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Papers
20 resultsShowing papers similar to Biodegradation of Wasted Bioplastics in Natural and Industrial Environments: A Review
ClearReview on the Biological Degradation of Polymers in Various Environments
This review provides an overview of how biodegradable plastics degrade under different environmental conditions including soil, freshwater, marine, and composting environments. It finds that biodegradability is a material property strongly dependent on environmental conditions, and that many so-called biodegradable plastics degrade far more slowly in nature than in controlled test conditions.
The degradation of single-use plastics and commercially viable bioplastics in the environment: A review
Researchers reviewed how conventional single-use plastics degrade over decades in natural environments versus how bioplastics biodegrade, finding that while alternatives like PBS and PHA show genuine biodegradation potential, most require specific industrial composting conditions that are rarely available in practice.
Recent Advances in Bioplastics: Application and Biodegradation
This review examines recent advances in bioplastics — including their applications in packaging, agriculture, and medicine — and critically evaluates their actual biodegradation performance in both natural and industrial environments, finding a significant gap between claims and real-world outcomes.
Biodegradation of Different Types of Bioplastics through Composting—A Recent Trend in Green Recycling
This review examines the biodegradation of various bioplastics through composting and other environments. Researchers found that while bioplastics offer a promising sustainable alternative to petroleum-based plastics, their degradation rates are highly dependent on environmental conditions, and concerns remain about their leakage into the environment and long degradation timeframes during waste management.
Biodegradability of Plastics: Challenges and Misconceptions
This review addresses widespread misconceptions about plastic biodegradability, explaining why most plastics persist in the environment for decades to centuries despite industry marketing claims. It clarifies the distinction between degradable, biodegradable, and compostable plastics and explains why real-world conditions rarely support plastic breakdown.
Biodegradable Plastics: Standards, Policies, and Impacts
This review evaluates the promise and limitations of biodegradable plastics as a solution to plastic pollution. Researchers found that while biodegradable plastics can help reduce environmental persistence, many only break down under specific industrial composting conditions and do not readily degrade in natural environments like oceans or landfills, highlighting the need for clearer standards and consumer education.
Biodegradable plastics in the air and soil environment: Low degradation rate and high microplastics formation
Researchers compared the degradation rates of various biodegradable plastic types in natural air and soil environments over time, finding that most degraded slowly under ambient conditions and generated substantial microplastic fragments, with non-certified biodegradable plastics showing essentially no degradation.
Degradation of Film and Rigid Bioplastics During the Thermophilic Phase and the Maturation Phase of Simulated Composting
Researchers tested how well commercially certified compostable bioplastics (starch-based, PBAT, and PLA) actually degrade under realistic industrial composting conditions, finding that PLA degradation was highly sensitive to both plastic thickness and the duration of the high-temperature composting phase. The results suggest that current industrial composting timelines may be insufficient to fully break down certified compostable plastics, raising questions about real-world end-of-life claims.
Comparison of the aerobic biodegradation of biopolymers and the corresponding bioplastics: A review
Researchers compared how quickly biodegradable bioplastics break down in soil versus their natural parent materials — like starch, cellulose, and lignin — finding that chemical modifications made during manufacturing significantly change which microbes and enzymes are needed for degradation. The review concludes that lab-based biodegradation studies often miss real-world complexity, and long-term field experiments are urgently needed to validate biodegradability claims for bioplastics.
Bioplastics and the environment: Solution or Green Illusion?
This review critically evaluates whether bioplastics are genuinely environmentally friendly alternatives to conventional plastics, finding that many bioplastics degrade incompletely under real-world conditions, form persistent microplastic fragments, and may pose ecological risks comparable to conventional plastics.
Bridging Three Gaps in Biodegradable Plastics: Misconceptions and Truths About Biodegradation
This review addresses common misconceptions about biodegradable plastics, clarifying that degradation depends heavily on specific environmental conditions and that most biodegradable plastics do not fully break down in typical marine or soil environments.
Degradation of Biodegradable Single-use Plates and Waste Bags in Terrestrial and Marine Environments
Field experiments found that biodegradable single-use plates and waste bags degraded at very different rates depending on material and environment, with some lasting far longer than expected. Products labeled as biodegradable may still persist and fragment into microplastics in natural marine and terrestrial conditions.
Rigid and film bioplastics degradation under suboptimal composting conditions: A kinetic study
This study examined how well bioplastics — including PLA and starch-based film bags — degrade in home composting conditions that may not reach optimal temperatures, finding that film bioplastics degraded completely within 60 days but rigid PLA items would require 2-3 years at suboptimal conditions. These results highlight the gap between biodegradable plastic claims and real-world composting performance.
A Review on Natural Biodegradation of Plastics
This review examines the natural biodegradation of plastics in soil and water environments by microorganisms and photochemical processes, discussing why conventional disposal methods are insufficient for addressing the growing global plastic waste problem. The paper distinguishes between plastics that are highly sensitive to microbial degradation and those that remain stable in natural environments, reviewing the mechanisms and limitations of biological breakdown.
Disintegration of commercial biodegradable plastic products under simulated industrial composting conditions
Researchers tested ten commercial biodegradable plastic products under simulated industrial composting conditions to see how well they actually break down. While some products disintegrated significantly, others showed incomplete breakdown, and the process generated microplastic fragments during degradation. This raises questions about whether biodegradable plastics truly solve the plastic pollution problem or simply create smaller plastic particles.
Biodegradation of Wasted Bioplastics
This paper provides a broad overview of bioplastics — materials made from renewable biological sources — discussing their potential as a partial solution to global plastic pollution and the complexity of their biodegradability. While microplastic accumulation in oceans is mentioned as context for the urgency of the problem, the paper's focus is on bioplastic production and biodegradation rather than microplastic health or environmental impacts.
Application of biodegradable plastic and their environmental impacts: A revie
This review examines the environmental impacts of conventional petroleum-based plastics and evaluates biodegradable alternatives made from plant-based and other organic materials. Researchers found that while bioplastics show promise for reducing long-term pollution, their degradation rates vary significantly depending on environmental conditions. The study emphasizes that switching to biodegradable plastics alone is not enough without proper waste management infrastructure.
Bioplastics in the Sea: Rapid In-Vitro Evaluation of Degradability and Persistence at Natural Temperatures
Researchers evaluated the marine degradability of multiple bioplastic materials at natural seawater temperatures, finding that most bioplastics persist in ocean environments rather than degrading quickly, challenging assumptions that bioplastics represent a straightforward solution to marine plastic pollution.
Biodegradable plastics in the marine environment: a potential source of risk?
This review examines whether biodegradable plastics offer a genuine solution to marine plastic pollution, finding that their environmental behavior depends heavily on specific conditions and that they may still pose risks in marine environments where decomposition is slow.
Biodegradation of typical plastics and its mechanisms
This review summarizes the mechanisms by which common plastic types are broken down by bacteria, fungi, and other microorganisms in the environment. Despite their chemical stability, many plastics can be degraded — though slowly — with the pace depending on environmental conditions and plastic type. The paper provides a foundation for developing faster biodegradation strategies to reduce plastic pollution.