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Key Environmental impacts of technology: Resource Depletion: Extraction of raw materials for manufacturing technology products can lead to depletion of natural resources such as minerals, metals, and fossil fuels. Energy Consumption: Many technologies consume significant amounts of energy during manRead more
Key Environmental impacts of technology:
- Resource Depletion: Extraction of raw materials for manufacturing technology products can lead to depletion of natural resources such as minerals, metals, and fossil fuels.
- Energy Consumption: Many technologies consume significant amounts of energy during manufacturing, operation, and disposal phases, contributing to greenhouse gas emissions and climate change.
- E-waste: Rapid technological advancements result in frequent disposal of obsolete electronic devices, leading to e-waste accumulation. Improper disposal can contaminate soil and water with hazardous materials.
- Pollution: Manufacturing processes release pollutants into the air, water, and soil, impacting ecosystems and human health.
To mitigate these environmental impacts, several strategies can be implemented:
- Design for Environment: Develop technologies using eco-friendly materials, energy-efficient components, and sustainable manufacturing processes to reduce resource consumption and pollution.
- Recycling and Circular Economy: Implement effective e-waste management systems to promote recycling and reuse of electronic devices and components, minimizing landfill waste and resource depletion.
- Energy Efficiency: Promote energy-efficient technologies and practices to reduce overall energy consumption and carbon footprint during production and use.
- Policy and Regulation: Enforce stringent environmental regulations and standards for technology manufacturing and disposal, encouraging companies to adopt sustainable practices.
- Awareness and Education: Raise awareness among consumers and businesses about the environmental impacts of technology and promote responsible consumption and disposal practices.
Impact of the Green India Mission under NAPCC Introduction Green India Mission which started in 2014 through the National Action Plan on Climate Change (NAPCC) works to improve ecosystem functions and forest recovery and boost carbon storage. The climate mitigation strategy of India benefits stronglRead more
Impact of the Green India Mission under NAPCC
Introduction
Green India Mission which started in 2014 through the National Action Plan on Climate Change (NAPCC) works to improve ecosystem functions and forest recovery and boost carbon storage. The climate mitigation strategy of India benefits strongly from GIM because it works to restore 5 million hectares (Mha) of degraded land and improve existing forests.
GIM demonstrates two key environmental benefits of enhancing the carbon storage capacity while simultaneously restoring ecosystems.
1. Carbon Sequestration
Through activities involving tree plantation and afforestation GIM enables the development of carbon sinks.
Development of forest and tree resources recorded a 2,261 sq. km expansion according to the Indian State of Forest Report (ISFR 2021) which attributes this growth to forest expansion projects.
The implementation of afforestation has been sluggish since 2023 because only 1.6 Mha of land was afforested against originally intended targets.
2. Ecosystem Restoration
Through eco-restoration of biodiversity-habitats GIM has dedicated itself to preserve natural ecosystems in disrupted terrain as well as wetlands and grasslands.
Watershed management programs together with better livelihood opportunities for forest-based communities run through initiatives operated in Madhya Pradesh and Karnataka.
The delay in funding distribution and implementation setbacks have slowed down massive restoration activities.
Effectiveness and Challenges
Forest governance received a positive improvement through the process of increased awareness as well as enhanced community participation.
The program faces funding challenges because authorities only release less than half of their budgeted funds and execution proceeds at a slow pace yet it encounters resistance from mining operations and construction developments.
Conclusion
See lessThe limitations of the GIm project for carbon storage and ecological preservation exist because of insufficient funds and bureaucracy in executing its plans. The complete implementation of GIM in climate change battles requires improved budgetary support and effective monitoring systems and assemblies that deploy conservation practices through local communities.