In News:

A study by researchers from India’s National Centre for Polar and Ocean Research (NCPOR) has found that seasonal variations in Arctic Sea ice are impacting the Indian monsoon.

What is the Indian Summer Monsoon Rainfall?

The Indian Summer Monsoon Rainfall (ISMR), occurring from July to September, is one of the most significant monsoon systems globally. During the summer, the Central Asian and Indian landmasses heat up more quickly than the surrounding oceans. This temperature difference creates a low-pressure zone at the Tropic of Cancer known as the intertropical convergence zone (ITCZ). Trade winds from the southeast are then deflected toward the Indian subcontinent due to the Coriolis effect and the low pressure they encounter after crossing the equator. As these winds pass over the Arabian Sea, they pick up moisture and bring rain to India. The southwest monsoon divides into two branches over the Indian landmass. The Arabian Sea branch delivers rain to the west coast, while the Bay of Bengal branch brings rain to the eastern and northeastern parts of India. These branches converge over Punjab and Himachal Pradesh, with the Arabian Sea branch moving inward and the Bay of Bengal branch following the Himalayas.

Complexity of the Indian Summer Monsoon Rainfall

Recent climate models have revealed that the ISMR is influenced by the surface temperatures of the Indian, Atlantic, and Pacific Oceans. Additionally, the circum-global teleconnection (CGT), a large-scale atmospheric wave at mid-latitudes, also plays a significant role in affecting the monsoon.

Influence of Arctic Sea Ice on the Indian Monsoon

The study indicates that reduced sea ice in the central Arctic results in decreased rainfall in western and peninsular India, but increased rainfall in central and northern India. Conversely, lower sea ice levels in the upper latitudes, especially in the Barents-Kara Sea region, delay the onset of the monsoon and make it more unpredictable.

Other Atmospheric Systems Influencing the Pattern

When sea ice levels in the central Arctic rise, the heat transferred from the ocean to the atmosphere triggers cyclonic circulation at lower latitudes, such as the North Atlantic. This process enhances Rossby waves—fast-moving air currents created by Earth's rotation and temperature differences—which move from west to east. These waves cause high pressure over northwest India and low pressure over the Mediterranean region, strengthening the Asian jet stream over the Caspian Sea and shifting the subtropical easterly jet northward. This shift leads to increased rainfall in western and peninsular India. On the other hand, decreased sea ice in the Barents-Kara Sea generates an anticyclonic circulation (clear skies) over northwest Europe. This disturbance affects the upper atmosphere over subtropical Asia and India, resulting in increased rainfall in northeastern India while leaving central and northwest regions drier.

Role of Climate Change

Climate change accelerates the reduction of Arctic sea ice, which intensifies the variability and unpredictability of the ISMR. Lower Arctic sea ice contributes to more frequent and severe droughts in some areas, while causing excessive rainfall and flooding in others. The study underscores the urgent need for expanded research on climate dynamics and more accurate monsoon forecasts to address these changing patterns.

India has emerged as the top global plastic polluter, releasing 9.3 million tonnes (Mt) of plastic annually, accounting for nearly 20% of the world's total plastic emissions.

Top Plastic Polluters:

1. India: 9.3 Mt
2. Nigeria: 3.5 Mt
3. Indonesia: 3.4 Mt
4. China: Previously first, now fourth, due to improvements in waste management practices such as incineration and controlled landfills.

Understanding Plastic Emissions

Plastic emissions refer to plastic that escapes from managed systems into unmanaged or uncontrolled environments. These emissions can occur throughout the lifecycle of plastic, from production through to disposal.

Intergovernmental Negotiating Committee (INC)

The INC, established by the United Nations Environment Programme (UNEP) in 2022, is working towards creating a global binding treaty on plastic pollution. The committee addresses the entire plastic lifecycle:

• INC Sessions:
  • INC-1: Punta del Este, Uruguay (November 2022)
  • INC-2: Paris, France (May – June 2023)
  • INC-3: Nairobi, Kenya (December 2023)
  • INC-4: Ottawa, Canada (2024)
  • INC-5: Scheduled for South Korea (November 2024)

Status of Waste Generation in India

• Underreported Waste Generation: Official figures estimate 0.12 kilograms per person per day, which may be higher in reality.
• Excluded Data:
  • Waste from rural areas.
  • Waste recycled by the informal sector.
  • Open burning of uncollected waste.

Global Trends in Plastic Pollution

• Sources of Pollution:
  • Global North: Littering is a major contributor.
  • Global South: Uncollected waste is the primary source of plastic pollution.
• Top Polluting Countries: 69% of global plastic waste emissions come from 20 countries, mostly low- and middle-income nations.
• High-Income Countries: Although these countries produce more plastic waste, their advanced waste management systems prevent them from being top polluters.

India's Initiatives to Address Plastic Waste

• UNDP India’s Plastic Waste Management Program (2018-2024): Focuses on improving plastic waste management practices.
• Ban on Single-Use Plastics (SUP): Prohibits the manufacture, import, sale, and use of plastic bags thinner than 120 microns.
• Plastic Waste Management Rules (2022): Introduces Extended Producer Responsibility (EPR) for plastic packaging, with targets for recycling, reusing, and using recycled plastic.
• Swachh Bharat Mission: Launched in 2014 to improve waste management and eliminate open defecation.
• India Plastics Pact: Aims to transform the plastic lifecycle.
• Project REPLAN: Focuses on creating carry bags from a blend of plastic waste and cotton fibers.
• Un-Plastic Collective: Promotes a circular economy to reduce unnecessary plastic use and environmental impact.
• GoLitter Partnerships Project: Targets reducing marine plastic litter from fisheries and shipping.

Global Initiatives to Combat Plastic Pollution

• Closing the Loop: A UN Economic and Social Commission for Asia and the Pacific project to develop policies addressing plastic waste.
• Global Tourism Plastics Initiative: Aims to reduce plastic pollution from the tourism sector by 2025.
• EU Single-Use Plastics Directive (2021): Seeks to minimize plastic waste in the environment.

Why is it in the News?

The recent heatwave has reminded us of the stark risks posed by climate change and highlighted the criticality of the efforts taken by the Conference of Parties (COP).

Context:

• The recent heatwave highlights the escalating threats of climate change, emphasizing the urgent need for robust climate action.
• The World Meteorological Organization (WMO) confirmed that 2023 was the warmest year on record, drawing renewed attention to carbon-intensive sectors like power and industry.
• As the third-largest carbon emitter globally, India faces increased scrutiny over its emissions.
• To address these challenges, significant efforts are being made to transition towards green energy, bolstered by various government initiatives and policies.

India's Green Growth Landscape: A Shift Towards Sustainable Practices

• Indian industries, particularly those in high-carbon emitting sectors, are increasingly acknowledging the importance of embracing sustainable practices.
• Many companies are taking proactive measures to transition towards renewable energy sources.
  • For example, leading firms in refining, chemical production, and fertilizers are exploring the potential of Green Hydrogen to reduce their carbon emissions.
• These sectors are crucial in India's decarbonization efforts due to their significant contribution to greenhouse gas emissions.
• Although there are no mandatory regulations for green technology adoption, many entities are voluntarily adopting these technologies.
• This shift is driven by stakeholder expectations and the recognition of transition risks, such as policy, regulatory, technology, market, reputation, and legal challenges.
• Among these risks, technological risk is the most pressing concern for entities adopting green technologies.

Challenges in India's Transition to Green Growth:

Shifting from Fossil Fuels to Renewable Energy

• Fossil fuel-based power is India's primary source of carbon emissions.
• To meet the government's climate target of increasing non-fossil power to 50% by 2030, several schemes have been launched to boost renewable energy.
• ICRA projects that India will achieve this goal, with the share of non-fossil fuel-based installed capacity rising from 41% in 2022-23 to 59% by 2029-30.
• However, this transition requires significant investment, with an estimated Rs 11-12 lakh crore needed for renewable energy power and over Rs 5-6 lakh crore for transmission infrastructure and storage capabilities.

Ensuring Continuous Renewable Energy Supply:

• Ensuring a steady supply of renewable energy is crucial to reach the targeted level, given its intermittent nature.
• Hybrid renewable energy projects (wind and solar) complemented by energy storage systems can help achieve this.
• For sectors like steel and cement, the government must explore more carbon sequestration methods, such as installing carbon capture utilisation and storage (CCUS), which is inevitable for these hard-to-abate sectors.

Challenges in the Cement Sector:

• Cement manufacturing is resource and energy-intensive, producing an equivalent amount of carbon dioxide per tonne of cement.
• CCUS can reduce 60-70% of emissions during cement manufacturing, as most emissions are generated during clinker production.
• Niti Aayog's report estimates that the cement sector needs a CCUS capacity of two million tonnes per annum by 2030, with a capital cost of Rs 1,600-1,800 crore.

Challenges in the Steel Sector:

• Due to the abundance of virgin iron ore and limited domestic scrap, the domestic steel industry primarily uses coal as a reducing agent, resulting in high emissions.
• With India's 2070 net-zero target and carbon tax policies in some countries, domestic steelmakers are focusing on reducing their carbon footprint by 25-30% through technological interventions by 2030.

Government Efforts in India's Green Energy Transition and Carbon Reduction:

• Production Linked Incentive (PLI) Scheme: The PLI scheme offers financial incentives to manufacturers, encouraging them to establish production facilities in India.
  • This strengthens the local solar manufacturing industry, making solar energy more affordable and accessible.
• Viability Gap Funding (VGF) for Offshore Wind and Battery Storage Projects: VGF schemes make large-scale renewable energy projects more financially viable, attracting private investment.
  • Offshore wind and battery storage projects particularly benefit from this support, addressing the intermittent nature of renewable energy sources.
• Faster Adoption and Manufacturing of Electric Vehicles (FAME) Scheme: The FAME scheme provides subsidies for electric vehicle (EV) purchases and supports the development of charging infrastructure.
  • This initiative aims to reduce vehicular emissions, decrease oil dependency, and promote sustainable urban mobility.
• National Green Hydrogen Mission: Green hydrogen, produced using renewable energy, has the potential to significantly reduce emissions in hard-to-abate sectors.
  • The mission supports research, pilot projects, and production facilities, positioning India as a global leader in green hydrogen technology.
• Amendments to the Energy Conservation Act: The amendments include provisions for energy efficiency standards and energy management systems.
  • These measures aim to reduce energy consumption, lower emissions, and promote sustainable industrial practices.

Recommendations for Overcoming Green Growth Challenges in India:

• Renewable Purchase Obligations (RPOs): The government should enforce mandatory percentages of electricity consumption from renewable sources.
  • RPOs require power distribution companies and large consumers to purchase a specific proportion of energy from renewables, ensuring consistent demand and promoting sector growth.
• Implementation of the National Action Plan on Climate Change (NAPCC): Policymakers should devise strategies that promote sustainable development while tackling climate change.
  • The NAPCC encompasses eight missions focusing on solar energy, energy efficiency, sustainable agriculture, and water conservation, enabling cross-sectoral efforts to integrate climate resilience and sustainability into national policies.
• Tax Incentives and Subsidies: Financial incentives should be provided to support renewable energy and green technologies.
  • Tax benefits such as accelerated depreciation and tax holidays reduce investment burdens.
  • Subsidies for solar power, electric vehicles, and energy storage systems make these technologies more accessible and appealing to consumers and businesses.
• Increased Viability Gap Funding (VGF): The government should address financial gaps in economically viable projects lacking initial investment.
  • VGF schemes make large-scale renewable energy projects, like offshore wind farms and battery storage systems, more financially viable and reduce investment risks.

Conclusion

India's journey towards embracing green energy and sustainability is characterized by both formidable hurdles and promising prospects. The proactive steps taken by the government and the enthusiastic participation of diverse stakeholders are laying the groundwork for a more environmentally friendly tomorrow. Yet, reaching the ambitious climate goals demands persistent backing, significant financial injections, and a surge in technological advancements. In a world grappling with the intensifying effects of climate change, India's resolute pledge to slash carbon emissions and shift towards renewable energy stands as both an imperative and an inspiration for nations worldwide.

Why is it in the News?

The climate crisis is far from “gender neutral” as women and men are affected differently by weather and climate and therefore need gender-sensitive information and services.

Context:

• As the climate crisis intensifies, its disproportionate impact on women and girls becomes more evident, particularly in poverty-stricken regions.
• This calls for a critical examination of the gender dimensions of climate change, recognizing women's increased vulnerabilities and the importance of incorporating gender perspectives in climate action strategies.
• By doing so, we can develop effective solutions that address the unique challenges faced by women, ensuring a more equitable and sustainable approach to climate change mitigation and adaptation.

How Does Climate Change Impact Women?

• Rural Livelihood Dependence on Agriculture: In many regions, particularly rural India, women play a central role in agricultural activities, forming the backbone of their communities' livelihoods.
  • However, the effects of climate change, such as erratic rainfall, droughts, and floods, pose significant threats to crop yields, directly impacting food security and income for these women.
  • Compounded by limited access to essential resources like land, credit, and technology, women face heightened vulnerabilities in navigating climate-related risks.
• Health Risks Amplified by Climate Hazards: Women's health is uniquely susceptible to the challenges posed by climate change.
  • For instance, prolonged heatwaves increase the risk of complications during pregnancy, including preterm birth and eclampsia.
  • Moreover, exposure to indoor and outdoor air pollution exacerbates respiratory and cardiovascular diseases among women and unborn children, compromising their well-being.
• Gender Dynamics in Extreme Weather Events: The rise in the frequency of extreme weather events, such as floods, droughts, and cyclones, has profound implications, particularly for vulnerable populations.
  • Reports highlight that a significant portion of Indian districts are susceptible to such disasters, placing women and children at heightened risk.
  • Emerging studies underscore a concerning correlation between these natural calamities and incidents of gender-based violence against women.
  • Additionally, disruptions in water access due to climate-induced changes affect women's ability to engage in productive activities and access healthcare, intensifying their workload and compromising their overall welfare.
• Nutritional Challenges and Early Marriage: In regions prone to drought, women and girls face heightened risks of undernutrition due to food insecurity.
  • Data indicates that women residing in these areas are more likely to experience underweight conditions and are at a higher risk of entering early marriages, perpetuating cycles of poverty and gender inequality.

How to Empower Women in Climate Action?

• Rich Tradition of Environmental Stewardship: Throughout history, women have been integral to environmental conservation efforts.
  • Across various communities, they serve as primary custodians of natural resources, managing land, water, and forests with a deep-rooted understanding of sustainability.
  • Their traditional knowledge and practices are invaluable assets for fostering biodiversity conservation and promoting climate-resilient agricultural techniques.
• Boosting Agricultural Productivity and Food Security: Providing women farmers with equitable access to resources such as land, credit, and agricultural inputs unleashes their potential to enhance agricultural productivity and adapt to climate change.
  • Research indicates that closing the gender gap in agriculture could significantly increase crop yields and bolster food security.
  • Women's innate connection to smallholder farming systems enables them to innovate with cost-effective, environmentally friendly farming methods, thereby fostering resilience in agricultural practices.
• Key Players in Local Adaptation Strategies: Women are pivotal to the success of community-based adaptation efforts, which prioritize building resilience to climate change at the grassroots level.
  • Through women's groups and collectives like Self-Help Groups (SHGs) and Farmer Producer Organizations (FPOs), communities mobilize, share knowledge, and implement adaptation measures.
  • These grassroots initiatives empower women to advocate for their rights in decision-making processes concerning natural resource management and climate resilience.
• Inspiring Role Models and Catalysts for Change: Women leaders in climate action serve as inspirations and role models, paving the way for future generations of environmentalists and activists.
  • Their prominence in climate solutions not only challenges gender norms but also encourages greater participation of women and girls in STEM fields and environmental leadership roles.
  • By highlighting women's contributions to climate action, these role models empower others to pursue careers and opportunities in climate science, policy, and advocacy, fostering a more inclusive and impactful approach to addressing climate change.

Action Needed to Address the Gender Implications of Climate Change:

• Immediate Protection Against Health Risks: Swift action is imperative to safeguard vulnerable populations, such as pregnant women, outdoor laborers, children, and the elderly, from health risks exacerbated by extreme weather events like heat waves.
  • Local authorities must develop and implement comprehensive heatwave response plans, incorporating early warning systems, establishing cooling centers, and adapting work and school schedules to mitigate heat-related illnesses and fatalities.
• Improved Access to Safe Drinking Water: Climate-induced disruptions to water sources escalate water scarcity and endanger public health.
  • Immediate interventions are essential to enhance access to safe drinking water, particularly for women and girls responsible for water collection in many communities.
  • Investments in water infrastructure, rainwater harvesting systems, and water purification technologies are vital to alleviate the impacts of water scarcity on vulnerable populations.
• Climate-Resilient Urban Planning: Urban areas face escalating vulnerabilities to climate-related hazards, including heatwaves, flooding, and air pollution.
  • Urban planning strategies emphasizing green infrastructure—such as parks, green roofs, and tree-lined streets—can mitigate the urban heat island effect and minimize exposure to extreme temperatures.
  • Moreover, measures to enhance air quality, like reducing vehicular emissions and promoting clean energy technologies, are crucial for safeguarding public health, particularly for women and children susceptible to respiratory and cardiovascular diseases.
• Community-Centered Adaptation Efforts: Community-based adaptation initiatives, engaging local communities, including women's groups and grassroots organizations, are pivotal in bolstering resilience to climate change at the grassroots level.
  • These initiatives should prioritize the needs and aspirations of women and marginalized groups, empowering them in decision-making processes regarding adaptation planning and implementation.
  • Investments in building the capacity of local institutions and community leaders can amplify the efficacy and sustainability of adaptation endeavors.
• Gender-Inclusive Climate Policies: National and sub-national climate policies must integrate gender-responsive approaches tailored to the distinct needs and priorities of women and girls.
  • Recognizing women as agents of change and empowering their participation in climate decision-making at all levels is essential.
  • Gender mainstreaming in climate policies ensures inclusivity, equity, and effectiveness in tackling the underlying drivers of vulnerability and inequality.

Conclusion

The disparities and vulnerabilities experienced by women and girls underscore the urgent need for inclusive and gender-responsive strategies in climate adaptation and mitigation endeavors.

By empowering women, we not only bolster resilience but also unlock innovative solutions crucial for combating the climate crisis. Thus, the integration of gender perspectives into climate action plans is imperative for forging a sustainable and equitable future for all

Why is it in the News?

The India Meteorological Department (IMD) has forecast a harsh and arid summer over a majority of regions of the country during April- June, with a high probability of heatwave episodes lasting as long as 10 to 20 days during the period.

Recent Prediction by India Meteorological Department (IMD):

• Extreme Heat Outlook: India is anticipated to face extreme heat from April to June, with central and western regions likely to be most affected.
  • Expectations of 10 to 20 heatwave days across the country, exceed the normal range of four to eight days.
  • Regions including Gujarat, central Maharashtra, north Karnataka, Rajasthan, Madhya Pradesh, Odisha, north Chhattisgarh, and Andhra Pradesh are forecasted to experience severe heatwaves in April.
• Pre-Monsoon Rainfall Performance: Below-average pre-monsoon rainfall is expected this month, particularly impacting coastal, eastern, and southern India.
• El Nino Conditions: El Nino conditions, marked by abnormal sea surface warming in the equatorial Pacific Ocean since last June, have the potential to reduce rainfall and increase temperatures, both locally in India and globally.
  • Despite El Nino conditions easing after peaking in December, persistent warm conditions continue to elevate global temperatures.
• Recent Weather Conditions: February and March witnessed hotter-than-normal weather in southern India.
  • Heatwave conditions were reported in Maharashtra, northern Karnataka, Saurashtra-Kutch, and parts of Rajasthan during late March.
  • Maximum temperatures soared to 42.6 degrees Celsius in areas such as Akola in Maharashtra and Phalodi in Rajasthan.

What are Heat Waves?

• Heatwaves entail prolonged periods of exceptionally hot weather, posing adverse effects on human health, the environment, and the economy.
• Given India's tropical climate, the nation is especially susceptible to heat waves, which have witnessed increased frequency and intensity in recent times.

What is the Criterion for Declaring a Heat Wave?

For Plains and Hilly Regions:

• Heatwave is recognized when the maximum temperature of a station reaches at least 40°C or higher for Plains and at least 30°C or higher for Hilly regions.
• Determined based on Departure from Normal Heat Wave:
  • Departure from normal temperature ranges from 4.50°C to 6.40°C, with anything exceeding 6.40°C classified as a Severe Heat Wave.
• Alternatively, based on Actual Maximum Temperature Heat Wave:
  • A heat wave is declared when the actual maximum temperature equals or exceeds 45°C, while a Severe Heat Wave is acknowledged if the actual maximum temperature equals or exceeds 47°C.
• Declaration occurs when the above criteria are met in at least 2 stations within a Meteorological subdivision for a minimum of two consecutive days, with the declaration taking effect on the second day.

For Coastal Areas:

• A heat wave may be identified when the maximum temperature departure from normal is 4.50°C or more, provided the actual maximum temperature registers at 37°C or higher.

Fatality Risk:

• While high temperatures alone may not be lethal, it's the conjunction of elevated temperatures and humidity, known as the wet bulb temperature, that renders heatwaves perilous.
• Increased moisture levels impede sweat evaporation and hinder body cooling mechanisms, leading to a rapid rise in internal body temperature, frequently resulting in fatal outcomes.

What are the Causes of Heatwaves?

• Global Warming: A primary factor driving heatwaves in India is global warming, a consequence of sustained increases in Earth's average temperature linked to human activities like fossil fuel combustion, deforestation, and industrial operations.
  • Elevated temperatures and altered weather patterns can stem from this phenomenon.
• Rapid Urbanization: Rapid urban expansion and the proliferation of urban landscapes contribute to the "urban heat island effect."
  • Urban areas, dense with population, structures, and concrete surfaces, absorb and retain heat, intensifying temperatures, particularly during heatwaves.
• El Nino Influence: El Nino events, characterized by Pacific Ocean warming, exert global climatic impacts, triggering shifts in temperature, precipitation, and wind patterns.
  • The conclusion of a strong La Nina phase in the equatorial Pacific Ocean and the untimely onset of an El Nino event are anticipated factors contributing to the exceptionally hot forecast for the summer of 2023.

What are the Impacts?

• Health Effects: Swift escalation in heat exposure can disrupt the body's ability to regulate temperature, resulting in various ailments such as heat cramps, heat exhaustion, heatstroke, and hyperthermia, potentially leading to fatalities or hospitalizations.
• Water Resources Impact: Heatwaves exacerbate water scarcity issues in India, causing water bodies to dry up, diminishing water availability for agriculture and domestic use, and intensifying competition for water resources, fostering conflicts and influencing irrigation practices and water-reliant industries.
• Energy Impact: Elevated temperatures heighten demand for cooling, straining power grids and heightening the risk of blackouts, disrupting economic operations, reducing productivity, and adversely affecting vulnerable communities without reliable access to cooling amenities during heatwaves.

How to Mitigate Extreme Heat Wave Events?

• To mitigate the adverse effects of heat waves and climate change, a comprehensive action plan must be implemented at various levels:
• Heat Wave Action Plan: Develop a long-term plan to protect human lives, livestock, and wildlife by prioritizing effective adaptation strategies and robust disaster management policies.
  • Ensure proper implementation of the Sendai Framework for Disaster Risk Reduction, with governments taking the lead and engaging multiple stakeholders.
• Implementing Climate Action Plans: Commit to the National Action Plan for Climate Change (NAPCC) for inclusive growth and ecological sustainability.
  • Emphasize nature-based solutions that uphold ethical standards and promote intergenerational justice.
• Sustainable Cooling: Adopt passive cooling technology to create naturally ventilated buildings, reducing the urban heat island effect in residential and commercial areas.
  • Consider adapting ancient Indian building designs, as recommended by the Intergovernmental Panel on Climate Change (IPCC), to modern facilities.
• Heatwave Mitigation Plans: Implement measures to prevent heat-related fatalities, including providing access to water, oral rehydration solutions, shade in public spaces, flexible working hours, and accommodations for outdoor workers.
  • Vigilant local administration and oversight by higher authorities are key to successful implementation.
• By implementing these strategies and fostering collaboration among stakeholders, we can create a more resilient future that effectively addresses the challenges posed by heat waves and climate change.

Indian Meteorological Department (IMD):

• India Meteorological Department is the country's National Meteorological Service.
• It deals with all matters relating to meteorology, seismology, and associated subjects. 
• IMD is headquartered in Delhi and operates hundreds of observation stations across India and Antarctica.
• IMD units such as Forecasting Offices, Agrometeorological Advisory Service Centers, Hydro-meteorological Offices, Flood Meteorological Offices, Area Cyclone Warning Centers, and Cyclone Warning Centers are usually co-located with various observatories or meteorological centers.
• IMD is also one of the six Regional Specialized Meteorological Centres of the World Meteorological Organization.
• It is responsible for forecasting, naming, and distributing warnings for tropical cyclones in the Northern Indian Ocean region, including the Straits of Malacca, the Bay of Bengal, the Arabian Sea, and the Persian Gulf.
• Nodal Ministry: Ministry of Earth Sciences of the Indian Government

Why is it in the News?

In the context of climate change-related pressures, the world also needs to foster improved cooperation over water-sharing.

Context:

• The global water crisis remains a critical issue, with roughly two billion people lacking access to clean water, threatening individual and collective well-being.
• Water has been a determining factor in civilizations' prosperity and decline throughout history.
• Ancient Mesopotamian cities experienced conflicts over fertile land and water resources, illustrating the age-old struggle for water.
• As the 31st World Water Day approaches in 2024, themed "Leveraging Water for Peace," the United Nations emphasizes the significance of water diplomacy to tackle contemporary water challenges and secure a sustainable future for all.

Water Diplomacy in a Time of Extremities:

• Encouraging Collaborative Governance: Water diplomacy underscores the necessity of collaborative governance mechanisms to effectively tackle shared water challenges.
  • By uniting relevant stakeholders—governments, local communities, NGOs, and international agencies—collaborative governance frameworks foster dialogue, information exchange, and joint decision-making.
  • These mechanisms pave the way for sustainable water management policies and strategies that prioritize the needs and interests of all involved parties.
• Ensuring Fair Water Allocation: At the core of water diplomacy lies the principle of equitable water allocation among riparian states.
  • Acknowledging that water resources transcend political boundaries, water diplomacy advocates for fair distribution, considering the needs, rights, and vulnerabilities of all stakeholders.
  • Through negotiated agreements and treaties, riparian states can establish frameworks for sharing water resources, managing competing demands, and peacefully resolving disputes.
• Promoting Regional Stability and Peace: Effective water diplomacy contributes to regional stability and peace by mitigating conflicts over shared water resources.
  • By fostering cooperation and understanding among neighboring states, water diplomacy builds trust, enhances security, and reduces tensions stemming from water-related disputes.
  • Additionally, collaborative water management initiatives foster cross-border cooperation, economic integration, and diplomatic relations, bolstering broader efforts to uphold peace and stability in conflict-prone regions.
• Embracing Inclusive Approaches: Inclusive water diplomacy involves engaging a diverse array of stakeholders, including indigenous communities, civil society organizations, academia, and the private sector.
  • Recognizing the importance of marginalized groups' contributions and perspectives, inclusive approaches promote social equity and transparency in decision-making processes.
  • By integrating local knowledge, cultural practices, and community priorities, inclusive water diplomacy enhances the legitimacy and efficacy of governance frameworks.
• Preventing and Resolving Conflicts: Water diplomacy plays a pivotal role in preventing and resolving conflicts arising from competing water interests.
  • Through proactive diplomacy, early warning systems, and confidence-building measures, riparian states can address potential sources of tension and defuse conflicts before they escalate.
  • Moreover, mechanisms for peaceful dispute resolution, such as arbitration and mediation, enable states to resolve water-related disputes through dialogue and negotiation, averting coercive or confrontational measures.

Strategic Approaches for Tackling Rural Water Challenges in India:

• Enhancing Infrastructure: A primary strategy involves developing water infrastructure like wells, hand pumps, boreholes, and piped systems to improve access to safe water and sanitation facilities in rural areas.
  • Investment in constructing and maintaining such infrastructure can reduce waterborne diseases, leading to better health outcomes.
• Encouraging Community Engagement: Engaging local communities in planning, implementing, and managing water projects is crucial for their sustainability and success.
  • Empowering rural residents through participatory water management committees and user associations can promote ownership of water resources, efficient practices, and conflict resolution.
• Conservation and Management Practices: Promoting conservation and management practices is vital for maximizing water efficiency in rural areas.
  • Techniques like rainwater harvesting, groundwater recharge, watershed management, and soil moisture conservation can reduce reliance on unpredictable water sources and build climate resilience.
• Incorporating Technological Innovations: Leveraging technology can significantly improve water access and management in rural areas.
  • Solar-powered pumps, drip irrigation systems, and water-efficient technologies can enhance agricultural productivity, while monitoring applications and remote sensing can enable real-time resource management.
• Policy Support and Interventions: Government support is essential in addressing rural water needs through adequate funding, regulatory frameworks for equitable water distribution, and legislation to protect water resources and promote sustainable practices.
  • Policy coherence across the agriculture, health, and environment sectors is crucial for tackling the interconnectedness of water, food security, and rural development.

Addressing Transboundary Water Challenges:

• Highlighting the Significance of Transboundary Waters: The report underscores the prominence of transboundary waters, noting that a substantial portion of the world's freshwater resources, including those in India, are shared across borders.
  • India's extensive landmass boasts a network of long rivers, vital not only for its own needs but also shared with neighboring countries.
  • However, the South Asian region has witnessed a significant deterioration in water quality in recent years, particularly in rivers like the Meghna, Brahmaputra, Ganga, and Indus, as highlighted in the 2024 report.
• The Need for Sophisticated Cross-Border Water Governance: Addressing these challenges requires a sophisticated approach to cross-border water governance, promoting effective and equitable allocation of water resources among nations that share them.
  • It is imperative to develop robust mechanisms for cooperation and coordination to manage shared waters sustainably.
• Global Perspective on Transboundary Cooperation: According to a 2021 UNESCO progress report on Sustainable Development Goal indicator 6.5.2, titled "Progress on transboundary water cooperation," out of UNESCO's 194 member states and 12 associate members, 153 countries are classified as water-sharing nations.
  • Remarkably, transboundary waters account for 60% of the world's freshwater flows.
  • However, only 24 of these 153 countries have achieved a 100% cooperation agreement on their shared waters, indicating the pressing need for enhanced collaboration.
• Ensuring Collective Well-being and Peace: While significant progress has been made in fostering peace over time, the scarcity of freshwater poses a threat to our collective well-being and peace.
  • This issue is not only crucial for achieving the 2030 Agenda and Sustainable Development Goals (SDGs) but also for maintaining stability and harmony among nations.
  • Effective transboundary cooperation in the sustainable management of water resources is essential to realize benefits across various sectors, including health, food and energy security, disaster resilience, education, improved standards of living, employment, economic development, and the preservation of ecosystem services.

Conclusion

As the global struggle for clean water access continues for approximately two billion people, the ever-increasing demand for this precious resource directly impacts our collective well-being and peace. In order to build a sustainable future, we must prioritize water conservation efforts that transcend political boundaries, fostering regional cooperation and stability. By recognizing the urgency of this challenge, we can work together to ensure a secure and equitable water supply for generations to come.

Why is it in the News?

Increasing women’s representation in green jobs will lead to benefits such as boosting a low-carbon and environmentally sustainable economy

Context:

• The worldwide movement towards low-carbon development presents India with a distinctive opportunity for progress.
• Nevertheless, this transition brings forth a gender disparity challenge, as men tend to transition to green jobs more rapidly than women.
• Hence, it's crucial to delve into the gender aspects of India's green transition, highlighting the imperative for women's empowerment and gender equality in climate initiatives.

What are Green Jobs?

• Green jobs represent a category of employment directly benefiting the planet and contributing to overall environmental well-being.
• These roles are geared towards mitigating the negative environmental impact of various economic sectors and advancing the creation of a low-carbon economy.
• Occupations involving renewable energy, resource conservation, and the promotion of energy-efficient practices fall under this umbrella.
• The International Labour Organization characterizes green jobs as 'decent jobs that contribute to the preservation or restoration of the environment.'
• They encompass diverse sectors such as manufacturing, construction, renewable energy, energy efficiency, and automobiles, historically characterized by lower female representation.

Gender Disparity in Green Jobs:

• Globally, men tend to transition to green jobs at a faster pace than women.
• Despite India's significant increase in renewable energy capacity by 250% between 2015 and 2021, women constitute only 11% of workers in the solar rooftop sector.
• The Annual Survey of Industries 2019-20 reveals that women workers are predominantly concentrated in industries like apparel, textile, leather, food, and tobacco.
• According to a Confederation of Indian Industry (CII) 2019 report, men make up 85% of the workforce in sectors such as infrastructure, transport, construction, and manufacturing.
• A 2023 study by the Skill Council for Green Jobs indicated that 85% of green skills training was provided to men, with over 90% of women expressing belief that social norms hinder their participation in such training.
• Restrictive social norms contributing to this disparity include perceptions that women are unsuitable for certain technical roles, safety concerns, lower representation in science, technology, engineering, and mathematics (STEM) subjects, and familial constraints.

Advantages of Women's Engagement in Green Jobs:

• Addressing Gender Bias in the Labour Market: Increased representation of women in green jobs acts as a potent remedy to entrenched gender biases in the labor market.
  • By entering traditionally male-dominated sectors like manufacturing, construction, and renewable energy, women challenge stereotypes and reshape societal perceptions of gender roles.
• Expanded Economic Opportunities: Women's greater involvement in green jobs opens up expanded economic avenues for them.
  • Participation in sectors such as renewable energy and energy efficiency enables women to access high-growth industries, fostering both economic growth and personal financial stability.
  • Beyond economic benefits, engagement in green jobs offers opportunities for women's advancement in technical and social spheres, exposing them to innovative technologies, sustainable practices, and networking opportunities.
• Empowerment of Women's Agency: The transition to green jobs empowers women by granting them agency over their economic destinies.
  • In roles contributing to environmental preservation or restoration, women find alignment with a broader sense of purpose, fostering a deeper connection to their work and its societal impact.
• Contribution to Long-Term Gender Empowerment: Participation in green jobs extends beyond immediate economic gains, contributing to the enduring empowerment of women.
  • By breaking into historically imbalanced sectors, women pave the way for future generations, inspiring young girls to pursue careers in STEM fields.
• Promotion of Environmental Stewardship: Women's involvement in green jobs resonates with their recognized role as custodians of the environment.
  • With a nuanced understanding of the interconnectedness of social and ecological systems, women offer unique perspectives to the development and implementation of sustainable practices within green industries.

Way Forward:

• Addressing Data Gaps: Rectifying the lack of data is imperative to understand the landscape of women's participation in green jobs in India.
  • Initiatives should focus on mapping emerging areas for green growth and collecting sex-disaggregated data on green jobs to enhance women's engagement.
  • Conducting gender analysis, gathering gender statistics through periodic labor force surveys, and mobilizing additional resources can shed light on the present and future impact of low-carbon transitions on women workers and entrepreneurs. 
• Supporting Women Entrepreneurs: Gender-targeted financial policies and products tailored to the needs of women entrepreneurs can catalyze their entry into the green transition market.
  • Measures such as collateral-free lending, financial literacy training, and establishing supportive networks are crucial to unlock their potential.
  • Developing appropriate tools to assess creditworthiness, facilitate loan disbursement, and reduce operational costs for women-owned businesses is essential.
• Promoting a Gender-Just Transition: A comprehensive strategy for a gender-just transition encompasses employment, social protection, reduction of care work burden, and skill development.
  • Collaboration among government, private sectors, and stakeholders is essential to harness innovation, technology, and finance for women entrepreneurs and workers.
  • Businesses must prioritize gender justice to mitigate barriers and promote equitable job opportunities for a fair transition.

Conclusion

As India navigates its green transition, prioritizing women's empowerment and gender equity in climate actions is essential for unlocking the co-benefits of a low-carbon and environmentally sustainable economy. Bridging the gender gap in green jobs requires concerted efforts to address social norms, collect gender-disaggregated data, and implement inclusive policies. This is not only an economic imperative but a crucial step towards building a socially equitable and inclusive future for all.

Why is it in the News?

By 2030, India wants to set up 500 GW of non-fossil fuel power generating capacity but the problem is that the availability of the minerals is not enough. One needs to process it and manufacture the final product which also means access to technology.

Background:

• As the world shifts towards decarbonization and faces growing demand for critical minerals, governments worldwide are strategically securing access to these vital resources.
• In alignment with this trend, the Indian government has amended mining laws to encourage private sector involvement in the extraction and processing of critical minerals.

Importance of Critical Minerals:

• Driving Decarbonization and Clean Energy Technologies: Critical minerals are pivotal for clean energy technologies such as solar PV plants, wind farms, and electric vehicles, essential for global decarbonization efforts.
  •   According to the International Energy Agency (IEA), a substantial portion of minerals like copper, rare earths, nickel, cobalt, and lithium will be crucial for meeting Paris Agreement targets.
• Transforming the Transportation Sector: Electric vehicles (EVs) rely heavily on critical minerals like lithium, cobalt, and nickel for their battery production.
  •  As countries shift towards EV adoption, the demand for these minerals is expected to soar, driving sustainable transportation initiatives.
• Essential in Consumer Electronics: Critical minerals are vital for producing consumer electronics such as smartphones, laptops, and tablets.
  • Rare earth elements and other minerals enable the miniaturization and enhanced performance of electronic devices.
• Supporting the Construction Industry: Critical minerals contribute to the production of high-strength alloys, cement, and other building materials in the construction sector.
  • These minerals enhance the durability and efficiency of construction materials, promoting sustainability in infrastructure projects.
• Ensuring Defence and National Security: In the defense sector, critical minerals are indispensable for advanced weaponry and communication systems.
  • Securing a stable supply of these minerals is critical for maintaining national security and technological superiority.
• Vital for Fertilizers and Agriculture: Minerals like phosphorus and potassium are essential components in fertilizers, crucial for enhancing crop yields and ensuring global food security.
• Crucial for Industrial Magnets: Neodymium, praseodymium, and dysprosium, critical minerals, are crucial for manufacturing magnets used in various industries.
  • These magnets are integral components in technologies ranging from electric motors to medical devices.

Geopolitical Dynamics of Critical Minerals and Global Ramifications:

• Economic Dynamics: The geographical concentration of critical mineral resources in select countries like Australia, China, the Democratic Republic of Congo (DRC), Indonesia, and Chile fosters economic dependencies.
  • Nations with substantial reserves enjoy advantages in revenue generation, job creation, and overall economic development, potentially leading to global economic disparities.
• Geopolitical Power Play: The strategic significance of critical minerals turns their extraction and processing into geopolitical instruments, enabling nations to wield influence on the global stage.
  • China, notably, has leveraged its dominance in rare earths to exert political pressure, exemplified by restrictions on exports to countries such as the US and Japan.
  • China's control over critical minerals, coupled with its monopolized processing capacity, carries significant geopolitical implications, prompting international collaborations like the US-led Minerals Security Partnership (MSP) to secure supply chains and reduce dependence on authoritarian regimes.
• Supply Chain Vulnerability: The concentration of critical mineral resources in specific regions raises concerns about the vulnerability of global supply chains.
  • Political instability, trade conflicts, or other geopolitical events in major producing nations can disrupt the supply of critical minerals, adversely affecting industries reliant on them.

India's Objectives and Hurdles in Acquiring Critical Minerals:

• Pursuit of Decarbonization Goals and Energy Transition: India has outlined ambitious objectives for decarbonization, aiming for net-zero emissions by 2070 and establishing 500 GW of non-fossil fuel power generation capacity by 2030.
  • Embracing renewable energy sources, electric vehicles, and sustainable practices underscores India's dedication to combatting climate change.
• Heavy Reliance on Imports: Despite possessing identified reserves, India heavily depends on imports to meet its demand for critical minerals.
  • This import dependency presents significant challenges, exposing the nation to global market fluctuations, supply chain disruptions, and potential geopolitical tensions.
• Strategic Agreements for Exploration: Acknowledging the necessity to reduce import reliance, India has forged strategic agreements, such as the one with Australia, to jointly explore critical minerals like lithium and cobalt.
  • Collaborations with resource-rich nations aim to secure access to raw materials and diversify sources beyond traditional suppliers.
• Lack of Domestic Processing Capacity: Identifying critical minerals marks only the initial step; subsequent processing and manufacturing require advanced technology and infrastructure.
  • India encounters challenges in building domestic processing capacity, contributing to an extended gestation period before achieving self-reliance.
  • Apart from raw material availability, accessing advanced processing technology remains crucial, emphasizing the importance of technology transfer and collaborative ventures with proficient countries.
• Participation in International Collaborations: India's engagement in the US-led MSP illustrates its dedication to fostering strategic partnerships for securing the critical minerals supply chain.
  • The MSP encompasses countries with critical mineral deposits and access to processing technology, fostering a collective endeavor to surmount challenges.

Noteworthy Actions Undertaken by the Indian Government:

• Identification of Critical Minerals: In July 2023, India took a significant stride by identifying a list of 30 critical minerals, distinct from rare earths.
  • Each mineral was selected based on criteria such as disruption potential, substitutability, cross-cutting usage, import reliance, and recycling rates.
  • The identified minerals are predominantly concentrated in states and union territories, including Bihar, Gujarat, Jharkhand, Odisha, Tamil Nadu, Uttar Pradesh, Chhattisgarh, and Jammu and Kashmir.
• Amendment of Existing Mining Laws: Subsequently, in November 2023, the Indian government amended existing mining laws to facilitate private sector participation in the auction of 20 blocks containing critical minerals and rare earths.
  • This amendment signifies a notable shift in India's mineral sector, unlocking opportunities for private enterprises to engage in the extraction and processing of these vital resources.

Conclusion

There is a mounting concern that the limited access to critical minerals could pose a substantial obstacle to India's ambitious journey towards decarbonization. The achievement of decarbonization objectives hinges on surmounting challenges associated with import reliance, processing capabilities, and technological advancements.

Why is it in the News?

The global economic impact of land degradation on ecosystem services amounts to an estimated $6 trillion annually.

Context:

• Land plays a crucial role across various human endeavors, offering ecological, economic, social, and cultural benefits.
• However, the multi-faceted nature of land is often overlooked in management practices, leading to heightened stress, degradation, and environmental strain.
• Globally, land degradation results in annual losses of ecosystem services estimated at USD 6 trillion.
• The 14th Conference of Parties (COP14) of the United Nations Convention to Combat Desertification (UNCCD), held in New Delhi in 2019, highlighted the widespread challenge of land degradation faced by different nations and emphasized the importance of achieving Land Degradation Neutrality (LDN).

What is Land Degradation?

• Land degradation refers to the deterioration of the quality and productivity of land resources, typically caused by human activities and natural processes.
• It involves the loss of soil fertility, reduction in vegetation cover, depletion of water resources, and overall decline in the capacity of the land to support various ecosystem functions and human activities.
• Land degradation can take various forms, including soil erosion, desertification, deforestation, salinization, and contamination by pollutants.
• It poses significant environmental, economic, and social challenges, impacting agricultural productivity, food security, biodiversity, and the livelihoods of millions of people around the world.
• Addressing land degradation is crucial for sustainable land use, environmental conservation, and the well-being of present and future generations.

What is the Current Status of Land Degradation in India?

• From 2015 to 2019, UNCCD data reported that 30.51 million hectares of India's land had degraded, accounting for 9.45% of the nation's total landmass by 2019, up from 4.42% in 2015.
• During this period, 251.71 million Indians, constituting 18.39% of the population, were exposed to land degradation, with 854.4 million individuals experiencing drought from 2015 to 2018.
• According to the Desertification and Land Degradation Atlas of India, published by the Space Applications Centre (SAC) of the Indian Space Research Organisation (ISRO), the extent of land degradation and desertification in India reached 97.84 million hectares in 2018-19.
• This atlas offers state-wise data on degraded land, aiding in the planning and execution of initiatives aimed at land restoration by providing crucial data and technical insights.

Global Scenario:

• Land degradation exhibits significant regional variations, with Sub-Saharan Africa, Western and Southern Asia, Latin America, and the Caribbean witnessing degradation rates surpassing the global average between 2015 and 2019.
• In Eastern and Central Asia, Latin America, and the Caribbean, over 20% of the total land area faced severe degradation by 2019.
• Since 2015, Sub-Saharan Africa saw its degraded land increase from 6.7% to 14.63%, while Western Asia and Northern Africa experienced a rise from 3.78% to 7.18%.

What are the Different Causes of Land Degradation?

• Deforestation: Driven by population growth and resource demand, deforestation weakens soil structure, making it prone to erosion by wind and water.
  • Deforestation is particularly rampant in areas like Maharashtra, Rajasthan, Madhya Pradesh, and Gujarat.
• Mineral Processing: Industries such as limestone grinding and ceramic production release substantial dust, settling in surrounding areas and contributing to land degradation.
• Soil Erosion: Processes like water flow, wind, rainfall, and landslides strip away the fertile topsoil layer, leaving behind less fertile subsoil, and rendering land unsuitable for cultivation and agriculture.
• Overgrazing: Excessive grazing by animals removes grass cover, making soil susceptible to erosion by wind and water.
  • This phenomenon, common in hilly areas like Maharashtra, Rajasthan, Madhya Pradesh, and Gujarat, disrupts soil structure and fertility.
• Over-Irrigation: In states like Punjab, Haryana, and Uttar Pradesh, excessive irrigation leads to soil salinity and alkalinity, diminishing its fertility and suitability for agriculture.
• Mining Sites: After mining activities, abandoned sites leave deep scars and harmful materials that degrade the soil, rendering it unsuitable for productive use.
  • Deforestation due to mining in states like Chhattisgarh, Jharkhand, Madhya Pradesh, and Odisha exacerbates land degradation.
• Industrial Effluents: Waste disposal from industries is a significant source of land and water pollution, contributing to land degradation.
• Mining and Developmental Projects: Large-scale clearing of forests for mining and construction projects further accelerates land degradation under the guise of development.
• Commercial Exploitation of Forests: High-value trees and plants are harvested for economic gain, disrupting soil-plant interactions essential for soil stability.
  • Overgrazing, mining, agricultural expansion, floods, and forest fires are key drivers of deforestation, exacerbating land degradation.
• Desertification: Human activities and climate change contribute to desert-like conditions in arid or semi-arid regions, leading to the spread of sand onto fertile agricultural lands, reducing soil fertility, and hampering agricultural productivity.

Challenges in the Management of Land Degradation in India:

• India with only 2.4% of the world’s geographical area and more than 17% of the world's population experiences several land management challenges.
• Arable land in India is around 55% of the total geographical area and forest cover accounts for another 22%.
  • The rest is desert, mountains, etc.
• Around 30% of the total geographical area is degraded land.
• Access to agricultural land continues to be an important livelihood issue as a significant share of the population depends on agriculture for their sustenance.
• Development targets and the demand for land to accommodate the growing population, infrastructure, rapid urbanization, and social, cultural, and environmental aspects are placing unprecedented pressure on land.
  • This is resulting in more competition among farmers and between agriculture and other land resource-based sectors, as well as land use conflicts, escalation of land prices, and changing land rights.
• Across the country, natural areas are being squeezed and ecological functions are being lost.
• Not only does this adversely affect the livelihood opportunities of the people who directly depend on environmental resources, but also the buffering effects of natural ecosystems in the face of disasters such as floods and droughts, temperature rise, and environmental pollution are severely compromised.
• Climate change has brought with it another set of challenges.
• In India, current land management practices are sectoral with each department following its own approach.
  • Land management falls under the purview of State governments.
• Further, cultural land is privately owned and land-use decisions are constitutionally vested with the owner.
• Apart from this administrative complexity, the challenges to adopting and implementing appropriate land management practices in the country include knowledge gaps, a short-term planning bias, a fragmented approach, a lack of action for unforeseen events, and regulatory barriers.

What Steps Need to be Taken for Land Management?

• Set up a Multi-stakeholder Platform: As a critical mechanism to achieving sectoral integration and addressing these challenges, it is imperative to set up a multi-stakeholder platform at the district and sub-district levels to bring together farmers, other land managers, policymakers, civil society organizations, business leaders, and investors under a common platform.
  • Article 243ZD (1) of the Constitution provides for district planning committees to consolidate plans from panchayats and municipalities.
  • This committee may be activated in the direction of preparing a land management plan, covering both agricultural and non-agricultural sectors.
• Landscape Approach: A landscape approach will be useful in this context as it will provide deep insights to assess the potential of land and the scope of allocation and reallocation of land for appropriate uses.
  • This will help with evaluation, negotiation, trade-off, and decision-making.
  • A climate-smart landscape approach will contribute to climate objectives, increased agricultural production, improved local livelihoods, and the conservation of biodiversity.

Government Initiatives to Combat Land Degradation and Desertification in India:

• Desertification and Land Degradation Atlas of India, published by Space Applications Centre (SAC) Indian Space Research Organisation, Ahmedabad, which provides the extent of land degradation and desertification in India, states that the land degradation and desertification in the country has been estimated to be 97.84 million hectares in 2018-19.
  • It provides state-wise areas of degraded land which is helpful in the planning and implementation of schemes aimed at the restoration of land by providing important data and technical inputs.
• An online portal has been developed with the help of Space Application Center(SAC), Ahmedabad for visualization of degraded areas of land with the processes causing degradation.
• A Centre of Excellence has been envisaged at the Indian Council for Forestry Research and Education (ICFRE) Dehradun for enhanced South-South Cooperation.
  • It aims at knowledge sharing, promotion of best practices, sharing India’s experiences with cost-effective and sustainable land management strategies, developing ideas for transformative projects and programs, and capacity building.

Way Forward:

• Advancing Integrated Landscape Management: Despite existing on-ground experiences, there is a lack of systematic institutional support for this approach, highlighting the need for concerted efforts to promote it.
• Embracing the Value of Landscape: Echoing the European Landscape Convention's recognition of landscape as vital for individual and societal well-being, greater emphasis should be placed on understanding and preserving landscapes.
• Recognizing the Role of Sustainable Land Management: Reports like the U.K. Parliamentary Office of Science and Technology's assessment underscore the importance of managing land sustainably for environmental benefits, including addressing climate change, ensuring food security, and mitigating biodiversity loss.
• Parliamentary Action in India: Indian lawmakers can spearhead discussions on the evolving challenges of integrated land management practices and play a pivotal role in crafting policies for long-term sustainability.
• This necessitates the involvement of stakeholders at all levels, fostering collaboration horizontally and vertically across the spectrum.