This article examines the mechanics, environmental aspects, and effects of biopolymer degradation as sustainable substitutes for conventional plastics. To maximize their environmental performance, it is important to understand degradation processes and the biological, abiotic, and environmental factors such as temperature, moisture, microbial activity, oxygen, pH, and UV exposure. The review emphasizes both the possible hazards, such as microplastic production, toxicity, and ecological disruptions, and the positive environmental advantages, such as pollution reduction and microplastic mitigation. It also addresses contemporary issues such as legislative gaps, lack of standardized testing, delayed degradation in natural environments, and financial constraints. In order to promote sustainable, biodegradable materials that support global environmental and societal goals, future approaches will concentrate on cutting-edge monitoring technologies, circular economy principles, policy development, and public awareness. In conclusion, biopolymers have a lot to offer the environment, but in order to fully realize their potential in sustainable development, further study, technological progress, and international collaboration are needed.
Anteneh Tilahun Awoke (Fri,) studied this question.