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GS Paper: GS3

  • Basmati Rice Revolution: From Crop to Cuisine

    basmati

    Central Idea

    • While scientific research often seems distant from practical outcomes, some less-celebrated success stories stand out.
    • One such triumph is the transformation of India’s basmati rice industry, driven by scientists at the Indian Agricultural Research Institute (IARI) in New Delhi.

    About Basmati Rice

    • Basmati rice is a fragrant, long-grain rice variety primarily cultivated in the Indian subcontinent.
    • It is native to the foothills of the Himalayas in India and Pakistan.
    • Basmati rice is characterized by its long, slender grains that elongate further when cooked.
    • Basmati rice is renowned for its natural aromatic fragrance, often described as nutty or floral.
    • There are different Basmati rice varieties, each with its unique characteristics. Some popular varieties include Basmati 370, Basmati 386, and Basmati 1121.
    • Basmati rice from certain regions, particularly Indian Basmati, has received Geographical Indication (GI) tags, indicating its specific geographical origin and quality.

    [a] First Revolution

    • Traditional Basmati Varieties: Until the late 1980s, Indian farmers primarily cultivated traditional basmati varieties with tall plants prone to lodging, resulting in low yields and long cultivation periods.
    • Breakthrough with PB-1: In 1989, the IARI introduced Pusa Basmati-1 (PB-1), a crossbreed that combined traditional basmati grain attributes with high-yielding traits. PB-1 was more compact, sturdy, and offered improved yields and maturity times.

    [b] The Second Revolution

    • PB-1121’s Quality: The real revolution came in 2003 with the release of Pusa Basmati-1121 (PB-1121), which offered a different advantage. While yielding slightly less, it boasted exceptional grain quality, with elongated kernels that expanded impressively upon cooking.
    • Market Impact: PB-1121’s grain quality allowed companies like KRBL Ltd. to create a lucrative export brand, making it a global favourite. This variety significantly contributed to India’s basmati rice exports.

    [c] Third Revolution

    • PB-1509: In 2013, the IARI introduced Pusa Basmati-1509 (PB-1509), a high-yielding variety with a shorter maturity period. This innovation allowed farmers to cultivate an extra crop, enhancing their economic prospects.
    • Diverse Crop Combinations: PB-1509’s early maturity has enabled farmers to explore crop diversification, including potatoes, sunflowers, sweet corn, and onions, in addition to basmati rice.

    basmati

    Breeding for Disease Resistance

    • Protecting Gains: IARI scientists have recently focused on preserving yield gains by incorporating disease-resistant genes into their improved basmati varieties.
    • Marker-Assisted Selection: Genes for bacterial leaf blight and rice blast fungal disease resistance have been identified through marker-assisted selection techniques.
    • New Varieties: The release of Pusa Basmati-1885 and Pusa Basmati-1847 in 2021 marked the introduction of varieties with “in-built resistance” against these diseases, reducing the need for chemical crop protection.

    Risk Factors

    • Market Dependency: Basmati rice lacks a minimum support price (MSP) and relies heavily on exports, with limited domestic consumption.
    • Market Vulnerability: Despite its profitability, basmati farming is exposed to market fluctuations and government export policies. Recent restrictions highlight this vulnerability, affecting basmati farmers.
  • Moonquakes and its Apollo 17 connection

    moonquake

    Central Idea

    • A research utilized seismic data collected between 1976 and 1977, showcasing how the lunar lander left by the Apollo 17 astronauts might be causing seismic activity on the moon.
    • The study emphasizes that these moonquakes are not the result of natural processes but stem from vibrations generated by the lunar module descent vehicle, which was placed on the moon’s surface in 1972.

    About Apollo 17 Mission

    • Apollo 17 was the final Apollo mission to the Moon, marking the sixth lunar landing.
    • It was launched by December 6, 1972, with a night launch, which was unique in the Apollo program.
    • This mission had specific scientific objectives, differentiating it from previous missions, and aimed to collect ancient highlands crustal material and investigate the possibility of recent lunar volcanic activity.
    • Neil Armstrong, the first person to set foot on the lunar surface, went under the Apollo 11 mission in July 20, 1969.

    Understanding Moonquakes

    • Similarities to Earthquakes: Moonquakes share similarities with earthquakes as both involve seismological vibrations.
    • Researchers have identified four types of moonquakes, three of which are relatively benign. Shallow moonquakes, the closest to the surface, are the most destructive.
    1. Deep Moonquakes: Occur approximately 700 kilometers below the lunar surface.
    2. Shallow Moonquakes: Take place at depths of only 20 to 30 kilometers, lasting up to 10 minutes.
    3. Vibrational Moonquakes: Typically result from meteorite impacts.
    4. Thermal Quakes: Caused by the moon’s crust expanding as it warms following subzero temperatures during the night.
    • Moonquakes occur as often as every 27 days, primarily due to temperature fluctuations between lunar day and night, totalling approximately 7,000 moonquakes in a decade.

    Moonquakes vs. Earthquakes

    • Moonquakes are generally smaller in magnitude than earthquakes but are known for their extended duration.
    • Shallow moonquakes recorded by Apollo astronauts have reached up to a magnitude of 5.5.

    Human Lunar Landings

    • Multiple countries have embarked on lunar missions, with India being the most recent in 2023, following the United States, Russia, and China.
    • India’s Chandrayaan-3 mission included a seismometer, which detected a moonquake, providing valuable data for future analysis.

    Significance of Monitoring Moonquakes

    • Understanding moonquakes holds potential significance for future lunar missions, particularly if NASA establishes a permanent lunar outpost.
    • Seismometers, like those used on the moon, are vital for comprehending lunar geology and ensuring the safety of future lunar explorers.
    • Monitoring lunar seismic activity is crucial for designing experiments and missions aimed at unravelling the mysteries of Earth’s closest celestial neighbor.
    • The moon presents a unique opportunity for in-depth planetary study beyond Earth.
  • Establishment of GST Appellate Tribunals across India

    Central Idea

    • The Finance Ministry has formally established 31 Appellate Tribunals spanning 28 States and eight Union Territories for the Goods and Services Tax (GST).
    • This significant move aims to address the increasing number of taxpayer disputes with the Revenue Department.

    What is GST Appellate Tribunal?

    • The GST Appellate Tribunal is a quasi-judicial body proposed to be established to resolve disputes related to the Goods and Services Tax (GST) in India.
    • It will function as an independent body to hear appeals against orders passed by the GST authorities or the Appellate Authority.
    • The tribunal will be composed of a national bench and various regional benches, headed by a chairperson appointed by the central government.
    • The proposed tribunal is expected to help expedite the resolution of disputes related to GST and reduce the burden on the judiciary.

    Under GST, if a person is not satisfied with the decision passed by any lower court, an appeal can be raised to a higher court, the hierarchy for the same is as follows (from low to high):

    1. Adjudicating Authority
    2. Appellate Authority
    3. Appellate Tribunal
    4. High Court
    5. Supreme Court

    Need for such Tribunal

    • Unburden judiciary: GST Appellate Tribunal will help resolve the rising number of disputes under the 68-month-old indirect tax regime that are now clogging High Courts and other judicial fora.
    • Improve efficiency of GST System: Overall, the establishment of the GST Appellate Tribunal is expected to improve the efficiency and effectiveness of the GST system in India.
    • Independent mechanism: The proposed Tribunal will provide an independent and efficient mechanism for resolving disputes related to GST.
    • Avoid tax evasion: It will help to expedite the resolution of disputes, reduce the burden on the judiciary, and promote greater certainty and predictability in the GST system.

    Issues with present litigation

    • Compliance issues: The GST system is relatively new in India, having been implemented in 2017, and there have been several issues with compliance and interpretation of rules and regulations.
    • Complex adjudication hierarchy: The current dispute resolution mechanism involves multiple layers of adjudication, starting with the GST officer and as mentioned above.
    • Time consuming process: This process can be time-consuming, costly, and burdensome for taxpayers, especially small and medium-sized enterprises.

    Significance

    • The creation of these tribunals had been in the pipeline since the implementation of the GST regime on July 1, 2017.
    • The number of pending appeals by taxpayers related to central GST levies had surged to over 14,000 (June 2023).
  • M Visvesvaraya: India’s pioneering Civil Engineer

    Visvesvaraya

    Central Idea

    • September 15 marks the birthday of Sir Mokshagundam Visvesvaraya (1861-1962), celebrated for his pivotal role as a civil engineer and administrator during colonial India.

    About M. Visvesvaraya

    • Early life: Born on September 15, 1861, in the village of Muddenahalli, Karnataka, Visvesvaraya commenced his educational journey in his hometown.
    • Academic Pursuits: He pursued a Bachelor of Arts degree at the University of Madras and later embarked on a diploma course in civil engineering at the College of Science in Pune.

    Career Achievements

    • Engineering Pioneer: After completing his engineering studies at Poona College of Science, Visvesvaraya commenced his career as an Assistant Engineer in the Public Works Department (PWD) of the Government of Bombay at the age of 22.
    • Notable Projects: Among his initial projects was the construction of a pipe syphon across one of Panjra river’s channels.
    • Dewan of Mysore: In 1909, he assumed the role of Chief Engineer in the Mysore service, eventually becoming the 19th Dewan of Mysore.
    • Voluntary Retirement: In 1918, Visvesvaraya took voluntary retirement due to his disagreement with the proposal to allocate state jobs based on caste.
    • Committees and Contributions: Following retirement, he chaired or participated in various committees, including the Bombay Technical and Industrial Education Committee, Bombay University Committee for Promoting Chemical Industries, and the Cauvery Canal Committee.

    Significant Works

    • Block System of Irrigation: In 1899, he introduced the block system of irrigation in the Deccan canals, enhancing the equitable distribution of irrigation benefits among numerous villages.
    • Water Quality Improvement: Visvesvaraya tackled the issue of “muddy and discolored” water in Sukkur, a city on the banks of the Indus River.
    • Invention of Automatic Gates: He invented automatic gates for regulating water flow in reservoirs, securing a patent for this innovation.
    • Implementation at Krishnaraja Sagar Dam: The Krishnaraja Sagar Dam in Karnataka became the first to adopt these gates in the 1920s.

    Global Perspective

    • International Learning: Visvesvaraya travelled abroad to study various aspects of other countries’ systems. During a visit to Italy, he examined soil erosion problems and irrigation and drainage works.
    • Advocating for Indian Contributions: He challenged the perception that only British officers were capable of overseeing advanced engineering works, emphasizing that Indian expertise was valuable when supported by qualifications and dedication.

    Vision for Progress

    • Inspirational Speech: In a speech delivered on March 16, 1912, at Central College Bangalore, Visvesvaraya emphasized the need for India to adopt modern practices, scientific precision, inventiveness, discipline, and economic fundamentals for progress.
    • Promoting Self-Examination: He encouraged a secular self-examination, comparing local conditions in India with global counterparts.
    • Authorship: Visvesvaraya authored two influential books, “Reconstructing India” (1920) and “Planned Economy of India” (1934).

    Impact on Education

    • Education as a Catalyst: Visvesvaraya recognized the critical role of education in shaping an economy during his visit to Japan in 1898.
    • Founding the University of Mysore: As the Dewan of Mysore in 1916, he played a pivotal role in establishing the University of Mysore, emphasizing that educational institutions should mirror real-life conditions.
  • Monoclonal Antibody

    Central Idea

    • India has reached out to Australia in its efforts to procure monoclonal antibody doses for combating the Nipah virus outbreak in Kerala.
    • The monoclonal antibody has successfully passed phase-one trials and has been administered to 14 individuals globally.

    Why use it for Nipah?

    • Currently, there is no effective treatment for Nipah virus infection apart from symptom relief.
    • The virus carries a high mortality rate ranging from 40% to 75%, making it a formidable threat.
    • In comparison, even during the peak of the Covid-19 pandemic, the case fatality ratio (CFR) remained at around three percent.

    What are Monoclonal Antibodies (mAbs)?

    • Monoclonal antibodies (mAbs) are a class of therapeutic proteins that have revolutionized medicine and healthcare.
    • They are used in a wide range of applications, from treating diseases to diagnosing conditions and conducting scientific research.

    Structure of mAbs

    • Monoclonal antibodies are proteins produced by a single type of immune cell, known as a B cell.
    • They are called “monoclonal” because they are derived from a single, cloned parent cell.
    • These antibodies have a specific Y-shaped structure consisting of two identical heavy chains and two identical light chains.
    • The variable region of the antibody binds to a specific antigen with high precision.

    Applications of Monoclonal Antibodies

    • Monoclonal antibodies have a wide range of applications in medicine, science, and diagnostics:
    • MAbs are used to treat various diseases, including cancer, autoimmune disorders, infectious diseases, and more.
    • They are used in diagnostic tests, such as ELISA (enzyme-linked immunosorbent assay), to detect specific molecules like antigens or antibodies.
    • Scientists use mAbs to study and manipulate biological processes. They can be labeled with fluorescent markers for imaging and are crucial tools in cell biology and molecular biology research.
    • Monoclonal antibodies labelled with radioactive isotopes or fluorescent markers can be used for diagnostic imaging techniques like PET (positron emission tomography) scans.
    • They can target specific molecules on cancer cells, minimizing damage to healthy cells during cancer treatment.

    Challenges and Advancements

    • Despite their significant benefits, monoclonal antibodies can have limitations, such as high production costs and the potential for immune responses.
    • Advances in technology, such as the development of humanized antibodies (antibodies with human components to reduce immune reactions), have addressed some of these challenges.
  • A GM crop decision that cuts the mustard

    What’s the news?

    • The zero-hunger target for 2030, as delineated in the 2019 Global Food Security and Nutrition Report, looms as an increasingly elusive goal. To overcome this pressing challenge, it is essential to expedite the genetic enhancement of crops.

    Central idea

    • In a world grappling with the formidable challenge of ensuring global food security amid a changing climate, genetic engineering emerges as a beacon of hope. It has become an urgent necessity to complement conventional breeding methods with science-based technologies, particularly genetic engineering, for developing GM crops.

    Extensive adoption and benefits of genetically modified (GM) crops

    • Increased Productivity: Genetic modification of crops, in combination with traditional farming practices, has been extensively documented for its role in increasing agricultural productivity. This technology has made significant contributions to global food, feed, and fiber security.
    • Global Adoption: According to a report by the International Service for the Acquisition of Agri-biotech Applications (ISAAA) in 2020, a total of 72 countries have embraced GM crops for various purposes, including human consumption, animal feed, and commercial cultivation. This widespread adoption reflects the global significance of GM crop technology.
    • Developing Country Emphasis: Notably, 56% of the total global GM crop area is found in developing countries, in contrast to 44% in industrialized countries. This highlights the importance of GM crops in addressing food security and economic challenges in the developing world.
    • Beneficiaries: GM crops have had a positive impact on more than 1.95 billion people globally. Specifically, Argentina, Brazil, Canada, India, and the United States have realized substantial benefits from the adoption of GM crops, benefiting approximately 26% of the world’s population.
    • Diversification of Traits: Genetic modification has extended its reach beyond the major crops of maize, soybean, cotton, and canola. Other economically important food crops have also been modified to exhibit various traits, including resistance to insects and herbicides, improved climate resilience, and enhanced nutritional quality.

    Economic Gains and Biosafety

    • Economic Gains: The global economic gains attributed to GM crops between 1996 and 2018 have amounted to an impressive $224.9 billion. These benefits have primarily accrued to more than 16 million farmers, with 95% of them residing in developing countries.
    • Proven Biosafety: GM food crops, since their adoption in 1996, have established a solid track record of biosafety spanning over 25 years. This underscores the safety and reliability of GM crops for human consumption and the environment.

    India’s Success Story with Bt Cotton

    • Commercialization: Bt cotton was introduced as the first genetically modified crop in India over 20 years ago, marking a significant milestone in biotechnology adoption in the country.
    • Economic Benefits: Bt cotton adoption has provided economic advantages to Indian farmers. It has reduced the need for chemical insecticides, leading to cost savings for farmers and reducing their exposure to health risks associated with pesticide use.
    • Increased Yields: Bt cotton’s resistance to pests, particularly the bollworm, has resulted in increased cotton yields in India. Farmers have experienced reduced losses due to pest damage, leading to higher production and improved economic returns.
    • Environmental Impact: The adoption of Bt cotton has had a positive environmental impact. Reduced pesticide usage in Bt cotton cultivation has led to lower chemical runoff and reduced contamination of ecosystems.

    GM Mustard’s Progress in India

    • Development of the DMH-11 Hybrid: Extensive research was conducted at the Centre for Genetic Manipulation of Crop Plants (CGMCP), University of Delhi South Campus, to create a GM mustard hybrid known as DMH-11. This hybrid has been genetically engineered to exhibit higher vigor and yield.
    • Approval by the Genetic Engineering Appraisal Committee (GEAC): On October 25, 2022, the Genetic Engineering Appraisal Committee (GEAC) of the Ministry of Environment, Forest, and Climate Change in India approved the release of DMH-11 and its parental line for cultivation. This approval represents a significant milestone in the regulatory process for GM crops in India.
    • Environmental Release: The GEAC’s approval for the environmental release of GM mustard indicates that the technology has passed regulatory scrutiny for safety and environmental impact, paving the way for potential commercial cultivation.

    Significance for India in Terms of Edible Oil Sufficiency

    • Reduction in Edible Oil Imports: India currently faces a substantial deficit in edible oil production, with a significant portion of its demand being met through imports. In 2020–21, India’s edible oil imports reached approximately 13 million tonnes, with a total value of ₹1.17 lakh crore.
    • Increased Productivity: GM mustard, particularly the DMH-11 hybrid, has been developed for higher vigor and yield. This increased productivity can play a crucial role in meeting the growing demand for edible oils in the country.
    • Resource Efficiency: GM mustard’s herbicide tolerance trait can lead to more resource-efficient cultivation practices. It helps conserve soil moisture and nutrients and reduces the need for chemical weed control, ultimately contributing to sustainable and self-reliant agriculture.

    GM mustard’s significance for India’s self-reliance

    • Reduced Dependency on Imports: By boosting domestic edible oil production, GM mustard can reduce India’s dependency on edible oil imports. In 2020–21, domestic production of mustard oil was approximately 8.5 million tonnes, while domestic consumption of edible oils reached around 25 million tonnes.
    • Economic Growth: Successful cultivation of GM mustard can contribute to economic growth in India. It can increase farm incomes and reduce the outflow of foreign exchange for edible oil imports. This is vital for strengthening India’s self-reliance and economic stability.
    • Sustainability: GM mustard’s potential for resource-efficient cultivation aligns with sustainability goals. It ensures that agricultural practices are more self-reliant in terms of resource utilization and environmental impact, a critical aspect for long-term agricultural sustainability.
    • Crop Diversification: The adoption of GM mustard, along with other crops, can diversify India’s agricultural output. Reducing dependency on a limited number of crops enhances food security and reduces vulnerability to external factors.

    Conclusion

    • The approval of DMH-11 marks a significant step towards harnessing this technology for the benefit of Indian farmers and the nation’s food security. However, this is just the beginning, and continued efforts to develop improved GM food crops are essential to enhancing the profitability of Indian agriculture.

    Also read:

    Genetically modified Crops and Transgenic Technology Needs Precautions

  • Vagus Nerve: Stimulation and Health Implications

    Vagus Nerve

    Central Idea

    • There’s a growing buzz online about the vagus nerve—ways to stimulate it and the potential benefits for various health issues, from anxiety to obesity.
    • Videos and devices abound, offering suggestions for vagus nerve stimulation.
    • Recent research has even linked vagus nerve dysfunction to long COVID.

    What is the Vagus Nerve?

    • A Pair of Nerves: The vagus nerve consists of two nerves, one on each side of the body. They run from the brainstem through the neck, chest, and stomach.
    • Part of the Parasympathetic Nervous System: These nerves are a vital component of the parasympathetic nervous system, responsible for relaxing and resting the body, regulating functions like heart rate, blood pressure, and digestion. They also play a role in the immune system.

    Why is the Vagus Nerve being researched?

    Several aspects make the vagus nerve a subject of intense research:

    • Extensive Reach: The vagal nerves are the longest cranial nerves, connecting the brain to the large intestine and passing through or connecting with crucial areas in the neck, heart, lungs, abdomen, and digestive tract.
    • Communication Hub: These nerves contain 75% of the nerve fibers of the parasympathetic nervous system, facilitating bidirectional communication between the brain and the body.
    • Health Implications: Researchers explore how stimulating these “sensory superhighways” could trigger the parasympathetic nervous system and potentially benefit various health conditions.

    Conditions Treated by Vagus Nerve Stimulation

    • Epilepsy and Depression: Implantable vagus nerve stimulators are used to treat epilepsy and depression, particularly when conventional treatments are ineffective. These devices stimulate areas of the brain associated with seizures and mood regulation.
    • Inflammation Regulation: The vagus nerve plays a role in regulating inflammation. Suppressing inflammation after an infection is resolved has implications for treating various conditions.

    Vagus Nerve and Long COVID

    • A study suggests a connection between vagus nerve dysfunction and post-COVID-19 condition (PCC) or long COVID. Patients with PCC exhibited symptoms related to vagus nerve dysfunction, indicating its potential role in the pathophysiology of PCC.
    • Other research explores impaired vagal activity in long COVID patients and potential therapeutic approaches involving vagal nerve stimulation.

    Natural Vagus Nerve Stimulation

    Numerous natural methods are believed to stimulate the vagus nerve, including:

    • Meditation: Focusing on longer exhales than inhales.
    • Exercise: Engaging in physical activity.
    • Massage: Techniques like reflexology.
    • Music: Humming and singing.
    • Cold Exposure: Placing a cold pack on your face or using icy water immersion.

    Limitations

    • Implanted vagus nerve stimulation is not a one-size-fits-all solution and should not replace conventional treatment.
    • It serves as an adjunctive treatment for most conditions and requires further research to explore its potential therapeutic effects comprehensively.
    • Vagus nerve stimulation devices should only be used under medical supervision due to their influence on heart rate and blood pressure.
    • Different protocols must be followed, making clinic-based usage essential.
  • India can now issue OIML certificates: What this means, its significance

    Central Idea

    • India has achieved a significant milestone by becoming a 13th nation as OIML (International Organisation of Legal Metrology) certificate-issuing authority.
    • The other countries are Australia, Switzerland, China, Czech Republic, Germany, Denmark, United Kingdom, Japan, Netherlands, Sweden and Slovakia.

    Understanding OIML

    • The OIML, established in 1955 and headquartered in Paris, is a renowned international standard-setting body in the field of legal metrology.
    • Its primary role is to develop model regulations, standards, and related documents for use by legal metrology authorities and industries worldwide.
    • These standards are crucial in harmonizing national laws and regulations concerning the performance of measuring instruments, such as clinical thermometers, alcohol breath analyzers, radar speed measuring instruments, ship tanks at ports, and petrol dispensing units.

    India’s OIML Membership

    • India became an OIML member in 1956.
    • Simultaneously, India signed the metric convention, emphasizing its commitment to international standards in metrology.

    OIML Certificate Significance

    • The OIML-CS (Certificate System) is a globally recognized system for issuing, registering, and using OIML certificates, along with their associated OIML type evaluation/test reports.
    • With India’s inclusion, the number of countries authorized to issue OIML certificates has risen to 13.
    • The OIML certificate is a single document accepted universally.
    • For instance, if an equipment manufacturer in Noida wishes to export their products to the US or any other country, they no longer need to obtain certification from one of the 12 other authorized countries.
    • India’s certification is now globally accepted, facilitating seamless exports and international compliance.

    Benefits for the Indian Economy

    India’s newfound status as an OIML certificate-issuing authority offers several advantages for the Indian economy:

    • Increased Exports: Indian manufacturers can now export their products with greater ease, reducing trade barriers and expanding their global market reach.
    • Foreign Exchange Earnings: The certification services provided by India will attract neighbouring countries and international manufacturers. This influx of clients seeking certification services will lead to an increase in foreign exchange earnings for India.
    • Employment Generation: To meet the growing demand for certification services, India is expected to witness a surge in employment opportunities in the legal metrology sector.
    • Resource Efficiency: The streamlined certification process will reduce redundancy and save valuable resources, making the certification process more efficient.
  • Progress track: PM Matsya Sampada Yojana (PMMSY)

    matsya sampada

    Central Idea

    • In 2020, as India’s fisheries sector was gearing up for a transformation through government-initiated reforms, the COVID-19 pandemic threatened to disrupt progress.
    • However, PM Modi turned this crisis into an opportunity by launching the Atmanirbhar Bharat package, specifically targeting the fisheries sector.
    • This initiative breathed new life into the sector, with a substantial allocation of ₹20,050 crore for the Pradhan Mantri Matsya Sampada Yojana (PMMSY), making it the largest-ever investment in Indian fisheries history.

    About PM Matsya Sampada Yojana

    Aim To catalyze the Blue Revolution in India’s fisheries sector.
    Investment Rs. 20,050 crores over five years (FY 2020-21 to FY 2024-25) as part of Aatmanirbhar Bharat Package.
    Fish Production Increase fish production by an additional 70 lakh tonnes by 2024-25.
    Export Earnings Raise fisheries export earnings to Rs. 1,00,000 crore by 2024-25.
    Income Doubling Double the incomes of fishers and fish farmers.
    Post-Harvest Losses Reduce post-harvest losses from 20-25% to about 10%.
    Employment Generation Generate substantial employment opportunities in the fisheries sector.
    Aims and Objectives 1. Sustainable and equitable fisheries development.

    2. Increased productivity through diversification.

    3. Modernizing the value chain. 4. Income doubling.

    5. Boosting exports.

    6. Ensuring security for fisheries communities.

    7. Effective management.

    Implementation Components Central Sector Scheme and Centrally Sponsored Scheme with active state participation.
    Implementation Approach Structured framework and cluster-based approach for optimal outcomes

    Key Achievements of PMMSY

    • Broad Development Spectrum: PMMSY addressed critical gaps in the fisheries value chain, spanning fish production, productivity, quality, technology, post-harvest infrastructure, and marketing.
    • Strategic Priority Areas: The initiative strategically focused on various key areas, including marine fisheries, inland fisheries, fishermen’s welfare, infrastructure development, post-harvest management, cold water fisheries, ornamental fisheries, aquatic health management, and seaweed cultivation.
    • Empowering Youth: PMMSY encouraged young entrepreneurs to venture into fisheries, fostering technological innovation and youth engagement. Notable success stories include young women in Kashmir rearing cold water rainbow trout and aquapreneurs in Nellore becoming successful exporters of biofloc-cultivated shrimps.
    • Expanding to Non-Traditional Areas: The program expanded fisheries activities to non-traditional regions, converting saline wastelands into productive aquaculture zones in landlocked states like Haryana and Rajasthan.
    • Empowering Fisherwomen: PMMSY empowered fisherwomen to explore alternative livelihoods, such as ornamental fisheries, pearl culture, and seaweed cultivation. The establishment of the ₹127 crore Seaweed Park in Tamil Nadu exemplifies this forward-looking approach.
    • Infrastructure and Research: The initiative supported the establishment of 900 fish feed plants, 755 hatcheries, and invested in research and genetic improvement of Indian White Shrimp, specific pathogen-free brood stock development, and domestication of tiger shrimp.

    Impact on India’s Fisheries Sector

    • Global Recognition: India has risen to become one of the world’s top three countries in fish and aquaculture production and stands as the largest shrimp exporter globally.
    • Investment Growth: The government’s commitment to the fisheries sector is evident, with recent announcements of ₹6,000 crore as a sub-scheme under PMMSY, totalling investments exceeding ₹38,500 crore over the past nine years.
    • Record Production and Exports: India achieved record fisheries production of 174 lakh tonnes in 2022-23, marking a significant increase. Shrimp production alone surged by 267% from 2013-14 to 2022-23, reaching 11.84 lakh tonnes. Seafood exports doubled from ₹30,213 crore in 2013-14 to ₹63,969 crore in 2022-23.
  • C-295 Transport Aircraft: All you need to know

    c-195

    Central Idea

    • In a significant milestone, the Indian Air Force (IAF) received its inaugural C-295 transport aircraft during a ceremony held in Seville, Spain.
    • IAF’s fleet of C-295s is set to become the largest globally, with an initial order for 56 aircraft.

    About C-295

    • The C-295MW is a transport aircraft with a carrying capacity ranging from 5 to 10 tonnes.
    • It can accommodate up to 71 troops or 49 para-troopers, offering significant flexibility.
    • The aircraft boasts a maximum cruise speed of 260 knots, ensuring rapid deployment.
    • Its exceptional low-level flight characteristics enable tactical missions, even at slow speeds as low as 110 knots.
    • The C-295 is equipped with a rear ramp door, facilitating swift troop and cargo deployments.
    • Each aircraft is outfitted with an indigenous Electronic Warfare Suite developed by Bharat Electronics Ltd and Bharat Dynamics Limited.
    • Two Pratt & Whitney Canada PW127G turboprop engines propel the aircraft.
    • The C-295 exhibits short take-off and landing (STOL) capabilities, enabling the use of unprepared airstrips.

    Significance of the aircraft

    • India’s entry into aircraft production will place it among a select group of nations with the capability to manufacture C-295 aircraft.
    • This group includes countries like the US, UK, Russia, France, Italy, Spain, Ukraine, Brazil, China, and Japan.
    • The project will stimulate India’s aerospace ecosystem, involving numerous MSMEs across the country in the manufacturing of aircraft components.
    • This includes areas of strategic importance, such as the border with China and the Andaman and Nicobar archipelago.