Plastics and their long-lasting chemicals are omnipresent, infiltrating oceans, farm fields, and landfills. They even float in the air and reach isolated caves, highlighting the pervasive nature of plastic pollution. This widespread pollution raises concerns about its impact on human and planetary health, prompting experts at the University of California to investigate and propose solutions from various disciplines.
Plastic exposure linked to various health issues
Despite extensive documentation of plastic’s environmental toll, research on its effects on human health remains sparse, according to UC San Francisco’s Tracey Woodruff. Woodruff and other researchers reviewed animal studies and expertise and found that plastic exposure may reduce fertility, increase cancer risks, and link to metabolic, respiratory, and digestive disorders. The focus was on microplastics, particles under 5 millimeters, which permeate air, water, food, and even human bodies.
Microplastics trigger inflammation, a typical immune response to foreign substances, and some plastic chemicals inhibit enzymes that protect cells from oxidative stress, both of which are linked to cancer. Moreover, chemicals like Bisphenol-A (BPA) and phthalates interfere with hormonal functions. BPA, resembling estrogen, disrupts hormonal processes, potentially causing conditions like endometriosis and infertility. Phthalates, used to make plastics flexible, may impair male reproductive development by disrupting testosterone production.
Given plastics’ persistence, with only 9% recycled and 12% incinerated, the remaining 80% accumulates in the environment. Projections indicate an additional 4 billion tons of plastic by 2050 unless significant changes occur.
Plant-based polymers offering alternatives to plastics
UC researchers propose measures like using recycled materials, eliminating single-use plastics, enhancing recycling and landfill capacities, and imposing fees on plastic packaging. These actions could significantly reduce mismanaged plastic waste.
Despite opposition from petroleum producers, who profit from plastic production, UC engineers are developing alternatives. UC San Diego researchers created plant-based polymers that biodegrade within months.
While individuals can reduce plastic exposure by changing personal habits, Woodruff emphasizes that broader systemic changes are crucial. Government bans on harmful chemicals have proven effective, underscoring the need for regulatory action to mitigate plastic pollution’s health risks.
This holistic approach, combining scientific innovation, policy changes, and public awareness, aims to tackle the global plastic problem comprehensively.