The Government of India highlighted recent achievements and policy measures related to biodiversity conservation, governance, and sustainable use under the Convention on Biological Diversity (CBD).
Biodiversity Governance Structure
India follows a three-tier biodiversity governance system:
National Biodiversity Authority at national level
State Biodiversity Boards (SBBs)
Biodiversity Management Committees (BMCs) at local level.
India has:
More than 2,76,653 Biodiversity Management Committees (BMCs)
Over 2,72,648 People’s Biodiversity Registers (PBRs).
Note: Biodiversity Management Committees (BMCs) are local-level statutory bodies in India, mandated by the Biological Diversity Act of 2002.
About Biodiversity
Biodiversity refers to the variety of life forms including:
Plants
Animals
Microorganisms
Ecosystems.
Biological Diversity Act, 2002
India’s principal law for:
Biodiversity conservation
Sustainable use
Fair and equitable benefit sharing.
Biological Diversity (Amendment) Act, 2023
Promotes:
Research and innovation
Traditional knowledge-based practices
Community participation.
Important Concepts
People’s Biodiversity Register (PBR)
Local biodiversity database prepared by BMCs.
Records:
Biological resources
Traditional knowledge
Local species and habitats.
Access and Benefit Sharing (ABS)
Ensures benefits from biological resources are shared with local communities.
Nagoya Protocol
Supplementary agreement under CBD adopted in Nagoya, Japan in 2010.
Focuses on fair sharing of benefits arising from genetic resources.
Kunming-Montreal Global Biodiversity Framework (KMGBF)
Adopted during CBD COP-15 in Montreal in 2022.
Global target:
Halt and reverse biodiversity loss by 2030.
National Biodiversity Strategy and Action Plan (NBSAP 2024-2030)
Aligns India’s biodiversity goals with KMGBF.
Promotes:
Whole-of-government
Whole-of-society approach.
Key Achievements
Forests and Protected Areas
Forest and tree cover: 8.27 lakh sq. km (25.17% of geographical area).
Protected areas: More than 1,134 protected areas covering 1.88 lakh sq. km.
Species Conservation
Tiger population increased from: 2,226 (2014) to 3,682.
Community Participation
National campaign underway for digitisation of PBRs into e-PBRs.
ABS Achievements
₹145 crore released to beneficiaries till May 2026.
Benefited around 11,000 BMCs (Biodiversity Management Committees).
[2023] Consider the following statements: 1. In Biodiversity the India, Management Committees are key to the realization of the objectives of the Nagoya Protocol. 2. The Biodiversity Management Committees have important functions in determining access and benefit sharing, including the power to levy collection fees on the access of biological resources within its jurisdiction. Which of the statements given above is/are correct?
Cyclone Dana highlighted how Odisha’s mangroves protected coastal communities, strengthening the case for nature-based coastal defence over seawalls. This has renewed attention on India’s continued preference for spending ₹2,641 crore on hard infrastructure despite evidence that mangroves and other coastal ecosystems provide long-term, cost-effective protection to nearly 250 million coastal residents.
Why Are India’s Coastal Regions Becoming Increasingly Vulnerable to Climate Change?
Rising sea levels: The Arabian Sea and Bay of Bengal are experiencing accelerating sea-level rise, threatening low-lying coastal districts, deltas, and island territories.
Intensifying cyclones: Climate change is increasing both the frequency and intensity of cyclones along India’s coast, the eastern seaboard (Odisha, Andhra Pradesh, West Bengal) is particularly exposed.
Saline intrusion: Saltwater intrusion into freshwater aquifers and agricultural land is degrading livelihoods. This directly affects food security and drinking water in coastal communities.
Storm surges: Storm surges linked to cyclonic events are intensifying. These cause disproportionate damage to ecologically fragile coastal landscapes and displacing communities.
Compound risk: These interacting hazards do not operate independently. They multiply threats along India’s coastline, making the fragile coastal landscape both physically and economically vulnerable.
Large Population Exposure: Nearly 250 million people living along India’s coastline face direct impacts of climate-related coastal risks.
Why Are Mangroves, Seagrasses and Coral Reefs Considered Natural Coastal Defences?
Coral Reefs: The First Line of Defense
Natural Breakwaters: Coral reefs sit furthest out in the ocean and absorb up to 97% of incoming wave energy before it can reach the shore.
Friction and Depth: The jagged, complex structures of coral skeletons create immense bottom friction, forcing waves to break early and lose their destructive power
Seagrass Meadows(The Middle Buffer): Reduce coastal erosion, trap sediments and support marine biodiversity.
Erosion Control: Located in the shallow waters between reefs and the shore, seagrasses act as underwater carpets that anchor the seabed with their roots.
Sediment Trapping: Their long blades slow down water currents, forcing suspended sand and organic particles to drop to the seafloor, which actively builds up the underwater terrain.
Mangroves: The Intertidal Shield
Storm Surge Mitigation: Mangrove forests act as the final, dense barrier against extreme weather, capable of reducing storm surge heights by up to 66%.
Energy Dissipation: Their massive networks of tangled prop roots and thick trunks create a dense obstacle course that rapidly saps the remaining power of waves and incoming floods.
How Does Ecosystem-based Adaptation (EbA) Strengthen Climate Resilience?
EbA uses biodiversity and ecosystem services to help people adapt to climate change. This reduces climate impacts while sustaining ecosystems that support fisheries, agriculture, and tourism.
Climate Risk Reduction: Uses biodiversity and ecosystem services to help people adapt to climate change.
Livelihood Protection: Supports fisheries, agriculture and tourism-dependent communities.
Long-Term Sustainability: Maintains ecosystem functions while reducing climate vulnerabilities.
Cost Effectiveness: Avoids repeated expenditure on expensive hard infrastructure maintenance.
Disaster Risk Reduction: Reduces losses from cyclones, flooding and coastal erosion.
Nature-based Solutions: Integrates conservation and restoration into adaptation planning.
What Evidence Demonstrates the Effectiveness of Ecosystem-based Adaptation?
Bhitarkanika Mangroves During Cyclone Dana
Cyclone Protection: Mangroves in Odisha’s Bhitarkanika quietly protected communities from cyclone impacts.
Natural Buffer: Reduced climate impacts while strengthening ecosystem health and livelihoods.
Global Evidence
Protection Capacity: A healthy hectare of coastal habitat protects more people per hectare than almost any other natural asset.
Sundarbans Example
Mangrove Restoration: Around 18,000 women restored 4,600 hectares of mangroves.
Cyclone Mitigation: Restoration reduced impacts of Cyclones Amphan and Yaas.
Livelihood Benefits: Strengthened local economic opportunities and social outcomes.
Kerala Example
Seawall Consequences: Armouring and erosion-control measures protected specific sites.
Adjacent Damage: Accelerated erosion in neighbouring areas, illustrating unintended consequences of hard infrastructure.
Why Does India Continue to Prefer Seawalls and Embankments?
Seawalls are massive, heavy-duty structures built directly parallel to the shoreline where the sea meets the land. They are designed as a last line of defence to protect high-value coastal areas, like cities and roads, from intense wave action. Embankments are raised earthen ridges or mounds constructed along rivers, lakes, or low-lying coastlines. They focus on holding back water from flat, expansive areas rather than fighting heavy, crashing ocean waves.
Engineering Bias: Adaptation planning strongly favours hard infrastructure such as seawalls, groynes, embankments and tetrapods.
Political Visibility: Seawalls and embankments provide visible and immediate outputs, making them attractive for governments.
Institutional Preference: Existing planning, procurement and budgeting systems are designed around construction-based projects.
Administrative Familiarity: Engineers and local authorities are more experienced with hard infrastructure than ecosystem restoration.
Perceived Certainty: Seawalls provide tangible and measurable protection, whereas ecosystem benefits are often viewed as less predictable.
What does India’s coastal adaptation spending pattern reveal about institutional bias toward hard infrastructure?
Hard protection dominance: Coastal States spent ₹2,641 crore on hard protection measures over the last decade. This reflects a stark preference for engineered measures such as seawalls, groynes, embankments, and tetrapods.
National Coastal Mission decline: Budget fell from ₹195 crore in 2022-23 to just ₹50 crore in 2024-25.
PSL and visibility bias: Fragile institutional mandates, weak monitoring, and a preference for visible infrastructure often leave ecosystem-based interventions buried within broader sectoral programmes rather than recognised as adaptation in their own right.
Reporting gap: Adaptation benefits of coastal ecosystems are rarely assessed or recorded separately, making India’s coastal EbA portfolio appear much weaker than it is.
What Prevents Ecosystem-based Adaptation from Becoming Mainstream Policy?
Fragmented Terminology: EbA overlaps with Nature-based Solutions (NbS), Coastal Adaptation (EbCA), Ecosystem-based Disaster Risk Reduction (Eco-DRR) and related concepts.
Classification Challenges: Similar interventions are recorded under conservation, restoration or management categories instead of adaptation.
Weak Monitoring: Limited mechanisms exist to measure adaptation outcomes.
Institutional Fragmentation: EbA interventions remain dispersed across multiple schemes and sectors.
Inadequate Recognition: Policymakers often fail to identify adaptation benefits generated by ecosystem restoration.
Limited Financing: Absence of dedicated adaptation financing restricts scale and replication.
Why Does Classification of Ecosystem-based Adaptation Matter?
Policy Recognition: Enables clear identification of adaptation actions.
Monitoring Frameworks: Facilitates tracking and evaluation of adaptation outcomes.
Financing Access: Strengthens eligibility for climate adaptation funding.
Evidence Generation: Supports measurement of climate resilience benefits.
Policy Integration: Ensures ecosystem restoration becomes part of mainstream adaptation planning.
How Does the Mangrove Initiative for Shoreline Habitats and Tangible Incomes (MISHTI) Reflect the Potential of EbA?
MISHTI is a dedicated central government scheme in India aimed at reviving and expanding the country’s mangrove cover while generating sustainable livelihoods for coastal communities. Announced during the Union Budget 2023-24 and officially launched on World Environment Day (5 June 2023), it serves as a core part of India’s strategy to build a nature-based “bio-shield” against climate change.
Programme Objective: Targets restoration of 540 sq km of mangroves across nine States.
Climate Resilience: Enhances natural protection against coastal hazards.
Livelihood Support: Generates economic opportunities linked to ecosystem restoration.
Current Limitation: Primarily framed as a restoration programme rather than a climate adaptation initiative.
What Policy Reforms Are Needed to Mainstream Ecosystem-based Adaptation?
Policy Integration: Embeds EbA within coastal planning and adaptation frameworks.
Dedicated Financing: Expands budgetary support for ecosystem-based interventions.
Outcome Monitoring: Develops indicators for adaptation benefits.
Institutional Coordination: Harmonises fragmented schemes and programmes.
Climate Accounting: Recognises ecosystem restoration as an adaptation investment.
Natural Capital Approach: Treats ecosystems as strategic climate-resilience assets.
Conclusion
The choice before India is not merely between two adaptation techniques but between two development pathways. While seawalls offer localised and short-term protection, mangroves and other coastal ecosystems provide durable climate resilience, biodiversity conservation and livelihood security. Mainstreaming Ecosystem-based Adaptation will be critical for protecting India’s 250 million coastal residents in an era of accelerating climate change.
Value Addition
Nature-based Solutions (NbS)
Definition: Nature-based Solutions (NbS) is an umbrella concept defined by the International Union for Conservation of Nature (IUCN) as actions to protect, sustainably manage, and restore natural or modified ecosystems. These actions address societal challenges, such as climate change, food security, water security, human health, and disaster risk, while simultaneously providing human well-being and biodiversity benefits.
India’s NDC 2022 references NbS for carbon sequestration through forests.
Ecosystem-based Adaptation (EbA)
Definition: Use of biodiversity and ecosystem services to help people adapt to adverse impacts of climate change.
Key Features
Ecosystem conservation
Ecosystem restoration
Climate risk reduction
Community participation
Livelihood enhancement
Disaster resilience
Ecosystem-based Coastal Adaptation (EbCA)
EbCA is a subset of Ecosystem-based Adaptation (EbA). It focuses specifically on helping coastal communities adapt to the long-term, gradual changes brought by climate change.
The Core Strategy: It uses coastal biodiversity and ecosystem services to help human societies adapt to climate pressures.
Primary Targets: Sea-level rise, coastal erosion, saltwater intrusion into agricultural land, and changing ocean temperatures.
Example: Dynamically planting salt-tolerant mangrove species along an eroding coastline. As sea levels rise, the mangroves naturally trap sediment, raising the land.
Ecosystem-based Disaster Risk Reduction (Eco-DRR)
Eco-DRR focuses on using ecosystems to reduce the immediate impact, frequency, and severity of sudden natural disasters.
The Core Strategy: It manages and restores ecosystems to act as physical shock absorbers against extreme physical hazards.
Primary Targets: Sudden disasters like cyclones, tsunamis, massive storm surges, and flash floods.
Example: Protecting an offshore coral reef. When a cyclone strikes, the reef acts as a natural breakwater, absorbing up to 97% of the wave energy before it crashes into coastal towns, directly reducing casualties and property destruction.
Ecological Bio-Shields:
A bio-shield is a dense strip of vegetation planted along a coast to act as a barrier against natural hazards.
Casuarina trees, mangroves, and coastal palms are frequently used together to create multi-tiered, living walls that trap flying debris and slow down incoming water.If
Integrated Coastal Zone Management (ICZM):
India’s ICZM project (World Bank-assisted) aimed to address coastal erosion, pollution, and habitat loss through integrated planning.
EbA mainstreaming is its natural evolution.
PYQ Relevance
[UPSC 2022] Explain the causes and effects of coastal erosion in India. What are the available coastal management techniques for combating the hazard?
Linkage: The PYQ examines coastal vulnerability and compares different coastal protection approaches, including structural and ecosystem-based measures. The article extends the PYQ by assessing whether ecosystem-based solutions such as mangroves can provide more sustainable and cost-effective coastal protection than conventional seawalls and embankments.
Scientists have identified a new species of giant marine reptile named Tylosaurus rex, a fearsome predator that lived during the age of dinosaurs. The findings were published in the Bulletin of the American Museum of Natural History.
Key Highlights
Tylosaurus rex was:
A giant marine reptile.
One of the apex predators of the Cretaceous Period.
Scientists identified it as a distinct species based on:
Huge body size
Serrated teeth
Strong jaw and neck musculature
Anatomical differences from related species.
About Tylosaurus rex
Lived around 80 million years ago.
Habitat: an inland sea that once divided North America.
Features:
Streamlined body
Long snout
Paddle like flippers
Powerful tail.
What are Mosasaurs?
Tylosaurus rex belonged to:
Mosasaurs: Group of extinct marine reptiles.
They evolved from Land dwelling lizards.
Became: Apex marine predators during the late Cretaceous Period.
[2018] The term “sixth mass extinction/sixth extinction” is often mentioned in the news in the context of the discussion of
A. Widespread monoculture practices in agriculture and large-scale commercial farming with indiscriminate use of chemicals in many parts of the world that may result in the loss of good native ecosystems.
B. Fears of a possible collision of a meteorite with the Earth in the near future in the manner it happened 65 million years ago that caused the mass extinction of many species including those of dinosaurs.
C. Large scale cultivation of genetically modified crops in many parts of the world and promoting their cultivation in other parts of the world which may cause the disappearance of good native crop plants and the loss of food biodiversity.
D. Mankind’s over-exploitation/misuse of natural resources, fragmentation/loss of natural habitats, destruction of ecosystems, pollution and global climate change.
Consider the following regions :
1. Eastern Himalayas
2. Eastern Mediterranean region
3. North-western Australia
Which of the above is/are Biodiversity Hotspot(s) ?
Three of the following criteria have contributed to the recognition of western Ghats, Sri Lanka and Indo-Burma regions as hotspots of biodiversity: 1. Species richness 2. Vegetation density 3. Endemism 4. Ethno-botanical importance 5. Threat perception 6. Adaptation of flora and fauna to warm and humid conditions Which three of the above are correct criteria in this context?
Scientists from Jawaharlal Nehru Tropical Botanic Garden and Research Institute discovered a new evergreen tree species, Humboldtia nairiana, in Shendurney Wildlife Sanctuary.
About the Species
Belongs to the genus Humboldtia
Found in riparian forests of the southern Western Ghats
Named in honour of plant biotechnologist G.M. Nair
Discovery
First collected during a 2010 floristic survey along the Cheenikkala-Pandimotta forest trail
Seedlings were conserved ex-situ at the JNTBGRI Arboretum
Flowering and fruiting observed in 2022
Morphological studies confirmed it as a new species
Distribution
Strictly endemic to Kerala
Known only from the Agasthyamala Biosphere Reserve
Conservation Status
Wild population is fragile and limited
Categorised as “Data Deficient” under IUCN criteria
Highlights need for habitat protection and field monitoring
Ecological Importance
Adds to the biodiversity significance of the Western Ghats
Shows importance of riparian forest ecosystems
Strengthens conservation value of Agasthyamala region
About Agasthyamala Biosphere Reserve
Part of the Western Ghats
UNESCO-recognised biosphere reserve
Known for high endemism and rich biodiversity
[2019] “Neyyar, Peppara and Shendurney Wildlife Sanctuaries” are part of which of the following?
A rare dragonfly species, the Long-tailed Duskhawker, has been rediscovered in Arunachal Pradesh after 110 years in Namdapha National Park and Tiger Reserve.
About the Species
Scientific name: Gynacantha khasiaca
Belongs to the order Odonata (dragonflies and damselflies)
Known for:
Near 360° vision
Compound eyes with thousands of lenses
Ability to hover still in air
Rediscovery
Last recorded in 1914 from the erstwhile Abor Hills
Rediscovered at Deban in Namdapha National Park in October 2024
Study published in the Journal of Threatened Taxa
Ecological Importance of Dragonflies
Dragonflies and damselflies are:
Predators and prey in freshwater ecosystems
Indicators of healthy aquatic habitats
Important for ecological balance
Odonata Diversity
Global: 6,442 species across 693 genera
India: 504 species and 27 subspecies
Arunachal Pradesh: Around 110 species recorded
Distribution of Long-tailed Duskhawker
Apart from Arunachal Pradesh, reported from:
Assam
Maharashtra
Meghalaya
Uttarakhand
West Bengal
Significance of Rediscovery
Highlights rich biodiversity of Northeast India
Emphasises habitat protection and biodiversity monitoring
Shows importance of citizen science in conservation
About Namdapha National Park
Located in Changlang district, Arunachal Pradesh
One of India’s largest protected areas
Known for tropical rainforests and rich wildlife diversity
[2017] Due to some reasons, if there is a huge fall in the population of species of butterflies, what could be its likely consequence/consequences? 1. Pollination of some plants could be adversely affected. 2. There could be a drastic increase in the fungal infections of some cultivated plants. 3. It could lead to a fall in the population of some species of wasps, spiders and birds. Select the correct using the code given below:
The Kerala government acted against houseboat pollution in Vembanad Lake following directions from the Kerala High Court.
About Vembanad Lake
Largest lake in Kerala and longest lake in India
Largest tropical wetland ecosystem on India’s southwest coast
Also called Vembanad Kayal, Punnamada Lake, Kochi Lake
Spread across Alappuzha, Kottayam, and Ernakulam districts
Source Rivers
Fed by:
Pampa
Meenachil
Achankovil
Manimala
Ecological Importance
Ramsar Site since 2002
Supports fisheries, biodiversity, flood control, and groundwater recharge
Part of National Wetlands Conservation Programme
Agriculture
Famous for below sea-level farming in the Kuttanad region
Tourism and Culture
Major part of Kerala backwaters tourism
Known for houseboats and inland water transport
Hosts Nehru Trophy Snake Boat Race in August
[2022] Consider the following pairs : Wetland/Lake Location 1. Hokera Wetland: Punjab 2. Renuka Wetland: Himachal Pradesh 3. Rudrasagar Lake: Tripura 4. Sasthamkotta Lake: Tamil Nadu How many pairs given above are correctly matched?