Showing posts with label CO2. Show all posts
Showing posts with label CO2. Show all posts

Wednesday, April 19, 2023

How do green spaces lower temperature in cities?

Green space or the open natural environments in the cities are the lungs of the cities. It can be in the form of  public parks or private campuses and community/institutional parks/gardens. State and national parks or open country spaces on the periphery are not urban green spaces as their benefits for the city are limited.

The benefits of urban green spaces are unlimited. Man's bond with nature is ancient. Nature is a source of inspiration and relaxation for humanity. People living in stressed, congested city environments often long for the countryside natural environment. The individuals and communities near green spaces receive valuable positive benefits, which may be in the form of pure air, better physical or mental health, recreation and much more. However, these benefits are not only limited for humans but the city environment also benefits from these green spaces.

Role of green spaces in reducing the temperature of the cities is widely accepted. Concrete city structures get heated up quickly during day time and release heat during night. Due to this, the average temperature in cities can be 1-3 degrees celsius higher than in the surrounding rural regions. This results in the formation of  Urban Heat Islands, or UHIs. If we try to visualize the temperature profile of urban and surrounding rural regions graphically and spatially, it will show an island of higher temperature than surroundings. Thus it is named as urban heat islands. The concrete structures in the cities are mainly responsible for the heat island effect. The pollution from the automobile and industry releases carbon dioxide. CO2 is a known greenhouse gas which increases temperature of the cities.

Green spaces within urban areas can restrict the direct heating of the concrete pavements. The tree canopy reduces the incoming solar radiation through shading.  The process of evapotranspiration reduces heat by releasing water into the air. Some factors like type of  green space (park or nature reserve), type of plant species, and the density of vegetation also plays an important role. For instance, trees with broad canopy like banyan or peepal trees, provide shade in a larger area and are more effective in reducing heat. Thus, green spaces decrease the overall effect of UHIs. The larger the green spaces in the city, the smaller will be the heated areas. Clustered green spaces are more effective in reducing temperature. Green spaces are also helpful in reducing pollution by absorbing carbon dioxide and releasing oxygen. This green space works in many ways in reducing the temperature of the cities.

Wednesday, December 16, 2020

Blue carbon

 
Mangrove Forest, Andaman and Nicobar Islands, India.

 Blue carbon is the carbon stored in coastal and marine ecosystems such as mangroves, tidal marshes and coastal seagrass meadows. These systems store large amount of carbon not only in the above and below ground biomass of the plants i.e. tree trunks, stems and leaves and root systems but also in the carbon-rich organic soils. 

 

Watch this video by Conservation International, to understand What is Blue carbon ?

 

These ecosystems are valuable to coastal communities as they provide food, timber, source of livelihood and security from storms/cyclones etc. In the same way, they have many environmental benefits such as filtration of saline water, prevention of coastal erosion and biodiversity protection.


Mangroves are estimated to be worth at least US$1.6 billion each year in ecosystem services that support coastal livelihoods and human populations around the world*.

The Blue Carbon Initiative

 

Recently their role for mitigating climate change effects has also been recognized due to their ability to remove carbon dioxide (CO2) from the atmosphere. They can act as huge carbon sinks due to their capacity to store more carbon than the terrestrial forest.

Conversely, if they are degraded or damaged, not only their carbon sink capacity is lost but it releases the stored carbon causing carbon dioxide (CO2) release that can contribute to rise in greenhouse gases. 

 

Experts estimate that as much as 1.02 billion tons of carbon dioxide are being released annually from degraded coastal ecosystems, which is equivalent to 19% of emissions from tropical deforestation globally*.

The Blue Carbon Initiative

 

On site projects and policy to protect and restore “Blue Carbon” ecosystems are being developed country wise as well as globally. For more information visit the The Blue Carbon initiative Website.


References – 

IUCN. Issues brief - Blue carbon. International Union for Conservation of Nature website, https://www.iucn.org/resources/issues-briefs/blue-carbon. Accessed on 16/12/2020.

NOAA. What is Blue Carbon? National Ocean Service website, https://oceanservice.noaa.gov/facts/bluecarbon.html. 07/24/19

The Blue Carbon Initiative. Mitigating climate change through coastal ecosystem management. The Blue Carbon Initiative website. https://www.thebluecarboninitiative.org/. Accessed on 16/12/2020