Target Prelims 2025: Day 12
1. GREENIUM:
** According to Economic Survey 2023-24, Indian sovereign green bonds have struggled to attract significant ‘greenium’ from private investors,
where Greenium is Green + Premium.
● “Greenium” combines "green" and "premium" to describe the extra value or premium investors are willing to pay for green bonds over traditional bonds due to their environmental benefits.
● Green Bonds: These bonds are issued to fund environmentally beneficial projects, such as renewable energy, energy efficiency, and sustainable agriculture.
Benefits of Greenium
● Lower Borrowing Costs: High demand for green bonds often allows issuers to borrow at lower interest rates than with traditional bonds.
● Alignment with ESG Values: As many investors prioritize environmental, social, and governance (ESG) factors, green bonds that support these values are more attractive.
2. METHANOTROPHS/METHANOGENS:
India has reported its first cultures of indigenous methane-mitigating bacteria, known as methanotrophs, specifically Methylocucumis oryzae, found in rice fields and wetlands in Western India.
Methanotrophs (Methane Eaters): Specialized group of gram negative bacteria (and some archaea) that can utilize methane (CH₄) as their primary source of carbon and energy, converting it into carbon dioxide (CO₂).
● These microorganisms, found in wetlands, rice fields, landfills, and ruminant digestive systems, produce methane, the second most significant greenhouse gas, which has 26 times the global warming potential of carbon dioxide.
● Methanogens, the microorganisms responsible for producing methane, thrive in environments like wetlands and landfills.
● Methanotrophs convert methane into organic compounds through a process called methanotrophy. This process involves oxidizing methane into methanol, formaldehyde, and ultimately carbon dioxide.
● Importance : They consume methane, aid bioremediation, and support biofuel production.
3. TEAL CARBON:
India has conducted its first study on ‘teal carbon’ at Keoladeo National Park in Rajasthan. The park, along with Loktak Lake (Manipur), is listed in the Montreux Record of the Ramsar Convention.
Teal carbon refers to the carbon stored in inland water ecosystems, such as rivers, lakes, wetlands, and floodplains.
This concept extends beyond the more familiar terms of blue carbon (carbon in coastal and marine ecosystems) and green carbon (carbon in forests and vegetation).
While blue and green carbon ecosystems are well-recognized in carbon accounting, inland water systems often go unrecognized for their significant role in carbon sequestration.
Wetlands, including marshes, swamps, and peatlands, are particularly important teal carbon ecosystems. In fact, they can store more carbon per hectare than forests.
The term "teal" comes from the combination of blue (for water-related ecosystems) and green (for land-based ecosystems), representing the unique role of inland waters in carbon storage. eg. The Sundarbans mangroves store both blue and teal carbon.
○ Lake Tanganyika stores significant carbon in its deep sediments.
4. MYRISTICA SWAMPS:
** A Myristica swamp forest has been discovered in Kumbral, Maharashtra, and is being protected by the local community.
• Myristica Swamps are tropical evergreen forests dominated by trees of the Myristica genus.
• Swamps are wetlands with waterlogged soil and dense vegetation, often found in low-lying areas where water accumulates and drains slowly.
• These swamps are found in Southeast Asia, including Indonesia, Malaysia, and the Philippines.
• In India, they are present in the Western Ghats, with smaller populations in the Andaman and Nicobar Islands and Meghalaya.
• The waterlogged nature of these forests leads to peat formation, and the Myristica plants are often called living fossils due to their ancient lineage.