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Type: Prelims Only

  • ISRO Missions and Discoveries

    Kodaikanal Solar Observatory

    Prelims Only | Science Tech | Mains Paper 3: Awareness in various sc and tech fields

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: Kodaikanal solar observatory

    Mains level: NA

    Kodaikanal

    The Kodaikanal Solar Observatory (KoSO) has been observing the Sun for over a century.

    Why in news?

    • Kodaikanal Solar Observatory (KoSO) has been observing the Sun for over a century
    • KoSO has captured images of sunspots and recorded changes in the Sun’s behavior
    • Solar physicists at the Indian Institute of Astrophysics (IIA) and Aryabhatta Research Institute of Observational Sciences (ARIES) have digitized 1.48 lakh solar images captured since 1904

    A Brief History of Kodaikanal Solar Observatory

    • KoSO is one of the world’s oldest observatories studying the Sun.
    • Norman Pogson, astronomer and Government Astronomer of the Madras Observatory, proposed the idea of taking pictures of the Sun using a 20-inch telescope.
    • The Madras Observatory was set up as the private effort of an official of the British East India Company in 1786.
    • The decision to establish a solar observatory was taken in 1893, and Kodaikanal in present-day Tamil Nadu was chosen for its high altitude and dust-free environment.
    • The Solar Physics Observatory opened on April 1, 1899, and was later named KoSO.
    • The Bhavnagar Telescope, named after the Maharaja of Bhavnagar, was one of the more famous instruments at KoSO during the early decades of its operation.
    • A 15cm telescope was used to capture solar images onto a photographic film or plate.
    • Solar magnetic plages and prominences were recorded since 1911, taken on photographic films and plates.

    Solar Observations, One Every Day: How They Are Taken

    • White light images of the Sun have been captured every day since 1904 using a 6-inch telescope
    • Visible light images reveal sunspots on the surface of the Sun.
    • One image is taken daily around 8 am, which has been a fixed routine for over a century now
    • Each observation accompanies the corresponding date and time, which is key for calibration purposes later.
    • These plates or films are sent to the darkroom and developed either the same day or the next day
    • Once the film has been developed, the date and time of observation are written on the plate and entered in the logbook.
    • These plates or films are kept in an envelope with the handwritten date and time of observation and stored carefully in humidity-controlled rooms.

    Arrival of New Technology and the Process of Digitization

    • Between 1904 and 2017, all solar observations were traced onto photographic films and plates
    • A new telescope mounted with CCD cameras has taken over and, since 2017, continued to observe the Sun.
    • Digitization of the records was initiated in 1984 by Prof J C Bhattacharyya, and others continued the effort.
    • In 2018, digitized solar observations for the period 1921-2011 were made available to the scientific community.
    • Raw and calibrated data for the period of 1904 to 2017 were added, and the digitization process is nearly complete.
    • KoSO is now home to a digital repository of a whopping 1.48 lakh solar images adding up to 10 terabyte of data.
    • These include 33,500 white-light images (showing sunspots), 45,000 images of the Ca II K spectral line (which reveals plages), and 70,000 H-alpha photographic plates that show prominences.
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  • Festivals, Dances, Theatre, Literature, Art in News

    Yaoshang festival begins in Manipur

    Prelims Only | History | Mains Paper 1: Arts & Culture

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: Yaoshang Festival

    Mains level: NA

    yaoshang

    The Yaoshang festival, which is Manipur’s version of Holi, has begun.

    Yaoshang Festival

    • Yaoshang festival is celebrated every year on the full moon of Lamta (February-March) of the Meitei lunar calendar.
    • It begins just after sunset followed by Yaosang Mei thaba, also known as Burning of the Straw Hut.
    • Children visit neighbours to ask for monetary donations, called nakatheng.
    • Yaoshang, unlike Holi, is celebrated with a traditional twist in Manipur.
    • During these five days, Manipur comes alive with sporting events during the day and traditional “thabal chongba” dance in the night.

    Key feature: Thabal Chongba Dance

    • The thabal chongba is a traditional dance of the Meitei, where boys and girls gathered in an open ground and dance in a circle.
    • But these days thabal chongba is performed throughout the month of Lamta.

     

     

     

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  • Climate Change Impact on India and World – International Reports, Key Observations, etc.

    Meeting India’s ‘Carbon Sink’ target

    Prelims Only | Enviro & Biodiversity | Mains Paper 3: Conservation, Environmental Pollution & Degradation, Eia

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: Carbon capture and storage techniques

    Mains level: Read the attached story

    carbon-sink

    Central idea: India’s commitment to reduce its carbon emissions and increase its carbon sink as part of the Paris Climate Agreement. The Agreement is a legally binding international treaty signed by 196 parties, including India, to limit global warming to well below 2°C.

    What is a carbon sink?

    • A carbon sink is a natural or artificial reservoir that absorbs and stores carbon dioxide (CO2) from the atmosphere.
    • It can be a natural ecosystem such as forests, oceans, or soil, or it can be an artificial system like carbon capture and storage (CCS) technology.
    • Carbon sinks help to reduce the amount of CO2 in the atmosphere and mitigate the negative effects of climate change.

    Methods of Carbon Sinks

    There are two types of carbon sinks:

    (A) Natural Carbon Sinks: These are ecosystems that naturally absorb and store carbon from the atmosphere. The most common natural carbon sinks are:

    • Forests: Trees absorb CO2 through photosynthesis and store it in their trunks, branches, and roots.
    • Oceans: The Ocean absorbs CO2 from the atmosphere, where it dissolves and forms carbonic acid.
    • Soil: Carbon can be stored in soil in the form of organic matter, such as dead plant and animal material, which is broken down by microorganisms.

    (B) Artificial Carbon Sinks: These are human-made technologies that capture and store carbon from the atmosphere. The most common artificial carbon sinks are:

    • Carbon Capture and Storage (CCS): CCS technology captures CO2 emissions from industrial processes, such as power plants, and stores it underground.
    • Direct Air Capture (DAC): DAC technology captures CO2 directly from the air and stores it underground or repurposes it for other uses.

    India’s carbon sink target

    • India has pledged to create an additional carbon sink of 2.5 to 3 billion tonnes of CO2 equivalent by 2030.
    • This will be achieved through afforestation, reforestation, and other land-use changes.

    India’s progress towards its carbon sink target

    • India has already achieved 24.6% of its carbon sink target as of 2017.
    • This was primarily due to afforestation and tree plantation programs, such as the Green India Mission and the National Afforestation Programme.

    Challenges in meeting India’s carbon sink target

    • Unavailability of accurate data: There is a lack of accurate data on the extent and health of India’s forests, which makes it difficult to measure the effectiveness of afforestation and reforestation programs.
    • Conversion of natural forests: The conversion of natural forests to monoculture plantations that have lower carbon sequestration potential can reduce the effectiveness of carbon sinks.
    • Pressure on land: The pressure on land for agriculture and other forms of development can lead to deforestation and the loss of carbon sinks.
    • Lack of funding: Afforestation and reforestation programs require significant funding, which can be a challenge for India.
    • Lack of awareness: Lack of awareness among the public and policymakers about the importance of carbon sinks and the need for their conservation and restoration can hinder efforts to meet India’s carbon sink targets.

    Conclusion

    • India’s commitment to increasing its carbon sink is crucial in mitigating the impacts of climate change.
    • More efforts are needed to ensure the success of afforestation and reforestation programs and to address the challenges facing India’s forests.
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  • ISRO Missions and Discoveries

    NASA hands over NISAR satellite to ISRO

    Prelims Only | Science Tech | Mains Paper 3: Awareness in various sc and tech fields

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: NISAR

    Mains level: NA

    nisar

    The Indian Space Research Organisation (ISRO) has received the NASA-ISRO SAR (NISAR) satellite.

    What is NISAR?

    • NISAR has been built by space agencies of the US and India under a partnership agreement signed in 2014.
    • The 2,800 kilograms satellite consists of both L-band and S-band synthetic aperture radar (SAR) instruments, which makes it a dual-frequency imaging radar satellite.
    • While NASA has provided the L-band radar, GPS, a high-capacity solid-state recorder to store data, and a payload data subsystem, ISRO has provided the S-band radar, the GSLV launch system and spacecraft.
    • Another important component of the satellite is its large 39-foot stationary antenna reflector.
    • Made of a gold-plated wire mesh, the reflector will be used to focus the radar signals emitted and received by the upward-facing feed on the instrument structure.

    Objectives of NISAR

    • Once launched into space, NISAR will observe subtle changes in Earth’s surfaces, helping researchers better understand the causes and consequences of such phenomena.
    • It will spot warning signs of natural disasters, such as volcanic eruptions, earthquakes and landslides.
    • The satellite will also measure groundwater levels, track flow rates of glaciers and ice sheets, and monitor the planet’s forest and agricultural regions, which can improve our understanding of carbon exchange.
    • By using synthetic aperture radar (SAR), NISAR will produce high-resolution images.
    • SAR is capable of penetrating clouds and can collect data day and night regardless of the weather conditions.
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  • International Space Agencies – Missions and Discoveries

    Moon to get its own Time Zone

    Prelims Only | Science Tech | Mains Paper 3: Awareness in various sc and tech fields

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: Lunar Time Zone

    Mains level: NA

    moon

    The European Space Agency is planning a universal timekeeping system for the moon.

    Timekeeping on the Moon

    • The Moon has its own day and night cycle, which lasts about 29.5 Earth days.
    • This means that if humans were to live on the Moon, they would need to develop their own timekeeping system.
    • Currently, the time on the Moon is measured using Universal Time Coordinated (UTC), which is the same timekeeping system used on the Earth.
    • However, because the Moon’s day is much longer than Earth’s day, it would be difficult to use UTC for day-to-day activities on the Moon.

     

    Universal Time Coordinated (UTC)

    • Universal Time Coordinated (UTC) is a time standard used to keep time consistent around the world.
    • UTC is based on International Atomic Time (TAI), which is maintained by atomic clocks around the world.
    • It is the primary time standard used by many countries, international organizations, and scientific research institutions.
    • UTC is expressed as a 24-hour clock and is used to indicate the time offset from Coordinated Universal Time (UTC+0).
    • Time zones are defined as an offset from UTC, with some time zones being ahead of UTC (UTC+1, UTC+2, etc.) and others being behind UTC (UTC-1, UTC-2, etc.).
    • UTC is adjusted periodically to account for changes in the Earth’s rotation, which can cause variations in the length of a day.
    • These adjustments are made through the addition of leap seconds to UTC, which help to keep the time standard synchronized with the Earth’s rotation.

     

    Why need lunar time zone?

    • The Moon is the Earth’s only natural satellite, and humans have been interested in exploring and colonizing it for many years.
    • With recent advancements in space technology, there is renewed interest in lunar exploration and settlement.

    Proposed Lunar Time Zone

    • To address this issue, scientists and researchers have proposed creating a lunar time zone that would be based on the Moon’s day and night cycle.
    • This would make it easier for lunar settlers to keep track of time and coordinate activities.

    Benefits offered

    • Having a lunar time zone would also make it easier for scientists and researchers to conduct experiments and collect data on the Moon.
    • It would also help to prevent confusion and errors that could arise from using different timekeeping systems on Earth and the Moon.

    Various challenges

    • Time on Earth is precisely tracked by atomic clocks, but synchronizing time on the moon is tricky because clocks run faster there, gaining around 56 microseconds, or millionths of a second, per day.
    • It would also be difficult to establish a consistent time zone for the entire Moon, given that the terrain and lighting conditions vary widely across its surface.
    • Additionally, any timekeeping system on the Moon would need to be able to account for the Moon’s irregular rotation and movement.

     

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  • Climate Change Impact on India and World – International Reports, Key Observations, etc.

    UNEP pitches for Global Greenhouse Gas Monitoring Infrastructure

    Prelims Only | Enviro & Biodiversity | Mains Paper 1: Important Geophysical Phenomena

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: Global Greenhouse Gas Monitoring Infrastructure

    Mains level: NA

    greenhouse

    Central idea: The article discusses the United Nations’ development of a new system for tracking greenhouse gas emissions.

    Greenhouse Gases

    • Greenhouse gases are gases that trap heat in the Earth’s atmosphere and contribute to the greenhouse effect.
    • Examples of greenhouse gases include-
    1. Water vapor (H2O)
    2. Carbon dioxide (CO2)
    3. Methane (CH4)
    4. Nitrous oxide (N2O)
    5. Fluorinated gases, including hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), and sulfur hexafluoride (SF6)
    6. Ozone (O3)
    • The greenhouse effect is a natural process that occurs when certain gases in the atmosphere absorb and re-emit infrared radiation from the sun, trapping heat and keeping the planet warm enough to sustain life.
    • Human activities such as burning fossil fuels, deforestation, and industrial processes have significantly increased the concentration of greenhouse gases in the atmosphere, leading to an enhanced greenhouse effect and causing global warming and climate change.

    Global Greenhouse Gas Monitoring Infrastructure

    • The new system, also known as the Common Global Standard for Sustainability, is being developed by the United Nations Environment Programme (UNEP).
    • It will provide a standardized framework for measuring and reporting greenhouse gas emissions across various sectors, including agriculture, transport, and energy.

    Need for the new system

    • The current system for tracking greenhouse gas emissions is fragmented and lacks standardization, making it difficult to compare emissions across different sectors and countries.
    • The new system aims to address this issue by providing a standardized framework for measuring and reporting emissions.

    Benefits offered

    • The new system will provide a more accurate and comprehensive picture of greenhouse gas emissions across different sectors and countries.
    • It will enable policymakers and businesses to develop more effective strategies for reducing emissions and mitigating the impacts of climate change.

    Challenges

    • The success of the new system will depend on the willingness of countries and businesses to adopt and implement it.
    • There may be resistance from some countries and businesses that are reluctant to disclose their emissions data or make changes to their current reporting practices.

     

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  • Railway Reforms

    Real Time Train Information System (RTIS) Project

    Prelims Only | Economics | Mains Paper 3: Infrastructure: Energy, Ports, Roads, Airports, Railways Etc.

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: RTIS

    Mains level: Not Much

    train

    The article discusses the partnership between Indian Railways and ISRO for real-time train tracking.

    Real Time Train Information System (RTIS) Project

    • Indian Railways has signed a MoU with the Indian Space Research Organization (ISRO) to use satellite-based technology for real-time train tracking.
    • The technology will be used to provide real-time information on the exact location and movement of trains across the country.

    How does it work?

    • The system will use ISRO’s satellite-based GPS technology, called the Indian Regional Navigation Satellite System (IRNSS), to track the location of trains.
    • The system will also use other advanced technologies, such as satellite imagery and geo-fencing, to provide real-time information on train movements.

    Applications of RTIS

    • RTIS gives mid-section updates with a periodicity of 30 seconds.
    • The Train Control can now track the location and speed of RTIS-enabled locomotives/train more closely, without any manual intervention.
    • It allows passengers to get the real-time location or train running status of a train on their smartphone.

    Benefits offered

    • The system will help to improve the efficiency and safety of train operations in India.
    • It will provide accurate and real-time information on train movements, which will help to reduce delays and improve scheduling.
    • The system will also help to enhance the overall passenger experience by providing real-time information on train status and location.

    Future plans

    • Indian Railways plans to use the technology for other applications, such as monitoring the health of trains and their components.
    • The partnership with ISRO is part of Indian Railways’ larger digital transformation initiative, which aims to leverage technology to improve the efficiency and safety of train operations.

     

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  • Tiger Conservation Efforts – Project Tiger, etc.

    India pitches for International Big Cat Alliance (IBCA)

    Prelims Only | Enviro & Biodiversity | Mains Paper 3: Conservation, Environmental Pollution & Degradation, Eia

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: International Big Cat Alliance (IBCA)

    Mains level: NA

    cat

    India has proposed to launch International Big Cat Alliance (IBCA) to protect big cats and assured support over five years with guaranteed funding of $100 million.

    International Big Cat Alliance (IBCA)

    • It is a proposed mega-global alliance that will work toward the protection and conservation of the seven major big cats — tiger, lion, leopard, snow leopard, puma, jaguar, and cheetah.
    • Membership to the alliance will be open to 97 ‘range’ countries, which contain the natural habitat of these big cats, as well as other interested nations, international organizations, etc.

    Proposed objectives

    • The alliance’s purpose is to provide a platform for the dissemination of information on benchmarked practices, capacity building, resources repository, research and development, awareness creation, etc. on the protection and conservation of big cats.
    • Its major activities will include advocacy, partnership, knowledge e-portal, capacity building, eco-tourism, partnerships between expert groups and finance tapping.

    Financial outlay

    • After the first five years, IBCA will be supported by India’s ‘total grant assistance’ of $100 million.
    • It is expected to sustain itself through membership fees, and contributions from bilateral and multilateral institutions and the private sector

    Governance Structure

    • A General Assembly consisting of all member countries.
    • A Council of at least seven but not more than 15 member countries elected by the General Assembly for a term of 5 years, and a Secretariat.
    • Upon the recommendation of the Council, the General Assembly will appoint the IBCA Secretary General for a specific term.

    India’s success in tiger conservation

    • India has been successful in tiger conservation, with its tiger population increasing from 1,411 in 2006 to 2,967 in 2019.
    • India’s success in tiger conservation has been attributed to measures such as habitat restoration, anti-poaching efforts, and community participation.

    What lies ahead?

    • India plans to expand its conservation efforts to other big cat species, such as lions and leopards.
    • India also plans to work with other countries to promote conservation efforts for big cats on a global scale.
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  • Innovations in Biotechnology and Medical Sciences

    What are ‘Bio-Computers’ and what can they tell us about the human brain?

    Prelims Only | Science Tech | Mains Paper 3: Awareness in various sc and tech fields

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: Bio-Computers

    Mains level: Not Much

    bio-computer

    Central idea: Johns Hopkins University scientists have proposed creation of Bio-Computers’ using a new area of research called “organoid intelligence”.

    Background

    • JHU scientists will harness the processing power of the brain and help understand the biological basis of human cognition, learning, and neurological disorders.
    • Traditional methods of studying the human brain involve using rat brains, which are structurally and functionally different from human brains.

    Building brain organoids in the lab

    • Scientists are building 3D cultures of brain tissue in the lab, called brain organoids, using human stem cells.
    • Brain organoids capture many structural and functional features of a developing human brain and are being used to study human brain development and test drugs.
    • However, brain organoids developed in the lab lack sensory inputs and blood circulation, which limits their growth and sophistication.

    Transplanting brain organoids

    • Scientists have transplanted human brain organoid cultures into rat brains, where they formed connections with the rat brain and were functionally active.
    • However, human brain organoids are still nested in the rat-brain microenvironment, which limits their relevance to humans.

    What is the new “bio-computer”?

    • The JHU researchers’ scheme combines brain organoids with modern computing methods to create “bio-computers”.
    • Brain organoids will be grown inside flexible structures affixed with multiple electrodes to record the firing patterns of neurons and deliver electrical stimuli.
    • Machine-learning techniques will be used to analyze the response patterns of neurons and their effect on human behavior or biology.

    Opportunities for “bio-computers”

    • Brain organoids can be developed using stem cells from individuals with neurodegenerative diseases or cognitive disorders to reveal the biological basis of human cognition, learning, and memory.
    • “Bio-computers” could help decode the pathology of and develop drugs for neurodevelopmental and degenerative diseases such as Parkinson’s disease and microcephaly.

    Challenges for bio-computers

    • Brain organoids have a diameter of less than 1 mm and have fewer than 100,000 cells on average, limiting their computing capacity.
    • Researchers will have to develop microfluidic systems to transport oxygen and nutrients and remove waste products.
    • The hybrid systems will generate large amounts of data that will need to be stored and analyzed using “Big Data” infrastructure and advanced analytical techniques.
    • An ethics team is proposed to identify, discuss, and analyze ethical issues as they arise in the course of this work.

    Conclusion

    • Biocomputers will harness the processing power of the brain and help understand the biological basis of human cognition, learning, and various neurological disorders.
    • Scaling up brain organoids and developing microfluidic systems and analytical techniques are the key challenges.
    • Ethical issues arising from the development of biocomputers will be analyzed by an ethics team.

     

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  • Housing for all – PMAY, etc.

    SWAMIH investment fund and its affordable housing push

    Prelims Only | Economics | Mains Paper 3: Inclusive Growth & Issues

    Note4Students

    From UPSC perspective, the following things are important:

    Prelims level: SWAMIH Fund

    Mains level: Not Much

    swami

    The Special Window for Affordable and Mid-Income Housing (SWAMIH) Investment Fund I has raised Rs 15,530 crore so far.

    What is the SWAMIH investment fund?

    • The SWAMIH Investment Fund I is a social impact fund specifically formed for completing stressed and stalled residential projects.
    • The Fund is sponsored by the Ministry of Finance and is managed by SBICAP Ventures Ltd., a State Bank Group company.
    • The Fund is considered as the lender of last resort for distressed projects.

    Who are eligible for this fund?

    It considers-

    • First-time developers,
    • Established developers with troubled projects,
    • Developers with a poor track record of stalled projects,
    • Customer complaints and NPA accounts, and even
    • Projects where there are litigation issues.

    Significance of the funds

    • The Fund’s presence in a project often acts as a catalyst for better collections and sales primarily in projects that were delayed for years.
    • According to the Finance Ministry, SWAMIH Fund has one of the largest domestic real estate private equity teams focused only on funding and monitoring the completion of stressed housing projects.

    How many projects so far have been financed by the Fund?

    • SWAMIH has so far provided final approval to about 130 projects with sanctions worth over Rs 12,000 crore.
    • The Fund has completed 20,557 homes and aims to complete over 81,000 homes in the next three years across 30 tier 1 and 2 cities.
    • The Fund has been able to complete construction in 26 projects and generate returns for its investors.
    • It has also played a critical role in the growth of many ancillary industries in real estate and infrastructure sector having successfully unlocked liquidity of more than Rs. 35,000 crore.
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