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Subject: Conservation & Mitigation

1. Conservation Progs.
2. Worldwide initiatives
3. Mitigation Strategies
4. Conventions and Protocols

  • India’s disputed Compensatory Afforestation (CAMPA) Policy at odds with new IPCC report

     

    Central idea

    • The Intergovernmental Panel on Climate Change (IPCC) released its Synthesis Report, where the IPCC notes the significance of preserving natural ecosystems to mitigate climate change.
    • The report has raised concerns about the ongoing policy of afforestation in India that allows forests to be cut down and replaced elsewhere.

    Afforestation in India

    • Afforestation has become an increasingly contested policy in India.
    • The government has pledged to add “an additional (cumulative) carbon sink of 2.5-3 GtCO2e through additional forest and tree cover by 2030”.

    Why is CAMPA invoked in the IPCC report?

    • India’s Compensatory Afforestation Fund Management and Planning Authority (CAMPA) has been accused of facilitating the destruction of natural ecosystems in exchange for forests to be set up elsewhere.

    What is CAMPA?

    • CAMPA is a body established by the Indian government in 2002 on the orders of the Supreme Court.
    • The purpose of CAMPA is to promote afforestation and regeneration activities as a way of compensating for forest land that has been diverted to non-forest uses, such as for dams, mines, and other development projects.
    • The Forest (Conservation) Act of 1980 requires project proponents to identify land elsewhere for afforestation and pay for the afforestation exercise.
    • The money paid by project proponents is deposited in a fund overseen by CAMPA.

    Controversies surrounding CAMPA

    • Unutilised fund: The money paid to CAMPA sits in a fund, but most of the fund remained unspent until 2013, leading to criticism of facilitating the destruction of natural ecosystems. In 2006-2012, the fund grew from Rs 1,200 crore to Rs 23,600 crore.
    • Threatening endangered landscape: CAMPA also came under fire for funding projects that endangered landscape connectivity and biodiversity corridors.
    • Unsustainability of artificial plantation: CAMPA has been accused for planting non-native species or artificial plantations that don’t compensate for the ecosystem loss.

    Why is forestation under CAMPA unsustainable?

    • Natural ecosystems sequester more carbon: This report highlights the importance of preserving natural ecosystems and reducing the conversion of natural ecosystems to mitigate climate change.
    • Renewable energy installation is more sustainable: The IPCC report also found that solar power has more mitigating potential than reducing the conversion of natural ecosystems, and wind power was the third highest.

    Conclusion

    • Preserving natural ecosystems should be recognized as an essential means to mitigate climate change, and environment impact assessments should include climate costs.
    • Policies such as afforestation, ecosystem restoration, and renewable energy must be carefully evaluated to reduce the impact of the climate crisis.

     

  • Why do so many Waste-to-Energy Plants fail?

    waste

    The Kerala government has announced its first waste-to-energy project in Kozhikode, which is expected to be built in two years and generate about 6 MW of power.

    What are Waste-to-Energy Plants?

    • Waste-to-energy plants are facilities that use non-recyclable dry waste to generate electricity.
    • The process involves combusting the non-recyclable dry waste, which generates heat that is then converted into electricity.
    • These plants are used to increase a state’s power generation capacity while also easing the burden of solid waste management.

    Feasibility of such plants

    • Waste-to-energy plants consume a portion of the non-recyclable dry waste generated in urban local bodies (ULBs) nearby.
    • These plants can be a good way to deal with the mountains of waste that Indian cities produce but require the unwavering support of the municipality, its residents, and the State to succeed.

    Operational status in India

    • In India, solid waste is generally composed of 55-60% biodegradable organic waste, 25-30% non-biodegradable dry waste, and around 15% silt, stones, and drain waste.
    • However, despite there being around 100 waste-to-energy projects around the country, only a handful of them are operational, thanks to various production and operation challenges.

    Why do such projects often fail?

    • Waste-to-energy projects often fail because of improper assessments, high expectations, improper characterisation studies, and other on-ground conditions.
    • They faces several challenges, such as-
    1. Low calorific value of solid waste in India due to improper segregation
    2. High costs of energy production, and
    3. Variable quantity of waste generated by cities due to multiple factors.

    Various challenges

    • Improper segregation: The calorific value of mixed Indian waste is about 1,500 kcal/kg, which is not suitable for power generation. Waste-to-energy plants require segregated and dried non-recyclable dry waste, which has a calorific value of 2,800-3,000 kcal/kg. However, segregation of waste is often not done properly, which can lead to low-quality feedstock and reduced power generation.
    • High costs: The cost of generating power from waste is around Rs 7-8/unit, while the cost at which the States’ electricity boards buy power from coal, hydroelectric, and solar power plants is around Rs 3-4/unit. This high cost of energy production can make waste-to-energy projects less attractive compared to other sources of energy.
    • Low efficiency: Such projects have low efficiency due to the low calorific value of mixed waste, which reduces the amount of energy that can be generated. This can make it difficult to generate sufficient power to make the project financially viable.
    • Operational challenges: Such projects are often subject to operational challenges, such as improper assessments, high expectations, improper characterisation studies, and other on-ground conditions. The quantity of waste generated by cities varies due to multiple factors, including season, rainfall, and the floating population, which can make it difficult to get a consistent supply of feedstock.
    • Environmental concerns: Such plants can generate emissions, such as nitrogen oxides, sulfur dioxide, and particulate matter, which can be harmful to the environment and human health. Therefore, it is important to ensure that these plants operate with proper environmental controls in place.

    Way forward

    • Proper segregation: To overcome these challenges, the municipality must ensure that only non-biodegradable dry waste is sent to the plant and separately manage the other kinds of waste.
    • Public awareness: The full support of the municipality, the State, and the people is crucial for the success of the project.
    • Extensive field studies: It is also necessary to conduct field studies and learn from the experience of other projects.
    • All-stakeholders collaboration: There should be a tripartite agreement between the municipality, the plant operator, and the power distribution agency to optimise cost per unit of power.

     

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  • Why are India’s garbage landfill burning?

    landfill

    The Kochi landfill site has caught fire. This is a stark reminder that Indian cities need to be prepared for more such incidents as summer approaches.

    What are Landfills?

    • Garbage landfills, also known as waste disposal sites or dumps, are areas where waste materials are disposed of by burying them in the ground.
    • They are designed to contain and isolate the waste from the surrounding environment, preventing the spread of pollutants and contamination of soil and water sources.
    • Garbage landfills are commonly used for the disposal of non-hazardous municipal solid waste, such as household trash, construction debris, and yard waste.
    • However, they can also be used for the disposal of hazardous waste and other types of industrial waste, depending on the regulations and restrictions in place.

    Is landfilling best way for waste management?

    • Landfilling is not considered the best way for garbage disposal, as it can have negative environmental impacts.
    1. Landfills take up space
    2. Release harmful gases such as methane and carbon dioxide, and
    3. Contaminate groundwater and soil if not properly managed
    • Landfills can emit odours and create noise pollution, which can impact nearby communities.

    Alternative methods for garbage disposal

    • Recycling: This involves the separation of waste materials such as plastics, glass, metals, and paper from the general waste stream, and processing them into new products.
    • Composting: This is the process of breaking down organic waste materials such as food scraps, yard waste, and paper into a nutrient-rich soil amendment.
    • Waste-to-energy: This involves the conversion of waste into energy through incineration, gasification, or pyrolysis. The energy produced can be used to generate electricity or heat.
    • Landfill gas recovery: This involves the collection and use of methane gas produced by decomposing waste in landfills to generate electricity or heat.
    • Mechanical biological treatment: This is a process that combines mechanical and biological processes to separate and treat waste materials, producing compost and recyclable materials.
    • Anaerobic digestion: This is a biological process that breaks down organic waste in the absence of oxygen, producing biogas and fertilizer.

    Landfills in India

    landfill

    • Indian municipalities collect more than 95% of the waste generated in cities.
    • The efficiency of waste processing is 30-40% at best.
    • Indian municipal solid waste consists of about 60% biodegradable material, 25% non-biodegradable material, and 15% inert materials.
    • Municipalities are expected to process wet and dry waste separately and have recovered by-products recycled.

    Why do Indian landfills often catch fire in summers?

    • The rate of processing in India’s cities is far lower than the rate of waste generation.
    • Unprocessed waste remains in open landfills for long periods.
    • Openly disposed waste includes flammable material like low-quality plastics and rags and clothes.
    • In summer, the biodegradable fraction composts much faster, increasing the temperature of the heap.
    • Higher temperature and flammable material increase the chance for the landfill to catch fire.
    • Some fires have been known to go on for months.

    Is there a permanent solution?

    There are two possible permanent solutions to manage landfill fires.

    1. Completely cap the material using soil and close landfills in a scientific manner: This solution is unsuitable in the Indian context as the land can’t be used again for other purposes. Closed landfills have specific standard operating procedures, including managing methane emissions.
    2. Clear the piles of waste through bioremediation: Excavate old waste and use automated sieving machines to segregate the flammable refuse-derived fuel (RDF), such as plastics, rags, clothes, etc., from biodegradable material. The recovered RDF can be sent to cement kilns as fuel, while the bio-soil can be distributed to farmers to enrich soil. The inert fraction will have to be landfilled.

    Some immediate measures to manage landfill fires

    • Divide the site into blocks: Based on the nature of waste, separate fresh waste from flammable material and capping portions with soil to reduce the chance of fire spreading across blocks.
    • Cap the most vulnerable part of the landfill: That contains lots of plastics and cloth, with soil.
    • Provide enough moisture to the fresh-waste block: By sprinkling water and regularly turn the material for aeration to cool the waste heap.
    • Classify incoming waste: On arrival and dispose of it in designated blocks rather than dumping mixed fractions.
    • Send to kilns on time: Send already segregated and baled non-recyclable and non-biodegradable waste to cement kilns instead of allowing it to accumulate at the site.

    Way forward

    • Sites should be equipped with water tankers with sprinklers for immediate action.
    • The municipality should work with the nearest fire department and have a plan of action in advance.
    • Waste-processing workers (plant operators, segregators, etc.) should have basic fire safety and response training.
    • People around landfill sites should also be trained and equipped to safeguard themselves during fires.
    • The municipality should have routine round-the-clock video surveillance of the most flammable portion of the landfill.
    • Flammable material like chemical waste, match sticks, and lighters should not enter the site.
    • Machines at the site, like sieves and balers, should be cleaned and moved away from the flammable material.
    • On-site staff and security personnel should be housed away from the flammable portion.

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  • India pitches for International Big Cat Alliance (IBCA)

    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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  • Yellowstone NP celebrates its 151st anniversary

    yellow

    Yellowstone National Park, which celebrated its 151st anniversary earlier this week, is widely considered to be the first national park in the world.

    Yellowstone National Park

    • It is a large protected area located primarily in the U.S. state of Wyoming, although it also extends into Montana and Idaho.
    • It was established in 1872 and is widely considered to be the first national park in the world.
    • It spans an area of over 9,000 sq. km comprising lakes, canyons, rivers, iconic geothermal features such as the Old Faithful geyser, and mountain ranges.

    Some key features and attractions of Yellowstone National Park include:

    1. Geothermal features: Yellowstone is famous for its geothermal features, including geysers, hot springs, mud pots, and steam vents. The most famous of these is Old Faithful, a geyser that erupts on a regular schedule.
    2. Wildlife: Yellowstone is home to a diverse array of wildlife, including grizzly bears, wolves, bison, elk, and moose. Visitors can see these animals in their natural habitats throughout the park.
    3. Scenic drives: The park has several scenic drives, including the Grand Loop Road, which takes visitors to many of the park’s major attractions.
    4. Fishing: The park has many rivers and lakes that offer excellent fishing opportunities, including the Yellowstone River.

     

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  • World Wildlife Day- 2023: 50 years of the CITES

    March 3 marks the 50th anniversary of the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) in 1973.

    Why is World Wildlife Day marked?

    • March 3 marks the anniversary of CITES’ establishment.
    • CITES is considered a landmark agreement on conservation that focuses on ensuring the sustainability of endangered species.
    • In 2013, the United Nations General Assembly (UNGA) proclaimed March 3 as the UN World Wildlife Day to celebrate and raise awareness of protecting the world’s wild animals and plants.
    • This was as the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) was signed in 1973 on this day.

    What is the CITES?

    • CITES stands for the Convention on International Trade in Endangered Species of Wild Fauna and Flora.
    • It is as an international agreement aimed at ensuring “that international trade in specimens of wild animals and plants does not threaten their survival”.
    • It was drafted after a resolution was adopted at a meeting of the members of the International Union for Conservation of Nature (IUCN) in 1963.
    • It entered into force on July 1, 1975, and now has 183 parties.
    • The Convention is legally binding on the Parties in the sense that they are committed to implementing it; however, it does not take the place of national laws.
    • India is a signatory to and has also ratified CITES convention in 1976.

    CITES Appendices

    • CITES works by subjecting international trade in specimens of selected species to certain controls.
    • All import, export, re-exports and introduction from the sea of species covered by the convention has to be authorized through a licensing system.
    • It has three appendices:
    1. Appendix I includes species threatened with extinction. Trade-in specimens of these species are permitted only in exceptional circumstances.
    2. Appendix II provides a lower level of protection.
    3. Appendix III contains species that are protected in at least one country, which has asked other CITES Parties for assistance in controlling trade.

    A critical assessment

    • Having wildlife allowed to be traded further legitimises their movement and increases the possibility of their illegal trade.
    • Nearly two-thirds of cases, CITES protections lag after a species is determined to be threatened by international trade a/c to NatGeo.
    • For example, while pangolins were finally added to Appendix I in 2017, an estimated million were trafficked between 2000 and 2013.
    • Its laxity has been questioned, on matters such as the ivory trade being allowed at times despite the convention banning it in 1989.

    Conclusion

    • CITES needs to evolve to address new challenges and work more closely with other international agreements and initiatives.
    • There is a need of continued efforts to protect wildlife and biodiversity and the need for international cooperation and collaboration to achieve this goal.

     

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  • Case for open and verifiable Forest Cover Data

    forest

    Central idea: From 19.53% in the early 1980s, today India’s total green cover stands at 24.62% ‘on-paper’.

    Defining Forest and Tree Cover

    • The Forest Survey of India (FSI) publishes its biennial State of Forest reports in 1987.
    • A/c to FSI, India counts all plots of 1 hectare or above, with at least 10% tree canopy density, irrespective of land use or ownership, within forest cover.
    • This disregards the United Nation’s benchmark that does not include areas predominantly under agricultural and urban land use in forests.

    How are forests categorized?

    The Forest Survey of India has listed four categories of forests. They are:

    1. Very Dense Forest (with tree canopy density of 70 per cent or above) (added since 2003)
    2. Moderately Dense Forest (tree canopy density of 40 per cent or above but less than 70 per cent)
    3. Open Forest (tree canopy density of 10 per cent or above but less than 40 per cent)
    4. Scrub (tree canopy density less than 10 per cent)

    New category:  NOT a forest (isolated or small patches of trees — less than 1 hectare)

    Satellite imagery used for precision

    • Until the mid-1980s (SFR 1987), the forest cover was estimated through satellite images at a 1:1 million scale.
    • The resolution then improved to 1:250,000, reducing the minimum mappable unit size from 400 to 25 hectares.
    • Since 19.53% in the early 1980s, India’s forest cover has increased to 21.71% in 2021.
    • By 2001, the scale improved to 1:50,000, bringing down the unit size to 1 hectare, and interpretation went fully digital.

    Accounting losses in forest cover

    • Satellite imagery shows decline: The National Remote Sensing Agency (NRSA) estimated declines in India’s forest cover using satellite imagery.
    • Official account on deforestation: While reliable data on encroachment is unavailable, government records show that 42,380 sq. km — nearly the size of Haryana— of forest land was diverted for non-forest use between 1951 and 1980.
    • Reconciled data: The NRSA and the newly established FSI “reconciled” India’s forest cover at 19.53% in 1987. The FSI did not contest the NRSA finding that the dense forest cover had fallen from 14.12% in the mid-1970s to 10.96% in 1981, and reconciled it to 10.88% in 1987.

    What about Total Recorded Forests?

    Ans. Lost some areas due to encroachment, diversion, forest fire etc.

    • In India, land recorded as forest in revenue records or proclaimed as forest under a forest law is described as Recorded Forest Area.
    • These areas were recorded as forests at some point due to the presence of forests on the land.
    • Divided into Reserved, Protected and Unclassed forests, Recorded Forest Areas account for 23.58% of India.

    One-third forest lost!

    • Almost one-third of India’s old natural forests — over 2.44 lakh sq. km (larger than Uttar Pradesh) or 7.43% of India are lost.
    • Even after extensive plantation by the forest department since the 1990s, dense forests within Recorded Forest Areas added up to cover only 9.96% of India in 2021.
    • That is a one-tenth slide since the FSI recorded 10.88% dense forest in 1987.

    Then why is there a net increase in India’s forest cover?

    • Plantations disguise as forest: The loss remains invisible due to the inclusion of commercial plantations, orchards, village homesteads, urban housings etc. as dense forests outside Recorded Forest Areas. Natural forests do not grow so fast.
    • Plantation data unavailable: The FSI provides no specific information on the share of plantations in the remaining dense forests inside Recorded Forest Areas.

    Why are plantations not an alternative to forests?

    Plantations can grow a lot more and faster than old natural forests. This also means that plantations can achieve additional carbon targets faster. However they are cannot be accounted as forests because-

    • Lack of biodiversity: Natural forests have evolved naturally to be diverse and, therefore, support a lot more biodiversity. Simply put, it has many different plants to sustain numerous species.
    • Non-sustainable: Plantation forests have trees of the same age, are more susceptible to fire, pests and epidemics, and often act as a barrier to natural forest regeneration.
    • Low carbon capacity: Natural forests are old and therefore stock a lot more carbon in their body and in the soil.

    How accurate are these estimations?

    • The FSI compares some interpreted data with the corresponding reference data collected from the ground under the National Forest Inventory (NFI) programme.
    • In 2021, it claimed to have established an overall accuracy of 95.79% in identifying forests from non-forests.
    • However, given the limited resources, the exercise was limited to less than 6,000 sample points.

    What led to such decline in forest cover?

    • Agricultural expansion
    • Infrastructure development
    • Mining and industrial activities
    • Illegal logging (for timber)
    • Climate change and natural disasters

    Way forward

    • Aggressive conservation policies and programs: The government needs to strengthen forest conservation policies and programs to promote the sustainable use and management of forests and trees.
    • Community participation and empowerment: Engaging local communities in forest conservation and management can promote sustainable practices and enhance their livelihoods.
    • Sustainable forest management practices: Promoting sustainable forest management practices like agroforestry, silvopasture, and mixed-use landscapes can enhance the productivity and resilience of forests.
    • Use of technology for monitoring and enforcement: Leveraging technology like remote sensing, geographic information systems (GIS), and blockchain can improve the monitoring and enforcement of forest conservation policies and programs.
    • Involving individuals and communities: They play a crucial role in protecting forests and trees by adopting sustainable practices, supporting forest conservation initiatives, and raising awareness about the importance of forests for the environment and people.

     

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  • Underwater noise emissions pose threat to Indian Marine species: Study

    noise

    Central idea: The rising man-made (anthropogenic) underwater noise emissions (UNE) from ships in the Indian waters are posing a threat to the life of marine mammals like Bottlenose Dolphin, Manatees, Pilot Whale, Seal, and Sperm Whale.

    What is Underwater Noise Emissions (UNE)?

    • Underwater noise emissions (UNE) refer to sounds that are produced underwater as a result of various human activities such as shipping, oil and gas exploration, military sonar, and construction.
    • UNE can have a significant impact on marine life, as many marine animals rely on sound for communication, navigation, and foraging.
    • Excessive underwater noise can interfere with these activities, and can even cause physical harm to marine animals in some cases.
    • As a result, there is growing concerned about the potential impact of UNE on marine ecosystems, and efforts are being made to better understand and mitigate these impacts.

    UNE and marine life

    • Impacts behavioural aspects: The main form of energy for multiple behavioural activities of marine mammals, which include mating, communal interaction, feeding, cluster cohesion and foraging, is based on sound.
    • Threats posed by UNE: The sound that radiates from ships on a long-term basis affects them and results in internal injuries, loss of hearing ability, change in behavioural responses, masking, and stress.

    Key findings about Indian waters

    • Continuous shipping movement is identified to be a major contributor to the increase in the global ocean noise level.
    • The UNE or underwater sound pressure levels in the Indian waters are 102-115 decibels, relative to one microPascal (dB re 1µ Pa).
    • The East Coast level is slightly higher than that of the West, where there is an increase by a significant value of about 20 dB re 1µPa.
    • “The frequencies of ships’ underwater self-noise and machinery vibration levels are overlapping the marine species’ communication frequencies in the low-frequency range of less than 500 Hz.
    • This is called masking, which could have led to a change in the migration route of the marine species to the shallow regions and also making it difficult for them to go back to the deeper water.

     

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  • Species in news: Pangolins

    pangolin

    The World Pangolin Day was observed on February 18.

    Why in news?

    • A not-for-profit organization working on the international trade of animals and plants, has brought out a fact sheet reporting that 1,203 pangolins have been found in illegal wildlife trade in India from 2018 to 2022.

    Pangolins

    IUCN status: Endangered

    • India is home to two species of pangolin.
    • While the Chinese Pangolin (Manis pentadactyla) is found in northeastern India, the Indian Pangolin is distributed in other parts of the country as well as Sri Lanka, Bangladesh and Pakistan.
    • Both these species are protected and are listed under the Schedule I Part I of the Wild Life (Protection) Act, 1972 and under Appendix I of the Convention on International Trade in Endangered Species (CITES).
    • Commonly known as ‘scaly anteaters’, the toothless animals are unique, a result of millions of years of evolution.
    • Pangolins evolved scales as a means of protection. When threatened by big carnivores like lions or tigers they usually curl into a ball.
    • The scales defend them against dental attacks from the predators.

    Why protect Pangolins?

    • Pangolins are currently the most trafficked wildlife species in the world.
    • These Scales has now become the main cause of the pangolin’s disappearance.
    • The scales are in high demand in China, where they are used in traditional Chinese medicine.
    • Pangolin meat is also in high demand in China and Southeast Asia.
    • Consequently, pangolins have seen a rapid reduction in population globally. The projected population declines range from 50 per cent to 80 per cent across the genus.

     

    Try this PYQ:

    Consider the following animals:

    1. Hedgehog
    2. Marmot
    3. Pangolin

    To reduce the chance of being captured by predators which of the above organisms rolls up/roll up and protects/protect its/their vulnerable parts?

    (a) 1 and 2

    (b) 2 only

    (c) 3 only

    (d) 1 and 3

     

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  • CITES database reveals Red Sanders smuggling

    red sanders

    The CITES trade database has recorded 28 incidents of Red Sanders confiscation, seizure, and specimen from the wild being exported from India.

    Red Sanders

    • The species, Pterocarpus santalinus, is an Indian endemic tree species, with a restricted geographical range in the Eastern Ghats.
    • It is a very slow-growing tree species that attains maturity in natural forests after 25-40 years.
    • It is endemic to a distinct tract of forests in Andhra Pradesh.
    • It is mainly found in Chittoor, Kadapa, Nandhyal, Nellore, Prakasam districts of Andhra Pradesh.
    • It was classified as ‘near threatened’ in 2018 and has now joined the ‘endangered’ list once again in 2021.
    • It is listed under Appendix II of CITES and is banned from international trade.

    Legal protection in India

    • The Union Environment Ministry had decided to keep Red Sanders (red sandalwood) OUT of the Schedule VI of Wild Life Protection Act, 1972, arguing that this would discourage the cultivation of the rare plant species.
    • Schedule VI regulates and restricts the cultivation, possession, and sale of a rare plant species.

    Threats to this specie

    • Red Sanders are known for their rich hue and therapeutic properties, are high in demand across Asia, particularly in China and Japan.
    • They are used in cosmetics and medicinal products as well as for making furniture, woodcraft and musical instruments.
    • Its popularity can be gauged from the fact that a tonne of Red Sanders costs anything between Rs 50 lakh to Rs 1 crore in the international market.

    Try this question from CSP 2016:

    Q.With reference to ‘Red Sanders’, sometimes seen in the news, consider the following statements:

    1. It is a tree species found in a part of South India.
    2. It is one of the most important trees in the tropical rain forest areas of South India.

    Which of the above statements is/are correct?

    (a) 1 only

    (b) 2 only

    (c) Both 1 and 2

    (d) Neither 1 nor 2

     

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    Back2Basics: Convention on International Trade in Endangered Species (CITES)

    • CITES stands for the Convention on International Trade in Endangered Species of Wild Fauna and Flora.
    • It is as an international agreement aimed at ensuring “that international trade in specimens of wild animals and plants does not threaten their survival”.
    • It was drafted after a resolution was adopted at a meeting of the members of the International Union for Conservation of Nature (IUCN) in 1963.
    • It entered into force on July 1, 1975, and now has 183 parties.
    • The Convention is legally binding on the Parties in the sense that they are committed to implementing it; however, it does not take the place of national laws.
    • India is a signatory to and has also ratified CITES convention in 1976.

    CITES Appendices

    • CITES works by subjecting international trade in specimens of selected species to certain controls.
    • All import, export, re-exports and introduction from the sea of species covered by the convention has to be authorized through a licensing system.
    • It has three appendices:
    1. Appendix I includes species threatened with extinction. Trade-in specimens of these species are permitted only in exceptional circumstances.
    2. Appendix II provides a lower level of protection.
    3. Appendix III contains species that are protected in at least one country, which has asked other CITES Parties for assistance in controlling trade.

     

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