Climate Change and the role played by Oceans

Climate Change and the role played by Oceans

Subject :Environment

Section: Climate change

Context:

• Oceans cool the planet by releasing short-lived halogens that contribute 8-10 per cent of cooling: Stud

Study findings:

• Ocean absorbs the carbon and moderates the climate.
• They also cool the planet by releasing short-lived halogens such as chlorine, bromine and iodine.
• Currently, these halogens contribute 8-10 per cent of cooling. This could increase to 18-31 per cent by 2100.
• Climate models that make future projections do not account for this.
• The cooling by chlorine, bromine and iodine since the preindustrial era has risen by −0.05 ± 0.03 watts per square metre, which represents a 61 per cent spike. This is driven by the anthropogenic amplification of natural halogen emissions.

Short-lived halogens:

• Naturally produced by the oceans.
• They have a lifespan of six months.
• Human activities have amplified their release into the atmosphere.
• Halogen emissions from the ocean are not the same across the world.
• Over continents, the emissions are small while it is bigger in polar regions and some places with higher ozone levels.
• How do they moderate the effects of global warming?
• Human activities cause pollutants such as ozone to deposit in the ocean, which then convert the soluble short-lived halogens into insoluble ones, forcing them out of the seawater and into the atmosphere.

Impact of short-lived halogens on the substances that causes global warming:

1. Ozone:
   • Halogens cause a depletion of ozone in the Ozone is a greenhouse gas that traps outgoing radiation, leading to warming.
   • The short-lived halogens from oceans reduce warming by depleting ozone. Its cooling effect was -0.24 ± 0.02 Watts per square metre (W m−2).
2. Methane:

• However, their effect on methane is the opposite. Short-lived halogens increase methane’s lifetime in the atmosphere by destroying hydroxyl radicals (OH). OH is a sink as it is known to break down this greenhouse gas.
• These short-lived halogens increased the global methane burden by 14 per cent and 9 per cent for pre-industrial and present-day conditions, This leads to a warming effect of 0.09 ± 0.01 W m−2 of warming.

3. Water Vapour:

• Similarly, these halogens increase the levels of water vapour, a greenhouse gas, in the atmosphere, causing a warming effect of 011 ± 0.001 W m−2.

4. Aerosols:

• These short-lived halogens reduce the formation of cooling aerosols, which are minute particles suspended in the atmosphere that reflect sunlight. It causes a small warming of 03 ± 0.01 W m−2.

The overall impact of these short-lived halogens:

• Though these halogens drive an increase in warming by influencing methane, water vapour and aerosols, they compensate this by destroying ozone, which exerts a cooling effect.

Overall, the net cooling effect was found to be −0.13 ± 0.03 W m−2.