22.5.25 Current Affairs

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2025 International Booker Prize

Context: Kannada writer Banu Mushtaq won the 2025 International Booker Prize for her short story collection Heart Lamp, translated into English.

About the News:

  • Award Name: International Booker Prize 2025
  • Winner: Banu Mushtaq (Kannada writer)
  • Book Title: Heart Lamp
  • Genre: Short Story Collection (12 stories)
  • Written Between: 1990–2023
  • Translator: Deepa Bhasthi
  • Language of Original: Kannada
  • Language of Translation: English
Booker Prize 2025/credit: The Hindu

Historical Significance:

  • First-ever Kannada-language work to win the International Booker Prize
  • First time a collection of short stories has been awarded the prize
  • Second Indian language work to win, after Geetanjali Shree (Tomb of Sand, 2022)
  • Reaffirms global recognition of regional Indian literature in translation

About Banu Mushtaq

  • Age: 77 years (in 2025)
  • Profession: Writer, Lawyer, Activist
  • Native of: Hassan, Karnataka
  • Writing Career: Active for over 5 decades
  • Known for: Writing on Muslim women’s lives, social inequality, and resistance
  • Associated with: Bandaya Sahitya Movement (Kannada for “rebellion/resistance”)

Themes in Heart Lamp:

  • Focus on marginalized Muslim women
  • Topics:
    • Patriarchy, inequality, and lived struggles
    • Female sacrifice and suppressed rights
  • Story Examples:
    • “Stone Slabs for Shaista Mahal” – girl drops out of school to help mother
    • “Fire Rain” – overworked mother (Arifa)
    • “Heart Lamp” – mother Mehrun’s struggle
    • “Black Cobras” – critique of hypocritical maulvis
    • “Be a Woman Once, Oh Lord!” – post-childbirth exhaustion and prayer

Key Names for Exam Memorization

PersonRole
Banu MushtaqKannada writer, 2025 Booker winner
Deepa BhasthiTranslator of Heart Lamp
Max PorterChair, International Booker Prize 2025
Geetanjali ShreeHindi author, 2022 Booker winner (Tomb of Sand)
Daisy RockwellTranslator of Tomb of Sand

Lion count grows by 32% in 5 years

Context: India’s lion population, found exclusively in Gujarat, has grown 32% from 2020 to 2025, with notable habitat expansion beyond protected areas.

Lion Population Growth (2020–2025)

  • Total Lion Count (2025): 891 lions
  • Growth since 2020: +32%
  • Adult Females: 330 (↑ 27%) – crucial indicator for future population growth

Habitat Distribution

  • Core Area (Gir NP + Paniya WLS): 394 lions
  • Outside Protected Areas: More lions now live outside than inside core zones
  • Expansion leads to increased human-lion interaction/conflict

Territorial Expansion

  • 2015–2020: Lion range expanded to 30,000 sq. km (+36.4%)
  • 2020–2025: Further expanded to 35,000 sq. km (+16.67%)

Expert Opinion

  • Y.V. Jhala (Ex-Wildlife Institute of India):
    • Gujarat remains a model of lion conservation
    • Suggests creating new habitats with minimal human contact
    • Theoretical capacity of Gujarat: up to 2,000 lions (based on prey availability)
    • Rising cattle carcasses signal increasing conflict potential

Future Habitat Plans

  • Kuno National Park (Madhya Pradesh):
    • Originally proposed as a lion habitat, now houses cheetahs
  • Project Lion:
    • Approved in March 2025 by PM Narendra Modi
    • Budget: ₹2,900 crore
    • Aim: Improve existing lion habitat and develop new zones within Gujarat

Conservation Concerns

  • Increased proximity to human settlements
  • Rising man-animal conflict risk
  • Need for geographical diversification of lion habitats beyond Gujarat

Important Data for Exams

ParameterValue
Lion population (2025)891
Growth (2020–2025)32%
Adult females (2025)330 (↑ 27%)
Area covered (2020)30,000 sq. km
Area covered (2025)35,000 sq. km
Increase in territorial range16.67% (2020–2025)
Core population (Gir + Paniya)394 lions
Project Lion Budget₹2,900 crore
Project Lion ApprovedMarch 2025

International Day for Biological Diversity 2025

  • Observed on: May 22 every year
  • Theme (2025): “Harmony with Nature and Sustainable Development”
  • Commemorates: Adoption of Convention on Biological Diversity (CBD) on May 22, 1992
  • Framework: Kunming-Montreal Global Biodiversity Framework (GBF)
    • Goal: Conserve & manage 30% of terrestrial & marine biodiversity by 2030
    • Target 12: Enhance green and blue spaces in cities
    • Related to SDG Goal 11: Safe, resilient, sustainable cities

Urban Biodiversity: Importance

  • Urban population (2025): ~50%; expected to rise to 70% by 2050
  • Urban biodiversity offers:
    • Health benefits: Reduces temperature, pollution, noise, provides recreation
    • Economic value: Urban trees provide services worth ~$967,000/sq.km annually (Theodore Endreny study)

Environmental Benefits

  • Tree line (10 m wide): Cuts noise pollution by 5 decibels
  • Frankfurt data: Green belts reduce temperature by 3.5°C, increase humidity by 5%
  • Tree cover in Indian cities (Forest Survey of India):
    • Mumbai: 25.43%
    • New Delhi: 12.6%
    • Hyderabad: 12.6%
    • Bengaluru: 6.85%
    • Chennai: 4.66%
    • Ahmedabad: 3.27%
    • Chennai lost 2.6 sq.km, Hyderabad 1.6 sq.km of forest cover (2021–23)

Urban Planning Recommendations

UN-Habitat’s 3-30-300 Rule

  • 3 trees visible from every home/school/office
  • 30% tree canopy in each neighborhood
  • 300 meters to nearest green space (0.5–1.0 ha)

Biodiversity Index & Action Plan

  • City Biodiversity Index (ICLEI Asia):
    • Based on 23 indicators
    • Cities assessed: Kochi, Gangtok, Nagpur
    • Followed by Local Biodiversity Strategy and Action Plan (LBSAP)

Case Studies

Chennai Koyambedu Greening (2021)

  • Regeneration of 141 plant species, 35 bird & 27 butterfly species
  • Mimics 3-storied natural forest – better than Miyawaki model

Pallikaranai Marsh (Chennai)

  • Restored & declared Ramsar site
  • Previously used as a garbage dump

Key Urban Challenges

  • Loss of home garden trees (coconut, mango, jackfruit) due to flats
  • Encroachment and pollution of lakes & marshes
  • Low forest cover in expanding cities

Policy Suggestions

  • GCC to mandate 5 trees per 2,400 sq.ft. plot for new buildings
  • Promote roof/kitchen gardens for biodiversity and health
  • Ecological restoration of lakes using nature-based solutions
  • Provide legal protection to urban waterbodies

Legal Action & Governance

  • Supreme Court took strict view on tree felling at Kancha Gachibowli, Hyderabad
  • Urges city managers to avoid development at biodiversity’s cost
  • Mainstream biodiversity in city planning

India’s marine biodiversity and fisheries crisis.

Context: Need for sustainable and equitable management of India’s marine fisheries.

Marine Fisheries: Current Status

  • Annual capture: Stabilised at 3–4 million tonnes
  • Maximum sustainable yield reached; further increase = ecological & economic cost
  • Inequity:
    • 90% of fishers are small-scale, but they catch only 10% of the fish
    • 75% of fisher families live below poverty line

Ecological Impact of Trawling

  • Commercial shrimp trawling: For every 1 kg shrimp, 10 kg bycatch (mostly dead)
  • Bycatch includes juvenile & non-target species
  • Mesh size <25 mm = increased juvenile fishing
  • Consequences:
    • Collapse of spawning stock (e.g., sardine, mackerel)
    • Long recovery time; sometimes irreversible

Global Collapse Examples

  • Canada (1992): Northern cod fishery collapse → moratorium; stocks still low
  • California (1900s): Pacific sardine collapse → closed 1967–86; failed rebounds

India’s Regulatory Issues

  • Patchy laws: Each coastal State/UT has its own Marine Fisheries Regulation Act (MFRA)
  • Leads to cross-border laundering of juvenile/illegal fish
  • Lack of uniformity undermines biodiversity protection

Recommended Policy Solutions

National-level harmonisation

  • Common standards for:
    • Catch limits (scientifically set)
    • Minimum Legal Size (MLS)
    • Gear restrictions
    • Closed seasons

International Models

  • New Zealand’s QMS (Quota Management System):
    • Based on stock assessments
    • Introduced in 1986
    • Allows individual transferable quotas
    • Applied to commercial, recreational, customary fishers
  • Adaptation in India (pilot basis) could stabilise fisheries

Indian Success Story

  • Kerala: After enforcing MLS for threadfin bream, catch rose 41% in one season

Tackle the FMFO Industry (Fish Meal & Fish Oil)

  • Bycatch → fish meal = perverse incentive
  • Over 50% trawl catch = low-value juvenile fish
  • Exports → loss of nutrition for Indian consumers & aquaculture
  • Solutions:
    • Caping FMFO quotas
    • Mandate the release of juveniles
    • Divert bycatch to aquaculture brood stock

Multi-Level Action Needed

National Government

  • Regulate: vessel licences, subsidies, and grants
  • Shift to an ecosystem-based approach

State Governments

  • Enforcement: Patrol boats, real-time tracking tools

Community & Consumers

  • Empower fisher cooperatives as co-managers of MPAs
  • Promote consumer awareness: Buy legally sized, sustainable fish
  • India’s ~11,098 km coastline, 3,000+ villages at risk from:
    • Overfishing, biodiversity loss, and poverty
    • Climate-driven storms, erosion
  • Solutions within reach:
    • Science-based quotas
    • Unified laws
    • Community-led conservation
    • Long-term sustainability focus

Poverty levels in India

Context: A 2025 EPW paper finds that poverty reduction in India has slowed significantly since 2011–12, using survey-to-survey imputation methods due to the lack of official poverty data.

Main Findings

  • Poverty fell:
    • From 37% in 2004–05 to 22% in 2011–12
    • To only 18% in 2022–23
  • Number of poor declined from 250 million to 225 million post-2011–12
  • The pace of poverty reduction has slowed down significantly

Three Main Methodological Approaches Compared

1. UMPCE from NSSO/PLFS:

  • Uses single-question measure: Usual Monthly Per Capita Consumption Expenditure
  • Lacks clarity and comparability with older surveys
  • Estimated poverty: 26–30% in 2019–20

2. PFCE Scaling Method:

  • Uses Private Final Consumption Expenditure from NAS
  • Scales 2011–12 CES data forward
  • Doesn’t capture distributional changes in consumption

3. Survey-to-Survey Imputation:

  • Fills data gaps by combining related surveys
  • Earlier used by World Bank and researchers like:
    • Newhouse & Vyas: 15% poverty in 2014–15
    • Edochie et al.: 10% in 2017–18
    • Roy & van der Weide: 10% in 2019 using CMIE-CPHS

Unique Features of This Study’s Methodology

  • Uses Tendulkar poverty lines, not World Bank lines
  • Relies on Employment-Unemployment Surveys (EUS) and PLFS, ensuring better match with CES 2011–12
  • Incorporates State-level and sector-wise fixed effects for better accuracy

State-wise Trends (2022–23)

  • Significant progress: Uttar Pradesh
  • Stagnation or slower progress: Bihar, Jharkhand, Maharashtra, Andhra Pradesh

Supporting Macro Indicators

1. GDP Growth:

  • 2004–05 to 2011–12: 6.9%
  • 2011–12 to 2022–23: 5.7%

2. Real Rural Wages (WRRI – Labour Bureau):

  • 2004–05 to 2011–12: 4.13% annual growth
  • 2011–12 to 2022–23: 2.3% annual growth

3. Agriculture Workforce:

  • Declined by 66 million (2004–18)
  • Increased by 68 million since 2017–18
  • Indicates return to low-productivity jobs → Higher poverty risk

Limitations Acknowledged

  • Lack of comparable official CES data since 2011–12
  • Multiple estimates likely to continue until fresh government surveys are published

Conclusion

  • Evidence suggests a slowing of poverty reduction post-2011–12
  • Authors advocate for revitalised anti-poverty efforts and official data release to clarify real trends

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