In News:

Kodo millet is a staple food for many tribal and economically weaker sections in India. It is one of the 'hardiest crops, drought tolerant with high yield potential and excellent storage properties,' according to researchers

Background on Kodo Millet:

• Kodo millet (Paspalum scrobiculatum), also known as Kodra or Varagu, is a hardy, drought-tolerant crop widely grown in India, especially in Madhya Pradesh.
• It is a staple food for many tribal and economically weaker sections of India and is used to make various dishes like idli, dosa, and rotis.
• Kodo millet is valued for its high yield, nutritional benefits (rich in vitamins, minerals, antioxidants), and storage properties.

Incident in Bandhavgarh Tiger Reserve:

• 10 elephants from a herd of 13 died over three days in Madhya Pradesh’s Bandhavgarh Tiger Reserve.
• The cause of death was suspected to be mycotoxins associated with kodo millet, particularly Cyclopiazonic Acid (CPA), which is toxic to animals.

Historical Cases of Kodo Poisoning:

• The first human cases of kodo poisoning were reported in 1922 in the Indian Medical Gazette.
• Animals, including elephants, have also been affected by kodo millet consumption, with documented deaths as early as 1983.
• Cyclopiazonic Acid (CPA), a mycotoxin, was identified as the cause of kodo poisoning in the 1980s.

Why Does Kodo Millet Become Poisonous?

• Kodo millet is grown in dry and semi-arid regions and is vulnerable to fungal infections, particularly Ergot fungus, which produces CPA.
• When the crop encounters rainfall during maturing and harvesting, fungal infection can lead to "poisoned kodo," known locally as 'Matawna Kodoo' or 'Matona Kodo'.
• The mycotoxins in the infected millet are stable and resistant to standard food processing techniques.

Impact of Mycotoxins on Animals:

• Symptoms of poisoning: Vomiting, giddiness, unconsciousness, rapid pulse, cold extremities, limb tremors.
• Nervous and cardiovascular systems are primarily affected, causing liver dysfunction, heart damage, and gastrointestinal issues.
• In severe cases, consumption of infected kodo millet can cause death due to cardiovascular collapse and organ failure.
• Similar symptoms of depression and loss of mobility were observed in animal studies, including in mice.

Solution to Kodo Toxicity:

• Biocontrol agents (organisms that fight harmful pathogens) can help reduce fungal growth and mycotoxin production in kodo millet.
• Good agricultural practices: Sorting, proper storage in airtight containers, and avoiding moisture exposure during threshing can minimize contamination.
• Post-harvest management: Removing infected grains is crucial to preventing the spread of the disease.

Detection of Mycotoxins in Kodo Millet:

• Challenges: Mycotoxins are often undetectable by sight, and traditional methods like chromatography are time-consuming.
• Rapid detection tools: Enzyme-linked immunosorbent assays (ELISA), lateral flow assays (LFAs), and biosensors offer faster, on-site methods for detecting mycotoxins in kodo millet.

In News:

Centre for Science and Environment release a report on Extended Producer Responsibility (EPR) for Plastic Packaging

Key Findings:

• EPR Guidelines (2022) were a step towards enforcing the "polluter pays" principle, but the system faces significant issues in its implementation and registration processes.
• Centre for Science and Environment (CSE) report, released on October 29, 2024, highlights gaps in the EPR system for plastic packaging and suggests corrective actions.

EPR Guidelines Overview:

• Issued by: Union Ministry of Environment, Forest and Climate Change (MoEFCC).
• Objective: Hold producers, importers, brand owners (PIBOs), and plastic waste processors (PWPs) responsible for managing plastic packaging waste.
• Key Requirements:
  • PIBOs must register on a centralized portal and set targets for collection, recycling, and reuse of plastic packaging.
  • Registration involves compliance with targets on end-of-life recycling and recycled content usage.

Problems Identified in the Current EPR System:

• Low Registration and Enrollment:
  • 41,577 registrations on the EPR portal, but a significant discrepancy in the type of stakeholders registered.
  • 83% of registered entities are importers, 11% are producers, and only 6% are brand owners.
  • Producers contribute 65% of the plastic packaging in the market but have low registration.
• Absence of Key Polluters:
  • Manufacturers of virgin plastics are notably absent from the portal, despite being required to register.
• Fraudulent Practices:
  • 700,000 fake certificates were generated by plastic recyclers, far exceeding the actual certificate generation capacity.
  • The Central Pollution Control Board (CPCB) found that such fraudulent activities are undermining the integrity of the system.
  • For example, end-of-life co-processing units (e.g., cement plants) claimed to have processed 335.4 million tonnes per annum of plastic waste, while their actual capacity is just 11.4 million tonnes per annum.
• Underreporting and Mismanagement:
  • Despite 23.9 million tonnes of plastic packaging being introduced into the market, the CPCB’s estimation of plastic waste generation (4.1 MT annually) is underestimated.
• Lack of Stakeholder Representation:
  • Urban local bodies and informal waste collectors—key contributors to plastic waste management—are not included in the EPR framework, which limits their incentives and support.

Recommendations for Improvement:

• Incorporate the Informal Sector:
  • Recognize informal waste collectors and waste management agencies in the EPR framework to improve traceability and ensure better waste management.
• Eliminate Fraudulent Practices:
  • Strict actions need to be taken against fraudulent recyclers and fake certificate issuers to restore credibility to the EPR system.
• Establish Fair Pricing for EPR Certificates:
  • Undertake baseline cost studies to determine the true costs of plastic waste management, ensuring fair pricing for recycling certificates and preventing undervaluation.
• Standardize Packaging:
  • Focus on product standardization to ensure that packaging materials are uniform and easily recyclable.
• Strengthen Monitoring:
  • Improve oversight on the registration process and ensure that all polluters (producers, importers, brand owners) comply with the system’s guidelines.

EPR and Plastic Waste Management: Context and Importance

• Extended Producer Responsibility (EPR) is a policy approach where the responsibility of managing the entire lifecycle of plastic products (from production to disposal) lies with the producer.
• It is an essential part of India’s Plastic Waste Management Rules (2016), which mandate the recycling and proper disposal of plastic packaging waste.

Key Elements of EPR:

• Producer Accountability: Producers are responsible for the take-back, recycling, and final disposal of plastic packaging.
• Waste Minimization: Encourages reducing waste at the source by promoting sustainable packaging designs.
• Lifecycle Approach: Considers the entire lifecycle of the product, focusing on sustainability from production to disposal.
• Polluter Pays Principle: Ensures that the cost of waste management is borne by those responsible for generating the waste.

In News:

The updated NBSAP was released by India at the 16th Conference of Parties (COP16) to the Convention on Biological Diversity (CBD).

Overview of the NBSAP (2024-30):

• Title:Updated National Biodiversity Strategies and Action Plan: A Roadmap for Conservation of India’s Biodiversity.
• Objective: To provide a comprehensive roadmap for biodiversity conservation, aligning with global frameworks like the Kunming-Montreal Global Biodiversity Framework (KMGBF).

Key Features of the Updated NBSAP:

• Alignment with Global Frameworks:
  • The Kunming-Montreal Global Biodiversity Framework (KMGBF) adopted in 2022 aims to halt and reverse biodiversity loss by 2030.
  • India’s updated NBSAP aligns with KMGBF’s goals, focusing on biodiversity conservation, sustainable resource use, and ensuring fair benefit-sharing.
• 23 National Biodiversity Targets:
  • The targets are focused on three key themes:
    • Reducing threats to biodiversity
    • Ensuring sustainable use of biodiversity
    • Enhancing tools for biodiversity implementation
• Key Domains of Focus:
  • Area-based conservation: Protecting ecosystems and habitats.
  • Ecosystem resilience: Enhancing the ability of ecosystems to withstand environmental stressors.
  • Recovery and conservation of threatened species.
  • Conservation of agrobiodiversity: Ensuring the sustainability of agricultural biodiversity.
  • Sustainable management of biodiversity.
  • Enabling tools and solutions: Including financial and technical support for implementation.
• Financial Plan and Expenditure:
  • Biodiversity Expenditure Review (BER) estimated an average annual expenditure of Rs 32,20,713 crore (FY 2017-2022) for biodiversity conservation.
  • Future funding requirements (FY 2024-2030) estimated at Rs 81,664.88 crore annually at the central government level.
  • Biodiversity Finance Plan suggests financing solutions, including public finance, corporate social responsibility (CSR), Ecological Fiscal Transfer (EFT), and Access and Benefit Sharing (ABS) mechanisms.
• Capacity Building:
  • The NBSAP stresses the need for capacity building across various levels—national, state, and local.
  • Focus on skills acquisition for biodiversity management and enhancing knowledge to implement conservation strategies.

Implementation Framework:

• Multi-Level Governance:
  • At the national level, the Ministry of Environment, Forest, and Climate Change (MoEFCC) will oversee implementation with involvement from 22 other ministries.
  • State-level: Involves State Biodiversity Boards and Union Territory Biodiversity Councils.
  • Local level: Community-driven efforts through Biodiversity Management Committees.
• BIOFIN and Resource Mobilization:
  • India is recognized as a leading country in the implementation of the Biodiversity Finance Initiative (BIOFIN).
  • Encouragement for private entrepreneurs, businesses, and international donors to invest in biodiversity through innovative financial instruments like:
    • Green Bonds
    • Green Funds
    • Payment for Ecosystem Services (PES)
• Incentives for Financial Solutions:
  • India aims to explore funding from corporate social responsibility (CSR), ecological fiscal transfers, and access and benefit sharing mechanisms to meet the financial needs for biodiversity conservation.

Challenges and Strategies:

• Challenges India Faces:
  • Habitat fragmentation
  • Pollution
  • Illegal wildlife trade
  • Adverse effects of climate change
• Strategic Responses:
  • The updated NBSAP provides strategies to address these challenges, ensuring comprehensive conservation and sustainable use of biodiversity.

In News:

The Wildlife Crime Control Bureau (WCCB) of the Ministry of Environment, Forest and Climate change has constituted a team to enquire into the death of ten elephants in Bandhavgarh Tiger Reserve of Madhya Pradesh. The team is conducting an independent enquiry in the matter.

• Incident Overview:
  • Ten elephants found dead in Bandhavgarh Tiger Reserve, Madhya Pradesh, between October 29-31, 2024.
  • Preliminary cause of death suspected to be poisoning; final cause pending postmortem and toxicological analysis.
• Government Actions:
  • Union Government:
    • The Wildlife Crime Control Bureau (WCCB) has set up a team to conduct an independent investigation into the deaths.
  • Madhya Pradesh Government:
    • Constituted a five-member State-level inquiry committee, headed by the Additional Principal Chief Conservator of Forests (APCCF, Wildlife).
    • Committee includes members from civil society, scientists, and veterinarians.
    • The State Tiger Strike Force (STSF) is conducting field investigations, combing surrounding areas for further clues.
  • Other Involved Authorities:
    • The Principal Chief Conservator of Forests (PCCF) and Chief Wildlife Warden of Madhya Pradesh are directly supervising the inquiry in Bandhavgarh.
    • Senior officials from the National Tiger Conservation Authority (NTCA) have visited the site for discussions and investigation.

About Wildlife Crime Control Bureau (WCCB):

• Mandate:
  • Combats organized wildlife crime through intelligence gathering and coordination with enforcement agencies.
  • Develops wildlife crime data and assists in prosecutions.
  • Provides capacity building for wildlife crime enforcement agencies.
• Operations & Initiatives:
  • Conducts operations like SAVE KURMA, THUNDERBIRD, WILDNET, and more to counter wildlife crimes.
• Nodal Ministry: Ministry of Environment, Forest and Climate Change.
• Headquarters: New Delhi.

In News:

• Odisha government relocated a tigress from Maharashtra’s Tadoba-Andhari Tiger Reserve to Similipal Tiger Reserve, Odisha, to address inbreeding issues among the tiger population.
• The tigress is part of a genetic diversification plan to remedy the increasing number of pseudo-melanistic tigers in the region.

Pseudo-melanistic Tigers:

• Pseudo-melanistic tigers, often referred to as "black tigers," exhibit a darker coat with broader, more prominent stripes.
• The mutation leads to the appearance of a mostly black fur, with occasional white-orange stripes.

Genetic Basis:

• This coloration is due to a mutation in the Taqpep gene, which causes the widening and darkening of stripes on the tiger's coat.
• The mutation is linked to genetic drift and inbreeding within the isolated Similipal population.

Historical Context:

• These tigers were once considered mythical until the 1700s, with sightings only being documented in the 1990s and 2017-18.
• The first confirmed genetic evidence of the black tiger appeared when a cub was born in captivity at Oklahoma City Zoo in the 1970s.

Distribution and Prevalence:

• Pseudo-melanistic tigers are predominantly found in Similipal Tiger Reserve, with 27 out of 30 tigers in Odisha exhibiting the trait.
• Other instances of such tigers exist in captivity, such as in Nandankanan Zoological Park (Bhubaneswar) and Arignar Anna Zoological Park (Chennai), both tracing ancestry to Similipal.

Genetic Studies:

• A 2021 study by the National Centre for Biological Sciences (NCBS) linked the Taqpep gene mutation to the unique appearance of these tigers.
• The mutation causes a missense change in the gene, replacing Cytosine with Thymine (C1360T), altering the tiger’s coat pattern.

High Frequency of Mutation in Similipal:

• Genetic analyses indicate a high frequency of the Taqpep gene mutation in Similipal tigers, with a 60% chance that a tiger born there will carry the mutated gene.
• Inbreeding and genetic isolation have contributed to this phenomenon, as Similipal’s tiger population is geographically cut off from other populations.

In News:

An adult tigress and three cubs have been spotted in the Mhadei wildlife sanctuary in Goa marking the first time evidence of the species has been recorded in the forests bordering the states of Maharashtra and Karnataka since 2020.

Key Highlights:

Location and Geography:

• It is located near Chorla Ghat, between North Goa and Belgavi, and borders Maharashtra and Karnataka.
• The sanctuary is traversed by the Mhadei River, which meets the sea at Panaji, Goa.

Ecological Significance:

• It is part of the Western Ghats, a UNESCO World Heritage site, and shares this ecosystem with Mollem National Park and other protected areas in Goa.
• The sanctuary is integral to wildlife corridors connecting the Sahyadri Tiger Reserve (Maharashtra) and Kali Tiger Reserve (Karnataka), critical for tiger conservation.

Flora and Fauna:

• It is home to diverse wildlife, including the critically endangered Long-billed vultures that nest at Vazra Falls.
• The region supports a variety of flora and fauna due to its biodiversity-rich Western Ghats ecosystem.

Conservation Status and Recommendations:

• Goa is the only state in India to have its entire portion of the Western Ghats under state protection, with Mhadei WLS being a key area.
• The National Tiger Conservation Authority (NTCA) has recommended that Mhadei WLS be designated as a tiger reserve to enhance protection efforts.
• The sanctuary is a potential candidate for inclusion under Project Tiger.
• In 2020, a Royal Bengal tigress and her cubs were tragically poisoned due to human-animal conflict.

Mahadayi Water Dispute:

• The Mahadayi (Madei, Mandovi) River is a source of dispute between Karnataka and Goa regarding water sharing.
• Karnataka seeks to divert water from the river to the Malaprabha River basin for drinking water supply in several districts, through the Kalasa-Banduri Nala project.
• The matter is currently being heard in the Supreme Court.

In News:

The 2024 edition of The Lancet Countdown on Health and Climate Change presents critical insights into the intersection of health and climate change.

Key Findings from the 2024 Report

• Air Pollution and Mortality in India:
  • In 2021, air pollution was responsible for 1.6 million deaths in India.
  • Fossil fuels (coal and liquid gas) were identified as major contributors, accounting for 38% of these deaths.
  • India was ranked as the second-highest emitter of PM2.5 globally in 2022, contributing 15.8% of consumption-based and 16.9% of production-based PM2.5 emissions.
• Impact of Heat Stress:
  • In 2023, India experienced 2400 hours (or 100 days) of moderate to high heat stress, particularly during light outdoor activities like walking.
  • Heatwaves have become more frequent, with adults over 65 years experiencing 8.4 heatwave days per year, a 58% increase from 1990-1999.
  • This increased heat exposure has led to a loss of 181 billion labor hours globally, translating into an economic loss of approximately $141 billion.
• Global and National Trends in Air Pollution:
  • PM2.5 is particularly hazardous because it is fine enough to enter the lungs and bloodstream, leading to severe health risks like respiratory and cardiovascular diseases.
  • Nitrogen Dioxide (NO?), Sulphur Dioxide (SO?), Carbon Monoxide (CO), and Ozone (O?) were identified as other pollutants contributing to poor air quality in India.
• Health Impact of Extreme Weather:
  • The 2023 heatwave was one of the hottest years on record, exacerbating health risks worldwide, especially for the elderly.
  • Droughts and heatwaves also contributed to a rise in food insecurity, affecting millions globally.
• Disease Transmission and Climate Change:
  • Dengue transmission potential rose by 85% from 1951-1960 to 2014-2023.
  • Coastal areas suitable for the spread of Vibrio pathogens, which cause cholera, expanded by 23%, affecting over 210 million people.
• Health Effects of Fossil Fuel Pollution:
  • Continued reliance on fossil fuels worsens air quality, leading to health problems such as respiratory diseases, cardiovascular issues, and adverse pregnancy outcomes.

Government Efforts to Tackle Air Pollution in India

• National Clean Air Programme (NCAP):
  • NCAP is a national strategy to reduce air pollution across India, with specific action plans for 131 non-attainment cities. The initiative is supported through various central government schemes such as:
    1. Swachh Bharat Mission (Urban)
    2. Atal Mission for Rejuvenation and Urban Transformation (AMRUT)
    3. Smart City Mission
    4. Faster Adoption and Manufacturing of Hybrid and Electric Vehicles (FAME-II)
• Bharat Stage VI (BS-VI) Emission Norms:
  • BS-VI standards aim to significantly reduce vehicular pollution, lowering permissible limits for NOx and particulate matter (PM) emissions from vehicles.
• System of Air Quality and Weather Forecasting and Research (SAFAR):
  • SAFAR measures air quality and provides forecasts for metropolitan cities based on real-time data, helping authorities take preventive actions.
• Promotion of Renewable Energy:
  • India achieved a record 11% of electricity from renewable energy in 2022. However, 71% of India’s electricity still comes from coal, underscoring the need for a faster transition to cleaner energy sources.

In News:

According to the WMO, the last time the earth had a similar CO2 concentration was 3-5 million years ago, when temperatures were 2-3°C higher and sea levels were 10-20 metres higher than they are now

Key Highlights:

• Record High Greenhouse Gas (GHG) Levels:
  • In 2023, annual mean carbon dioxide (CO2) levels rose by 2.3 parts per million (ppm), reaching a new record of 420 ppm.
  • This marks the 12th consecutive year with an increase of over 2 ppm in CO2 levels.
• Historical Context:
  • CO2 levels not seen in 3-5 million years, when temperatures were 2-3°C higher, and sea levels were 10-20 meters higher than they are today.
• Key GHGs at Record Highs:
  • The globally averaged surface concentrations of CO2, methane, and nitrous oxide all reached new highs in 2023.
• Contributors to the Increase in CO2:
  • Natural Variability: Natural factors such as large vegetation fires and reduced carbon absorption by forests contributed to higher CO2 levels.
  • Human Activity: High fossil fuel emissions from human and industrial activities also played a major role.
  • El Niño Phenomenon: The El Niño event led to higher temperatures and drier conditions, exacerbating the rise in GHG levels through increased wildfires and reduced carbon absorption by land sinks.
• Climate Feedback Loop Concerns:
  • The WMO warned of a vicious cycle:
    • Climate change could cause ecosystems to become larger sources of GHGs.
    • Wildfires could release more carbon, and warmer oceans may absorb less CO2, leading to more CO2 remaining in the atmosphere, accelerating global warming.
• Radiative Forcing:
  • Radiative forcing (the warming effect on climate) from long-lived GHGs has increased by 51.5% from 1990 to 2023, with CO2 contributing 81% of this increase.
• Methane Concerns:
  • Methane saw its largest three-year increase between 2020 and 2022.
  • This increase was linked to warmer temperatures and wetter land conditions during the 2020-2022 La Niña conditions, which caused an uptick in methane emissions from natural wetlands.
• Long-Term Impact of CO2:
  • Given CO2's long atmospheric lifetime, even with rapid emissions reductions, the warming effect will persist for several decades.

In News:

The United Nations Environment Programme (UNEP) recently published the Emissions Gap Report 2024, in anticipation of the COP29 meeting of the UNFCCC to be held in Baku, Azerbaijan.

Key Highlights:

• Current Trajectory of Global Warming:
  • If countries continue with current environmental policies, global temperatures are expected to rise by 3.1°C above pre-industrial levels.
  • This is significantly higher than the Paris Agreement target of limiting global warming to well below 2°C, with an effort to cap it at 1.5°C.
• Paris Agreement at Risk:
  • Even if all Nationally Determined Contributions (NDCs) are fully implemented (including both unconditional and conditional emissions reduction targets), the world would still experience 2.6°C of warming by 2030.
  • This presents a major challenge to achieving the Paris Agreement’s climate goals.
• Urgent Need for Action:
  • To limit global warming to 1.5°C, greenhouse gas emissions must peak before 2025 and decline by 43% by 2030.
  • The report highlights the emission gap between current pledges and what is required to meet the 1.5°C goal.
• Record High Emissions:
  • Global greenhouse gas emissions hit a record 57.1 gigatons of CO? equivalent in 2023.
  • This represents an increase of 1.3% compared to 2022, continuing the upward trend from the previous decade.
• India’s Emissions:
  • India’s greenhouse gas emissions grew by 6.1% between 2022 and 2023.
  • Per capita emissions in India were 2.9 tCO?e in 2022, significantly lower than China (11 tCO?e) and the U.S. (18 tCO?e).
• G20 Countries’ Contribution:
  • G20 countries, excluding the African Union, contributed 77% of global emissions in 2023.
  • The six largest emitters (including China, U.S., and India) were responsible for 63% of global emissions.
  • This shows a significant imbalance in emissions, with developed countries having much higher per capita emissions compared to developing nations like India and Africa.
• Necessary Emissions Cuts:
  • To keep the 1.5°C target within reach, global emissions need to be cut by at least 7.5% annually until 2035.
  • Cost of bridging the emissions gap: Achieving net-zero by 2050 will require USD 900 billion to USD 2.1 trillion annually, approximately 1% of global GDP.
• Emission Reduction Pathways:
  • Renewable Energy: Scaling up solar and wind energy technologies could contribute up to 27% of the required emissions reductions by 2030.
  • Forest Conservation: Protecting and restoring forests could provide 20% of the required emissions reductions by 2030.
  • Other crucial measures include improving energy efficiency, transitioning to electric vehicles, and focusing on fuel switching in key sectors like transport, industry, and buildings.
• Disparities in Emissions:
  • Despite changes over the past two decades, large disparities remain between emissions across regions.
  • Developed countries have three times higher per capita emissions compared to the global average, while India, the African Union, and least developed countries continue to have much lower emissions.
• Call to Action:
  • UNEP Executive Director Inger Andersen urged countries to act now, stating: “No more hot air, please.” The urgency is to ramp up climate pledges and ensure stronger actions in the upcoming COP29 talks in Baku, Azerbaijan (November 2024), where nations must work to get on a 1.5°C pathway.

United Nations Environment Programme (UNEP)

• Established: 1972, following the United Nations Conference on the Human Environment in Stockholm.
• Headquarters: Nairobi, Kenya.
• Governing Body: The United Nations Environment Assembly (UNEA), which is the world’s highest-level decision-making body on environmental matters, with 193 Member States.
• Programs & Initiatives: UNEP leads global efforts on climate action, ecosystem restoration, clean seas, and supports the Sustainable Development Goals (SDGs).
• Reports: UNEP publishes crucial assessments like the Emissions Gap Report, Global Environment Outlook, and Adaptation Gap Report, influencing global environmental policies.

In News:

Hong Kong discovers dinosaur fossils for the first time

Key Details:

• • Significance: This marks the first-ever discovery of dinosaur fossils in Hong Kong.
• Time Period:The fossils date back to the Cretaceous Period, approximately 145 million to 66 million years ago.
• Fossil Details:The fossils belong to a large dinosaur, but further studies are required to determine the exact species.Initial analysis suggests the dinosaur may have been buried by sand and gravel after death, later being washed to the surface by a flood before being buried again.
• Site and Protection:Port Island, part of a geopark, is closed to the public to facilitate ongoing fossil investigations and excavation work.
• Geological and Archaeological Importance:The discovery underscores the significance of Hong Kong's geoparks and its role in preserving and showcasing natural history.This finding contributes to global understanding of prehistoric life, especially in the Cretaceous period.

In News:

India with an abysmal score of 45.5 (out of 100) has been ranked 176th in the Global Nature Conservation Index, 2024.

India's Ranking and Score:

• Rank: India ranks 176th out of 180 countries.
• Score: 45.5 out of 100.
• Context: India is listed among the five "worst performers," alongside Kiribati (180), Turkey (179), Iraq (178), and Micronesia (177).

Key Factors Affecting India’s Ranking:

• Inefficient Land Management: The main contributing factor to India's low ranking.
• Threats to Biodiversity: Rising threats due to habitat loss, deforestation, climate change, and pollution.
• Deforestation: Between 2001 and 2019, India lost 23,300 sq. km of tree cover, exacerbating biodiversity loss.

Focus Areas of the Nature Conservation Index (NCI):

• Land Management: Inefficient land use practices, with 53% of land converted for urban, industrial, and agricultural purposes.
• Biodiversity Threats: Habitat loss, fragmentation, and declining populations of marine and terrestrial species.
• Governance and Capacity: Challenges in enforcement of laws and governance structures that support conservation.
• Future Trends: India faces both opportunities and challenges, given its high population density and rapid development.

Key Findings:                                    

• Land Conversion and Urbanization: High rates of land conversion (53%) for development purposes, contributing to habitat loss.
• Soil Pollution: Issues with pesticide use and soil pollution (low nitrogen index of 0.77), affecting soil health.
• Marine Conservation: Only 0.2% of national waterways and none within the Exclusive Economic Zone (EEZ) are protected.
• Deforestation Impact: Loss of 23,300 sq. km of forest between 2001-2019.
• Biodiversity Decline: Despite 40% of marine species and 65% of terrestrial species in protected areas, biodiversity continues to decline—67.5% of marine species and 46.9% of terrestrial species face population decreases.

Marine and Terrestrial Conservation:

• Marine Areas: Need for greater investment in marine conservation, as India's marine protected areas (MPAs) are limited.
• Protected Areas: While 7.5% of India’s terrestrial area is protected, significant threats like climate change and habitat fragmentation persist.

Biodiversity and Climate Change:

• Climate Change Risks: Impacts on vulnerable ecosystems, including coral reefs and alpine regions, further threaten biodiversity.
• Population Growth: India’s rapidly growing population (one of the highest in the world) places constant pressure on natural resources and ecosystems.

Illegal Wildlife Trade:

• Global Ranking: India is the fourth-largest illegal wildlife trader globally, with an annual trade worth approximately £15 billion.
• Call for Action: Stronger enforcement of wildlife protection laws and international cooperation are crucial to combat illegal wildlife trade.

SDGs and India’s Conservation Challenges:

• SDG 14 (Life Below Water) and SDG 15 (Life on Land): India faces significant challenges in meeting these Sustainable Development Goals, particularly in protecting marine life and terrestrial ecosystems.

Recommendations for Improvement:

• Stronger Political Will: Political commitment is essential for passing laws that promote sustainable development and biodiversity conservation.
• Enforcement and Funding: Increased funding for environmental initiatives and better enforcement of conservation policies are necessary to address the conservation challenges.
• Sustainable Development: Integrating sustainable land use practices and improving governance structures for conservation are key areas for focus.

In News:

Recently, the Union Minister Shri Rajiv Ranjan Singh, Ministry of Fisheries, Animal Husbandry and Dairying launched the Pandemic Fund Project on "Animal Health Security Strengthening in India for Pandemic Preparedness and Response"in New Delhi.

Key Highlights:

Launch of Pandemic Fund Project

• Objective: Strengthening animal health security in India to enhance pandemic preparedness and response.
• Funding: $25 million initiative funded by the G20 Pandemic Fund.
• Location: New Delhi, Ministry of Fisheries, Animal Husbandry, and Dairying.

Context and Importance

• Livestock Sector: Crucial for socio-economic upliftment, contributing to employment and rural development.
• Growth in Livestock Sector: Significant progress in the last 9 years through schemes like the National Animal Disease Control Program (NADCP).
• Key Diseases Targeted:
  • Foot and Mouth Disease (FMD): Aimed at eradication, with over 90.87 crore vaccines administered.
  • Brucellosis: Over 4.23 crore vaccines administered.

Objectives of the Pandemic Fund Project

• Enhanced Disease Surveillance: Includes genomic and environmental monitoring for early warning systems.
• Laboratory Infrastructure Development: Upgradation for better diagnosis and disease management.
• Cross-Border Collaboration: Strengthening partnerships for global monitoring of zoonotic diseases.
• Integrated Monitoring System: Creation of a robust system for managing zoonotic diseases, with a focus on early detection and containment.

Documents Released for Strengthening Animal Health

• Standard Veterinary Treatment Guidelines (SVTG):
  • Best practices for veterinary care to improve livestock health and productivity.
  • Supports national action plans, especially for combating antimicrobial resistance.
• Crisis Management Plan (CMP) for Animal Diseases:
  • Framework for effective response and containment during animal disease outbreaks.
  • Ensures timely mitigation of animal disease crises.

One Health Approach

• Integration of Human, Animal, and Environmental Health: Key to preventing and managing future health crises.
• Zoonotic Risks: The project emphasizes reducing zoonotic disease transmission from animals to humans, crucial given the origins of many recent public health emergencies.

Implementation and Collaboration

• The project will be executed in collaboration with global institutions:
  • Asian Development Bank (ADB)
  • Food and Agriculture Organization (FAO)
  • World Bank

A critically endangered Great Indian Bustard (GIB) chick was successfully born through artificial insemination (AI) at a breeding center in Jaisalmer, Rajasthan, marking a crucial step in efforts to save the species.

Endangered Status:

• The Great Indian Bustard is classified as critically endangered with fewer than 150 individuals left in the wild in India.
• About 90% of these birds are found in the desert areas of Rajasthan, with smaller populations in Gujarat, Maharashtra, Andhra Pradesh, and Karnataka.

Main Threats to the Species:

• Habitat Loss: The primary threat is the loss of habitat, which is often perceived as wasteland and is diverted for infrastructure projects like roads and development.
• Slow Reproductive Rate: The bustard’s low reproductive rate exacerbates its risk of extinction.

Conservation Efforts: Bustard Recovery Program

• In 2016, the Union Ministry of Environment, Forests and Climate Change launched the Bustard Recovery Program to focus on captive breeding and creating a sustainable environment for the reintroduction of GIBs into the wild.
• A dedicated GIB breeding center was set up at the Desert National Park in Jaisalmer, Rajasthan, as part of this initiative.

• Protection Status of GIB: 
  • IUCN: Critically Endangered
  • CITES: Appendix 1
  • Convention on Migratory Species (CMS): Appendix I
  • Wildlife (Protection) Act, 1972: Schedule I
  • It is also the state bird of Rajasthan, emphasizing its importance in the region’s biodiversity.

In News:

• A team of arachnologists has discovered a new genus of jumping spiders, Tenkana, found across southern India and northern Sri Lanka.
• The discovery includes two previously known species, Tenkanamanu and Tenkanaarkavathi, and introduces a new species, Tenkanajayamangali, from Karnataka.

Name and Origin:

• The name Tenkana comes from the Kannada word for "south," reflecting the geographical region where all known species of this genus are found—southern India and northern Sri Lanka.
• The genus belongs to the Plexippina subtribe of jumping spiders, which is distinct from related genera like Hyllus and Telamonia.

Key Findings:

• Tenkanajayamangali was first discovered in Devarayanadurga reserve forest, Tumakuru district, Karnataka, at the origin of the Jayamangali river.
• The new species was identified through genetic analysis and physical examination, showing it did not match any known species.

Physical Characteristics:

• The male and female Tenkanajayamangali exhibit distinct physical differences.
• The male has pale hairs covering most of its carapace, while the female is grey with a pattern.
• The ocular area of T. jayamangali is uniformly covered with white hairs, in contrast to T. arkavathi and T. manu, which have distinctive markings.

Habitat and Distribution:

• Tenkana spiders are typically ground-dwelling and prefer dry, open habitats like short grasses, leaf litter, and rocky outcrops.
• These spiders have been observed in Tamil Nadu, Puducherry, Karnataka, Telangana, Andhra Pradesh, and some areas in Sri Lanka.
• The male and female spiders of T. jayamangali were discovered in different regions, 2 km apart, at the hilltop and foothills of the same forest.

Ecological and Behavioral Insights:

• The Tenkana genus is considered endemic to India, with species observed in diverse regions such as Bengaluru, Yercaud (Tamil Nadu), and Bannerghatta (Karnataka).
• These spiders are found in complex microhabitats, like shaded short grasses with dry leaf litter or rocky outcrops in relatively dry habitats.
• The movement of Tenkana spiders resembles that of Stenaelurillus, another ground-dwelling spider species.

In News:

The Nature Restoration Law (NRL), which was enacted by the European Union (EU), is an inspiring model from which India can draw points to tackle its growing environmental crises.

Background of the NRL in the EU

• The Nature Restoration Law (NRL) was enacted by the European Union (EU) to restore ecosystems and combat biodiversity loss.
• Adopted on June 17, 2024, by the EU’s Environmental Council.
• Key objectives:
  • Restore 20% of EU’s land and sea areas by 2030.
  • Achieve full restoration of all ecosystems by 2050.
  • Part of the EU’s Biodiversity Strategy for 2030 and European Green Deal.
• Target Areas:
  • Forests, agricultural lands, rivers, urban spaces.
  • Restoration measures include:
    • 25,000 km of free-flowing rivers.
    • Planting 3 billion trees by 2030.
• Global Impact: NRL is a critical tool in reversing Europe’s biodiversity loss, where 80% of habitats are in poor condition.

Environmental Crisis in India

• Land Degradation:
  • 29.7% of India’s total geographical area is affected by land degradation (as per ISRO’s Desertification and Land Degradation Atlas, 2018-19).
  • 97.85 million hectares of land degraded, with a significant increase since 2003-05.
  • Major desertification hotspots in Gujarat, Karnataka, Maharashtra, and Rajasthan.
  • Desertification: A growing concern, affecting 83.69 million hectares in 2018-19.
• Ongoing Efforts:
  • Green India Mission, Pradhan Mantri Krishi Sinchayee Yojana, and National Afforestation Programme have had positive effects.
  • Integrated Watershed Management Programme is the second-largest watershed programme globally.

Need for a Comprehensive Nature Restoration Law in India

• The scale of India’s environmental challenges requires a comprehensive nature restoration law similar to the EU’s NRL.
• The law should have legally binding targets to restore degraded landscapes and ensure ecosystem sustainability.

Key Features of an Indian Nature Restoration Law

• Restoration Targets:
  • 20% of degraded land to be restored by 2030.
  • Full restoration of ecosystems (forests, wetlands, rivers, agricultural lands, urban spaces) by 2050.
• Wetland Restoration:
  • Target restoring 30% of degraded wetlands by 2030.
  • Priority wetlands like Sundarbans and Chilika Lake play critical roles in biodiversity and carbon sequestration.
• Biodiversity in Agriculture:
  • Promote agroforestry and sustainable agriculture practices.
  • Use biodiversity indicators (e.g., butterfly or bird index) to monitor progress.
• River Restoration:
  • Focus on free-flowing rivers such as the Ganga and Yamuna.
  • Address pollution, obstructions, and ecosystem damage in major rivers.
• Urban Green Spaces:
  • Ensure no net loss of urban green spaces.
  • Promote urban forests in cities like Bengaluru and Delhi, where urban heat islands and air quality degradation are prominent.

Economic and Social Benefits of Ecosystem Restoration

• Global Economic Impact:
  • Nature restoration could generate $10 trillion annually by 2030 (World Economic Forum estimate).
• Benefits for India:
  • Agricultural Productivity: Restoring degraded land will enhance farm productivity.
  • Water Security: Improved land restoration will contribute to better water availability.
  • Job Creation: Millions of rural jobs could be created through ecosystem restoration efforts.
• Contributing to SDGs:
  • The law would help India meet SDG 15 (sustainable management of forests, combating desertification).
• Climate Change Mitigation:
  • Restoring ecosystems can help India enhance its carbon sinks, which is crucial for meeting Paris Agreement targets.
  • Degraded lands lose their capacity to absorb carbon dioxide, contributing to global warming.

In News:

• The 2024 edition of the IAEA’s Climate Change and Nuclear Power report has been released, highlighting the need for a significant increase in investment to achieve goals for expanding nuclear power.
• The new report was launched last week on the margins of the Clean Energy Ministerial (CEM) in Brazil.

Key Highlights:

• Nuclear Power's Role in Climate Change Mitigation:
  • Nuclear energy is gaining global interest as nations seek to enhance energy security and decarbonize economies.
  • To meet net-zero emissions by 2050, nuclear power is projected to play a pivotal role, with a projected capacity increase of 2.5 times the current level by mid-century in the IAEA's high case scenario.
• Investment Needs for Nuclear Expansion:
  • Annual investment required to meet the IAEA's high case scenario (2050 nuclear capacity) is USD 125 billion, a significant increase from USD 50 billion annually from 2017-2023.
  • If the aspirational goal to triple nuclear capacity (as pledged by over 20 countries at COP28) is to be met, USD 150 billion annually would be necessary.
  • Challenges in Financing: Upfront capital for nuclear power plants is expensive, posing challenges, especially in market-driven economies and developing countries.
• Private Sector and Multilateral Support:
  • The private sector will need to play a larger role in financing nuclear projects.
  • The IAEA is engaging with multilateral development banks to improve financing options for developing countries to invest in nuclear energy.
  • Private finance initiatives: In September 2024, 14 major financial institutions signaled readiness to help fund nuclear newbuild projects.
• Nuclear Financing at Clean Energy Ministerial (CEM):
  • The IAEA report was launched during the 15th CEM in Brazil, a high-level forum for advancing clean energy technologies.
  • Key stakeholders from Brazil, the IAEA, the International Energy Agency (IEA), and the U.S. discussed strategies for securing nuclear power financing, especially in the context of COP29 (2024) where clean energy financing will be a key focus.
• Nuclear Energy in the EU’s Sustainable Financing:
  • The EU taxonomy for sustainable activities now includes nuclear power, facilitating the issuance of green bonds for nuclear projects in Finland and France (2023).
  • EDF received €4 billion in green bonds and around €7 billion in green loans (2022-2024).
• Investment in Nuclear Power:
  • To meet global climate goals, nuclear power capacity must increase by 1.8 times by 2035.
  • Effective financing mechanisms are crucial to scale up nuclear power and develop the workforce and supply chains needed for the energy transition.
• Policy Reform and International Partnerships:
  • The report advocates for policy reforms and international partnerships to bridge the financing gap and accelerate nuclear power deployment, particularly in emerging markets and developing economies.
  • Focus on technologies such as small modular reactors (SMRs), which could play a role in the energy transition.
• Key Areas to Support Nuclear Growth:
  • Robust regulatory frameworks and new delivery models are essential to unlock investments.
  • Development of skilled labor and effective stakeholder engagement is crucial for the expansion of nuclear energy.
• Energy System Modelling and Planning:
  • The IAEA’s energy system modelling tools assist countries like Brazil in planning nuclear power projects, including cost analyses for electricity generation and financing strategies.

Role of the International Atomic Energy Agency (IAEA):

• Mandate: The IAEA is the leading international body for promoting the safe, secure, and peaceful use of nuclear energy and technologies.
• Functions:
  • Nuclear safeguards: Ensuring nuclear activities remain peaceful and preventing the diversion of nuclear materials for weapons purposes.
  • Assisting member states with technical support, knowledge sharing, and strengthening nuclear safety and security.
  • The IAEA also supports capacity-building and emergency response in case of nuclear or radiological incidents.
• Structure:
  • The IAEA General Conference is made up of all 178 member states, meeting annually to approve budgets and policies.
  • The Board of Governors (35 members) meets several times a year to oversee the agency's activities and appointments.
• Headquarters: Vienna, Austria
  • The IAEA is part of the United Nations family, reporting to both the UN General Assembly and the Security Council.

Why in the News?

Union Environment, Forest and Climate Change Minister Bhupender Yadav on Thursday launched a Resource Efficiency Circular Economy Industry Coalition (RECEIC), conceptualised under India’s G20 Presidency, to promote the practices of resource efficiency and circular economy globally.

About Resource Efficiency and Circular Economy Industry Coalition (RECEIC):

• RECEIC was launched in 2023 at Chennai, Tamil Nadu, with the honorable presence of Shri Bhupender Yadav, Minister for Environment, Forest, and Climate Change.
• The launch event witnessed the participation of distinguished guests, including the Commissioner on Environment from the European Union and esteemed Ministers from Canada, France, Italy, Denmark, Mauritius, and the United Arab Emirates.
• Industry-Driven Initiative:
• RECEIC is an industry-led initiative with a primary goal of fostering global resource efficiency and circular economy practices.
• Embracing the circular economy model, RECEIC promotes production and consumption practices involving sharing, leasing, reusing, repairing, refurbishing, and recycling materials and products to maximize their utility.
• Sustainable Impact:
• The coalition is envisioned to be a self-sustaining entity, committed to lasting environmental sustainability, beyond India's G20 Presidency.
• Founding Members:
• With 39 companies headquartered in 11 different countries, the coalition boasts a diverse group of founding members.
• As a collaborative platform, RECEIC fosters knowledge-sharing, best practice exchange, and the adoption of sustainable approaches among participating industries.

What is the News ?

As per the chief executive of the Global Environment Facility (GEF) in a plenary session, it will likely to work more closely with civil society organisations in the future.

Facts About:

About: Environmental leaders from 185 countries will gather in Vancouver, Canada for the Seventh Assembly of the Global Environment Facility from August 22-26, 2023.

Global Environment Facility (GEF): The GEF Assembly, which meets every 4 years, is the global body that coordinates financing for international efforts to address climate change, biodiversity loss, pollution, and factors inhibiting land and ocean health.

Points of discussion:

• Building on recent diplomatic breakthroughs on biodiversity loss, toxic chemicals, and the high seas, the GEF Assembly will be a critical stocktaking for 2030 goals to end pollution and nature loss, combat climate change, and propel inclusive, locally-led conservation.
• GEF would work directly with non-governmental organisations that work at the convention level.
• It is set to include the launch of the Global Biodiversity Framework Fund, a new source of funding for protecting species and ecosystems globally.
• The fund will open new avenues for private sector and philanthropic support to enable rapid implementation of the historic Global Biodiversity Framework agreed at COP15 in Montreal, December 2022, and of the high seas treaty adopted in New York City, in June 2023.

Need of such an initiative:

• Biodiversity funding needs differ between recipient countries, for example between countries with key areas for biodiversity (often large emerging countries such as Brazil and Indonesia) and the least developed countries (LDCs) or Small Island Developing States (SIDS), for which it is more difficult to access funds.

Global Biodiversity Framework:

• It contains goals to be achieved by 2050 focus on ecosystem and specieshealth including;
  • To halt human-induced species extinction,
  • The sustainable use of biodiversity,
  • Equitable sharing of benefits, and
  • On implementation and finance to include closing the biodiversity finance gap of $700 billion per year.

Source: https://update-mac.com/?tid=103&tag_id=1528a5df-4f9e-4046-9232-3361bc5f2c12&cnv_id=e891de8lpg6sc0b4c&placement=20427977&sub1=726006&clickcost=0