Kaziranga National Park is a net carbon emitter

Context

  • Kaziranga National Park in Assam, home to the largest-population of the one-horned rhinoceros in the world, is releasing more carbon than it is absorbing.

What is Carbon Sinks

  • A forests, or trees in a forest, take up carbon dioxide for the process of photosynthesis and release carbon dioxide when they breathe.

    Kaziranga National Park is a net carbon emitter
    Credit: iStock
  • If the amount of carbon dioxide taken up by a forest is more than the carbon dioxide released by it through respiration, it acts like a carbon sink.
  • Usually, forests absorb more carbon than they release, which makes them carbon sinks and they are globally promoted to counter the carbon dioxide emissions from different human activities.
  • The main process by which a forest absorbs carbon is the process of photosynthesis that trees use to produce food for themselves and for other organisms in the forest.

Why Kaziranga National Park releases more carbon than it absorbs

  • This is mainly due to decreasing rainfall in the region, which has already been observed in the last few decades.
  • The answer to why Kaziranga National Park releases more carbon than it absorbs lies in the unique soil of the deciduous forest.
  • The soil is home to a large population of bacteria that release carbon dioxide as they breathe, which adds to the carbon dioxide being emanated by other organisms, including trees.
  • The photosynthetic activity of trees during the monsoon decreases due to increased cloud cover. Hence, the ability of the forest to absorb carbon dioxide also decreases.
  • The situation remains the same during the post-monsoon and winter months, making the forest a net carbon emitter.
  • Another interesting observation made by the scientists regarding many places in North East India, was the existence of more number of heavier isotopes in the water being released by the trees, through a process known as transpiration.
  • This transpired water also causes rainfall locally. Isotopes of an element, in this case hydrogen and oxygen, have the same atomic number but with different atomic mass.
  • The scientists analysed the isotopes in the transpired water and observed a strong link between the water and carbon cycles of the forest.
  • They also witnessed a decreasing trend in the rainfall coming from the transpired water in the pre-monsoon months which are responsible for the highest carbon absorption.

Conclusion

  • This led them to conclude that global warming would further reduce the capacity of the forests in the region to absorb carbon.

Source: DTE


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