Climate Change Impact on India and World – International Reports, Key Observations, etc.

Climate Change: Urgent Action Needed for a Sustainable Future

Note4Students

From UPSC perspective, the following things are important :

Prelims level: Extreme weather events phenomenon exacerbated by climate change and Impact on Indian monsoon

Mains level: Climate change induced severity of weather events, impacts and Responsibility of Wealthier Nations in Addressing the Climate Crisis

Climate

Central Idea

  • The recent reports on the southwest monsoon in India have sparked concerns about the impact of climate change on weather patterns. The adverse consequences of extreme weather events, such as floods, droughts, and crop damage, highlight the urgent need to address the climate crisis. The World Meteorological Organisation’s alarming report on global temperatures crossing the 1.5 degrees Celsius mark underscores the severity of the climate emergency.

How the Government Actions are Not Sufficient to Address the Climate Crisis?

  • Insufficient Emissions Reduction Targets: Many governments have set emissions reduction targets that are insufficient to meet the goals outlined in international agreements such as the Paris Agreement. These targets often fall short of what is required to limit global warming to well below 2 degrees Celsius above pre-industrial levels.
  • Slow Implementation of Renewable Energy Policies: Governments have been slow to implement and scale up policies and incentives to promote renewable energy sources. The transition to renewable energy is crucial for reducing greenhouse gas emissions, but many governments have not provided adequate support or created an enabling environment for renewable energy development.
  • Reliance on Fossil Fuels: Governments continue to subsidize and support the fossil fuel industry, which contributes significantly to greenhouse gas emissions. These subsidies impede the transition to cleaner energy sources and perpetuate the use of fossil fuels, despite their detrimental environmental impact.
  • Inadequate Climate Finance: The provision of climate finance, particularly from wealthier nations to developing countries, has fallen short of what is needed. The quantum of climate finance has not met the estimated requirements for adaptation and mitigation efforts outlined in international agreements like the Paris Agreement. This lack of financial support hinders developing countries’ ability to effectively address climate change.
  • Limited Investment in Sustainable Infrastructure: Governments have been slow to invest in sustainable infrastructure projects that promote low-carbon transportation, energy-efficient buildings, and resilient urban planning. Without substantial investment in sustainable infrastructure, the transition to a low-carbon economy becomes more challenging.
  • Weak Climate Policy Coordination: There is often a lack of coordination and collaboration between different government departments and agencies responsible for climate policy. This can lead to fragmented approaches and hinder the implementation of effective climate strategies.
  • Insufficient Climate Education and Public Awareness: Governments have not done enough to educate the public about the severity and urgency of the climate crisis. This lack of awareness can limit public support for climate action and impede the adoption of sustainable behaviours and practices.
  • Inadequate Preparedness for Climate Impacts: Governments have been slow to invest in measures to adapt to the impacts of climate change, such as building resilient infrastructure, implementing early warning systems, and developing climate-resilient agriculture practices. This leaves communities vulnerable to the adverse effects of climate change.

The Adverse Consequences of Extreme Weather Events Exacerbated by Climate Change

  • Loss of Human Lives: Extreme weather events, such as hurricanes, floods, heatwaves, and storms, can result in the loss of human lives. These events pose direct threats to individuals through injuries, drowning, and other hazards associated with severe weather conditions.
  • Physical Injuries and Health Impacts: Extreme weather events often lead to physical injuries, including cuts, fractures, and trauma. Additionally, they can have significant health impacts, such as heat-related illnesses, respiratory problems from air pollution, and waterborne diseases in the aftermath of floods.
  • Displacement and Homelessness: Severe weather events can displace large numbers of people from their homes. Flooding, hurricanes, and wildfires can destroy or severely damage houses, forcing individuals and communities to evacuate and seek temporary or long-term shelter.
  • Infrastructure Damage: Extreme weather events can cause substantial damage to infrastructure, including roads, bridges, buildings, and power lines. This damage hampers transportation, communication, and access to essential services, disrupting daily life and impeding recovery efforts.
  • Agricultural and Livelihood Losses: Droughts, floods, and storms can have devastating effects on agriculture and livelihoods. Crop failures, soil erosion, and livestock losses can result in food shortages, increased food prices, and economic instability for farmers and rural communities.
  • Economic Losses: Extreme weather events impose significant economic burdens on affected regions. Costs associated with repairing infrastructure, rebuilding homes, and restoring businesses can be substantial. Moreover, disruptions to industries such as tourism, agriculture, and manufacturing can lead to job losses and economic downturns.’
  • Ecological Impacts: Extreme weather events can cause ecological disruptions and harm biodiversity. For example, wildfires destroy habitats, leading to the loss of plant and animal species. Flooding can contaminate water bodies and disrupt aquatic ecosystems.
  • Social and Psychological Impact: The aftermath of extreme weather events can take a toll on individuals’ mental and emotional well-being. Displacement, loss of homes, and the challenges of recovery can lead to stress, anxiety, and trauma, both in the short and long term.

Climate

Responsibility of Wealthier Nations in Addressing the Climate Crisis

  • Historical Emissions: Wealthier nations, particularly industrialized countries, have historically been the largest contributors to global greenhouse gas emissions. Their extensive use of fossil fuels and industrial activities over the years has significantly contributed to the current climate crisis. As such, they bear a responsibility for their historical emissions and the consequent impacts on the climate.
  • Technological and Financial Capacity: Wealthier nations possess greater technological and financial resources to invest in clean energy technologies, adaptation measures, and climate mitigation strategies. Their capacity to support research and development, innovation, and the deployment of sustainable technologies can play a crucial role in addressing the climate crisis.
  • Climate Finance: Wealthier nations have an obligation to provide financial support to developing countries that are more vulnerable to climate change impacts but have fewer resources to address them. This includes fulfilling commitments under the United Nations Framework Convention on Climate Change (UNFCCC) to provide climate finance for adaptation and mitigation efforts in developing nations.
  • Net Carbon Imports: Wealthier nations often rely on imported goods and services produced in countries with lower labor and environmental standards. These nations have a responsibility to account for the carbon emissions associated with their consumption and work towards reducing the carbon footprint of their supply chains.
  • Technology Transfer and Capacity Building: Wealthier nations can facilitate the transfer of clean and sustainable technologies to developing countries, assisting them in their climate mitigation and adaptation efforts. Capacity building initiatives can empower developing nations to implement effective climate solutions and build resilience.

Climate

Scalable Solutions and Renewable Energy for sustainable Future

  • Utility-Scale Solar Power: Solar energy has become one of the most scalable and cost-effective sources of power. Large-scale solar installations, such as solar farms and solar parks, can generate significant amounts of electricity and contribute to reducing greenhouse gas emissions.
  • Wind Power: Wind farms, consisting of multiple wind turbines, can generate substantial amounts of electricity, particularly in regions with consistent wind patterns. Advances in wind turbine technology, including larger and more efficient turbines, have increased the capacity and scalability of wind power.
  • Global Growth of Renewable Energy: Renewable energy sources, including solar, wind, hydropower, and geothermal, have experienced significant global growth in recent years. In 2022, 90 percent of the world’s power sector growth came from renewables.
  • Falling Costs of Renewable Energy: The cost of renewable energy technologies, particularly solar and wind, has been steadily declining. This cost reduction has made renewable energy more economically attractive and scalable, even without subsidies. The decreasing costs of solar panels, wind turbines, and energy storage systems have contributed to the rapid growth of renewable energy installations worldwide.
  • Expansion of Renewable Energy Capacity: Many countries have reported significant expansions of their renewable energy capacity. By increasing investments in renewable energy infrastructure, such as solar and wind power plants, countries have been able to scale up their clean energy generation and reduce dependence on fossil fuels.
  • Renewable Energy in Developing Countries: Renewable energy is playing an increasingly important role in providing electricity access to developing countries. Off-grid solar power systems and mini-grids have allowed communities without access to centralized electricity grids to meet their energy needs sustainably. This decentralized approach to renewable energy deployment has facilitated scalability and expanded energy access.

Way Ahead: Opportunities for the Fossil Fuel Industry

  • Expertise in Energy Technology: The fossil fuel industry possesses significant expertise in energy technology and infrastructure. This expertise can be leveraged to facilitate the development and deployment of renewable energy technologies. Fossil fuel companies can apply their engineering, project management, and operational skills to support the scaling up of renewable energy projects.
  • Investment in Renewable Energy: Fossil fuel companies have the financial resources to invest in renewable energy projects. By diversifying their portfolios and investing in renewable energy technologies, they can contribute to the growth and scalability of clean energy.
  • Offshore Capabilities: The offshore capabilities of the fossil fuel industry, particularly in areas such as offshore drilling and exploration, can be utilized in the development of offshore renewable energy sources. Offshore wind farms, for example, can benefit from the industry’s experience in offshore operations and infrastructure, facilitating the growth of this sector.
  • Clean Energy Retail: Fossil fuel companies can become providers of clean energy to support the growing demand for renewable energy. By incorporating renewable energy sources into their energy portfolios and retailing clean energy, they can play a significant role in accelerating the adoption of renewables and facilitating the energy transition.
  • Carbon Capture and Storage (CCS): The fossil fuel industry can invest in and develop carbon capture and storage technologies. CCS technologies capture and store carbon dioxide emissions from fossil fuel power plants and industrial processes, reducing their environmental impact. By implementing CCS technologies, the industry can mitigate its carbon emissions while continuing to utilize fossil fuels during the transition period.
  • Hydrogen Production: Fossil fuel companies can leverage their existing infrastructure and knowledge to participate in the production of clean hydrogen. Hydrogen produced through renewable energy sources, such as electrolysis, can be used as a low-carbon fuel or feedstock, providing an alternative to traditional fossil fuel-based processes.
  • Energy Transition Workforce: The fossil fuel industry can support the transition by retraining and transitioning its workforce to work in renewable energy sectors. This can help mitigate the potential negative impacts on jobs and livelihoods associated with the decline of the fossil fuel industry, ensuring a just transition for workers.

Conclusion

  • Climate change poses a grave threat to our planet and demands immediate and determined action from governments, corporations, and individuals. The reports of subpar southwest monsoon rains in India serve as a reminder of the increasing variability caused by climate change. The time for transformative change is now, and by adopting a long-term commitment to reducing emissions and investing in sustainable technologies, we can pave the way to a better and more resilient future

Also read:

Climate Change and the role of Panchayat Raj Institutes (PRI’s)

 

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