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UPSC Daily Current Affairs | Prelim Bits 23-08-2024

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August 23, 2024

Toxic mercury in Arctic’s permafrost

As the Arctic’s permafrost thaws in a warming climate, an enormous amount of toxic mercury is being released into the environment.

  • Permafrost – They are any ground that remains completely frozen 32°F (0°C) or colder—for at least two years straight.
  • Permafrost is made of a combination of soil, rocks and sand that are held together by ice.
  • These are most common in regions with high mountains and in Earth’s higher latitudes—near the North and South Poles.

Permafrost

  • Active layer – It is the top layer of the permafrost that does not stay frozen all year.
  • It thaws during the warm summer months and freezes again in the fall.
  • Permafrost Thawing - As Earth’s climate warms, the ice inside the permafrost melts, leaving behind water and soil.
  • Mercury Bomb - A significant amount of total mercury (THg) is liberated from permafrost during glacial erosion in Arctic.
  • Abrupt thawing events can rapidly mobilise metres-thick deposits of sediment, potentially releasing large mercury.
  • The mercury content was generally higher in sediment, with finer rather than coarser grains
  • Thaw slumps – It is a type of landslide that occurs in the terrestrial Arctic’s permafrost region.
  • Thaw slumps adjacent rivers around the arctic region - Mackenzie river, Yukon and Koyukuk rivers, elevate suspended particulate mercury contents downstream.
  • Most mercury eroded from the banks during river migration is redeposited with sediments.
  • Arctic Mercury - Mercury is a global environmental contaminant with both natural sources and sources associated with human activities.
  • Much of the mercury contaminating the Arctic is a result of transport by air and ocean pathways from sources outside of the Arctic.
  • Over 98% of atmospheric mercury is emitted outside the region and is transported to the Arctic via long-range air and ocean transport.
  • Impact - People and wildlife living in the Arctic are some of the most exposed human populations globally to mercury.
  • Mercury is a neurotoxin that can cause serious harm to the brain and nervous system, particularly when it accumulates in the food chain.
  • Many indigenous communities, including Alaskan communities, rely on subsistence fishing and have disproportionately elevated blood mercury levels linked to dietary exposure.

References

Down to Earth |Toxic mercury trapped in Arctic’s permafrost

 

Kodaikanal Tower Tunnel Telescope

Scientists have discovered a new method to explore the Sun's secrets by studying magnetic fields at different layers of its atmosphere using data from the Kodaikanal Tower Tunnel Telescope.

Aspect

Details

Origins and Evolution

  • Established in 1899 as the Madras Observatory and later renamed as Kodaikanal Solar Observatory.

Location

  • Tamil Nadu

Operator

  • Indian Institute of Astrophysics (IIA)

Significance and Legacy

  • One of the oldest solar observatories globally.
  • Maintains a 1250-year collection of solar observations.
  • Plays a crucial role in tracking the Sun’s activity over time.
  • Known for the discovery of the Evershed Effect in 1909.

Primary Use

  • Observations and measurements of the Sun's magnetic fields
  • Tracks the Sun’s magnetic field and its evolution.
  • Observes solar activity cycles, with the 25th cycle expected to peak in 2024-2025.
  • Provides data on sunspots, solar flares, and coronal mass ejections (CMEs).

Environment

  • Situated at an altitude of 2,500 meters.
  • Ideal for solar observations with over 220 days of clear skies.
  • Low dust pollution and low atmospheric turbulence enhance observation quality.

Telescope Infrastructure

  • Houses 7 telescopes for solar observations.
  • Key telescopes include Spectro Heliogram Telescope, Twin Telescope, Kodai Tower Tunnel Telescope, H-Alpha Telescope, and others.
  • The 8-inch telescope is used for night sky observations.

Telescope Type

  • Coelostat-based telescope system with a 3-mirror setup.

Mirror Configuration

  • Primary Mirror (M1) - Tracks the Sun.
  • Secondary Mirror (M2)-Redirects sunlight downwards.
  • Tertiary Mirror (M3)- Makes the beam horizontal.

Focusing System

  • Achromatic doublet (38cm aperture, f/96) focuses the Sun’s image.

Image Scale

  • 5.5 arcsec per mm.

Key Spectral Lines Used

  • Hydrogen-alpha (Hα) line- 6562.8 Å
  • Calcium II line- 8662 Å

Purpose of Spectral Lines

  • Inference of magnetic field stratification at different atmospheric heights.

Strategic and Geopolitical Importance

  • Studying solar eruptions critical to protect satellites, power grids, and communication networks.
  • Helps predict and prepare for space weather events that could have global impacts.

References

  1. PIB | Kodaikanal Tower Tunnel Telescope
  2. India Today | Kodaikanal Tower Tunnel Telescope

 

Island of Madeira

Wildfires in Madeira have endangered world-heritage forests and stranded tourists, with nearly 6% of the island's total area burned.

Madeira Island

Aspect

Details

Location

  • Madeira is a Portuguese island located in the North Atlantic Ocean, part of the Madeira Archipelago.
  • It comprises the volcanic islands of Madeira, Desertas, and the Porto Santo.
  • The Portuguese archipelago of Madeira is located to the west of Morocco and to the southwest of the Portuguese capital of Lisbon.

Region

  • Iberian Peninsula (Spain and Portugal).

Capital

  • Funchal.

Geography

  • Madeira is the top of a massive, submerged shield volcano rising about 6 km from the ocean floor.

Area

  • Madeira is the largest and most populous island of the Madeira Archipelago.

Tourism

  • A highly popular tourist destination, known for its landscapes, wine, and mild climate.

Natural Heritage

  • Home to the largest surviving laurel forests (Laurus nobilis) in the world, a UNESCO World Heritage Site.

Reference

Down to Earth | Island of Madeira

 

Underground Ocean on Ariel

The scientists using the James Webb Space Telescope have detected carbon dioxide ice on Uranus' moon Ariel, marking a key discovery in the search for water in the solar system.

Major moons of Uranus

  • Scientists working on the “Moons of Uranus” project has been closely studying 4 specific moons orbiting Uranus in order to find traces of ammonia, organic molecules, water, or carbon dioxide ice.
  • They found that carbon dioxide ice was present on the surface of Uranus’ moon called Ariel.
  • Potential Underground Ocean- The presence of carbon dioxide ice on Ariel suggests there may be a liquid ocean beneath its surface.
  • Possible Chemical Processes- The underground ocean may be releasing carbon dioxide through chemical processes, which then escapes to the surface via ice cracks.
  • Another theory suggests that Uranus' magnetic field could be breaking down molecules to generate carbon dioxide.
  • Additional Findings- Carbon monoxide and traces of carbonates were also found on Ariel’s surface. Carbonates are typically formed when water interacts with rocks.
  • Significance- Underground oceans are considered important in the search for extra-terrestrial life, as they may harbour or sustain life.

Ariel

  • Ariel, second nearest of the five major moons of Uranus.
  • Size- It has a diameter of about 1,158 kilometres.
  • It the fourth-largest of Uranus' moons.
  • Discovery- It was discovered in 1851 by William Lassell
  • Other major discovery on Ariel was conducted by the Voyager 2 spacecraft in January, 1986.
  • Voyager 2- The primary source of information about Ariel comes from the Voyager 2 flyby in 1986.
  • The spacecraft provided detailed images and data about its surface and features.
  • Surface- Ariel's surface is characterized by a mix of bright, young surfaces and older, heavily cratered areas.
  • Internal Structure- The moon is composed mainly of water ice and rocky material, with its internal structure possibly consisting of a silicate core surrounded by an icy mantle.
  • Magnetic Field- Ariel does not have a significant magnetic field of its own.

References

  1. India Express | underground ocean on Uranus’ moon
  2. Brittanica | Ariel

 

JUICE probe

European scientists were due to attempt a first in orbital gymnastics tapping into the gravity of the earth.

  • JUICE probe- The Jupiter Icy Moons Explorer (JUICE) probe.
  • It is a European Space Agency (ESA) mission designed to explore Jupiter and its 3 large moons i.e. Callisto, Europa, and Ganymede.
  • Launched in - April, 2023, aboard an Ariane 5 rocket from the Guiana Space Centre.
  • Goals
    • Exploring the moons - Create detailed maps of the moons' surfaces, analyze the water bodies beneath them, and characterize them as planetary objects and potential habitats
    • Studying Jupiter - Monitor Jupiter's magnetic, radiation, and plasma environment, and understand its origin, history, and evolution
    • Searching for life - Investigate the possibility of life in space by studying the moons' subsurface oceans, which are believed to have conditions that could support life.

Gravity assist

  • It is a technique where a spacecraft brushes past a planet or moon, using its gravity to alter speed or trajectory.
  • Scientists will tapping into the gravity of the earth to guide the JUICE probe towards Jupiter in the first-ever double slingshot manoeuvre.
  • In a novel double manoeuvre, the JUICE probe will first use the gravity of the moon to swing towards the earth on exactly the right trajectory.
  • If successful, it will put JUICE on course to reach Jupiter and its 3 large ocean-bearing moons - Callisto, Europa and Ganymede in 2031 with the help of three further single gravity assists
    • Venus in 2025, and then
    • The earth again in 2026 and 2029.

References

  1. The Hindu | Juice Probe
  2. ESA | Juice spacecraft specs
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