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Climate Change & Mitigation Strategies: Global Warming, Greenhouse Gases

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Climate Change & Mitigation Strategies: Global Warming, Greenhouse Gases

  • Climate – condition of temperature, humidity, pressure, wind, rainfall, and other meteorological elements on the Earth’s surface for a long ti
  • Climate change is an old phenomenon. But currently considered as alteration in climatic conditions due to anthropogenic processes resulting in change of the global atmosphere.

CLIMATE CHANGE: GLOBAL WARMING

  • Global warming– “Global warming is a gradual increase in the earth’s temperature generally due to the greenhouse effect caused by increased levels of carbon dioxide, CFCs, and other pollutants.
  • Reasons: Greenhouse gasses released + Fossil fuels combustion + Deforestation + Agriculture & livestock.

CLIMATE CHANGE: GREEN-HOUSE EFFECT

  • A naturally occurring phenomenon that blankets earth’s lower atmosphere and warms it, maintaining temperature suitable for living things to survive.
  • They balance cooling and warming of the earth.
  • In the absence of this, earth surface temperature would be -19 degrees Celsius instead of current 15 degrees Celsius.
  • Human-induced greenhouse gas emissions upset the natural balance & lead to increased warmth.
GAS NATURAL SOURCE HUMAN-INDUCED SOURCE REMOVAL GLOBAL WARMING POTENTIAL ATM. LIFETIME (YRS)
WATER VAPOR

Biggest contributor

Evaporation from oceans etc. 

Amount of vapor in air related to amount of other greenhouse gasses present

Humans not directly responsible 

CO2 and other GHGs present increase water vapor in air

CARBON DIOXIDE (CO2)

Primary GHG

Ocean exchange, Animal/human respiration, Soil respiration, Volcanic eruptions and Wildfires Combustion of fossil fuels, Industrial emissions, Chemical & mineral reactions Reduce fossil fuel usage  

Carbon sequestration

1 50 – 200
METHANE (CH4) Wetlands, (largest)

Oceans,

Volcanic eruptions and

Wildfires

Agriculture,

Industries,

Landfills,

Waste water

Reduce waste 21 10-15
NITROUS OXIDE (N2O) Earth’s nitrogen cycle 

Bacteria breaking it down in soils and oceans

Agriculture, Transportation, Fossil fuel, combustion

During production of nitric acid

Absorbed by certain bacteria 

Destroyed by UV rays or chemical reactions

310 120
FLUORINATED GASSES:

1)Hydrofluorocarbons-HFCs.

2)Perfluorocarbons-PFCs

3)Sulphur Hexafluoride – SF6

Aluminium & semiconductor manufacturing

Refrigerants,

Aerosol, propellants,

Fire retardants,

Magnesium processing,

Circuit breakers

Destroyed by sunlight in far upper atmosphere ● HFC – 150 to 11,700

● PFC – 6,500 to 9,200

● SF6 – 23,900

● HFC – 1.5 to 209

● PFC – 2,600 to 50,000

● SF6 – 3,200

 

CLIMATE CHANGE: GREENHOUSE GASSES (GHG)

  • Natural as well as anthropogenic gaseous constituents of the atmosphere which absorb and re-emit infrared radiations.
  • 2 important characteristics of GHGs are:
  1. How well the gas absorbs energy
  2. How long the gas stays in the atmosphere.
  • Global Warming Potential (GWP) for gasses is the total energy that the gas absorbs for a certain period of time, mostly 100 years. GWP is always compared to CO2 as its GWP is ‘1’ and is baseline.
  • CFCs, HFCs, HCFCs and SF6 are called high-GWP gasses because they trap more heat than CO2.
  • BLACK CARBON: Incomplete combustion of fossil fuels + Inorganic + Contains soot (jet black color) + Cause respiratory disorders + Absorbs visible sunlight + Found in vehicular emissions.
  • BROWN CARBON: Combustion of biomass + Organic + Brown color + Causes respiratory diseases + Absorbs Ultraviolet part of sun’s rays + Ground level ozone, found in smog.
Radiative Forcings
  • Change in earth’s energy balance due to alterations in climate
  • Positive forcing – increases temperature
  • Negative forcing – reduces temperature
Natural Forcings
  • Changes in the amount of energy emitted by the sun.
  • Very slow variations in earth orbit
  • Slight increase in solar energy since industrial revolution
Human-Induced Forcings
  • Due to greenhouse gasses and aerosol emissions from fossil fuels
  • Modification of land surface due to deforestation, agricultural use, etc.
Human-Generated Greenhouse Gases
  • Have warming effect, i.e. Positive climate forcing
  • Largest climate forcing agent is co2 emitted from combustion of fossil fuels
Human-Generated Aerosols
  • Burning fossil fuels adds aerosols to atmosphere
  • Aerosols include water, ice, mineral dust, ash or acidic droplets
  • Aerosols have cooling effect
  • Aerosols deflect sun’s energy & affect formation & life of clouds

 

CLIMATE CHANGE: CLIMATE FORCING

  • Climate forcing is the physical process of affecting the climate on the Earth through a number of forcing factors.
  • Positive forcing: GHGs warm the earth
  • Negative forcing: Aerosols & volcanic eruptions cool the earth.

TYPES:

  • Natural forcing – does not harm climate or cause drastic global temperature variations.
  • Human-made forcing – GHGs, aerosols, etc.

CLIMATE CHANGE: RECEDING GLACIERS – A SYMPTOM OF GLOBAL CLIMATE CHANGE

  • Arctic Pole – Black line indicates the spread of ice-sheets in the 20th century. It is evident that the glaciers have been receding ever since and melted ice is the result of the rising ocean levels.
  • Scientists predict that by 2030, more glaciers will have melted resulting in potential threat to aquatic as well as terrestrial ecosystems.
  • Include impact on agriculture, reduced food security, health, pests and disease burden increase such as dengue, Malaria, atmospheric circulation (cyclones in Arabian sea), monsoon patterns, changing ecosystems (forest fires etc), impact on oceans, economic losses etc.
Climate change

  • Temperature fluctuations
  • Impact on water supply
  • Droughts/ Agricultural losses
  • Loss of biodiversity

 

MITIGATION STRATEGIES: CARBON SEQUESTRATION

Carbon sequestration is a process to capture and store CO2 to curb global warming. It is captured from the air, industries or power stations and stored permanently underground. This promotes:

  • Long-term reserve of CO2 or forms of carbon to control temperatures.
  • Lowering of the amount of GHGs present in air due to combustion of fossil fuels.

3 main steps to Carbon Capture and Storage (CCS)

Trapping & separating CO2 from other gasses à Transporting captured CO2 to storage location à Storing CO2 far from atmosphere, either in deep ocean or underground. 

Types of CO2 Sequestration 

Ocean sequestration Through direct injection or fertilization
Geological sequestration Natural pore spaces in geological foundation

Has largest potential

Terrestrial sequestration Stored in soils and vegetation through decomposed matter & photosynthesis respectively.

 

Geological sequestration trapping mechanism 

Hydrodynamic trapping Trapped as gas under low-permeability cap rock

Combines with solubility trapping

Solubility Trapping Dissolved in oil, water, etc.

Combines with hydrodynamic trapping

Mineral carbonation Forms stable compounds like iron, calcium by reacting with minerals/organic matter

   

Sinks

  • Carbon sequestration is carried out by pumping carbon into ‘carbon sinks’
  • This is an age-old process. Only recently, these sinks are also being used for capturing carbon for environmental reasons.
  • NATURAL SINKS: Oceans, forests, soil, mangroves etc.
  • ARTIFICIAL SINKS: Depleted oil reserves, unmineable mines etc.

MITIGATION STRATEGIES: Carbon sinks (Green and Blue) 

GREEN CARBON BLUE CARBON
Removed by photosynthesis Removed by tidal marshes, mangroves, seagrass
Stored in plants & soil Stored in marine organisms, plants & sediments
Forests accumulate large amounts of carbon Coastal ecosystems accumulate large amounts of carbon, 5 times more than forests
Afforestation and reforestation can enhance it Found in all continents except Antarctica

   

Mitigation Strategies: The Blue Carbon Initiative

  • Conservation International (CI), International Union for Conservation of Nature (IUCN) and the Intergovernmental Oceanic Commission (IOC) of UNESCO has collaborated with governments and organizations across the world to develop mechanisms for ensuring coastal Blue Carbon ecosystems.
  • It also comprises:
  • Engagement of local, national and international organizations
  • Comprehensive methods for carbon accounting
  • Incentive mechanism
  • Scientific research for climate mitigation

MITIGATION STRATEGIES: CARBON CREDIT

A Carbon Credit is a tradable permit that certifies the right to emit 1 ton of CO2 or its equivalent. 

How does this help?

As per gas emissions norms laid down by signatories of the Kyoto Protocol under UNFCCC, companies have two ways to reduce emissions:

  • Reduce GHGs by adopting new technologies.
  • Connect with developing countries to set up eco-friendly technology to earn credits. This credit becomes a permit for a company to emit GHGs in its own country.’

Status of developing nations

  • India and China are the biggest sellers. Europe’s biggest buyer.
  • China is leading with 73% of market share, whereas India is second at 6%.
  • India’s Multi Commodity Exchange (MCX) has become the 1st exchange in Asia to trade carbon credits.

MITIGATION STRATEGIES: CARBON OFFSETTING

  • Credits for reductions in greenhouse gasses made at another location.
  • Sold in metric tonnes of carbon dioxide equivalent.
  • Fastest way to achieve deepest reductions in business dealings.
  • Provide employment opportunities, community development programmes, training, education.
  • Must meet essential quality criteria.
  • Cannot be double-counted.

MITIGATION STRATEGIES: GLOBAL CARBON EMISSIONS IN VARIOUS SECTORS 

SECTOR % OF EMISSIONS
Agriculture & land use 24
Power 25
Buildings 6
Industry 21
Transport 14
Other 10

 

MITIGATION STRATEGIES: 2.5 CARBON TAX

A carbon tax – levied on carbon content of fuels, generally in the transport and energy sector.

Carbon taxes intend to:

  • Reduce CO2 by increasing the price of fossil fuels.
  • Decreasing the demand of CO2
  • Promote a form of carbon pricing

MITIGATION STRATEGIES: GEO – ENGINEERING

Geo-engineering is a technology that strives to modify, improve and cool the earth’s environment. The concept is still in its nascent stage. 

Ideas under this technique and how it works 

Copy a volcano
  • By infusing atmosphere with sulfur-dioxide gas through volcanic eruption, scientist believe it will block solar radiation and cool the planet
  • Sulphur doesn’t heat stratosphere and has cooling effect
Shoot mirrors into space
  • To deflect sunlight and bring earth’s temperature back to pre-industrial levels
  • Mirrors (size of Greenland) to be positioned between the planet and the sun
Seed the sea with iron
  • Phytoplankton prefer iron
  • Iron pulls carbon out of atmosphere during photosynthesis
  • Scientists believe stimulating phytoplankton growth will reduce global warming potential
Whiten clouds with wind-powered ships
  • Cloud tops reflect solar radiation
  • Spraying sea-water into the sky through wind-powered ships will whiten clouds thus increasing reflection of solar radiation.
Build fake trees
  • ‘Artificial tree’ is capable of capturing 1 ton of carbon in atmosphere per day
  • Panels of absorbent resin on tree surface react with CO2 to form a solid
  • Can compare this to a furnace filter.

 

Also Read: Conservation Measures: Modes, Protected Areas, Action Plans, and Initiatives

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UDAAN PRELIMS WALLAH
Comprehensive coverage with a concise format
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Designed as per recent trends of Prelims questions
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