Physical Address

23,24,25 & 26, 2nd Floor, Software Technology Park India, Opp: Garware Stadium,MIDC, Chikalthana, Aurangabad, Maharashtra – 431001 India

Do Termites Contribute Greenhouse Gas Emission?

Climate change is the long-term shifts in temperature, precipitation and other atmospheric conditions. The main contributor to climate change is greenhouse gas emissions. 

Greenhouse gasses such as carbon dioxide and methane trap heat in the earth’s atmosphere, leading to global warming and resulting in various impacts such as rising sea levels, extreme weather events and ecosystem disruptions.

As we all know, fossil fuel burning, deforestation, and agricultural practices such as livestock farming, industrial processes, and waste management are well-known GHG-emitting methods. But have you ever heard about how termites contribute to GHG emissions? 

Termites and Greenhouse Gas Emission

Termites are insects considered social animals and known for their ability to break down cellulose from wood and other plant materials, making them essential decomposers in ecosystems. They live in colonies organised into castes, including workers, soldiers, and reproductives. 

Termites construct elaborate nests, often underground or within wood structures, using a combination of saliva, soil and faeces. While they benefit natural ecosystems by recycling nutrients, termites can also be destructive pests, causing damage to buildings and wooden structures. 

The other main exception being a pest is their contribution to greenhouse gas emissions. Their ability to break down cellulose releases methane, a potent greenhouse gas, as a byproduct of their digestive process.

Greenhouse Gas Production in Termites

Cellulose is a complex carbohydrate found in plant cell walls. Not all the animals in the world can digest this cellulose. Ruminants such as cows, goats, and sheep can break down cellulose in the plant materials that they consume. As a result of this digestion, they release methane as a byproduct to the atmosphere.

Except for these ruminants, termites are unique animals with that ability. Termites break down cellulose through symbiotic digestion, which involves a partnership between the termites and microorganisms in the gut. 

Termites consume cellulose-rich plant material, such as wood or grass, which enters their digestive systems. In the termite’s hindgut, cellulose is fermented by a diverse community of microorganisms, including bacteria, protozoa and fungi. These microorganisms produce enzymes called cellulases, which can break down the complex cellulose molecules into simpler sugars, such as glucose.  The termites absorb these simple sugars and other nutrients, released during cellulose digestion through their gut wall, to provide energy to the termites’ metabolism and growth. As a byproduct of microbial fermentation, termites produce and release methane gas through their excretory system. Here to read more on the cellulose digestion process of termites.

How does this Methane Contribute to Climate Change?

Termites are small insects ranging from 3mm to 1 inch long, depending on the species. How much methane released from a tiny termite contributes to climate change is questionable. 

One termite produces, on average, about half a microgram of methane per day. This may seem insignificant, but there is a wide distribution of termites in the world, and they are present in 70% of the world’s countries. There are 2972 termite species classified currently. So, with such a large species count and population sizes, approximately 20 million tons of methane comes out of the rear end of these termites annually.

Methane is a potent greenhouse gas, with a much stronger warming effect per molecule than carbon dioxide over a shorter period. Methane is more than 28 times as powerful as carbon dioxide at trapping atmospheric heat. Here, learn more about methane as a greenhouse gas.

Globally, termites are estimated to be responsible for 1% to 3% of global Methane emissions. This is a considerable amount that many do not have an idea about. 

Why Are Termites Important to the Earth?

Termites are essential for several reasons.

  • Decomposition: They help break down dead plant material, such as fallen trees and branches, into nutrients that enrich the soil, facilitating nutrient cycling and promoting plant growth.
  • Soil Health: Their activity aerates the soil, enhancing its ability to retain water and support plant life.
  • Food Source: Termites serve as a food source for many animals, including birds, reptiles, and mammals, contributing to the overall biodiversity of ecosystems.
  • Microbial Symbiosis: Some termites have symbiotic relationships with microbes in their guts, allowing them to digest cellulose, a component of plant material that is otherwise indigestible to most organisms.

Overall, termites play a crucial role in maintaining the balance of ecosystems and supporting the health of various plant and animal species. Here for more on termites’ importance.

Damages from Termites

The disadvantages of termites primarily revolve around their potential to cause damage.

  • Structural Damage: Termites can infest wooden structures, including homes, buildings, and furniture, causing significant damage over time. This damage can compromise the structural integrity of buildings, leading to costly repairs.

  • Economic Losses: The repair and treatment costs associated with termite damage can be substantial, impacting homeowners, businesses, and industries that rely on wooden structures or products. Termites cause billions of dollars of damage each year only in the US.
  • Crop Damage: In agricultural settings, certain termite species can damage crops by feeding on plant roots and underground structures, affecting plant growth and yield.
  • Environmental Damage: Through cellulose digestion, they release methane, which is a very potent greenhouse gas, as mentioned above. This contributes to many negative environmental impacts of global warming and climate change.
  • Ecological Imbalance: Invasive termite species introduced to new areas can disrupt native ecosystems, outcompeting local species and altering nutrient cycling dynamics.

While termites serve critical ecological functions, their ability to cause damage to human-made structures and crops can pose significant challenges and economic losses.

Controlling Methane Emission from Termites

As termites are considered household pest types, humans use different methods to avoid and destroy them. But killing them is not a sustainable method. Termites also have their values on earth, and they also need to be protected. 

Also, the most common method of getting rid of termites is using chemicals. But these chemicals can be harmful in one way to human and other insects’ health and the environment. Incorrect application and dilution processes can pose harm to humans with health risks. Also, environmental balance and ecosystem water sources can be damaged by these chemicals. So, using sustainable methods in controlling termites is very important.

However, reducing termite methane emissions sustainably can involve several approaches.

  • Biological Control: Encourage natural predators of termites, like ants, to control their populations, thus reducing methane emissions from termite colonies.
  • Improved Building Materials: Use termite-resistant building materials to minimise the need for chemical treatments that may contribute to environmental issues.
  • Alternative Treatment Methods: Explore eco-friendly methods such as heat treatment or electrocution that don’t rely heavily on chemical pesticides.
  • Landscaping Strategies: Implement landscaping techniques that discourage termite activity, such as removing wood debris around buildings and using plants that termites are less attracted to.
  • Research and Development: Invest in research to develop novel approaches for termite control that are both effective and environmentally sustainable.

Combining these strategies makes it possible to reduce termite methane emissions while promoting sustainable pest management practices.

Conclusion

Termites release methane as a byproduct of the cellulose breaking down process in their guts. This cellulose breakdown process is sometimes helpful in several ways. But 

Termites`  methane emissions contribute to 1 to 3% of global Methane emissions annually. But to eliminate this issue, destroying termites is not the solution. The best way to balance the situation is to apply sustainable practices on termite control.

-With inputs from Mihiri Saparamadhu

CFC Sri Lanka
CFC Sri Lanka
Articles: 133