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7 Bioremediation of Plastics and Polythene in Marine Water
7.8
Future Perspectives: Development of More Refined
Bioremediation Technologies as a Step Toward Zero
Waste Strategy
The plastic has entered all domains of the ecosystem. There is a need the hour to
develop as many methods as possible to degrade the plastic polymer, so that the
environment runs free of this deadly pollutant. As it is known from studies that there
exists a small pint of enzymes that are available that can degrade synthetic plastic.
The significant drawback here lies in the initial attack on the high molecular weight
chain of the highly robust and stable polymer.
The current old school techniques of cultivation of organisms seem inefficient in
searching for a method that could degrade plastic at a much faster pace. On the other
hand, various modern techniques such as metagenomic analysis, gene-mining, and
dark matter proteins offer promising results and solve this growing problem. Various
biotechnological interventions in the field of molecular engineering have shortened
the path between genes and pathways. The accessibility to different online databases
makes it possible to correlate the pathway and functions of key proteins, and cellular
metabolism provides an insight to all naturally existing capabilities. In silico comput-
ing has immensely helped predict and understand the metabolic pathways and the
working mechanism that organisms follow during degradation. Genome mapping
and protein engineering seem to play a vital role in designing proteins and enzymes,
which may simplify the task of cleaving plastic debris.
There is an important need to standardize the existing findings/protocols on plas-
tic degradation. As commercial plastic, which results in plastic waste, it consists of
not only plastic alone but also certain additives, plasticizers, and colors, etc., which
make the actual process of biodegradation difficult and complicated. Keeping in
mind the biodegradation of existing plastic debris, one area should also be consid-
ered in the production of environment-friendly polymer (biopolymer), which could
be easily degraded naturally. The production of the existing biopolymer needs to be
paced up and should replace synthetic polymer for practical applications.
Various research groups are looking for a solution that may reverse the dogma
where biodegradation of long-chain polymers to their monomeric units can profi-
ciently be achieved. Through integrated approaches and interdisciplinary work done
in a well-organized and disciplined manner, it is very much likely to curb plastic
pollution on a few more decades to come.
Acknowledgment
The authors acknowledge the Indo-EU Horizon 2020 project (BT/IN/EU-WR/60/
SP/2018) funded by the Department of Biotechnology, New Delhi. Further, the
authors also acknowledge Indian Institute of Technology Guwahati, Assam, India,
for providing financial and infrastructural support for carrying out the present work.