLEM and drug price regulation. 

Source/Reference:

https://www.thehindu.com/business/Industry/price-cap-on-cancer-drugs-increase-to-tackle-shortage/article71092419.ece/amp/

GS Paper III – Infrastructure (Transport) | GS Paper III – Economy (Industrial Policy)
High-Speed Rail; Make in India; Technology Transfer; Regional Development; Employment Generation

Introduction

The Mumbai-Ahmedabad High-Speed Rail (MAHSR) Project is India’s first high-speed rail corridor and a landmark step in railway modernisation. Spanning 508 km across Maharashtra, Gujarat, and Dadra & Nagar Haveli, the bullet train will operate at 320 kmph (design speed: 350 kmph), far exceeding the current 180 kmph speed of Vande Bharat trains. It will reduce travel time between Mumbai and Ahmedabad to under 2 hours, with operations expected to begin in August 2027.

Main Body

Project Overview and Technical Features

Corridor Specifications:

• Length: 508 km.
• Route: Maharashtra, Gujarat, Dadra & Nagar Haveli.
• 12 stations: Mumbai (BKC), Thane, Virar, Boisar, Vapi, Bilimora, Surat, Bharuch, Vadodara, Anand, Ahmedabad, Sabarmati.
• About 90% elevated.
• Design speed: 350 kmph. Operational speed: 320 kmph.
• Travel time: 1 hour 58 minutes.

Technology:

• Japanese Shinkansen technology and operational standards.
• J-Slab ballastless track (first time in India).
• Overhead Electrification (OHE): 2×25 kV traction system; over 20,000 OHE masts.
• 12 traction substations, 2 depot traction substations, 16 distribution substations.
• 3 depots: Sabarmati, Surat, Thane.

Construction Method:

• Full Span Launching Method (FSLM) – first time in India; ten times faster than conventional segmental construction.
• Noise barriers on both sides of viaduct.

Engineering Milestones

Bridge Works:

• 25 river bridges (21 in Gujarat, 4 in Maharashtra).
• Completed: Meshwa, Vatrak, Mohar, Vishwamitri, Dhadhar, Kim, Mindhola, Purna, Ambika, Venganiya, Kaveri, Kharera, Auranga, Par, Kolak, Daman Ganga, Darotha rivers.
• Progressing: Sabarmati, Narmada, Tapi, Jagani, Vaitarna rivers.
• 28 steel bridges over highways, canals, rivers, and railway tracks.

India’s First Undersea Rail Tunnel:

• 21 km tunnel section in Maharashtra.
• Undersea stretch beneath Thane Creek: approximately 7 km.
• Combines New Austrian Tunnelling Method (NATM) and Tunnel Boring Machine (TBM) technology.
• Single tunnel tube diameter: 13.1 m (both tracks).
• TBM cutter head diameter: 13.6 m – largest used in Indian railway project.
• Undersea tunnel completed: 4.8 km (between Ghansoli and Shilphata).

Mountain Tunnels:

• Second mountain tunnel breakthrough: Palghar, Maharashtra (3 February 2026).
• Third mountain tunnel breakthrough: Palghar district (2 June 2026).

Safety and Monitoring Systems

Early Earthquake Detection System:

• 28 seismometers along the corridor.
• Detects primary earthquake waves and automatically triggers power shutdown.
• Enables trains in affected section to stop safely through emergency braking.

Wind Speed Monitoring System:

• 14 locations (9 in Gujarat, 5 in Maharashtra).
• Anemometers record wind speeds from 0 to 252 kmph.
• Operational protocols: For wind speeds between 72 kmph and 130 kmph, train speeds will be regulated.

Rainfall Monitoring System:

• 6 instrumented rain gauge stations.
• Influence radius: approximately 10 km per station.
• Measures hourly rainfall and cumulative rainfall over previous 24 hours.

Employment and Skill Development

• Direct jobs: approximately 4,000.
• Indirect jobs: 35,000-40,000.
• Workers expected during construction: approximately 40,000.
• High-Speed Rail Training Institute in Vadodara to develop expertise in advanced rail technologies.

Economic and Social Impact

Faster Connectivity:

• Mumbai to Ahmedabad: from 8-9 hours (road) or 4-5 hours (air) to under 2 hours.
• Improves business efficiency.

Strengthening Regional Economies:

• Brings industrial centres and markets closer (e.g., Vapi to Mumbai).
• Strengthens supply chains and expands business opportunities.

Tourism and Local Development:

• Corridor passes through regions with natural, cultural, and historical attractions.
• Stations encourage commercial activity and local development.

Supporting Make in India:

• Technology transfer from Japan.
• Domestic manufacturing participation.
• Strengthens allied sectors: steel, cement, electrical equipment.

Future High-Speed Rail Corridors (Union Budget 2026-27)

Seven new high-speed rail corridors announced as growth connectors, spanning nearly 4,000 km, attracting investments of approximately ₹16 lakh crore:

Conclusion

The Mumbai-Ahmedabad High-Speed Rail (MAHSR) Project is India’s first bullet train corridor, spanning 508 km with a design speed of 350 kmph and operational speed of 320 kmph. Using Japanese Shinkansen technology, it will connect Mumbai and Ahmedabad in under 2 hours. The project features India’s first undersea rail tunnel, advanced safety systems, and modern construction technologies. Expected to begin operations in August 2027, it is projected to generate thousands of jobs and serve as a foundation for India’s future high-speed rail expansion.

UPSC Mains Practice Question

1. The Mumbai-Ahmedabad High-Speed Rail Project marks India’s entry into high-speed rail technology. Examine its technological, economic, and employment significance. What are its implications for India’s future rail network? (250 words, 15 marks)

https://www.pib.gov.in/PressReleasePage.aspx?PRID=2272190&reg=3&lang=1

GS Paper II – Social Justice (Social Security) | GS Paper I – Society | GS Paper IV – Ethics
Rights of Persons with Disabilities (RPwD) Act, 2016; Disability Pension; Article 41; Dignity; Inclusive Welfare

Introduction

Despite India’s emergence as a digital welfare state, Persons with Disabilities (PwDs) remain excluded due to uneven pension policies, bureaucratic hurdles, and low public spending. India spends only 0.02% of GDP on disability welfare, far below countries like Brazil and South Africa, leaving many PwDs outside the reach of inclusive social security.

Main Body

The Inadequate Safety Net

Estimated Population of PwDs:

• 2011 Census: 2.68 crore PwDs.
• Today (conservative estimate): 4.5 crore – 6 crore (accounting for population growth and changing disease profiles).

Current Coverage and Amounts:

• Indira Gandhi National Disability Pension Scheme covers only a small fraction of PwDs.
• Pension amounts: ₹300-500 per month in most States; a few States offer ₹1,000-3,000.
• Fragmented, discretionary, and inadequate.

India’s Spending on Disability Welfare (including pensions):

• India: 0.02% of GDP.
• South Africa: 0.12-0.15% (six times more).
• Brazil: 0.45-0.50% (20 times more).
• OECD countries: 2.2% (110 times more).
• Australia: 0.35-0.40% (20 times more).

Economic Case for Disability Pensions

GDP Loss Due to Exclusion (World Bank & UNDP):

• Low- and middle-income countries lose 3-7% of GDP when PwDs are excluded from education, employment, and social security.

Benefits of Disability Income:

• Improves household stability, rural consumption, and labour participation.
• Fiscal multiplier: 1.4-1.6.

Pro Bono Economics Report (2025):

• Socio-economic returns from disability pensions exceed their costs by nearly 48%.
• Disability pensions are an investment and an effective economic stimulus – not a welfare expense.

The Proposal: Minimum Universal Disability Pension Floor Rate (MUDPFR)

What It Is:

• A national minimum pension for all PwDs, regardless of where they live.
• States can provide additional top-ups.
• Shifts disability pensions from charity and discretion to citizenship rights.

Fiscal Estimates:

• ₹8,000 per month for 40 lakh beneficiaries: ₹38,400 crore annually (0.08% of GDP).
• ₹10,000 per month for 65 lakh beneficiaries: ₹78,000 crore annually.
• Even ₹15,000 per month would keep expenditure below 0.2% of GDP.

Comparison with Other Expenditures (fiscally manageable):

• Food subsidies: ₹2.05 lakh crore.
• Rural development: ₹1.80 lakh crore.
• Tax concessions and revenue foregone: ₹1.72 lakh crore.
• Infrastructure: ₹11.11 lakh crore.
• Disability pensions and inclusion receive only a tiny fraction of public expenditure.

International Precedents

National Disability Pension Systems:

• South Africa: national disability grant with uniform eligibility norms.
• Brazil: BPC (Benefício de Prestação Continuada) guarantees a national minimum income.
• Australia and New Zealand: nationwide disability pension systems.
• Kenya, Rwanda, Thailand, Indonesia: disability income support at national level.

Key Lesson:

• Centrally set standards promote uniformity, universality, and portability.

Constitutional and Legal Framework

Article 41 (Directive Principle):

• State to provide public assistance to persons with disabilities (among other groups).

Rights of Persons with Disabilities (RPwD) Act, 2016:

• Section 24 guarantees adequate social security, including pension benefits.

Supreme Court:

• Recognised right to live with dignity as a fundamental right.

The Gap:

• Legal provisions exist, but implementation is fragmented and discretionary.

Institutional Reform: Need for a Single National Authority

Current System (Fragmented):

• Shared between Ministry of Rural Development and Department of Empowerment of Persons with Disabilities.
• Duplication, delays, diffused accountability.

International Models:

• South Africa: SASSA (South African Social Security Agency).
• Australia: NDIA (National Disability Insurance Agency).
• Brazil: INSS (Instituto Nacional do Seguro Social).
• Ireland: Department of Social Protection.

Proposal for India:

• National Disability Pension Authority.
• Functions: eligibility norms, national registry, portability, digital integration, grievance redress, State-wise performance monitoring.
• One standard, one system, one nation.

Combining Pensions with Employment Support

International Models:

• Singapore, South Korea, South Africa, Brazil: integrate disability pensions with employment and social security systems.
• Nigeria: employer tax incentives.
• UK: Access to Work programme.
• Australia: wage subsidies.

India’s Existing Schemes (Foundation for Expansion):

• PM-DAKSH (Pradhan Mantri Dakshta Aur Kushalta Sampann Mahabhiyan) – skill development.
• NAPS (National Apprenticeship Promotion Scheme).
• State-level employer incentives.

The Goal:

• Move PwDs from mere survival to productive participation.

International Commitments

• UN Convention on Rights of Persons with Disabilities (UNCRPD): Article 28 (adequate standard of living and social protection).
• ILO Recommendation No. 202: Social protection floors.
• SDG 1.3: Social protection systems for all.
• G-20 New Delhi Leaders’ Declaration: Social protection as cornerstone of inclusive development.

Diplomatic Implication:

• Implementing a robust disability pension system would strengthen India’s bid for a UN Security Council seat by translating commitments into action.

Constitutional Imperative and Moral Argument

The Problem:

• Disability pensions are one of the few entitlements determined by where a person lives.
• Geography decides the minimum support for survival.
• Federalism cannot be a justification for inequality.

The Principle:

• If dignity is a constitutional right, geography cannot decide minimum support.
• Persons with disabilities are rights-bearing citizens, not recipients of charity.
• A Viksit Bharat cannot leave its most vulnerable citizens at the mercy of a postcode lottery.

The Moral Question:

• Should India continue with a system where disability pensions vary according to State budgets, political priorities, and bureaucratic complexities?
• Or should the Republic guarantee a minimum level of support for all?

Conclusion

India spends only 0.02% of GDP on disability welfare despite evidence that excluding PwDs causes major economic losses. A proposed universal disability pension of ₹8,000 per month would cost just 0.08% of GDP and is fiscally feasible. Backed by Article 41, the RPwD Act, and global models like South Africa and Brazil, India needs a uniform national disability pension system to ensure dignity and inclusive welfare for all PwDs.

UPSC Mains Practice Question

1. Examine the need for a Minimum Universal Disability Pension Floor Rate (MUDPFR) in India. Discuss its constitutional, economic, and social significance. (250 words, 15 marks)

https://www.thehindu.com/opinion/lead/equality-of-treatment-for-persons-with-disabilities/article71094672.ece