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  • Akshvi Platform for Disaster Damage Reporting

    Why in the News?

    India has introduced Akshvi, a unique e-digital wallet aimed at assisting in disaster relief and improving the accuracy of loss reporting.

    About Akshvi: The E-Digital Wallet for Disasters

    • Akshvi (Aapda Kshati Vivaran) is a unique e-digital wallet developed by SEEDS India to assist disaster-stricken communities in India.
    • The platform allows people to self-report economic and non-economic losses during climate-induced events.
    • It bridges the data gap in disaster reporting and enhancing relief distribution and climate resilience.

    Key Features of Akshvi:

    • Self-Reporting Mechanism: It enables affected communities to log their losses during disasters such as floods, droughts, heatwaves, and landslides, ensuring accurate and timely assessments.
    • Localized Data Collection: The platform collects hyperlocal data, which is vital for tailoring disaster management strategies and relief efforts to the specific needs of affected communities.
    • User-Friendly Interface:
      • IVRS: Allows voice recording of losses.
      • WhatsApp Chatbot: For tech-savvy users to log data.
      • Assisted Data Entry: Available for those needing help with information entry.
    • Traceability: The platform tracks the progress of relief, ensuring that aid reaches the affected households transparently.
    • Integration with Government Schemes: Akshvi’s data links to social welfare schemes and index-based insurance programs, improving disaster response efforts.
    [UPSC 2004] In which one of the following countries did hundreds of people die in 2004 due to Tropical Storm Jeanne?

    Options: (a) Colombia  (b) Haiti (c) Sudan (d) Ghana

     

  • Species in news: Musk Deer

    Why in the News?

    A recent report by the Central Zoo Authority (CZA), highlights the absence of any breeding programme for musk deer.

    Species in news: Musk Deer

    About Musk Deer:

    • The Himalayan Musk Deer (Moschus leucogaster) is an endangered species native to the Himalayas, found in India, Nepal, Bhutan, Pakistan, and China.
    • It inhabits altitudes of 2,200 to 4,300 meters, primarily in alpine forests and scrublands.
    • Behaviour: Solitary, nocturnal, and territorial. Males have long, curved canine teeth and a musk gland, which is highly valued and targeted by poachers.
    • It plays a key role in seed dispersal, helping maintain the balance of the alpine ecosystem.
    • Threats: Poaching for their musk glands, habitat loss from deforestation, and genetic issues due to fragmented populations.

    Conservation Initiatives:

    • Protection Status:
      • It is listed as Endangered on the IUCN Red List.
      • It is listed under Schedule I of the Wildlife (Protection) Act, 1972, offering the highest protection under Indian law.
    • Protected Areas:
      • Kedarnath Wildlife Sanctuary: Established in 1972, covering 975 km² in the western Himalayas, crucial for musk deer conservation.
      • Askot Musk Deer Sanctuary: Located in Uttarakhand, dedicated specifically to musk deer conservation.
    • Himalayan Musk Project (1982): Aimed at captive breeding within Kedarnath Sanctuary but faced setbacks due to disease, snake bites, and poor survival rates. The project was shut down in 2006.
    [UPSC 2020] Which of the following are the most likely places to find the musk deer in its natural habitat?

    1. Askot Wildlife Sanctuary

    2. Gangotri National Park

    3. Kishanpur Wildlife Sanctuary

    4. Manas National Park

    Select the correct answer using the code given below:

    Options: (a) 1 and 2 only (b) 2 and 3 only (c) 3 and 4 only (d) 1 and 4 only

     

  • Role of Lipids in Protein Function and Co-Evolution

    Why in the News?

    New research by CSIR-Centre for Cellular and Molecular Biology, Hyderabad suggest that lipids (along with DNA), particularly in mitochondrial membranes, are not just structural elements but play an integral role in the function and evolution of proteins.

    About Lipids and RC1 in Cells:

    Lipids:

    • Lipids, including fats, phospholipids, and sterols, make up to 30% of the dry weight of cells.
    • They are crucial for membrane integrity and various biological processes.
    • They vary in fatty acid composition and length, influenced by genetics, diet, and environmental factors.
    • They form a bilayer in membranes, with hydrophilic heads facing outward and hydrophobic tails inward, providing stability and enabling protein function.
    • Role of Lipids in Cells:
      • Lipids form the bilayer, providing flexibility and stability for membrane proteins that perform functions like receptor binding and ion channelling.
      • They like cardiolipin stabilize RC1 and other respiratory complexes, aiding energy production.

    RC1 (Respiratory Complex 1):

    • RC1 is a protein complex in the mitochondrial membrane, crucial for cellular respiration and energy production.
    • It is composed of 44 proteins, some synthesized in the cytoplasm and others in mitochondria.
    • Mutations in RC1 lead to diseases due to its vital role in respiration.

    Lipid-Protein Co-evolution as per new Research:

    • New research highlights the co-evolution of proteins and lipids, especially in mitochondrial membranes, where proteins interact with specific lipids from their own kingdom (plant or animal).
    • Plant lipids, richer in polyunsaturated fatty acids, are more flexible, aiding stress resistance, while animal lipids evolve differently to meet their needs.
    • Lipid-protein co-evolution adds complexity to cellular evolution, with implications for human health and disease treatment.
    [UPSC 2001] Which of the following cell organelles play the most significant role in protein synthesis?

    Options: (a) Lysosome and Centrosome (b) Endoplasmic reticulum and Ribosome* (c) Golgi apparatus and Mitochondria (d) Lysosome and Mitochondria

     

  • Food prices may remain low if IMD’s prediction holds true

    Why in the News?

    According to the India Meteorological Department’s first forecast for 2025, the country may receive around 105% of the average rainfall, with a possible variation of 5% more or less.

    What is the India Meteorological Department’s (IMD) forecast for the 2025 monsoon?

    • Above Normal Rainfall Predicted: IMD forecasts 105% of the Long Period Average (LPA) rainfall for 2025, with a margin of ±5%. Eg: In 2024, India received 108% of LPA, which was categorized as ‘above normal’ rainfall.
    • LPA Reference and Classification: The LPA for the period 1971–2020 is 87 cm. Based on this, rainfall is classified as: Above Normal: 105–110% of LPA. Eg: If the rainfall is 105% of LPA, it falls within the ‘above normal’ range.
    • Improved Forecasting Methodology: Since 2021, IMD uses a multi-model ensemble system, combining global climate models with IMD’s own models, improving forecasting accuracy. Eg: Forecasts since the adoption of this system have shown improved accuracy, reducing error margins from previous years.

    Why is rainfall distribution crucial for agriculture?

    • Impact on Crop Growth: Uneven or poor rainfall distribution can lead to crop stress or failure. Plants depend on consistent water supply during different growth stages. Eg: In 2024, excess rainfall in Maharashtra led to the destruction of onion crops, while deficient rainfall in Punjab delayed paddy sowing, driving up food costs.
    • Effect on Water Availability: Proper rainfall distribution ensures water availability throughout the growing season, which is essential for irrigation systems and groundwater recharge. Eg: If regions like Tamil Nadu receive excess rainfall while other areas like Uttar Pradesh experience drought, it can disrupt the balance, making water management challenging.
    • Geographical Variability and Crop Suitability: Different crops require specific rainfall amounts at different times, so spatial distribution of rainfall is essential for crop selection and yield maximization. Eg: In 2023, Telangana and Puducherry received excess rainfall, benefiting crops like rice, but Bihar faced a below-normal monsoon, impacting food grain production.

    When did IMD improve its forecasting model, and what changed?

    • Improvement Began in 2021: IMD improved its forecasting model by adopting a multi-model ensemble dynamical system in 2021. Eg: Prior to 2021, IMD primarily relied on statistical models, but the new system incorporates global climate models along with IMD’s own models for better accuracy.
    • Enhanced Accuracy with New Models: The introduction of the multi-model ensemble system improved forecast reliability, reducing errors in predictions. Eg: Forecasts post-2021 showed a significant improvement, with accurate predictions of rainfall in regions like Maharashtra and Tamil Nadu during the 2024 monsoon.
    • Reduction in Error Margins: The new approach resulted in reduced error margins, making the first forecasts closer to actual rainfall patterns. Eg: IMD’s first forecast for the 2024 monsoon had a relatively smaller error margin, improving the predictability of rainfall distribution across India compared to previous years.

    How do El Niño, La Niña, and IOD affect the monsoon?

    Weather Phenomenon Effect on Monsoon Example
    El Niño Weakens the monsoon due to warmer sea surface temperatures in the Pacific Ocean. This leads to reduced rainfall. Eg: 2014, El Niño conditions led to below-normal rainfall, causing droughts and poor crop production in India.
    La Niña Strengthens the monsoon due to cooler sea surface temperatures in the Pacific Ocean, which can lead to excessive rainfall in some areas. Eg: 2017, La Niña conditions contributed to above-normal rainfall, causing floods in some regions like Assam.
    Indian Ocean Dipole (IOD) Positive IOD can enhance rainfall, while a negative IOD can lead to drought conditions, especially if combined with El Niño. Eg: 2019, a positive IOD helped in normal rainfall despite El Niño, while 2020 had a negative IOD, exacerbating the impact of weak monsoon rainfall.

    Which regions saw abnormal rainfall in 2023, and what was the impact?

    • North and Northwest India: Excessive Rainfall: Heavy rainfall led to flash floods, landslides, and infrastructure damage. Eg: In Himachal Pradesh, intense rainfall triggered landslides and flash floods, resulting in at least 72 deaths and significant infrastructure damage.
    • Northeast India: Glacial Lake Outburst Floods (GLOFs): Sudden release of water from glacial lakes caused severe flooding, destruction of infrastructure, and loss of life. Eg: In Sikkim, a GLOF resulted in the deaths of at least 31 people, destruction of over 270 houses, and damage to 11 bridges.
    • Southern Peninsula: Deficient Rainfall: Reduced water availability affected agriculture, leading to crop stress and delayed sowing. Eg: In Tamil Nadu, deficient rainfall impacted the sowing of paddy, leading to concerns over food production.

    Way forward: 

    • Enhance Climate Resilience: Promote water management, drought-resistant crops, and crop diversification to mitigate impacts of uneven rainfall.
    • Improve Early Warning Systems: Strengthen forecasting and disaster preparedness to ensure timely responses to extreme weather events.

    Mains PYQ:

    [UPSC 2024] What are the causes of persistent high food inflation in India? Comment on the effectiveness of the monetary policy of the RBI to control this type of inflation.

    Linakge:  If the IMD’s prediction is accurate, a good monsoon could mitigate one of the key drivers of food inflation – erratic rainfall and lower agricultural output. This question asks about the causes of high food inflation; a good monsoon would work against these causes.

  • LEDA 1313424: The Bullseye Galaxy

    Why in the News?

    NASA’s Hubble Space Telescope recently discovered the Bullseye Galaxy (LEDA 1313424), which contains 9 rings, an unprecedented number.

    This finding offers new insights into galaxy evolution and the possibility of the galaxy evolving into a Giant Low Surface Brightness (GLSB) galaxy.

    Bullseye Galaxy

    About the Bullseye Galaxy (LEDA 1313424):

    • The Bullseye Galaxy is unique for containing 9 rings, an unprecedented number in the study of ringed galaxies.
    • Most ringed galaxies typically have 2 or 3 rings, making this discovery significant.
    • The rings are believed to have formed after a collision with a blue dwarf galaxy about 50 million years ago, causing ripples in the gas and creating star-forming regions that became the rings.
    • While individual stars’ orbits stayed the same, groups of stars gathered, forming distinct rings over time.
    • This discovery offers valuable insights into galaxy interactions and the rare formation of multiple rings.

    What are Giant Low Surface Brightness (GLSB) Galaxies?

    • GLSB Galaxies are large, diffuse galaxies with low surface brightness and fewer stars than typical galaxies, making them appear dimmer.
    • These galaxies contain vast hydrogen disks, the fuel for star formation, but their low hydrogen density prevents many stars from forming.
    • GLSB galaxies are believed to contain significant amounts of dark matter, affecting their mass distribution.
    • They have less dense inner regions and challenge current cosmological models due to their hydrogen content and low surface brightness.

    Bullseye Galaxy and Its Possible Evolution into a GLSB Galaxy:

    • It shares traits with GLSB galaxies, such as its extended disk and hydrogen content.
    • Researchers suggest that the Bullseye Galaxy might evolve into a GLSB galaxy, providing insights into the formation of such galaxies and the distribution of dark matter in the universe.
    [UPSC 2018] Consider the following phenomena:

    1. Light is affected by gravity. 2. The Universe is constantly expanding. 3. Matter warps its surrounding space-time.

    Which of the above is/are the prediction/predictions of Albert Einstein’s General Theory of Relativity, often discussed in the media?

    Options: (a) 1 and 2 only (b) 3 only (c) 1 and 3 only (d) 1, 2 and 3

     

  • What is a Quantum Gravity Gradiometer (QGG)?

    Why in the News?

    NASA scientists have proposed using quantum technology to study gravitational changes on Earth by deploying a quantum gravity gradiometer (QGG) on a satellite in low-Earth orbit.

    About Gravity Gradiometer & Quantum Gravity Gradiometer (QGG):

    • A gravity gradiometer measures small variations in gravitational force over short distances.
    • How It Works: It detects differences in the acceleration of falling objects, indicating the density of materials below the surface, such as hydrocarbon deposits or geological structures.
    • Applications:
      • Oil Exploration: Detects underground hydrocarbon deposits by measuring gravitational differences.
      • Geological Studies: Used to explore subterranean features like minerals and fault lines.
    • A Quantum Gravity Gradiometer (QGG) uses quantum technology to achieve much higher precision than traditional gravity gradiometers.
      • How It Works: Atoms are cooled to near absolute zero and manipulated with lasers. The phase shifts of these atoms, proportional to gravitational force, detect tiny changes in gravitational acceleration.
      • It can detect changes as small as 10^-15 m/s² over just 1 meter, offering much finer measurements than traditional instruments.
    • Specifications: Weighs 125 kg, has a volume like a 250-liter oil drum, and consumes 350 watts of power (comparable to an older Intel CPU).

    Applications of QGG in Space:

    • Studying Gravitational Variations: Measures small changes in Earth’s gravitational field, aiding climate change studies, such as melting ice caps and shifting water reserves.
    • Earth’s Gravitational Field Mapping: Improves understanding of Earth’s internal structure and seismic activities.
    • Dark Matter Research: Provides insights into dark matter by detecting gravitational anomalies.
    • Satellite Navigation: Enhances space navigation and satellite positioning.
    • Mapping Underground Features: Used to map structures like mineral deposits and fault lines.
    • Security: Detects underground structures like military bunkers and natural disasters, offering valuable security information.
    [UPSC 2003] If the radius of the Earth were to shrink by one per cent, its mass remaining the same, the value of ‘g’ on the Earth’s surface would:

    Options: (a) Increase by 0.5% (b) Increase by 2% (c) Decrease by 0.5% (d) Decrease by 2%

     

  • Rishikesh-Karnaprayag Railway Tunnel

    Why in the News?

    India has marked a significant achievement in its railway infrastructure development with the “tunnel breakthrough” of Tunnel No. 8 on the Rishikesh-Karnaprayag Railway Line.

    Rishikesh-Karnaprayag Railway Tunnel

    About Rishikesh-Karnaprayag Railway Tunnel:

    • Tunnel No. 8 is a major part of the Rishikesh-Karnaprayag railway project, spanning 14.58 km, making it the longest transport tunnel under construction in India.
    • The tunnel is the first railway tunnel in the Himalayan region to use a Tunnel Boring Machine (TBM) (combining with the New Austrian Tunneling Method (NATM)) which reduces environmental disruption and increases efficiency compared to traditional blasting methods.
    • It is located on the Devprayag to Janasu stretch, which is part of the larger Rishikesh-Karnaprayag railway line project in Uttarakhand.
    • It is part of a larger plan to build a 125.20 km rail link, with 83% of the line to be tunnelled.
    • It will feature 12 new stations, 16 tunnels, and 19 bridges across five districts of Uttarakhand.
    • Safety measures include 12 escape tunnels and 7.05 km of cross passages to ensure passenger safety in case of emergencies.
    • This link will significantly improve connectivity to Uttarakhand’s hilly areas, reduce travel time, and boost economic activity in the region.
    [UPSC 2005] Consider the following statements concerning the Indian Railways:

    1. The Head Quarters of the North Western Railway are located at Jodhpur.

    2. ‘Indrail pass’ – a travel-as-you-please ticket has been created especially for freedom fighters and sportspersons who have represented India in any game/sport.

    3. Fairy Queen is a train using the world’s oldest working engine and the Indian Railways conduct a journey of wildlife and heritage sites on it.

    Which of the statements given above is/are correct?

    Options: (a) 2 only (b) 3 only (c) 1 and 2 (d) None*

     

  • New pathways for India’s creative economy 

    Why in the news?

    India has a rich history of creativity across fields like art, science, and medicine. To achieve its $5 trillion goal, it must refresh its innovation approach by encouraging creativity everywhere.

    What is the creative economy?

    The creative economy includes industries driven by creativity, culture, knowledge, and innovation, like art, design, media, software, and research, generating income, jobs, and exports through intellectual and cultural capital.

    What is the situation of the Global creative Economy? 

    • Global Creative Economy (2022): Creative services exports reached $1.4 trillion (29% rise since 2017), goods at $713 billion, together generating over $2 trillion annually and supporting 50 million jobs.
    • Key Sectors (UNCTAD 2024): Software services (41.3%), research and development (30.7%), and advertising, market research, and architecture (15.5%) are major contributors to the global creative economy.
    • India’s Contribution: In 2019, India’s creative exports totaled $121 billion, with services making up $100 billion. As of 2024, the sector is valued at $30 billion, employs 8% of the workforce, and saw a 20% growth in exports.

    What factors drive India’s growing creative economy and its $5 trillion ambition?

    • Diverse Creative Sectors: India has a rich tradition of creativity across various fields such as arts, design, science, medicine, and technology. This diverse pool of creativity serves as a foundation for innovation. Eg: The design sector, accounting for 87.5% of India’s creative goods exports, showcases India’s global leadership in design innovation.
    • Increasing Global Demand for Creative Goods and Services: The global market for creative services has surged, and India’s growing export of creative goods and services is capitalizing on this demand. Eg: In 2022, India’s creative exports grew by 20%, reaching over $11 billion, indicating the sector’s expanding international reach.
    • Technological Advancements: Investment in technology and software services is one of the primary contributors to India’s creative economy. As technology integrates into creative fields, it opens up new possibilities for innovation. Eg: Software services make up 41.3% of the global creative economy, positioning India as a leader in IT and creative technological services.
    • Grassroots Innovations: India’s grassroots innovations, often solving local challenges, are a significant driver of the creative economy. These innovations have the potential to scale up and contribute to economic growth. Eg: Innovations like the “mitti cool clay refrigerator” and pedal-operated washing machines showcase India’s strength in developing frugal, sustainable innovations that can be scaled.
    • Government Initiatives and Investments: The Indian government’s support for creative industries, such as through initiatives like “One District One Innovation,” helps nurture local creativity and turn it into large-scale economic impact. Eg: The government’s focus on intellectual property protection and encouraging local creative ideas through programs like GIAN (Grassroots Innovations Augmentation Network) enables broader commercialization of grassroots innovations.

    Why is bridging the gap between creativity and innovation essential in India?

    • Ideas to Scalable Products: Creativity generates ideas, but innovation turns them into products. Bridging the gap ensures ideas are transformed into commercially viable solutions. Eg: The “mitti cool clay refrigerator” needs innovation for mass production.
    • Maximizing Economic Impact: Bridging the gap helps scale innovations, creating jobs and boosting economic growth. Eg: The pedal-operated washing machine requires innovation to reach larger markets.
    • Enhancing Global Competitiveness: Converting creative ideas into innovative products boosts India’s global market presence. Eg: India’s design sector can thrive by innovating creative concepts into market-ready products.

    What are the steps taken by the Indian government? 

    • One District One Product (ODOP) & One District One Innovation (ODOI): Promotes unique local products and innovations from each district to boost local economies and generate employment. Eg: ODOP has helped districts like Bhadohi in Uttar Pradesh gain recognition for carpet weaving, integrating traditional creativity with global markets.
    • Startup India and Atal Innovation Mission (AIM): These initiatives foster innovation by supporting startups with funding, mentorship, and infrastructure. Eg: AIM’s Atal Tinkering Labs in schools promote problem-solving and innovation from a young age, nurturing future innovators.
    • Support for Intellectual Property Rights (IPR): Government has simplified patent filing, reduced fees for startups, and launched awareness programs to protect grassroots innovations. Eg: The National IPR Policy 2016 encourages creators, especially in rural India, to safeguard and monetise their innovations.

     

    How can grassroots innovations be scaled up for commercial success? (Way forward)

    • Improved Manufacturing Processes: To scale grassroots innovations, cost-effective and efficient manufacturing processes must be developed to meet larger market demands. Eg: The “mitti cool clay refrigerator” needs affordable mass production techniques to reduce costs and increase accessibility.
    • Protection of Intellectual Property: Innovators need intellectual property (IP) protection to prevent replication and ensure fair returns from their ideas. Eg: IP protection for local innovations like the “amphibious bicycle” ensures exclusive market rights and encourages investment.
    • Market Research and Consumer Feedback: Conducting market research and incorporating consumer feedback helps tailor grassroots innovations to meet the needs of a broader audience. Eg: The “mitti cool” refrigerator could be adapted to different regional needs based on customer feedback.
    • Government Support and Policy Frameworks: Government policies and initiatives can help create an ecosystem for scaling grassroots innovations by providing infrastructure, legal support, and incentives for innovation. Eg: Programs like “One District One Innovation” could support scaling local innovations like sustainable farming tools across regions.

    Mains PYQ: 

    [UPSC 2018] What is the significance of Industrial Corridors in India? Identify industrial corridors, explain their main characteristics.

    Linkage: The concept of industrial corridors emphasizes infrastructure development and sector-specific growth. Similarly, developing robust ecosystems and infrastructure for creative industries is a crucial pathway for the growth of India’s creative economy, aligning with the need for support and formalization discussed in the article.

     

     

     

  • Comprehensive Remote Sensing Observation on Crop Progress (CROP)

    Why in the News?

    The ISRO through its CROP remote sensing framework, has estimated that the total wheat production from eight major wheat-growing states will reach 122.724 million tonnes by March 31, 2025.

    About CROP:

    • CROP is a semi-automated and scalable framework developed by ISRO’s National Remote Sensing Centre (NRSC).
    • The primary goal of CROP is to provide a real-time view of the sowing, growth, and harvest progress of crops, especially wheat during the Rabi season.
    • CROP utilizes data from multi-source remote sensing satellites to monitor agricultural areas across India.
    • Technological Components of CROP:
      1. EOS-04 (RISAT-1A): Provides Synthetic Aperture Radar (SAR) data for crop monitoring, especially under varied weather conditions.
      2. EOS-06 (Oceansat-3): Offers optical remote sensing data for agricultural monitoring.
      3. Resourcesat-2A: Used for high-resolution optical imaging, focusing on agricultural areas for precise crop monitoring.

    Key Features of the Study:

    • The study used a combination of SAR and optical data to accurately assess crop progress during the 2024-25 Rabi season.
    • The wheat sown area, as of March 31, 2025, stands at 330.8 lakh hectares, which is in line with the figures reported by the Ministry of Agriculture and Farmers Welfare (324.38 lakh hectares as of February 4, 2025).
    • Wheat production in the eight major wheat-growing states is estimated to be 122.724 million tonnes by March 31, 2025, based on the data gathered through the remote sensing method.
    [UPSC 2019] For the measurement/estimation of which of the following are satellite images/remote sensing data used?

    1. Chlorophyll content in the vegetation of a specific location

    2. Greenhouse gas emissions from rice paddies of a specific location

    3. Land surface temperatures of a specific location

    Select the correct answer using the code given below.

    Options: (a) 1 only (b) 2 and 3 only (c) 3 only (d) 1, 2 and 3*

     

  • Science behind Uterine Transplants

    Why in the News?

    Uterine transplant surgery offers a groundbreaking solution for women with absolute uterine infertility, as seen in the recent birth of the first child in the U.K. born to a mother who received a donated uterus.

    About Uterine Transplants:

    • Uterine transplantation is a surgical procedure where a woman who lacks a functional uterus receives a donor uterus, enabling her to carry and give birth to a child.
    • The transplant is typically temporary, allowing for one or two pregnancies, after which the uterus is usually removed to avoid complications.
    • Donor Criteria:
      • Age: Between 30 to 50 years.
      • Health: Must be in good overall health, with a BMI under 30, and no history of diabetes, cancer (within 5 years), or STIs.
      • Exclusions: Women with HIV, Hepatitis B, Hepatitis C, or other complications.
    • The procedure requires gynecological transplant surgeons with specific training. A 6-month recovery period is needed before attempting pregnancy.

    Indian Scenario:

    • India’s first transplant was performed on May 18, 2017, at Galaxy Care Hospital in Pune. The recipient was a 26-year-old woman who received her mother’s uterus.
    • In October 2018, India’s first baby was born via Caesarean section, weighing 1.45 kg and healthy.
    • This success story reflects India’s growing capabilities in reproductive medicine, providing hope to women with uterine infertility, offering them an opportunity for biological motherhood.
    [UPSC 2020] In the context of recent advances in human reproductive technology, “Pronuclear Transfer” is used for:

    Options: (a) fertilization of egg in vitro by the donor sperm (b) genetic modification of sperm producing cells (c) development of stem cells into functional embryos (d) prevention of mitochondrial diseases in offspring