Blue Modern Climate Change Mitigation Presentation.pdf
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Oct 30, 2025
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About This Presentation
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Slide Content
Presented ByINNOVATIVE SOLUTIONS FOR CLIMATE CHANGE MITIGATION
Creative and sophisticated strategies that
reduce greenhouse gas emissions and promote
sustainability to combat climate change.
Korina Villanueva
LICERIA & CO.
Creative and sophisticated strategies that
reduce greenhouse gas emissions and promote
sustainability to combat climate change.
Korina Villanueva
LICERIA & CO.
The Need for
Climate Change Mitigation
The Need for Climate Change Mitigation arises from the urgent threat
posed by rising global temperatures, extreme weather events, and
environmental degradation. Without decisive action, climate change
will lead to severe consequences, including biodiversity loss, food
and water insecurity, and economic instability. Mitigation efforts, such
as reducing greenhouse gas emissions, transitioning to renewable
energy, and adopting sustainable practices, are essential to limit
global warming and protect ecosystems. By prioritizing mitigation, we
can safeguard the planet for future generations while fostering
resilience and ensuring sustainable development.
Climate Change Mitigation
The Need for Climate Change Mitigation arises from the urgent threat
posed by rising global temperatures, extreme weather events, and
environmental degradation. Without decisive action, climate change
will lead to severe consequences, including biodiversity loss, food
and water insecurity, and economic instability. Mitigation efforts, such
as reducing greenhouse gas emissions, transitioning to renewable
energy, and adopting sustainable practices, are essential to limit
global warming and protect ecosystems. By prioritizing mitigation, we
can safeguard the planet for future generations while fostering
resilience and ensuring sustainable development.
The Impact of
Climate Change
The Impact of Climate Change is profound and
far-reaching, affecting the environment, society,
and economies worldwide. Rising global
temperatures lead to melting polar ice caps,
rising sea levels, and more frequent extreme
weather events such as hurricanes, droughts,
and floods. These changes disrupt ecosystems,
causing species extinction and threatening
biodiversity.
Additionally, climate change exacerbates food
and water shortages, increases health risks, and
intensifies economic disparities, especially in
vulnerable communities. Addressing these
impacts requires immediate action to reduce
emissions, adapt to changing conditions, and
build a sustainable and resilient future.
Climate Change
The Impact of Climate Change is profound and
far-reaching, affecting the environment, society,
and economies worldwide. Rising global
temperatures lead to melting polar ice caps,
rising sea levels, and more frequent extreme
weather events such as hurricanes, droughts,
and floods. These changes disrupt ecosystems,
causing species extinction and threatening
biodiversity.
Additionally, climate change exacerbates food
and water shortages, increases health risks, and
intensifies economic disparities, especially in
vulnerable communities. Addressing these
impacts requires immediate action to reduce
emissions, adapt to changing conditions, and
build a sustainable and resilient future.
Mitigation vs Adaptation
Mitigation vs Adaptation represents two complementary approaches to addressing climate change.
Focuses on reducing or preventing the emission of greenhouse gases to slow down global warming.
This includes transitioning to renewable energy, improving energy efficiency, and reforestation to
capture carbon dioxide. The goal is to address the root cause of climate change and limit its severity.
Mitigation
Adaptation, on the other hand, involves adjusting to the impacts of climate change that are already
happening or anticipated. This includes building resilient infrastructure, developing drought-resistant
crops, and improving disaster response systems. The aim is to minimize harm and enhance the ability
to cope with climate-related challenges.
Adaptation
Mitigation vs Adaptation represents two complementary approaches to addressing climate change.
Focuses on reducing or preventing the emission of greenhouse gases to slow down global warming.
This includes transitioning to renewable energy, improving energy efficiency, and reforestation to
capture carbon dioxide. The goal is to address the root cause of climate change and limit its severity.
Mitigation
Adaptation, on the other hand, involves adjusting to the impacts of climate change that are already
happening or anticipated. This includes building resilient infrastructure, developing drought-resistant
crops, and improving disaster response systems. The aim is to minimize harm and enhance the ability
to cope with climate-related challenges.
Adaptation
Renewable
Energy Solutions
Renewable Energy Solutions are sustainable methods
of generating power that rely on naturally replenished
resources, reducing reliance on fossil fuels and cutting
greenhouse gas emissions. Key solutions include:
Energy Solutions
Solar Energy
Biomass Energy
Hydropower
Geothermal Energy
Energy Solutions
Renewable Energy Solutions are sustainable methods
of generating power that rely on naturally replenished
resources, reducing reliance on fossil fuels and cutting
greenhouse gas emissions. Key solutions include:
Energy Solutions
Solar Energy
Biomass Energy
Hydropower
Geothermal Energy
Wind Energy
Capturing wind power using turbines to produce clean electricity.
Solar Energy
Harnessing sunlight through solar panels for electricity or heating.
Hydropower
Utilizing water flow in rivers or dams to generate energy.
Geothermal Energy
Extracting heat from beneath the Earth's surface for electricity and heating.
Biomass Energy
Converting organic materials like agricultural waste into fuel.
Capturing wind power using turbines to produce clean electricity.
Solar Energy
Harnessing sunlight through solar panels for electricity or heating.
Hydropower
Utilizing water flow in rivers or dams to generate energy.
Geothermal Energy
Extracting heat from beneath the Earth's surface for electricity and heating.
Biomass Energy
Converting organic materials like agricultural waste into fuel.
Energy Efficiency Technologies
Energy Efficiency Technologies focus on using less energy to perform the same tasks, reducing waste
and conserving resources. These technologies improve energy use across various sectors:
LED bulbs and automated lighting systems adjust
brightness based on occupancy or natural light, cutting
energy consumption.
Smart Lighting
Advanced heating, ventilation, and air conditioning
systems optimize energy use while maintaining comfort.
Efficient HVAC Systems
Energy Efficiency Technologies focus on using less energy to perform the same tasks, reducing waste
and conserving resources. These technologies improve energy use across various sectors:
LED bulbs and automated lighting systems adjust
brightness based on occupancy or natural light, cutting
energy consumption.
Smart Lighting
Advanced heating, ventilation, and air conditioning
systems optimize energy use while maintaining comfort.
Efficient HVAC Systems
Equipment upgrades, energy monitoring systems, and waste heat recovery improve energy use in
manufacturing.
Industrial Efficiency
High-performance insulation materials reduce heating and cooling needs.
Building Insulation
Modern refrigerators, washing machines, and other appliances use less electricity without
compromising performance.
Energy-Efficient Appliances
manufacturing.
Industrial Efficiency
High-performance insulation materials reduce heating and cooling needs.
Building Insulation
Modern refrigerators, washing machines, and other appliances use less electricity without
compromising performance.
Energy-Efficient Appliances
Carbon Capture
and Storage (CCS)
Carbon Capture and Storage (CCS) is a technology
designed to reduce greenhouse gas emissions by
capturing carbon dioxide (CO₂) from industrial processes
or power generation and securely storing it underground.
The process involves three main steps:
Capture Transport Storage
and Storage (CCS)
Carbon Capture and Storage (CCS) is a technology
designed to reduce greenhouse gas emissions by
capturing carbon dioxide (CO₂) from industrial processes
or power generation and securely storing it underground.
The process involves three main steps:
Capture Transport Storage
Capture
CO₂ is separated from other
gases at the source, such as
power plants or factories,
using advanced chemical or
physical methods.
Transport
The captured CO₂ is
transported via pipelines or
ships to a storage site.
Storage
The CO₂ is injected into
deep geological formations,
such as depleted oil and gas
fields or saline aquifers,
where it is safely contained.
CO₂ is separated from other
gases at the source, such as
power plants or factories,
using advanced chemical or
physical methods.
Transport
The captured CO₂ is
transported via pipelines or
ships to a storage site.
Storage
The CO₂ is injected into
deep geological formations,
such as depleted oil and gas
fields or saline aquifers,
where it is safely contained.
Nature-Based Solutions
Nature-Based Solutions (NbS) are strategies that use
natural processes and ecosystems to address
environmental challenges, including climate change,
while also providing social and economic benefits. These
solutions work with nature to protect, restore, or
sustainably manage ecosystems, enhancing their ability
to absorb carbon, regulate water, and support
biodiversity. Key examples include:
Reforestation and Afforestation
Wetland Restoration
Coastal Ecosystem Protection
Agroforestry
Nature-Based Solutions (NbS) are strategies that use
natural processes and ecosystems to address
environmental challenges, including climate change,
while also providing social and economic benefits. These
solutions work with nature to protect, restore, or
sustainably manage ecosystems, enhancing their ability
to absorb carbon, regulate water, and support
biodiversity. Key examples include:
Reforestation and Afforestation
Wetland Restoration
Coastal Ecosystem Protection
Agroforestry
Innovative
Transportation Systems
Innovative Transportation Systems refer to new and advanced methods of
moving people and goods that prioritize sustainability, efficiency, and
reduced environmental impact. These systems aim to reduce greenhouse
gas emissions, alleviate congestion, and enhance the overall efficiency of
transportation networks. Key examples include:
Electric Vehicles (EVs)
Autonomous Vehicles
Public Transit Electrification
Bicycle-Sharing Programs
Hyperloop Technology
Mobility as a Service (MaaS)
Transportation Systems
Innovative Transportation Systems refer to new and advanced methods of
moving people and goods that prioritize sustainability, efficiency, and
reduced environmental impact. These systems aim to reduce greenhouse
gas emissions, alleviate congestion, and enhance the overall efficiency of
transportation networks. Key examples include:
Electric Vehicles (EVs)
Autonomous Vehicles
Public Transit Electrification
Bicycle-Sharing Programs
Hyperloop Technology
Mobility as a Service (MaaS)
Sustainable Agriculture
Sustainable Agriculture refers to farming practices that meet current food and textile needs without
compromising the ability of future generations to meet their own needs. It focuses on maintaining the
health of the environment, supporting economic viability, and promoting social equity. Key practices
include:
Using natural methods for pest control, crop rotation, and soil fertility instead of synthetic fertilizers
and pesticides.
Integrating trees and other vegetation into agricultural landscapes to improve biodiversity, soil
health, and water retention.
Reducing or eliminating plowing to improve soil structure, reduce erosion, and enhance water
retention.
Organic Farming
Agroforestry
Conservation Tillage
Sustainable Agriculture refers to farming practices that meet current food and textile needs without
compromising the ability of future generations to meet their own needs. It focuses on maintaining the
health of the environment, supporting economic viability, and promoting social equity. Key practices
include:
Using natural methods for pest control, crop rotation, and soil fertility instead of synthetic fertilizers
and pesticides.
Integrating trees and other vegetation into agricultural landscapes to improve biodiversity, soil
health, and water retention.
Reducing or eliminating plowing to improve soil structure, reduce erosion, and enhance water
retention.
Organic Farming
Agroforestry
Conservation Tillage
Circular Economy
and Waste Management
Circular Economy and Waste Management focus
on creating a sustainable system where resources
are reused, recycled, and regenerated, reducing
waste and minimizing environmental impact.
Unlike the traditional linear economy (take, make,
dispose), a circular economy aims to extend the
lifecycle of products and materials through
recycling, reuse, and repurposing.
and Waste Management
Circular Economy and Waste Management focus
on creating a sustainable system where resources
are reused, recycled, and regenerated, reducing
waste and minimizing environmental impact.
Unlike the traditional linear economy (take, make,
dispose), a circular economy aims to extend the
lifecycle of products and materials through
recycling, reuse, and repurposing.
We hope this discussion has provided valuable insights
into the importance of sustainable strategies to address the
climate crisis.
123 Anywhere St., Any City
123 Anywhere St., Any City
123 Anywhere St., Any CityTHANK YOU
LICERIA & CO.
into the importance of sustainable strategies to address the
climate crisis.
123 Anywhere St., Any City
123 Anywhere St., Any City
123 Anywhere St., Any CityTHANK YOU
LICERIA & CO.
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