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GS Paper: GS3

  • GRAP Stage II kicks in as Delhi’s air quality may turn ‘very poor’

    The Commission for Air Quality Management directed New Delhi authorities to enforce stage II of the Graded Response Action Plan (GRAP) with immediate effect.

    Graded Response Action Plan (GRAP)

    • In 2014, when a study by the WHO found that Delhi was the most polluted city in the world, panic spread in the Centre and the state government.
    • Approved by the Supreme Court in 2016, the plan was formulated after several meetings that the Environment Pollution (Prevention and Control) Authority (EPCA) held with state government and experts.
    • The result was a plan that institutionalized measures to be taken when air quality deteriorates.
    • GRAP also works as an emergency measure.
    • It includes strict measures such as a ban on the entry of heavy vehicles, the odd-even road rationing restrictions, and a halt of construction work – each of which is likely to be impractical at a time when the pandemic has exacted heavy economic costs and public transport has been seen as an infection risk.

    How does it work?

    • As such, the plan does not include action by various state governments to be taken throughout the year to tackle industrial, vehicular and combustion emissions.
    • When the air quality shifts from poor to very poor, the measures listed under both sections have to be followed since the plan is incremental in nature.
    • If air quality reaches the severe+ stage, GRAP talks about shutting down schools and implementing the odd-even road-space rationing scheme.

    Measures taken under GRAP

    1) Severe+ or Emergency

    (PM 2.5 over 300 µg/cubic metre or PM10 over 500 µg/cu. m. for 48+ hours)

    • Stop entry of trucks into Delhi (except essential commodities)
    • Stop construction work
    • Introduce odd/even scheme for private vehicles and minimise exemptions
    • Task Force to decide any additional steps including shutting of schools

    2) Severe

    (PM 2.5 over 250 µg/cu. m. or PM10 over 430 µg/cu. m.)

    • Close brick kilns, hot mix plants, stone crushers
    • Maximise power generation from natural gas to reduce generation from coal
    • Encourage public transport, with differential rates
    • More frequent mechanized cleaning of road and sprinkling of water

    3) Very Poor

    (PM2.5 over 121-250 µg/cu. m. or PM10 over 351-430 µg/cu. m.)

    • Stop use of diesel generator sets
    • Enhance parking fee by 3-4 times
    • Increase bus and Metro services
    • Apartment owners to discourage burning fires in winter by providing electric heaters during winter
    • Advisories to people with respiratory and cardiac conditions to restrict outdoor movement

    4) Moderate to poor

    (PM2.5 over 61-120 µg/cu. m. or PM10 over 101-350 µg/cu. m.)

    • Heavy fines for garbage burning
    • Close/enforce pollution control regulations in brick kilns and industries
    • Mechanized sweeping on roads with heavy traffic and water sprinkling
    • Strictly enforce a ban on firecrackers

     

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  • Black Hole, Resolving the Mistry

    Black Hole

    Context

    • For the very first time, scientists noted that this observation of the Laser Interferometer Gravitational Wave (LIGO) observatories coincided with the measurements made by other telescopes that measured visual and electromagnetic signals.

    What is Black hole?

    • A black hole is a place in space where gravity pulls so much that even light can not get out. The gravity is so strong because matter has been squeezed into a tiny space. This can happen when a star is dying.
    • Because no light can get out, people can’t see black holes. They are invisible. Space telescopes with special tools can help find black holes. The special tools can see how stars that are very close to black holes act differently than other stars.

    Black Hole

    What is the background?

    • LIGO Observations: In 2017, astrophysicists observed an unusual feat among the stars. The Laser Interferometer Gravitational Wave(LIGO)observatories recorded a signal which indicated that two massive and dense stellar bodies had merged to form a third body, likely a black hole.
    • Generation gravitational waves: In the process they gave off vibrations that quite literally shook the universe and its very fabric of space time.
    • Neutron stars: Scientists, piecing together evidence from complementary measurements, surmised that the event they had observed was of two neutron stars merging and forming a black hole and, in the process, giving off light.

    Black Hole

    What are the observations through telescopes?

    • The matter moving faster than light: An unusual jet of matter was observed that gave an illusion of travelling faster than light. These were all exciting phenomena observed for the very first time by telescopes and observatories.
    • Confirmation by Hubble Space Telescope: Now, using data that had been recorded by the Global astro metric Interferometer for Astrophysics (GAIA) spacecraft and Hubble Space Telescope instruments, scientists have confirmed that the above picture is correct. They have made it more precise and descriptive.
    • Seven times the speed of light: In a paper published in Nature, they describe measuring the “apparent speed” of the jet to be about seven times the speed of light.
    • Lorenz factor: They have also measured more accurately a factor called the Lorenz factor which scales with the actual speed of the particles in the jet. Unlike earlier estimates which placed this factor at about 4, the present paper estimates this factor to be over 40. This is because they measure the speed of the relativistic jet to be close to 0.9997c, where “c” is the speed of light.
    • Clarity about the source as neutron star in block hole generation: This resolves the earlier fuzziness about what the source was and puts the source clearly as massive neutron stars merging to give a black hole and throwing off relativistic jets of particles in the process.

    Black Hole

    Merging of Neutron stars

    • Born out of Supernova explosion: Neutron stars are stellar corpses, left behind after a star has undergone a supernova explosion and reached the end of its lifetime. They are extremely dense, containing more mass than the sun in a sphere that is a few tens of kilometre wide.
    • Produces fast moving material: This has been seen in many active galactic nuclei  galaxy centres that harbour black holes and binary star systems within our galaxy, where one of the stars is a black hole. “Mostly, black holes are responsible for producing such fast moving material

    Why present observations about black Hole are significant?

    • Estimating changing position of sky: The present measurements and observations made with GAIA data are extremely challenging. They amount to measuring the position of an object in sky coordinates. These authors measured a change in sky position one millionth the span of the full moon. Normally, if one were making these measurements from earth-based telescopes, it would require data from radio telescopes spaced apart by intercontinental distances.
    • VLBI technique: This technique is called Very Long Baseline Interferometry (VLBI) and was used in the earlier papers. “Here, the authors could beat VLBI in precision because they calibrated Hubble Space Telescope data with GAIA, which is a precision astrometry mission.
    • It’s an estimate not a measurement: the researchers used both their Hubble Space Telescope and GAIA optical position measurement along with the earlier VLBI position measurement to get a better estimate of the speed of the source and angle (viewing angle) with which it is travelling with respect to us on earth. This estimate requires plugging in equations of the special theory of relativity. “So, it is an estimate as opposed to a measurement.
    • Improvement in estimation: we have learnt that neutron star mergers can result in material moving with speeds as high as 0.9997c.Earlier results using Very Long Baseline Interferometry had pegged this value at about 0.938c. with the new results this lower limit has been improved. Even earlier, with VLBI, it was understood that it was a neutron star merger that produced such ultra-relativistic material. Before the VLBI results, there were several models that could replicate the observations.
    • Explanation using ultra realistic material: The observations could be explained both by ultra-relativistic material and non relativistic material, with some differences in assumptions. That study indicated that the observed gamma ray bursts were produced along with the ultra-relativistic material.

    Conclusion

    • Current discovery strengthens the hypothesis that such neutron star mergers are responsible for a class of gamma ray bursts. Gamma ray bursts are flashes of extreme gamma ray photons that release a huge amount of energy nearly 1047 They come from different galaxies in the universe and are observed here quite frequently.

    Mains Question

    Q. What is the neutron star and how the merger of two stars produces a black hole? How LIGO and Hubble space telescope are useful in demystifying the black Hole phenomenon?

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  • The solution to the E-waste problem lies in scientific recycling

    E-wasteContext

    • International E-Waste Day is held on October 14 every year as an opportunity to reflect on the impacts of e-waste. This year’s slogan is ‘Recycle it all, no matter how small!
    • Hoarding of small, unused, dead or broken plug-in and battery-operated products is the focus of this year’s 5th annual International E-Waste Day.

    What is mean by E-Waste?

    • E-waste is a popular, informal name for electronic products nearing the end of their “useful life.”Computers, televisions, VCRs, stereos, copiers, and fax machines are common electronic products. Many of these products can be reused, refurbished, or recycled.

    Why E-waste is important?

    • Highly valuable metals: E-waste is a rich source of metals such as gold, silver, and copper, which can be recovered and brought back into the production cycle. There is significant economic potential in the efficient recovery of valuable materials in e-waste and can provide income-generating opportunities for both individuals and enterprises.
    • No harm if stored safely: It is said that the electrical and electronic equipment (EEE) after their useful life does not cause any harm to health and the environment if it is stored safely in households/stores. If the end of life EEE (e-waste) is opened-up and unscientific methods are used for extraction of precious and semi-precious material from it, then it causes health risks and damage to the environment.

    E-wasteWhy E-waste is hazardous to environment and health?

    • Highly toxic in nature: E-waste can be toxic, is not biodegradable and accumulates in the environment, in the soil, air, water and living things.
    • Adverse effects on health: High levels of contaminants such as lead, mercury, cadmium and arsenic, which can lead to irreversible health effects, including cancers, miscarriages, neurological damage and diminished IQs.etc.
    • Adverse effects on environment: There are problems with toxic materials leaching into the environment. For example, open-air burning and acid baths being used to recover valuable materials from electronic components release toxic materials leaching into the environment.
    • Plastic used in electronics highly Hazardous: Hazardous chemicals such as bromine, antimony and lead are applied to electronics like laptops and music systems as flame retardants. They find their way into food-contact items and other everyday products as the demand for black plastics in consumer products is met partly by sourcing from e-waste.

    According to the study conducted by Waste Electrical and Electronic Equipment (WEEE) Forum

    • Non-profit Waste Electrical and Electronic Equipment (WEEE) Forum is an international association of 46 e-waste producer responsibility organizations which started the day in 2018.
    • According WEEE studies: Roughly 5.3 billion mobile/smartphones will drop out of use this year.The electronics would reach a height of around 50,000 km if stacked flat and on top of each other. That’s an eighth of the distance to the moon.
    • WEEE Survey:The forum surveys conducted to reveal why so many households and businesses fail to bring in for repair or recycling. The results were consolidated by the United Nations’ Institute for Training and Research (UNITAR) Sustainable Cycles Programme.
    • Results of WEEE surveys: Of 8,775 European households in six countries, the average household contains 74 e-products. Of 74 average total e-products, 13 are being hoarded. This is the story almost everywhere.The top five hoarded small electronic products were (in order): small electronics and accessories (eg, headphones, remotes), small equipment, small IT equipment (eg, hard drives, routers, keyboards, mice), mobile and smartphones, small food preparation appliances .LED lamps ranked the top of the list of products most likely to be trashed.

    E-wasteWhat is the present status of E-waste in India?

    • Statistics: Approximately 8 lakh tonnes per annum of plastic waste is recycled and 1.67 lakh tonnes per annum is co-processed in Cement Kilns, said the government. There are 468 authorised dismantlers/recyclers in 22 states having a processing capacity of 13.85 lakh tonnes of e-waste in the country.
    • The e-waste management rules: The e-Waste (Management) Rules were notified in 2016 which got amended from time to time. So far, the Environment Ministry has notified 21 types of electrical and electronic equipment (EEE) as e-waste
    • No recent studies on the pollution caused by e-waste: In the recent Parliament session, Minister of State for Environment, Forests and Climate Change, Ashwini Kumar Choubey in his reply to Kerala Rajya Sabha member V Sivadasan (CPM) said no study has been carried out by Central Pollution Control Board (CPCB) to assess the damage caused to the environment by e-waste.

    Current scenario and issues in E-waste recycling

    • Crude and Scrappage: As of today, some 95% of e-waste is managed by the informal sector which operates under inferior working conditions and relies on crude techniques for dismantling and recycling.
    • Infrastructure lacunae: Another important issue is the lack of sufficient metal processing infrastructure which is why recyclers have to export materials to global smelters.
    • Price competencies: As aggregators are mostly informal, they demand up-front cash payments.
    • Bloomed informal network: The informal network is well-established and rests on social capital ties that PROs have yet to establish and are hence insulated from reaching the viable number of aggregators.
    • Policy failure: Policy changes have tried repeatedly to formalize the sector, but issues of implementation persist on the ground.

    E-wasteWay forward

    • Effective design: Since India is highly deficient in precious mineral resources, there is a need for a well-designed, robust and regulated e-waste recovery regime that would generate jobs and wealth.
    • Consumer responsibility: The consumers must responsibly consume the product for its useful life and then weigh between the chances of repair or disposal with utmost consciousness towards the environment.
    • Recyclable products: On the supply side, e-waste can be reduced when producers design electronic products that are safer, and more durable, repairable and recyclable.
    • Reuse: Manufacturers must reuse the recyclable materials and not mine rare elements unnecessarily to meet new production.
    • Commercial recycling: Rather than hoping that informal recyclers become formal it would be more feasible for companies and the state to design programs ensure e-waste easily makes its way to proper recyclers.

    Conclusion

    • Concerted efforts are important to generate a momentum of sustained efforts towards increasing disposal through formal and scientific channels and catalyzing sustainable consumption patterns is the need of the hour.

    Mains Question

    Q.The size and complexity of the e-waste problem are growing at a much quicker rate than the efficacy of strategies to contain it. Discuss the impact of unscientific recycling of E-waste on Environment and human health.

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  • India’s Direct Benefit Transfer Schemes

    Transfer

    Context

    • Last week, the International Monetary Fund (IMF) lauded India’s Direct Benefit Transfer (DBT) Scheme as a “logistical marvel” that has reached hundreds of millions of people and specifically benefitted women, the elderly and farmers. Paolo Mauro, Deputy Director in the IMF’s Fiscal Affairs Department, praised the role of technological innovation in achieving this feat.

    What is Direct Benefit Transfer(DBT)?

    • With the aim of reforming Government delivery system by re-engineering the existing process in welfare schemes for simpler and faster flow of information/funds and to ensure accurate targeting of the beneficiaries, de-duplication and reduction of fraud Direct Benefit Transfer (DBT) was started on 1st January, 2013.
    • DBT Mission was created in the Planning Commission to act as the nodal point for the implementation of the DBT programmes. The Mission was transferred to the Department of Expenditure in July, 2013 and continued to function till 14.9.2015. To give more impetus, DBT Mission and matters related thereto has been placed in Cabinet Secretariat under Secretary (Co-ordination & PG).

    Transfer

    Efforts behind the efficient DBT

    • Mission-mode approach for financial inclusion: Government endeavoured to open bank accounts for all households, expanded Aadhaar to all, and scaled up the coverage of banking and telecom services.
    • Public Finance Management System through Aadhar: It evolved the Public Finance Management System and created the Aadhaar Payment Bridge to enable instant money transfers from the government to people’s bank accounts.
    • Participation of various stakeholders for extensive UPI: The Aadhaar-enabled Payment System and Unified Payment Interface further expanded interoperability and private-sector participation.
    • Directly receiving of subsidies: This approach not only allowed all rural and urban households to be uniquely linked under varied government schemes for receiving subsidies directly into their bank accounts but also transferred money with ease.

    What is the Present status of DBT?

    • The status of JAM trinity (Jan Dhan Aadhar Mobile)
    • By 2022, more than 135 crore Aadhaar’s have been generated,
    • There are 47 crore beneficiaries under Pradhan Mantri Jan Dhan Yojana,
    • Mobile subscribers number more than 120 crores.
    • Riding on this network, the DBT programme has reached commanding heights towards achieving the government’s vision of “sabka vikas”.
    • Last mile banking through Bank Mitras: 5 lakh Bank Mitras delivering branchless banking services.
    • DBT applicable to government schemes: Becoming the major plank of the government’s agenda of inclusive growth, it has 318 schemes of 53 central ministries spanning across sectors, welfare goals and the vast geography of the country.

    Transfer

    How benefits are delivered through DBT?

    • DBT in rural areas: In rural Bharat, DBT has allowed the government to provide financial assistance effectively and transparently to farmers with lower transaction costs be it for fertilisers or any of the other schemes including the PM Kisan Samman  Nidhi, PM Fasal Bima Yojana, and PM Krishi Sinchayi Yojana  thus becoming the backbone for supporting the growth of the agricultural economy.
    • DBT in urban area: In urban India, the PM Awas Yojana and LPG Pahal scheme successfully use DBT to transfer funds to eligible beneficiaries.
    • Benefits under MGNAREGA: The benefits received under the Mahatma Gandhi National Rural Employment Guarantee Act and Public Distribution System drive the rural demand-supply chain.
    • Various assistance programmes: Various scholarship schemes and the National Social Assistance Programme use the DBT architecture to provide social security.
    • Scheme for rehabilitation: DBT under rehabilitation programmes such as the Self Employment Scheme for Rehabilitation of Manual Scavengers opens new frontiers that enable social mobility of all sections of society.
    • DBT as last mile support in Pandemic: The efficacy and robustness of the DBT network were witnessed during the pandemic. It aided the government to reach the last mile and support the most deprived in bearing the brunt of the lockdown. From free rations to nearly 80 crore people under the Pradhan Mantri Garib Kalyan Yojana, fund transfers to all women Jan Dhan account holders and support to small vendors under PM-SVANidhi, DBT helped the vulnerable to withstand the shock of the pandemic.

    Transfer

    What are the reasons for successful DBT schemes?

    • An enabling policy regime: Proactive government initiatives and supportive regulatory administration allowed the private and public sector entities in the financial sector to overcome longstanding challenges of exclusion of a large part of the population.
    • Creation of a dedicated ecosystem: These are essential elements of the pioneering ecosystem created by the government for the aggressive rollout of the ambitious DBT programme, achieving impressive scale in a short span of six years.

    Conclusion

    • Direct Benefit Transfer has transformed the welfare aspect of the governance. Going forward digital and financial literacy, robust grievance redressal, enhancing awareness and an empowering innovation system are some of the aspects that would require continued focus. This would play a vital role for India in meeting the diverse needs of its population and ensuring balanced, equitable and inclusive growth.

    Mains Question

    Q.Enlist the schemes that comes under DBT. How DBT has changed the lives of needy people in urban and rural India?

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  • What are Foreign Currency Non-Resident (FCNR) deposits?

    The RBI’s 2013 FCNR scheme to buffer the rupee against steep declines and rebuild foreign exchange reserves is unlikely to prove fruitful in the current crisis as economic fundamentals are different.

    What are FCNR deposits?

    • Back in 2013, the RBI had offered to swap the U.S. dollars banks had raised via foreign currency non-resident (FCNR) deposits or foreign currency funding for rupees at concessional rates.
    • A FCNR is a bank account for NRIs to maintain a Fixed Deposit account in India.
    • This account allows one as an NRI to save money earned in the currency form of the country you’ve originally earned the money from.
    • FCNR deposits can hold currencies like US Dollars, Pounds Sterling, Euro, Japanese Yen, Australian Dollars and Canadian Dollars.
    • Interest on such deposits is exempt for income tax.

    How do they operate?

    • These deposit accounts are a term deposit account, not savings.
    • Once can withdraw your money before the date of maturity, and there will be no charges, but the interest will not be paid until after a year is complete.

    Benefits offered

    • FCNRs are just like what FDs are for resident Indians, except in foreign currency.
    • They work as great investment options for NRIs to invest in the country for a start, before looking for other avenues in investments on the stock market.
    • Because the money is being held in those currencies, the risk of exchange rate fluctuations is eliminated.

    Why in news?

    • Forex reserves have tumbled about $110 billion from a peak of $642 billion in September last year.
    • A significant reason behind this is RBI’s currency market intervention.

     

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  • The illusion of being faster than light: how a star problem was solved

    light

    Scientists have spotted something that appeared to be moving 7 times faster than the Speed of Light in a supernova like event.

    What is the news?

    • In 2017, astrophysicists observed an unusual feat among the stars.
    • The Laser Interferometer Gravitational-Wave (LIGO) observatories recorded a signal which indicated that two massive and dense stellar bodies had merged to form a third body, likely a black hole.
    • An unusual jet of matter was observed that gave an illusion of travelling faster than light.

    Can matter move faster than Light?

    • From the data, it appeared the jets of matter were moving seven times faster than light.
    • The researchers explain the reason behind the discrepancy is due to something called superluminal motion.
    • Since the jet of matter reaches Earth at the speed of light, the light it emits at later points has a relatively shorter distance, making it appear faster than it actually is.
    • After more calculations, astronomers found the real speed to be at least 99.7 percent of the speed of light (3 × 10^8 m / s).

    Crossing the speed of light: An illusion

    • The data of same incident has been recorded by the Global Astrometric Interferometer for Astrophysics (GAIA) spacecraft and Hubble (James Web) Space Telescope
    • Using it, scientists confirmed that the above picture is correct.

    How to assess it?

    • Scientists have also measured more accurately a factor called the Lorenz factor which scales with the actual speed of the particles in the jet.
    • Unlike earlier estimates which placed this factor at about 4, the present paper estimates this factor to be over 40.
    • This is because they measure the speed of the relativistic jet to be close to 9997c, where “c” is the speed of light.

    How are they observed?

    • Source is clearly as massive neutron stars merging to give a black hole and throwing off relativistic jets of particles in the process.

    Merging neutron stars: Faking to cross speed of light

    • Neutron stars are stellar corpses, left behind after a star has undergone a supernova explosion and reached the end of its lifetime.
    • They are extremely dense, containing more mass than the sun in a sphere that is a few tens of kilometre wide.
    • The observation of particles moving at seven times the speed of light is an illusion.
    • This happens in cases where a source moves (towards us) with a velocity that is very close to light’s velocity.
    • This has been seen in many active galactic nuclei — galaxy centres that harbour black holes — and binary star systems within our galaxy, where one of the stars is a black hole.
    • Mostly, black holes are responsible for producing such fast-moving material.

    How is this illusion created?

    • Normally, if one were making these measurements from earth-based telescopes, it would require data from radio telescopes spaced apart by intercontinental distances.
    • This technique is called Very Long Baseline Interferometry (VLBI) and was used in the earlier papers.

    Significance of this study

    • The significance of the paper is that now, we have learnt that neutron star mergers can result in material moving with speeds as high as 0.9997c.
    • Earlier results using Very Long Baseline Interferometry had pegged this value at about 0.938c.
    • And with the new results this lower limit has been improved.
    • Even earlier, with VLBI, it was understood that it was a neutron-star merger that produced such ultra-relativistic material.

     

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  • Japan seeks GI tag for Nihonshu, an alcoholic beverage

    nihonshu

    The Embassy of Japan, New Delhi, has filed an application seeking Geographical Indication (GI) tag for nihonshu/Japanese sake, an alcoholic beverage.

    Why in news?

    • It is learnt that this is the first time a product from Japan has filed for a tag at the Geographical Indication Registry in Chennai.

    What is Nihonshu?

    • Nihonshu is regarded as a special and valuable beverage made from fermenting rice.
    • People traditionally drink nihonshu on special occasions, such as festivals, weddings or funerals, but it is also consumed on a daily basis.
    • Thus, it is an integral part of the lifestyle and culture in Japan.
    • The sake market (almost all are nihonshu) is the second largest brewed liquor (such as beer) market in Japan.

    How is it made?

    • For making nihonshu three main raw materials – rice, koji-kin (a type of fungal spore) and water – are required.
    • Its production follows an alcoholic fermentation method called parallel multiple fermentation and involves raw material treatment, koji making, starter culture making, mash making, pressing, heat sterilisation and bottling.
    • The rice and koji used should originate in Japan.

    Try this PYQ:

    Q.Which of the following has/have been accorded ‘Geographical Indication’ status?

    1. Banaras Brocades and Sarees
    2. Rajasthani Daal-Bati-Churma
    3. Tirupathi Laddu

    Select the correct answer using the code given below:

    (a) 1 only

    (b) 2 and 3 only

    (c) 1 and 3 only

    (d) 1, 2 and 3

     

    [wpdiscuz-feedback id=”kwp9fobhbd” question=”Please leave a feedback on this” opened=”1″]Post your answers here.[/wpdiscuz-feedback]

     


    Back2Basics:  Geographical Indication

    • A GI is a sign used on products that have a specific geographical origin and possess qualities or a reputation that are due to that origin.
    • Nodal Agency: Department for Promotion of Industry and Internal Trade (DPIIT), Ministry of Commerce and Industry
    • India, as a member of the World Trade Organization (WTO), enacted the Geographical Indications of Goods (Registration and Protection) Act, 1999 w.e.f. September 2003.
    • GIs have been defined under Article 22 (1) of the WTO Agreement on Trade-Related Aspects of Intellectual Property Rights (TRIPS) Agreement.
    • GI is granted for a term of 10 years in India. As of today, more than 300 GI tags has been allocated so far in India (*Wikipedia).
    • The tag stands valid for 10 years.

     

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  • Arihant SLBM launch: Enhancing India’s underwater capability

    SLBM

    Context

    • On October 14, India joined a select group of nations when it announced the successful launch of an SLBM (submarine-launched ballistic missile). The other six nations that have demonstrated similar underwater capability include the five permanent members of the UN Security Council Russia, the UK, France and China. In August 2016, North Korea claimed a successful launch of an SLBM.

    Features of K-15 SLBM

    • The code names K-15 or B-05, is an Indian submarine-launched ballistic missile (SLBM) with a range of 750 kilometres (466 mi) that was designed for retaliatory nuclear strikes. It belongs to the K Missile family and forms a part of India’s nuclear triad.
    • The K-15 is a two-stage submarine-launched ballistic missile which uses a gas booster to eject out of its launch platform and rise up to the surface of water. A solid rocket motor is fired after the missile reaches a fixed altitude. The missile has a range of around 750 kilometres (466 mi).

    SLBM

    About INS Arihant

    • Launched in 2009 and Commissioned in 2016, INS Arihant is India’s first indigenous nuclear powered ballistic missile.
    • It is capable submarine built under the secretive Advanced Technology Vessel (ATV) project, which was initiated in the 1990s.
    • INS Arihant and its class of submarines are classified as ‘SSBN’, which is the hull classification symbol for nuclear powered ballistic missile carrying submarines.
    • While the Navy operates the vessel, the operations of the SLBMs from the SSBN are under the purview of India’s Strategic Forces Command, which is part of India’s Nuclear Command Authority.

    SLBM

    What is the Significance of SLBM for India?

    • Making India’s strategic profile strong: This achievement is significant in the context of India’s strategic profile. The navy, DRDO and other agencies who have enabled this success should be commended.
    • Enhancing Underwater deterrence: A credible underwater deterrent is perceived as being invulnerable to detection and hence nations with the capacity can deliver a retaliatory second strike this enhances their deterrence capabilities.
    • Showcasing the precision and high accuracy: While the press release is sparse in providing technical details or confirming the range of the SLBM, its assertion that the missile impacted the target area “with very high accuracy” is, nevertheless, instructive.
    • Familiarity and capability with SLMB : The crew of the INS Arihant and the entire HR (human resource) comprising the pyramid from the SFC (strategic forces command) going right up to the national command authority with the Prime Minister at the apex have acquired the necessary proficiency to launch an SLBM should the exigency arise.
    • Demonstration of competence: India can be justifiably proud of having acquired and demonstrated this level of competence, but this achievement needs to be located objectively. An SSBN (a nuclear-propelled submarine armed with a nuclear-tipped ballistic missile) is deemed to be the ultimate deterrent and this profile of macro-lethality and zero error credibility is predicated on the robustness of the “boat” and the efficacy of the missile.
    • Validates SSBN programme: The successful user training launch of the SLBM by INS Arihant is significant to prove crew competency and validate the SSBN programme, a key element of India’s nuclear deterrence capability. A robust, survivable and assured retaliatory capability is in keeping with India’s policy to have ‘Credible Minimum Deterrence that underpins its ‘No First Use’ commitment.

    SLBM

    What is the deterrence?

    • Deterrence, military strategy under which one power uses the threat of reprisal effectively to preclude an attack from an adversary power. With the advent of nuclear weapons, the term deterrence largely has been applied to the basic strategy of the nuclear powers and of the major alliance systems.

    How the SLBM will secure deterrence against the enemy?

    • Tackling to rising Chinese capability: It merits recall that China became nuclear weapon capable in 1964 and carried out its first SLBM test (the J-1 with a range of 1700 km) in 1982. Over the years, the PLA Navy had its own techno-strategic challenges with nuclear-propelled submarines and was able to test a 9,000 km missile only in 2018. It is understood that a fully armed Chinese SSBN that would be deemed to be operational to undertake a credible deterrence patrol is scheduled for mid-2025.
    • Nuclear deterrence is necessary: Acquiring the optimum degree of nuclear deterrence is imperative for India, given its distinctive spectrum of security and strategic challenges. India has made slow but steady progress in its missile programme, nuclear weapon capability, the nuclear submarine and more recently the building of an aircraft carrier

    Conclusion

    • India’s restraint in relation to announcements and claims about strategic capability burnishes deterrence in a quiet but effective manner. Walking softly, while wielding a big stick is desirable as a national trait.

    Mains Question

    Q. How the launch of K-15 SLBM will enhance the security dynamics of India? Discuss the India’s underwater capability to maintain deterrence and security at the same time?

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  • About 41.5 crore Indians out of multi-dimensional poverty since 2005-06

    poverty

    About 41.5 crore people exited poverty in India during the 15-year period between 2005-06 and 2019-21, out of which two-thirds exited in the first 10 years, and one-third in the next five years, according to the global Multidimensional Poverty Index (MPI).

    What is global MPI?

    • The global Multidimensional Poverty Index (MPI) is an international measure of acute poverty covering over 100 developing countries.
    • It complements traditional income-based poverty measures by capturing the severe deprivations that each person faces at the same time with respect to education, health and living standards.
    • The global MPI was developed by OPHI with the UN Development Programme (UNDP) for inclusion in UNDP’s flagship Human Development Report in 2010.
    • It has been published in the HDR ever since.

    poverty

    Multidimensional poverty in India: Major improvements

    poverty

    • The report shows that the incidence of poverty fell from 55.1% in 2005-06 to 16.4% in 2019-21 in India.
    • Deprivations in all 10 MPI indicators saw significant reductions as a result of which the MPI value and incidence of poverty more than halved.
    • Improvement in MPI for India has significantly contributed to the decline in poverty in South Asia.
    • It is for the first time that it is not the region with the highest number of poor people, at 38.5 crore, compared with 57.9 crore in Sub-Saharan Africa.
    • Bihar, the poorest State in 2015-2016, saw the fastest reduction in MPI value in absolute terms.

    Long way towards alleviation

    • Despite the strides made, the report notes that the ongoing task of ending poverty remains daunting.
    • India has by far the largest number of poor people worldwide at 22.8 crore, followed by Nigeria at 9.6 crore.
    • Two-third of these people live in a household in which at least one person is deprived in nutrition.
    • There were also 9.7 crore poor children in India in 2019-2021 — more than the total number of poor people, children and adults combined, in any other country covered by the global MPI.

    Why multi-dimensional poverty does persist in India?

    Poverty is not just the absence of income, money and/or money-like resources required to meet needs.

    • Multiple disadvantages: A person who is poor can suffer multiple disadvantages at the same time – for example they may simultaneously have:
    1. Poor health or malnutrition
    2. Lack of clean water or electricity
    3. Poor quality of livelihood options
    4. Little/No schooling
    5. Disempowerment
    6. Threats of violence
    7. Climate change vulnerability etc.

    Other factors include:

    1. Limited financial resources
    2. Material deprivation
    3. Social isolation
    4. Exclusion and powerlessness
    5. Physical and psychological ill-being
    • Multiple dimensions: Focusing on one factor alone, such as income, is not enough to capture the true reality of poverty. National MPI ensures a holistic approach towards defining poverty at the national level.
    • More comprehensive: MP measures can be used to create a more comprehensive picture. They reveal who is poor and how they are poor – the range of different disadvantages they experience.
    • Better targeting: As well as providing a headline measure of poverty, multidimensional measures can be broken down to reveal the poverty level in different areas of a country and among different sub-groups of people.
    • Priority definition for target groups: It offers statistics that determine the national priorities by using a set of dimensions, indicators with respect to the urban and rural areas of India along with an indicator-wise deconstruction and breakdown.

    Various govt. interventions to for poverty alleviation

    (I) Food Security

    • National Food Security Act 2013 (also ‘Right to Food Act’): It aims to provide subsidized food grains to approximately two thirds of the country’s 1.2 billion people.

    (II) Employment and Skilling

    • National Rural Livelihood Mission (NRLM)Ministry of Rural Development started NRLM 2011 to evolve out the need to diversify the needs of the rural poor and provide them jobs with regular income on a monthly basis.
    • Mahatma Gandhi National Rural Employment Guarantee Act (MGNREGA) – In 2005 Ministry of Rural Development initiated MGNEREGA to provide 100 days of assured employment every year to every rural household. One-third of the proposed jobs would be reserved for women.

    (III) Income Support

    • PM Jan Dhan Yojana (PMJDY): The Ministry of Finance in 2014 initiated PMJDY that aimed at direct benefit transfer of subsidy, pension, insurance, etc., and attained the target of opening 1.5 crore bank accounts. The scheme particularly targets the unbanked poor.
    • PM Kisan Samman Nidhi (PM KISAN): PM KISAN is an initiative by the government of India in which all farmers will get up to ₹6,000 per year as minimum income support.

    Various challenges

    • Pauperization: Every year a huge number is added to the population pool of the country. To exemplify, this pandemic has led to severe pauperization of migrant workers.
    • Regional divide: Incidence of extreme poverty continues to be much higher in rural areas than in urban areas.
    • Jobless growth: Despite rapid growth and development, an unacceptably high proportion of our population continues to suffer from severe and multidimensional deprivation.
    • Inadequate resources: The resources allocated to anti-poverty programmes are inadequate and there is a tacit understanding that targets will be curtailed according to fund availability.
    • Implementation bottlenecks: Lack of proper implementation and right targeting has been legacy issues in India. There has been a lot of overlapping of schemes.

     

     

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  • PM inaugurates ‘One Nation, One Fertilizer’ Scheme

    Prime Minister has inaugurated 600 Kisan Samridhi Kendras and ‘One Nation, One Fertilizer’ scheme and said that these steps were being taken to modernise agriculture.

    One Nation One Fertilizer (ONOF)

    • The single brand name for UREA, DAP, MOP and NPK etc. would be BHARAT UREA, BHARAT DAP, BHARAT MOP and BHARAT NPK etc. respectively for all Fertilizer Companies, State Trading Entities (STEs) and Fertilizer Marketing Entities (FMEs).
    • Also a logo indicating Fertilizer subsidy scheme namely Pradhanmantri Bhartiya Janurvarak Pariyojna will be used on said Fertilizer bags.
    • Under the scheme, companies are allowed to display their name, brand, logo and other relevant product information only on one-third space of their bags.
    • On the remaining two-thirds space, the “Bharat” brand and Pradhanmantri Bharatiya Jan Urvarak Pariyojana logo will have to be shown.

    What is the government’s argument for introducing this scheme?

    The government’s logic for introducing a single ‘Bharat’ brand for all subsidised Fertilizers being marketed by companies is as follows:

    (1) Subsidies normalization

    • The maximum retail price of urea is currently fixed by the government, which compensates companies for the higher cost of manufacturing or imports incurred by them.
    • The MRPs of non-urea Fertilizers are, on paper, decontrolled.
    • But companies cannot avail of subsidy if they sell at MRPs higher than that informally indicated by the government.
    • Simply put, there are some 26 Fertilizers (inclusive of urea), on which government bears subsidy and also effectively decides the MRPs;

    (2) Harmonizing markets

    • Apart from subsidising and deciding at what price companies can sell, the government also decides where they can sell.
    • This is done through the Fertilizer (Movement) Control Order, 1973.
    • Under this, the department of Fertilizers draws an agreed monthly supply plan on all subsidised Fertilizers in consultation with manufacturers and importers.
    • This supply plan is issued before the 25th of each month for the following month, with the department also regularly monitoring movement to ensure Fertilizer availability as per requirement, including remote areas.

    (3) Farmers welfare

    • The government is spending vast sums of money on Fertilizer subsidy (the bill is likely to cross Rs 200,000 crore in 2022-23).
    • By deciding where and at what price companies can sell, it would obviously want to take credit and send that message to farmers.

    What can be the drawbacks of the scheme?

    • It may disincentivize Fertilizer companies from undertaking marketing and brand promotion activities.
    • They will now be reduced to contract manufacturers and importers for the government. Any company’s strength ultimately is its brands and farmer trust built over decades.
    • Currently, in case of any bag or batch of Fertilizers not meeting the required standards, the blame is put on the company. But now, that may be passed on fully to the government.
    • Politically, the scheme might well boomerang rather than benefit the ruling party.

    Challenges in the fertilizer sector

    • Distortion in use due to price difference: In 2019-20, fertilizer use per hectare of cultivated area varied from 70 kg of NPK in Rajasthan to 250 kg in Telangana
    • Shift in the composition of fertilizer used:The high price differences among fertilizers (Nitrogen is much cheaper than Potassium and Phosphorus) have disturbed the relative prices of various fertilizers and resulted in a big shift in the composition of fertilizers used in the country in favor of urea and thus Nitrogen.
    • Increasing fertilizer subsidy: Fertilizer subsidy has doubled in a short period of three years. For 2021-22, the Union Budget has estimated fertilizer subsidy at ₹79,530 crores (from ₹66,468 crores in 2017-18).
    • Burden on exchequer: Taxpayers bear 78% of the cost of urea and farmers pay only 22%. This is expected to increase and is not sustainable.
    • Sensitive to Global impacts: The subsidy is likely to reach a much higher level due to the recent upsurge in the prices of energy,the international prices of urea and other fertilizers, and India’s dependence on imports.
    • Import dependence: The total demand for urea in the country is about 34-35 million tonnes whereas the domestic production is about 25 million tonnes.

    Other issues

    • Lesser expansion of Irrigation facilities and consequent low fertilizer consumption leads to low demand and therefore, restricts the growth of the industry.
    • Use of Obsolete Technology: Most of the fertilizer industry operates under PSUs that are using decade-old technology and thus making huge losses and also the competitive edge.

    Way forward

    • India should pay attention to improving fertilizer efficiency through need-based use rather than broadcasting fertilizer in the field.
    • The use of bio-fertilizers is necessary to maintain soil health as more and more use of chemical fertilizers kills all the microorganisms available in the soil, which are so essential for maintaining soil health.

     

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